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19d261b7a8f1a5a207552937aca4247f66e20a20
| 3,885
|
adb
|
Ada
|
Ada95/src/terminal_interface-curses-text_io-float_io.adb
|
mvaisakh/android_external_libncurses
|
d44c8a16d7f1ed276d0de0b3f6f1a5596c5f556f
|
[
"DOC",
"Unlicense"
] | 35
|
2015-03-07T13:26:22.000Z
|
2021-11-06T16:18:59.000Z
|
Ada95/src/terminal_interface-curses-text_io-float_io.adb
|
mvaisakh/android_external_libncurses
|
d44c8a16d7f1ed276d0de0b3f6f1a5596c5f556f
|
[
"DOC",
"Unlicense"
] | 3
|
2017-04-07T21:02:48.000Z
|
2017-04-08T17:59:35.000Z
|
Ada95/src/terminal_interface-curses-text_io-float_io.adb
|
mvaisakh/android_external_libncurses
|
d44c8a16d7f1ed276d0de0b3f6f1a5596c5f556f
|
[
"DOC",
"Unlicense"
] | 19
|
2015-06-16T06:13:44.000Z
|
2021-07-24T02:37:45.000Z
|
------------------------------------------------------------------------------
-- --
-- GNAT ncurses Binding --
-- --
-- Terminal_Interface.Curses.Text_IO.Float_IO --
-- --
-- B O D Y --
-- --
------------------------------------------------------------------------------
-- Copyright (c) 1998 Free Software Foundation, Inc. --
-- --
-- Permission is hereby granted, free of charge, to any person obtaining a --
-- copy of this software and associated documentation files (the --
-- "Software"), to deal in the Software without restriction, including --
-- without limitation the rights to use, copy, modify, merge, publish, --
-- distribute, distribute with modifications, sublicense, and/or sell --
-- copies of the Software, and to permit persons to whom the Software is --
-- furnished to do so, subject to the following conditions: --
-- --
-- The above copyright notice and this permission notice shall be included --
-- in all copies or substantial portions of the Software. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS --
-- OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF --
-- MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. --
-- IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, --
-- DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR --
-- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR --
-- THE USE OR OTHER DEALINGS IN THE SOFTWARE. --
-- --
-- Except as contained in this notice, the name(s) of the above copyright --
-- holders shall not be used in advertising or otherwise to promote the --
-- sale, use or other dealings in this Software without prior written --
-- authorization. --
------------------------------------------------------------------------------
-- Author: Juergen Pfeifer, 1996
-- Version Control:
-- $Revision: 1.10 $
-- Binding Version 01.00
------------------------------------------------------------------------------
with Ada.Text_IO;
with Terminal_Interface.Curses.Text_IO.Aux;
package body Terminal_Interface.Curses.Text_IO.Float_IO is
package Aux renames Terminal_Interface.Curses.Text_IO.Aux;
package FIO is new Ada.Text_IO.Float_IO (Num);
procedure Put
(Win : in Window;
Item : in Num;
Fore : in Field := Default_Fore;
Aft : in Field := Default_Aft;
Exp : in Field := Default_Exp)
is
Buf : String (1 .. Field'Last);
Len : Field := Fore + 1 + Aft;
begin
if Exp > 0 then
Len := Len + 1 + Exp;
end if;
FIO.Put (Buf, Item, Aft, Exp);
Aux.Put_Buf (Win, Buf, Len, False);
end Put;
procedure Put
(Item : in Num;
Fore : in Field := Default_Fore;
Aft : in Field := Default_Aft;
Exp : in Field := Default_Exp)
is
begin
Put (Get_Window, Item, Fore, Aft, Exp);
end Put;
end Terminal_Interface.Curses.Text_IO.Float_IO;
| 50.454545
| 78
| 0.455341
|
03610e32ee86c2da6759b70958cfff13a359c6ce
| 5,570
|
adb
|
Ada
|
Validation/pyFrame3DD-master/gcc-master/gcc/ada/libgnat/s-sequio.adb
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
Validation/pyFrame3DD-master/gcc-master/gcc/ada/libgnat/s-sequio.adb
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
Validation/pyFrame3DD-master/gcc-master/gcc/ada/libgnat/s-sequio.adb
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT RUN-TIME COMPONENTS --
-- --
-- S Y S T E M . S E Q U E N T I A L _ I O --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2020, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception, --
-- version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with System.File_IO;
with Ada.Unchecked_Deallocation;
package body System.Sequential_IO is
subtype AP is FCB.AFCB_Ptr;
package FIO renames System.File_IO;
-------------------
-- AFCB_Allocate --
-------------------
function AFCB_Allocate
(Control_Block : Sequential_AFCB) return FCB.AFCB_Ptr
is
pragma Warnings (Off, Control_Block);
begin
return new Sequential_AFCB;
end AFCB_Allocate;
----------------
-- AFCB_Close --
----------------
-- No special processing required for Sequential_IO close
procedure AFCB_Close (File : not null access Sequential_AFCB) is
pragma Warnings (Off, File);
begin
null;
end AFCB_Close;
---------------
-- AFCB_Free --
---------------
procedure AFCB_Free (File : not null access Sequential_AFCB) is
type FCB_Ptr is access all Sequential_AFCB;
FT : FCB_Ptr := FCB_Ptr (File);
procedure Free is new
Ada.Unchecked_Deallocation (Sequential_AFCB, FCB_Ptr);
begin
Free (FT);
end AFCB_Free;
------------
-- Create --
------------
procedure Create
(File : in out File_Type;
Mode : FCB.File_Mode := FCB.Out_File;
Name : String := "";
Form : String := "")
is
Dummy_File_Control_Block : Sequential_AFCB;
pragma Warnings (Off, Dummy_File_Control_Block);
-- Yes, we know this is never assigned a value, only the tag
-- is used for dispatching purposes, so that's expected.
begin
FIO.Open (File_Ptr => AP (File),
Dummy_FCB => Dummy_File_Control_Block,
Mode => Mode,
Name => Name,
Form => Form,
Amethod => 'Q',
Creat => True,
Text => False);
end Create;
----------
-- Open --
----------
procedure Open
(File : in out File_Type;
Mode : FCB.File_Mode;
Name : String;
Form : String := "")
is
Dummy_File_Control_Block : Sequential_AFCB;
pragma Warnings (Off, Dummy_File_Control_Block);
-- Yes, we know this is never assigned a value, only the tag
-- is used for dispatching purposes, so that's expected.
begin
FIO.Open (File_Ptr => AP (File),
Dummy_FCB => Dummy_File_Control_Block,
Mode => Mode,
Name => Name,
Form => Form,
Amethod => 'Q',
Creat => False,
Text => False);
end Open;
----------
-- Read --
----------
-- Not used, since Sequential_IO files are not used as streams
procedure Read
(File : in out Sequential_AFCB;
Item : out Ada.Streams.Stream_Element_Array;
Last : out Ada.Streams.Stream_Element_Offset)
is
begin
raise Program_Error;
end Read;
-----------
-- Write --
-----------
-- Not used, since Sequential_IO files are not used as streams
procedure Write
(File : in out Sequential_AFCB;
Item : Ada.Streams.Stream_Element_Array)
is
begin
raise Program_Error;
end Write;
end System.Sequential_IO;
| 33.554217
| 78
| 0.471095
|
4b1aff6d03da08e4c0c5effbfc35ba49809f4232
| 1,762
|
adb
|
Ada
|
src/trendy_test-reports.adb
|
jquorning/trendy_test
|
a0e147369f723969740eb25995cf22ba74282127
|
[
"Apache-2.0"
] | 7
|
2021-08-01T05:43:59.000Z
|
2021-10-03T09:55:35.000Z
|
src/trendy_test-reports.adb
|
jquorning/trendy_test
|
a0e147369f723969740eb25995cf22ba74282127
|
[
"Apache-2.0"
] | 2
|
2021-08-07T13:37:45.000Z
|
2022-03-12T14:47:26.000Z
|
src/trendy_test-reports.adb
|
jquorning/trendy_test
|
a0e147369f723969740eb25995cf22ba74282127
|
[
"Apache-2.0"
] | 1
|
2022-03-11T18:21:18.000Z
|
2022-03-11T18:21:18.000Z
|
with Ada.Calendar;
with Ada.Strings.Unbounded;
with Ada.Strings.Unbounded.Text_IO;
with Ada.Text_IO;
with Ada.Command_Line;
package body Trendy_Test.Reports is
procedure Print_Basic_Report (Results : Test_Report_Vectors.Vector) is
use Ada.Text_IO;
use Ada.Strings.Unbounded.Text_IO;
use type Ada.Strings.Unbounded.Unbounded_String;
use all type Ada.Calendar.Time;
Passes : Natural := 0;
Fails : Natural := 0;
Total : Natural := 0;
Final_Results : Test_Report_Vectors.Vector := Results;
begin
Trendy_Test.Test_Report_Vectors_Sort.Sort (Final_Results);
for R of Final_Results loop
case R.Status is
when Passed =>
Passes := Passes + 1;
Put ("[ PASS ] " & R.Name);
when Failed =>
Fails := Fails + 1;
Put ("[ FAIL ] " & R.Name);
when Skipped =>
null;
Put ("[ SKIP ] " & R.Name);
end case;
Set_Col (80);
declare
DT : constant Duration := R.End_Time - R.Start_Time;
begin
Put_Line (DT'Image);
end;
if R.Status = Failed then
Put_Line (" " & R.Failure);
end if;
end loop;
Total := Fails + Passes;
Put_Line ("Results: Passed: " & Passes'Image & " / " & Total'Image);
New_Line;
if Fails > 0 then
Ada.Command_Line.Set_Exit_Status (Ada.Command_Line.Failure);
end if;
end Print_Basic_Report;
end Trendy_Test.Reports;
| 32.036364
| 76
| 0.501135
|
5e018af6d03707426df7b8afe35ac94669145354
| 5,146
|
ads
|
Ada
|
src/opencl/cl_objects.ads
|
sebsgit/textproc
|
2f12d6a030425e937ee0c6a67dcff6828fc1331f
|
[
"MIT"
] | null | null | null |
src/opencl/cl_objects.ads
|
sebsgit/textproc
|
2f12d6a030425e937ee0c6a67dcff6828fc1331f
|
[
"MIT"
] | null | null | null |
src/opencl/cl_objects.ads
|
sebsgit/textproc
|
2f12d6a030425e937ee0c6a67dcff6828fc1331f
|
[
"MIT"
] | null | null | null |
with Ada.Finalization;
with System;
with opencl; use opencl;
package cl_objects is
pragma Elaborate_Body;
pragma Assertion_Policy (Pre => Check,
Post => Check,
Type_Invariant => Check);
type Context is tagged limited private;
type Program is tagged limited private;
type Kernel is tagged limited private;
type Event is tagged limited private;
type Command_Queue is tagged limited private;
type Buffer is tagged limited private;
type Context_Access is access all Context;
type Command_Queue_Access is access all Command_Queue;
type Program_Access is access all Program;
type Kernel_Access is access all Kernel;
type Buffer_Access is access all Buffer;
procedure Free(ob: in out Context_Access);
procedure Free(ob: in out Command_Queue_Access);
procedure Free(ob: in out Program_Access);
procedure Free(ob: in out Kernel_Access);
procedure Free(ob: in out Buffer_Access);
function Create(context_platform: in Platform_ID; context_device: in Device_ID; result_status: out Status) return Context
with Pre => context_platform /= 0 and context_device /= 0;
function Create_Gpu(result_status: out Status) return Context;
function Create_Program(ctx: in out Context'Class; source: in String; result_status: out Status) return Program
with Pre => source'Length > 0;
function Create_Command_Queue(ctx: in out Context'Class; dev: in Device_ID; result_status: out Status) return Command_Queue
with Pre => dev /= 0;
function Create_Command_Queue(ctx: in out Context'Class; result_status: out Status) return Command_Queue;
function Get_ID(ctx: in out Context'Class) return Context_ID;
function Create_Buffer(ctx: in out Context'Class; flags: in Mem_Flags; size: Positive; host_ptr: System.Address; result_status: out Status) return Buffer;
function Enqueue_Write(queue: in out Command_Queue'Class; mem_ob: in out Buffer'Class; offset: Natural; size: Positive; ptr: System.Address; events_to_wait_for: in Events; code: out Status) return Event;
function Enqueue_Read(queue: in out Command_Queue'Class; mem_ob: in out Buffer'Class; offset: Natural; size: Positive; ptr: System.Address; events_to_wait_for: in Events; code: out Status) return Event;
function Enqueue_Read(queue: in out Command_Queue'Class; mem_ob: in out Buffer'Class; offset: Natural; size: Positive; ptr: System.Address; code: out Status) return Event;
function Enqueue_Kernel(queue: in out Command_Queue'Class; kern: in out Kernel'Class; glob_ws: Dimensions; loc_ws: Dimensions; events_to_wait_for: in Events; code: out Status) return Event;
function Enqueue_Kernel(queue: in out Command_Queue'Class; kern: in out Kernel'Class; glob_ws: Dimensions; loc_ws: Dimensions; code: out Status) return Event;
function Build(prog: in out Program'Class; device: in Device_ID; options: in String) return Status
with Pre => device /= 0;
function Build(ctx: in out Context'Class; prog: in out Program'Class; options: in String) return Status;
function Get_Build_Log(prog: in out Program'Class; device: in Device_ID) return String;
function Get_Build_Log(ctx: in out Context'Class; prog: in out Program'Class) return String;
function Create_Kernel(prog: in out Program'Class; name: in String; result_status: out Status) return Kernel
with Pre => name'Length > 0;
function Set_Arg(kern: in out Kernel; index: Natural; size: Positive; address: System.Address) return Status;
function Get_Address(buff: in out Buffer'Class) return System.Address;
function Get_ID(buff: in Buffer) return opencl.Mem_ID;
procedure Set_ID(buff: in out Buffer; id: in opencl.Mem_ID);
function Wait(ev: in out Event) return Status;
function Get_Handle(ev: in Event) return opencl.Event_ID;
function Finish(queue: in out Command_Queue) return Status;
function Create_Empty return Event;
function Create_Event(id: in opencl.Event_ID) return Event;
private
type Context is limited new Ada.Finalization.Limited_Controlled with record
handle: opencl.Context_ID;
device: Device_ID;
end record;
overriding procedure Finalize(This: in out Context);
type Program is limited new Ada.Finalization.Limited_Controlled with record
handle: opencl.Program_ID;
end record;
overriding procedure Finalize(This: in out Program);
type Kernel is limited new Ada.Finalization.Limited_Controlled with record
handle: opencl.Kernel_ID;
end record;
overriding procedure Finalize(This: in out Kernel);
type Event is limited new Ada.Finalization.Limited_Controlled with record
handle: opencl.Event_ID;
end record;
overriding procedure Finalize(This: in out Event);
type Command_Queue is limited new Ada.Finalization.Limited_Controlled with record
handle: opencl.Command_Queue;
end record;
overriding procedure Finalize(This: in out Command_Queue);
type Buffer is limited new Ada.Finalization.Limited_Controlled with record
handle: aliased opencl.Mem_ID;
end record;
overriding procedure Finalize(This: in out Buffer);
end cl_objects;
| 50.950495
| 206
| 0.754567
|
8b1240f1c66fe87893015a32e8e6498d6dcd12ed
| 37,387
|
ads
|
Ada
|
arch/ARM/STM32/svd/stm32l4x6/stm32_svd-tsc.ads
|
morbos/Ada_Drivers_Library
|
a4ab26799be60997c38735f4056160c4af597ef7
|
[
"BSD-3-Clause"
] | 2
|
2018-05-16T03:56:39.000Z
|
2019-07-31T13:53:56.000Z
|
arch/ARM/STM32/svd/stm32l4x6/stm32_svd-tsc.ads
|
morbos/Ada_Drivers_Library
|
a4ab26799be60997c38735f4056160c4af597ef7
|
[
"BSD-3-Clause"
] | null | null | null |
arch/ARM/STM32/svd/stm32l4x6/stm32_svd-tsc.ads
|
morbos/Ada_Drivers_Library
|
a4ab26799be60997c38735f4056160c4af597ef7
|
[
"BSD-3-Clause"
] | null | null | null |
-- This spec has been automatically generated from STM32L4x6.svd
pragma Restrictions (No_Elaboration_Code);
pragma Ada_2012;
pragma Style_Checks (Off);
with HAL;
with System;
package STM32_SVD.TSC is
pragma Preelaborate;
---------------
-- Registers --
---------------
subtype CR_MCV_Field is HAL.UInt3;
subtype CR_PGPSC_Field is HAL.UInt3;
subtype CR_SSD_Field is HAL.UInt7;
subtype CR_CTPL_Field is HAL.UInt4;
subtype CR_CTPH_Field is HAL.UInt4;
-- control register
type CR_Register is record
-- Touch sensing controller enable
TSCE : Boolean := False;
-- Start a new acquisition
START : Boolean := False;
-- Acquisition mode
AM : Boolean := False;
-- Synchronization pin polarity
SYNCPOL : Boolean := False;
-- I/O Default mode
IODEF : Boolean := False;
-- Max count value
MCV : CR_MCV_Field := 16#0#;
-- unspecified
Reserved_8_11 : HAL.UInt4 := 16#0#;
-- pulse generator prescaler
PGPSC : CR_PGPSC_Field := 16#0#;
-- Spread spectrum prescaler
SSPSC : Boolean := False;
-- Spread spectrum enable
SSE : Boolean := False;
-- Spread spectrum deviation
SSD : CR_SSD_Field := 16#0#;
-- Charge transfer pulse low
CTPL : CR_CTPL_Field := 16#0#;
-- Charge transfer pulse high
CTPH : CR_CTPH_Field := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for CR_Register use record
TSCE at 0 range 0 .. 0;
START at 0 range 1 .. 1;
AM at 0 range 2 .. 2;
SYNCPOL at 0 range 3 .. 3;
IODEF at 0 range 4 .. 4;
MCV at 0 range 5 .. 7;
Reserved_8_11 at 0 range 8 .. 11;
PGPSC at 0 range 12 .. 14;
SSPSC at 0 range 15 .. 15;
SSE at 0 range 16 .. 16;
SSD at 0 range 17 .. 23;
CTPL at 0 range 24 .. 27;
CTPH at 0 range 28 .. 31;
end record;
-- interrupt enable register
type IER_Register is record
-- End of acquisition interrupt enable
EOAIE : Boolean := False;
-- Max count error interrupt enable
MCEIE : Boolean := False;
-- unspecified
Reserved_2_31 : HAL.UInt30 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IER_Register use record
EOAIE at 0 range 0 .. 0;
MCEIE at 0 range 1 .. 1;
Reserved_2_31 at 0 range 2 .. 31;
end record;
-- interrupt clear register
type ICR_Register is record
-- End of acquisition interrupt clear
EOAIC : Boolean := False;
-- Max count error interrupt clear
MCEIC : Boolean := False;
-- unspecified
Reserved_2_31 : HAL.UInt30 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for ICR_Register use record
EOAIC at 0 range 0 .. 0;
MCEIC at 0 range 1 .. 1;
Reserved_2_31 at 0 range 2 .. 31;
end record;
-- interrupt status register
type ISR_Register is record
-- End of acquisition flag
EOAF : Boolean := False;
-- Max count error flag
MCEF : Boolean := False;
-- unspecified
Reserved_2_31 : HAL.UInt30 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for ISR_Register use record
EOAF at 0 range 0 .. 0;
MCEF at 0 range 1 .. 1;
Reserved_2_31 at 0 range 2 .. 31;
end record;
-- IOHCR_G1_IO array
type IOHCR_G1_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOHCR_G1_IO
type IOHCR_G1_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G1_IO as a value
Val : HAL.UInt4;
when True =>
-- G1_IO as an array
Arr : IOHCR_G1_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOHCR_G1_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOHCR_G2_IO array
type IOHCR_G2_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOHCR_G2_IO
type IOHCR_G2_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G2_IO as a value
Val : HAL.UInt4;
when True =>
-- G2_IO as an array
Arr : IOHCR_G2_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOHCR_G2_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOHCR_G3_IO array
type IOHCR_G3_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOHCR_G3_IO
type IOHCR_G3_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G3_IO as a value
Val : HAL.UInt4;
when True =>
-- G3_IO as an array
Arr : IOHCR_G3_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOHCR_G3_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOHCR_G4_IO array
type IOHCR_G4_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOHCR_G4_IO
type IOHCR_G4_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G4_IO as a value
Val : HAL.UInt4;
when True =>
-- G4_IO as an array
Arr : IOHCR_G4_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOHCR_G4_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOHCR_G5_IO array
type IOHCR_G5_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOHCR_G5_IO
type IOHCR_G5_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G5_IO as a value
Val : HAL.UInt4;
when True =>
-- G5_IO as an array
Arr : IOHCR_G5_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOHCR_G5_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOHCR_G6_IO array
type IOHCR_G6_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOHCR_G6_IO
type IOHCR_G6_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G6_IO as a value
Val : HAL.UInt4;
when True =>
-- G6_IO as an array
Arr : IOHCR_G6_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOHCR_G6_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOHCR_G7_IO array
type IOHCR_G7_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOHCR_G7_IO
type IOHCR_G7_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G7_IO as a value
Val : HAL.UInt4;
when True =>
-- G7_IO as an array
Arr : IOHCR_G7_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOHCR_G7_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOHCR_G8_IO array
type IOHCR_G8_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOHCR_G8_IO
type IOHCR_G8_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G8_IO as a value
Val : HAL.UInt4;
when True =>
-- G8_IO as an array
Arr : IOHCR_G8_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOHCR_G8_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- I/O hysteresis control register
type IOHCR_Register is record
-- G1_IO1
G1_IO : IOHCR_G1_IO_Field := (As_Array => False, Val => 16#1#);
-- G2_IO1
G2_IO : IOHCR_G2_IO_Field := (As_Array => False, Val => 16#1#);
-- G3_IO1
G3_IO : IOHCR_G3_IO_Field := (As_Array => False, Val => 16#1#);
-- G4_IO1
G4_IO : IOHCR_G4_IO_Field := (As_Array => False, Val => 16#1#);
-- G5_IO1
G5_IO : IOHCR_G5_IO_Field := (As_Array => False, Val => 16#1#);
-- G6_IO1
G6_IO : IOHCR_G6_IO_Field := (As_Array => False, Val => 16#1#);
-- G7_IO1
G7_IO : IOHCR_G7_IO_Field := (As_Array => False, Val => 16#1#);
-- G8_IO1
G8_IO : IOHCR_G8_IO_Field := (As_Array => False, Val => 16#1#);
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOHCR_Register use record
G1_IO at 0 range 0 .. 3;
G2_IO at 0 range 4 .. 7;
G3_IO at 0 range 8 .. 11;
G4_IO at 0 range 12 .. 15;
G5_IO at 0 range 16 .. 19;
G6_IO at 0 range 20 .. 23;
G7_IO at 0 range 24 .. 27;
G8_IO at 0 range 28 .. 31;
end record;
-- IOASCR_G1_IO array
type IOASCR_G1_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOASCR_G1_IO
type IOASCR_G1_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G1_IO as a value
Val : HAL.UInt4;
when True =>
-- G1_IO as an array
Arr : IOASCR_G1_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOASCR_G1_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOASCR_G2_IO array
type IOASCR_G2_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOASCR_G2_IO
type IOASCR_G2_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G2_IO as a value
Val : HAL.UInt4;
when True =>
-- G2_IO as an array
Arr : IOASCR_G2_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOASCR_G2_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOASCR_G3_IO array
type IOASCR_G3_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOASCR_G3_IO
type IOASCR_G3_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G3_IO as a value
Val : HAL.UInt4;
when True =>
-- G3_IO as an array
Arr : IOASCR_G3_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOASCR_G3_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOASCR_G4_IO array
type IOASCR_G4_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOASCR_G4_IO
type IOASCR_G4_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G4_IO as a value
Val : HAL.UInt4;
when True =>
-- G4_IO as an array
Arr : IOASCR_G4_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOASCR_G4_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOASCR_G5_IO array
type IOASCR_G5_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOASCR_G5_IO
type IOASCR_G5_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G5_IO as a value
Val : HAL.UInt4;
when True =>
-- G5_IO as an array
Arr : IOASCR_G5_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOASCR_G5_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOASCR_G6_IO array
type IOASCR_G6_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOASCR_G6_IO
type IOASCR_G6_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G6_IO as a value
Val : HAL.UInt4;
when True =>
-- G6_IO as an array
Arr : IOASCR_G6_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOASCR_G6_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOASCR_G7_IO array
type IOASCR_G7_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOASCR_G7_IO
type IOASCR_G7_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G7_IO as a value
Val : HAL.UInt4;
when True =>
-- G7_IO as an array
Arr : IOASCR_G7_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOASCR_G7_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOASCR_G8_IO array
type IOASCR_G8_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOASCR_G8_IO
type IOASCR_G8_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G8_IO as a value
Val : HAL.UInt4;
when True =>
-- G8_IO as an array
Arr : IOASCR_G8_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOASCR_G8_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- I/O analog switch control register
type IOASCR_Register is record
-- G1_IO1
G1_IO : IOASCR_G1_IO_Field := (As_Array => False, Val => 16#0#);
-- G2_IO1
G2_IO : IOASCR_G2_IO_Field := (As_Array => False, Val => 16#0#);
-- G3_IO1
G3_IO : IOASCR_G3_IO_Field := (As_Array => False, Val => 16#0#);
-- G4_IO1
G4_IO : IOASCR_G4_IO_Field := (As_Array => False, Val => 16#0#);
-- G5_IO1
G5_IO : IOASCR_G5_IO_Field := (As_Array => False, Val => 16#0#);
-- G6_IO1
G6_IO : IOASCR_G6_IO_Field := (As_Array => False, Val => 16#0#);
-- G7_IO1
G7_IO : IOASCR_G7_IO_Field := (As_Array => False, Val => 16#0#);
-- G8_IO1
G8_IO : IOASCR_G8_IO_Field := (As_Array => False, Val => 16#0#);
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOASCR_Register use record
G1_IO at 0 range 0 .. 3;
G2_IO at 0 range 4 .. 7;
G3_IO at 0 range 8 .. 11;
G4_IO at 0 range 12 .. 15;
G5_IO at 0 range 16 .. 19;
G6_IO at 0 range 20 .. 23;
G7_IO at 0 range 24 .. 27;
G8_IO at 0 range 28 .. 31;
end record;
-- IOSCR_G1_IO array
type IOSCR_G1_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOSCR_G1_IO
type IOSCR_G1_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G1_IO as a value
Val : HAL.UInt4;
when True =>
-- G1_IO as an array
Arr : IOSCR_G1_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOSCR_G1_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOSCR_G2_IO array
type IOSCR_G2_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOSCR_G2_IO
type IOSCR_G2_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G2_IO as a value
Val : HAL.UInt4;
when True =>
-- G2_IO as an array
Arr : IOSCR_G2_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOSCR_G2_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOSCR_G3_IO array
type IOSCR_G3_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOSCR_G3_IO
type IOSCR_G3_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G3_IO as a value
Val : HAL.UInt4;
when True =>
-- G3_IO as an array
Arr : IOSCR_G3_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOSCR_G3_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOSCR_G4_IO array
type IOSCR_G4_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOSCR_G4_IO
type IOSCR_G4_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G4_IO as a value
Val : HAL.UInt4;
when True =>
-- G4_IO as an array
Arr : IOSCR_G4_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOSCR_G4_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOSCR_G5_IO array
type IOSCR_G5_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOSCR_G5_IO
type IOSCR_G5_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G5_IO as a value
Val : HAL.UInt4;
when True =>
-- G5_IO as an array
Arr : IOSCR_G5_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOSCR_G5_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOSCR_G6_IO array
type IOSCR_G6_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOSCR_G6_IO
type IOSCR_G6_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G6_IO as a value
Val : HAL.UInt4;
when True =>
-- G6_IO as an array
Arr : IOSCR_G6_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOSCR_G6_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOSCR_G7_IO array
type IOSCR_G7_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOSCR_G7_IO
type IOSCR_G7_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G7_IO as a value
Val : HAL.UInt4;
when True =>
-- G7_IO as an array
Arr : IOSCR_G7_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOSCR_G7_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOSCR_G8_IO array
type IOSCR_G8_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOSCR_G8_IO
type IOSCR_G8_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G8_IO as a value
Val : HAL.UInt4;
when True =>
-- G8_IO as an array
Arr : IOSCR_G8_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOSCR_G8_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- I/O sampling control register
type IOSCR_Register is record
-- G1_IO1
G1_IO : IOSCR_G1_IO_Field := (As_Array => False, Val => 16#0#);
-- G2_IO1
G2_IO : IOSCR_G2_IO_Field := (As_Array => False, Val => 16#0#);
-- G3_IO1
G3_IO : IOSCR_G3_IO_Field := (As_Array => False, Val => 16#0#);
-- G4_IO1
G4_IO : IOSCR_G4_IO_Field := (As_Array => False, Val => 16#0#);
-- G5_IO1
G5_IO : IOSCR_G5_IO_Field := (As_Array => False, Val => 16#0#);
-- G6_IO1
G6_IO : IOSCR_G6_IO_Field := (As_Array => False, Val => 16#0#);
-- G7_IO1
G7_IO : IOSCR_G7_IO_Field := (As_Array => False, Val => 16#0#);
-- G8_IO1
G8_IO : IOSCR_G8_IO_Field := (As_Array => False, Val => 16#0#);
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOSCR_Register use record
G1_IO at 0 range 0 .. 3;
G2_IO at 0 range 4 .. 7;
G3_IO at 0 range 8 .. 11;
G4_IO at 0 range 12 .. 15;
G5_IO at 0 range 16 .. 19;
G6_IO at 0 range 20 .. 23;
G7_IO at 0 range 24 .. 27;
G8_IO at 0 range 28 .. 31;
end record;
-- IOCCR_G1_IO array
type IOCCR_G1_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOCCR_G1_IO
type IOCCR_G1_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G1_IO as a value
Val : HAL.UInt4;
when True =>
-- G1_IO as an array
Arr : IOCCR_G1_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOCCR_G1_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOCCR_G2_IO array
type IOCCR_G2_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOCCR_G2_IO
type IOCCR_G2_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G2_IO as a value
Val : HAL.UInt4;
when True =>
-- G2_IO as an array
Arr : IOCCR_G2_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOCCR_G2_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOCCR_G3_IO array
type IOCCR_G3_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOCCR_G3_IO
type IOCCR_G3_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G3_IO as a value
Val : HAL.UInt4;
when True =>
-- G3_IO as an array
Arr : IOCCR_G3_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOCCR_G3_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOCCR_G4_IO array
type IOCCR_G4_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOCCR_G4_IO
type IOCCR_G4_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G4_IO as a value
Val : HAL.UInt4;
when True =>
-- G4_IO as an array
Arr : IOCCR_G4_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOCCR_G4_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOCCR_G5_IO array
type IOCCR_G5_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOCCR_G5_IO
type IOCCR_G5_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G5_IO as a value
Val : HAL.UInt4;
when True =>
-- G5_IO as an array
Arr : IOCCR_G5_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOCCR_G5_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOCCR_G6_IO array
type IOCCR_G6_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOCCR_G6_IO
type IOCCR_G6_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G6_IO as a value
Val : HAL.UInt4;
when True =>
-- G6_IO as an array
Arr : IOCCR_G6_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOCCR_G6_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOCCR_G7_IO array
type IOCCR_G7_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOCCR_G7_IO
type IOCCR_G7_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G7_IO as a value
Val : HAL.UInt4;
when True =>
-- G7_IO as an array
Arr : IOCCR_G7_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOCCR_G7_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- IOCCR_G8_IO array
type IOCCR_G8_IO_Field_Array is array (1 .. 4) of Boolean
with Component_Size => 1, Size => 4;
-- Type definition for IOCCR_G8_IO
type IOCCR_G8_IO_Field
(As_Array : Boolean := False)
is record
case As_Array is
when False =>
-- G8_IO as a value
Val : HAL.UInt4;
when True =>
-- G8_IO as an array
Arr : IOCCR_G8_IO_Field_Array;
end case;
end record
with Unchecked_Union, Size => 4;
for IOCCR_G8_IO_Field use record
Val at 0 range 0 .. 3;
Arr at 0 range 0 .. 3;
end record;
-- I/O channel control register
type IOCCR_Register is record
-- G1_IO1
G1_IO : IOCCR_G1_IO_Field := (As_Array => False, Val => 16#0#);
-- G2_IO1
G2_IO : IOCCR_G2_IO_Field := (As_Array => False, Val => 16#0#);
-- G3_IO1
G3_IO : IOCCR_G3_IO_Field := (As_Array => False, Val => 16#0#);
-- G4_IO1
G4_IO : IOCCR_G4_IO_Field := (As_Array => False, Val => 16#0#);
-- G5_IO1
G5_IO : IOCCR_G5_IO_Field := (As_Array => False, Val => 16#0#);
-- G6_IO1
G6_IO : IOCCR_G6_IO_Field := (As_Array => False, Val => 16#0#);
-- G7_IO1
G7_IO : IOCCR_G7_IO_Field := (As_Array => False, Val => 16#0#);
-- G8_IO1
G8_IO : IOCCR_G8_IO_Field := (As_Array => False, Val => 16#0#);
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOCCR_Register use record
G1_IO at 0 range 0 .. 3;
G2_IO at 0 range 4 .. 7;
G3_IO at 0 range 8 .. 11;
G4_IO at 0 range 12 .. 15;
G5_IO at 0 range 16 .. 19;
G6_IO at 0 range 20 .. 23;
G7_IO at 0 range 24 .. 27;
G8_IO at 0 range 28 .. 31;
end record;
-- I/O group control status register
type IOGCSR_Register is record
-- Analog I/O group x enable
G1E : Boolean := False;
-- Analog I/O group x enable
G2E : Boolean := False;
-- Analog I/O group x enable
G3E : Boolean := False;
-- Analog I/O group x enable
G4E : Boolean := False;
-- Analog I/O group x enable
G5E : Boolean := False;
-- Analog I/O group x enable
G6E : Boolean := False;
-- Analog I/O group x enable
G7E : Boolean := False;
-- Analog I/O group x enable
G8E : Boolean := False;
-- unspecified
Reserved_8_15 : HAL.UInt8 := 16#0#;
-- Read-only. Analog I/O group x status
G1S : Boolean := False;
-- Read-only. Analog I/O group x status
G2S : Boolean := False;
-- Read-only. Analog I/O group x status
G3S : Boolean := False;
-- Read-only. Analog I/O group x status
G4S : Boolean := False;
-- Read-only. Analog I/O group x status
G5S : Boolean := False;
-- Read-only. Analog I/O group x status
G6S : Boolean := False;
-- Read-only. Analog I/O group x status
G7S : Boolean := False;
-- Read-only. Analog I/O group x status
G8S : Boolean := False;
-- unspecified
Reserved_24_31 : HAL.UInt8 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOGCSR_Register use record
G1E at 0 range 0 .. 0;
G2E at 0 range 1 .. 1;
G3E at 0 range 2 .. 2;
G4E at 0 range 3 .. 3;
G5E at 0 range 4 .. 4;
G6E at 0 range 5 .. 5;
G7E at 0 range 6 .. 6;
G8E at 0 range 7 .. 7;
Reserved_8_15 at 0 range 8 .. 15;
G1S at 0 range 16 .. 16;
G2S at 0 range 17 .. 17;
G3S at 0 range 18 .. 18;
G4S at 0 range 19 .. 19;
G5S at 0 range 20 .. 20;
G6S at 0 range 21 .. 21;
G7S at 0 range 22 .. 22;
G8S at 0 range 23 .. 23;
Reserved_24_31 at 0 range 24 .. 31;
end record;
subtype IOG1CR_CNT_Field is HAL.UInt14;
-- I/O group x counter register
type IOG1CR_Register is record
-- Read-only. Counter value
CNT : IOG1CR_CNT_Field;
-- unspecified
Reserved_14_31 : HAL.UInt18;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOG1CR_Register use record
CNT at 0 range 0 .. 13;
Reserved_14_31 at 0 range 14 .. 31;
end record;
subtype IOG2CR_CNT_Field is HAL.UInt14;
-- I/O group x counter register
type IOG2CR_Register is record
-- Read-only. Counter value
CNT : IOG2CR_CNT_Field;
-- unspecified
Reserved_14_31 : HAL.UInt18;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOG2CR_Register use record
CNT at 0 range 0 .. 13;
Reserved_14_31 at 0 range 14 .. 31;
end record;
subtype IOG3CR_CNT_Field is HAL.UInt14;
-- I/O group x counter register
type IOG3CR_Register is record
-- Read-only. Counter value
CNT : IOG3CR_CNT_Field;
-- unspecified
Reserved_14_31 : HAL.UInt18;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOG3CR_Register use record
CNT at 0 range 0 .. 13;
Reserved_14_31 at 0 range 14 .. 31;
end record;
subtype IOG4CR_CNT_Field is HAL.UInt14;
-- I/O group x counter register
type IOG4CR_Register is record
-- Read-only. Counter value
CNT : IOG4CR_CNT_Field;
-- unspecified
Reserved_14_31 : HAL.UInt18;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOG4CR_Register use record
CNT at 0 range 0 .. 13;
Reserved_14_31 at 0 range 14 .. 31;
end record;
subtype IOG5CR_CNT_Field is HAL.UInt14;
-- I/O group x counter register
type IOG5CR_Register is record
-- Read-only. Counter value
CNT : IOG5CR_CNT_Field;
-- unspecified
Reserved_14_31 : HAL.UInt18;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOG5CR_Register use record
CNT at 0 range 0 .. 13;
Reserved_14_31 at 0 range 14 .. 31;
end record;
subtype IOG6CR_CNT_Field is HAL.UInt14;
-- I/O group x counter register
type IOG6CR_Register is record
-- Read-only. Counter value
CNT : IOG6CR_CNT_Field;
-- unspecified
Reserved_14_31 : HAL.UInt18;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOG6CR_Register use record
CNT at 0 range 0 .. 13;
Reserved_14_31 at 0 range 14 .. 31;
end record;
subtype IOG7CR_CNT_Field is HAL.UInt14;
-- I/O group x counter register
type IOG7CR_Register is record
-- Read-only. Counter value
CNT : IOG7CR_CNT_Field;
-- unspecified
Reserved_14_31 : HAL.UInt18;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOG7CR_Register use record
CNT at 0 range 0 .. 13;
Reserved_14_31 at 0 range 14 .. 31;
end record;
subtype IOG8CR_CNT_Field is HAL.UInt14;
-- I/O group x counter register
type IOG8CR_Register is record
-- Read-only. Counter value
CNT : IOG8CR_CNT_Field;
-- unspecified
Reserved_14_31 : HAL.UInt18;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for IOG8CR_Register use record
CNT at 0 range 0 .. 13;
Reserved_14_31 at 0 range 14 .. 31;
end record;
-----------------
-- Peripherals --
-----------------
-- Touch sensing controller
type TSC_Peripheral is record
-- control register
CR : aliased CR_Register;
-- interrupt enable register
IER : aliased IER_Register;
-- interrupt clear register
ICR : aliased ICR_Register;
-- interrupt status register
ISR : aliased ISR_Register;
-- I/O hysteresis control register
IOHCR : aliased IOHCR_Register;
-- I/O analog switch control register
IOASCR : aliased IOASCR_Register;
-- I/O sampling control register
IOSCR : aliased IOSCR_Register;
-- I/O channel control register
IOCCR : aliased IOCCR_Register;
-- I/O group control status register
IOGCSR : aliased IOGCSR_Register;
-- I/O group x counter register
IOG1CR : aliased IOG1CR_Register;
-- I/O group x counter register
IOG2CR : aliased IOG2CR_Register;
-- I/O group x counter register
IOG3CR : aliased IOG3CR_Register;
-- I/O group x counter register
IOG4CR : aliased IOG4CR_Register;
-- I/O group x counter register
IOG5CR : aliased IOG5CR_Register;
-- I/O group x counter register
IOG6CR : aliased IOG6CR_Register;
-- I/O group x counter register
IOG7CR : aliased IOG7CR_Register;
-- I/O group x counter register
IOG8CR : aliased IOG8CR_Register;
end record
with Volatile;
for TSC_Peripheral use record
CR at 16#0# range 0 .. 31;
IER at 16#4# range 0 .. 31;
ICR at 16#8# range 0 .. 31;
ISR at 16#C# range 0 .. 31;
IOHCR at 16#10# range 0 .. 31;
IOASCR at 16#18# range 0 .. 31;
IOSCR at 16#20# range 0 .. 31;
IOCCR at 16#28# range 0 .. 31;
IOGCSR at 16#30# range 0 .. 31;
IOG1CR at 16#34# range 0 .. 31;
IOG2CR at 16#38# range 0 .. 31;
IOG3CR at 16#3C# range 0 .. 31;
IOG4CR at 16#40# range 0 .. 31;
IOG5CR at 16#44# range 0 .. 31;
IOG6CR at 16#48# range 0 .. 31;
IOG7CR at 16#4C# range 0 .. 31;
IOG8CR at 16#50# range 0 .. 31;
end record;
-- Touch sensing controller
TSC_Periph : aliased TSC_Peripheral
with Import, Address => System'To_Address (16#40024000#);
end STM32_SVD.TSC;
| 28.937307
| 70
| 0.570947
|
9af8ee409f56d36c421e43b65215da2c50509678
| 82
|
ads
|
Ada
|
courses/fundamentals_of_ada/labs/solar_system/adv_240_tasking_embedded/answers/solar_system-button.ads
|
AdaCore/training_material
|
6651eb2c53f8c39649b8e0b3c757bc8ff963025a
|
[
"CC-BY-4.0"
] | 15
|
2020-10-07T08:56:45.000Z
|
2022-02-08T23:13:22.000Z
|
courses/fundamentals_of_ada/labs/solar_system/adv_240_tasking_embedded/answers/solar_system-button.ads
|
AdaCore/training_material
|
6651eb2c53f8c39649b8e0b3c757bc8ff963025a
|
[
"CC-BY-4.0"
] | 20
|
2020-11-05T14:35:20.000Z
|
2022-01-13T15:59:33.000Z
|
courses/fundamentals_of_ada/labs/solar_system/adv_240_tasking_embedded/answers/solar_system-button.ads
|
AdaCore/training_material
|
6651eb2c53f8c39649b8e0b3c757bc8ff963025a
|
[
"CC-BY-4.0"
] | 6
|
2020-10-08T15:57:06.000Z
|
2021-08-31T12:03:08.000Z
|
package Solar_System.Button is
task Button_Monitor;
end Solar_System.Button;
| 13.666667
| 30
| 0.804878
|
03253560d3be3c6cd751dfcceefa746980160797
| 2,187
|
ads
|
Ada
|
openapi-client/ada/src/client/-clients.ads
|
interserver/mailbaby-api-samples
|
0879348474e22463e77dc76ba5e5f7e6300a2b6c
|
[
"MIT"
] | null | null | null |
openapi-client/ada/src/client/-clients.ads
|
interserver/mailbaby-api-samples
|
0879348474e22463e77dc76ba5e5f7e6300a2b6c
|
[
"MIT"
] | 185
|
2022-01-01T23:30:37.000Z
|
2022-03-25T01:08:22.000Z
|
openapi-client/ada/src/client/-clients.ads
|
interserver/mailbaby-api-samples
|
0879348474e22463e77dc76ba5e5f7e6300a2b6c
|
[
"MIT"
] | null | null | null |
-- Mail Baby API
-- This is an API defintion for accesssing the Mail.Baby mail service.
--
-- The version of the OpenAPI document: 1.0.0
-- Contact: detain@interserver.net
--
-- NOTE: This package is auto generated by OpenAPI-Generator 6.0.0-SNAPSHOT.
-- https://openapi-generator.tech
-- Do not edit the class manually.
with .Models;
with Swagger.Clients;
package .Clients is
pragma Style_Checks ("-mr");
type Client_Type is new Swagger.Clients.Client_Type with null record;
-- displays a list of mail service orders
procedure Get_Mail_Orders
(Client : in out Client_Type;
Result : out .Models.MailOrder_Type_Vectors.Vector);
-- Checks if the server is running
procedure Ping_Server
(Client : in out Client_Type);
-- places a mail order
-- Adds an item to the system
procedure Place_Mail_Order
(Client : in out Client_Type;
Mail_Order_Type : in .Models.MailOrder_Type);
-- Sends an Email with Advanced Options
-- Sends An email through one of your mail orders allowing additional options such as file attachments, cc, bcc, etc.
procedure Send_Adv_Mail
(Client : in out Client_Type;
Send_Mail_Adv_Type : in .Models.SendMailAdv_Type;
Result : out .Models.GenericResponse_Type);
-- Sends an Email
-- Sends An email through one of your mail orders.
procedure Send_Mail
(Client : in out Client_Type;
To : in Swagger.UString;
From : in Swagger.UString;
Subject : in Swagger.UString;
P_Body : in Swagger.UString;
Result : out .Models.GenericResponse_Type);
-- validatess order details before placing an order
procedure Validate_Mail_Order
(Client : in out Client_Type);
-- displays the mail log
-- By passing in the appropriate options, you can search for
-- available inventory in the system
procedure View_Mail_Log
(Client : in out Client_Type;
Id : in Swagger.Nullable_Long;
Search_String : in Swagger.Nullable_UString;
Skip : in Swagger.Nullable_Integer;
Limit : in Swagger.Nullable_Integer;
Result : out .Models.MailLog_Type_Vectors.Vector);
end .Clients;
| 33.136364
| 121
| 0.69593
|
a014621094612338d47bbcf9052c3f9c87866000
| 2,191
|
ads
|
Ada
|
src/generated/sys_utypes_utimespec_h.ads
|
csb6/libtcod-ada
|
89c2a75eb357a8468ccb0a6476391a6b388f00b4
|
[
"BSD-3-Clause"
] | null | null | null |
src/generated/sys_utypes_utimespec_h.ads
|
csb6/libtcod-ada
|
89c2a75eb357a8468ccb0a6476391a6b388f00b4
|
[
"BSD-3-Clause"
] | null | null | null |
src/generated/sys_utypes_utimespec_h.ads
|
csb6/libtcod-ada
|
89c2a75eb357a8468ccb0a6476391a6b388f00b4
|
[
"BSD-3-Clause"
] | null | null | null |
pragma Ada_2012;
pragma Style_Checks (Off);
with Interfaces.C; use Interfaces.C;
with i386_utypes_h;
package sys_utypes_utimespec_h is
-- * Copyright (c) 2003-2012 Apple Inc. All rights reserved.
-- *
-- * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
-- *
-- * This file contains Original Code and/or Modifications of Original Code
-- * as defined in and that are subject to the Apple Public Source License
-- * Version 2.0 (the 'License'). You may not use this file except in
-- * compliance with the License. The rights granted to you under the License
-- * may not be used to create, or enable the creation or redistribution of,
-- * unlawful or unlicensed copies of an Apple operating system, or to
-- * circumvent, violate, or enable the circumvention or violation of, any
-- * terms of an Apple operating system software license agreement.
-- *
-- * Please obtain a copy of the License at
-- * http://www.opensource.apple.com/apsl/ and read it before using this file.
-- *
-- * The Original Code and all software distributed under the License are
-- * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
-- * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
-- * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
-- * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
-- * Please see the License for the specific language governing rights and
-- * limitations under the License.
-- *
-- * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
--
-- __darwin_time_t
type timespec is record
tv_sec : aliased i386_utypes_h.uu_darwin_time_t; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/sys/_types/_timespec.h:35
tv_nsec : aliased long; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/sys/_types/_timespec.h:36
end record
with Convention => C_Pass_By_Copy; -- /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/usr/include/sys/_types/_timespec.h:33
end sys_utypes_utimespec_h;
| 49.795455
| 191
| 0.742127
|
036e708b5e9613d0651d7999f26d8b25619f7f45
| 230
|
ads
|
Ada
|
src/sha2.ads
|
AntonMeep/sha2
|
73c2cd73e440b1e36d1b5c8b741fcb0e3fc4046c
|
[
"0BSD"
] | null | null | null |
src/sha2.ads
|
AntonMeep/sha2
|
73c2cd73e440b1e36d1b5c8b741fcb0e3fc4046c
|
[
"0BSD"
] | null | null | null |
src/sha2.ads
|
AntonMeep/sha2
|
73c2cd73e440b1e36d1b5c8b741fcb0e3fc4046c
|
[
"0BSD"
] | null | null | null |
with Ada.Streams; use Ada.Streams;
with SHA2_Generic;
package SHA2 is new SHA2_Generic
(Element => Stream_Element, Index => Stream_Element_Offset,
Element_Array => Stream_Element_Array) with
Pure,
Preelaborate;
| 23
| 67
| 0.743478
|
a0ce625aa66ef29813c0d1ba26bec77f702145a4
| 3,845
|
ads
|
Ada
|
Validation/pyFrame3DD-master/gcc-master/gcc/ada/libgnat/g-spchge.ads
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
Validation/pyFrame3DD-master/gcc-master/gcc/ada/libgnat/g-spchge.ads
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
Validation/pyFrame3DD-master/gcc-master/gcc/ada/libgnat/g-spchge.ads
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT RUN-TIME COMPONENTS --
-- --
-- G N A T . S P E L L I N G _ C H E C K E R _ G E N E R I C --
-- --
-- S p e c --
-- --
-- Copyright (C) 1998-2020, AdaCore --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception, --
-- version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- Spelling checker
-- This package provides a utility generic routine for checking for bad
-- spellings. This routine must be instantiated with an appropriate array
-- element type, which must represent a character encoding in which the
-- codes for ASCII characters in the range 16#20#..16#7F# have their normal
-- expected encoding values (e.g. the Pos value 16#31# must be digit 1).
pragma Compiler_Unit_Warning;
package GNAT.Spelling_Checker_Generic is
pragma Pure;
generic
type Char_Type is (<>);
-- See above for restrictions on what types can be used here
type String_Type is array (Positive range <>) of Char_Type;
function Is_Bad_Spelling_Of
(Found : String_Type;
Expect : String_Type) return Boolean;
-- Determines if the string Found is a plausible misspelling of the string
-- Expect. Returns True for an exact match or a probably misspelling, False
-- if no near match is detected. This routine is case sensitive, so the
-- caller should fold both strings to get a case insensitive match if the
-- character encoding represents upper/lower case.
--
-- Note: the spec of this routine is deliberately rather vague. This
-- routine is the one used by GNAT itself to detect misspelled keywords
-- and identifiers, and is heuristically adjusted to be appropriate to
-- this usage. It will work well in any similar case of named entities.
end GNAT.Spelling_Checker_Generic;
| 58.257576
| 79
| 0.505332
|
1ab1c3c7c5093b6ff0c096b36f7933b8723b8a34
| 9,689
|
ads
|
Ada
|
src/gen/gstreamer-gst_low_level-gstreamer_0_10_gst_basecamerabinsrc_gstbasecamerasrc_h.ads
|
persan/A-gst
|
7a39693d105617adea52680424c862a1a08f7368
|
[
"Apache-2.0"
] | 1
|
2018-01-18T00:51:00.000Z
|
2018-01-18T00:51:00.000Z
|
src/gen/gstreamer-gst_low_level-gstreamer_0_10_gst_basecamerabinsrc_gstbasecamerasrc_h.ads
|
persan/A-gst
|
7a39693d105617adea52680424c862a1a08f7368
|
[
"Apache-2.0"
] | null | null | null |
src/gen/gstreamer-gst_low_level-gstreamer_0_10_gst_basecamerabinsrc_gstbasecamerasrc_h.ads
|
persan/A-gst
|
7a39693d105617adea52680424c862a1a08f7368
|
[
"Apache-2.0"
] | null | null | null |
pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with glib;
with glib;
with glib.Values;
with System;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbin_h;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_basecamerabinsrc_gstcamerabin_enum_h;
-- limited -- with GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_basecamerabinsrc_gstcamerabinpreview_h;
limited with GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_basecamerabinsrc_gstbasecamerasrc_h is
-- unsupported macro: GST_TYPE_BASE_CAMERA_SRC (gst_base_camera_src_get_type())
-- arg-macro: function GST_BASE_CAMERA_SRC (obj)
-- return G_TYPE_CHECK_INSTANCE_CAST((obj),GST_TYPE_BASE_CAMERA_SRC,GstBaseCameraSrc);
-- arg-macro: function GST_BASE_CAMERA_SRC_GET_CLASS (obj)
-- return G_TYPE_INSTANCE_GET_CLASS ((obj), GST_TYPE_BASE_CAMERA_SRC, GstBaseCameraSrcClass);
-- arg-macro: function GST_BASE_CAMERA_SRC_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_CAST((klass),GST_TYPE_BASE_CAMERA_SRC,GstBaseCameraSrcClass);
-- arg-macro: function GST_IS_BASE_CAMERA_SRC (obj)
-- return G_TYPE_CHECK_INSTANCE_TYPE((obj),GST_TYPE_BASE_CAMERA_SRC);
-- arg-macro: function GST_IS_BASE_CAMERA_SRC_CLASS (klass)
-- return G_TYPE_CHECK_CLASS_TYPE((klass),GST_TYPE_BASE_CAMERA_SRC);
-- arg-macro: function GST_BASE_CAMERA_SRC_CAST (obj)
-- return (GstBaseCameraSrc *) (obj);
GST_BASE_CAMERA_SRC_VIEWFINDER_PAD_NAME : aliased constant String := "vfsrc" & ASCII.NUL; -- gst/basecamerabinsrc/gstbasecamerasrc.h:56
GST_BASE_CAMERA_SRC_IMAGE_PAD_NAME : aliased constant String := "imgsrc" & ASCII.NUL; -- gst/basecamerabinsrc/gstbasecamerasrc.h:57
GST_BASE_CAMERA_SRC_VIDEO_PAD_NAME : aliased constant String := "vidsrc" & ASCII.NUL; -- gst/basecamerabinsrc/gstbasecamerasrc.h:58
GST_BASE_CAMERA_SRC_PREVIEW_MESSAGE_NAME : aliased constant String := "preview-image" & ASCII.NUL; -- gst/basecamerabinsrc/gstbasecamerasrc.h:60
MIN_ZOOM : constant := 1.0; -- gst/basecamerabinsrc/gstbasecamerasrc.h:129
MAX_ZOOM : constant := 10.0; -- gst/basecamerabinsrc/gstbasecamerasrc.h:130
-- unsupported macro: ZOOM_1X MIN_ZOOM
-- * GStreamer
-- * Copyright (C) 2010 Texas Instruments, Inc
-- * Copyright (C) 2011 Thiago Santos <thiago.sousa.santos@collabora.com>
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
function gst_base_camera_src_get_type return GLIB.GType; -- gst/basecamerabinsrc/gstbasecamerasrc.h:51
pragma Import (C, gst_base_camera_src_get_type, "gst_base_camera_src_get_type");
type GstBaseCameraSrc;
type u_GstBaseCameraSrc_u_gst_reserved_array is array (0 .. 19) of System.Address;
--subtype GstBaseCameraSrc is u_GstBaseCameraSrc; -- gst/basecamerabinsrc/gstbasecamerasrc.h:53
type GstBaseCameraSrcClass;
type u_GstBaseCameraSrcClass_u_gst_reserved_array is array (0 .. 19) of System.Address;
--subtype GstBaseCameraSrcClass is u_GstBaseCameraSrcClass; -- gst/basecamerabinsrc/gstbasecamerasrc.h:54
--*
-- * GstBaseCameraSrc:
--
type GstBaseCameraSrc is record
parent : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbin_h.GstBin; -- gst/basecamerabinsrc/gstbasecamerasrc.h:67
mode : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_basecamerabinsrc_gstcamerabin_enum_h.GstCameraBinMode; -- gst/basecamerabinsrc/gstbasecamerasrc.h:69
capturing : aliased GLIB.gboolean; -- gst/basecamerabinsrc/gstbasecamerasrc.h:71
capturing_mutex : access GStreamer.GST_Low_Level.glib_2_0_glib_gthread_h.GMutex; -- gst/basecamerabinsrc/gstbasecamerasrc.h:72
preview_caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps; -- gst/basecamerabinsrc/gstbasecamerasrc.h:75
post_preview : aliased GLIB.gboolean; -- gst/basecamerabinsrc/gstbasecamerasrc.h:76
preview_filter : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstelement_h.GstElement; -- gst/basecamerabinsrc/gstbasecamerasrc.h:77
preview_pipeline : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_basecamerabinsrc_gstcamerabinpreview_h.GstCameraBinPreviewPipelineData; -- gst/basecamerabinsrc/gstbasecamerasrc.h:78
width : aliased GLIB.gint; -- gst/basecamerabinsrc/gstbasecamerasrc.h:81
height : aliased GLIB.gint; -- gst/basecamerabinsrc/gstbasecamerasrc.h:82
zoom : aliased GLIB.gfloat; -- gst/basecamerabinsrc/gstbasecamerasrc.h:84
max_zoom : aliased GLIB.gfloat; -- gst/basecamerabinsrc/gstbasecamerasrc.h:85
u_gst_reserved : u_GstBaseCameraSrc_u_gst_reserved_array; -- gst/basecamerabinsrc/gstbasecamerasrc.h:87
end record;
pragma Convention (C_Pass_By_Copy, GstBaseCameraSrc); -- gst/basecamerabinsrc/gstbasecamerasrc.h:65
-- Preview convert pipeline
-- Resolution of the buffers configured to camerabin
--*
-- * GstBaseCameraSrcClass:
-- * @construct_pipeline: construct pipeline
-- * @setup_pipeline: configure pipeline for the chosen settings
-- * @set_zoom: set the zoom
-- * @set_mode: set the mode
--
type GstBaseCameraSrcClass is record
parent : aliased GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbin_h.GstBinClass; -- gst/basecamerabinsrc/gstbasecamerasrc.h:100
construct_pipeline : access function (arg1 : access GstBaseCameraSrc) return GLIB.gboolean; -- gst/basecamerabinsrc/gstbasecamerasrc.h:103
setup_pipeline : access function (arg1 : access GstBaseCameraSrc) return GLIB.gboolean; -- gst/basecamerabinsrc/gstbasecamerasrc.h:106
set_zoom : access procedure (arg1 : access GstBaseCameraSrc; arg2 : GLIB.gfloat); -- gst/basecamerabinsrc/gstbasecamerasrc.h:109
set_mode : access function (arg1 : access GstBaseCameraSrc; arg2 : GStreamer.GST_Low_Level.gstreamer_0_10_gst_basecamerabinsrc_gstcamerabin_enum_h.GstCameraBinMode) return GLIB.gboolean; -- gst/basecamerabinsrc/gstbasecamerasrc.h:113
set_preview : access function (arg1 : access GstBaseCameraSrc; arg2 : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps) return GLIB.gboolean; -- gst/basecamerabinsrc/gstbasecamerasrc.h:117
start_capture : access function (arg1 : access GstBaseCameraSrc) return GLIB.gboolean; -- gst/basecamerabinsrc/gstbasecamerasrc.h:120
stop_capture : access procedure (arg1 : access GstBaseCameraSrc); -- gst/basecamerabinsrc/gstbasecamerasrc.h:123
u_gst_reserved : u_GstBaseCameraSrcClass_u_gst_reserved_array; -- gst/basecamerabinsrc/gstbasecamerasrc.h:125
end record;
pragma Convention (C_Pass_By_Copy, GstBaseCameraSrcClass); -- gst/basecamerabinsrc/gstbasecamerasrc.h:98
-- Construct pipeline. (called in GST_STATE_CHANGE_NULL_TO_READY) Optional.
-- (called in GST_STATE_CHANGE_READY_TO_PAUSED). Optional.
-- Set the zoom. If set, called when changing 'zoom' property. Optional.
-- Set the mode. If set, called when changing 'mode' property. Optional.
-- Set preview caps. If set, called called when setting new 'preview-caps'. Optional.
-- Called by the handler for 'start-capture'. Mandatory.
-- Called by the handler for 'stop-capture'. Mandatory.
function gst_base_camera_src_set_mode (self : access GstBaseCameraSrc; mode : GStreamer.GST_Low_Level.gstreamer_0_10_gst_basecamerabinsrc_gstcamerabin_enum_h.GstCameraBinMode) return GLIB.gboolean; -- gst/basecamerabinsrc/gstbasecamerasrc.h:133
pragma Import (C, gst_base_camera_src_set_mode, "gst_base_camera_src_set_mode");
procedure gst_base_camera_src_setup_zoom (self : access GstBaseCameraSrc); -- gst/basecamerabinsrc/gstbasecamerasrc.h:134
pragma Import (C, gst_base_camera_src_setup_zoom, "gst_base_camera_src_setup_zoom");
procedure gst_base_camera_src_setup_preview (self : access GstBaseCameraSrc; preview_caps : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstcaps_h.GstCaps); -- gst/basecamerabinsrc/gstbasecamerasrc.h:135
pragma Import (C, gst_base_camera_src_setup_preview, "gst_base_camera_src_setup_preview");
procedure gst_base_camera_src_finish_capture (self : access GstBaseCameraSrc); -- gst/basecamerabinsrc/gstbasecamerasrc.h:136
pragma Import (C, gst_base_camera_src_finish_capture, "gst_base_camera_src_finish_capture");
procedure gst_base_camera_src_post_preview (self : access GstBaseCameraSrc; buf : access GStreamer.GST_Low_Level.gstreamer_0_10_gst_gstbuffer_h.GstBuffer); -- gst/basecamerabinsrc/gstbasecamerasrc.h:139
pragma Import (C, gst_base_camera_src_post_preview, "gst_base_camera_src_post_preview");
-- XXX add methods to get/set img capture and vid capture caps..
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_basecamerabinsrc_gstbasecamerasrc_h;
| 68.232394
| 248
| 0.786356
|
38c27ecc3f0aa6ff1b65af681b7896dbf4d55250
| 18,431
|
adb
|
Ada
|
applet/aide/source/palettes/aide-palette-of_exceptions.adb
|
charlie5/aIDE
|
fab406dbcd9b72a4cb215ffebb05166c788d6365
|
[
"MIT"
] | 3
|
2017-04-29T14:25:22.000Z
|
2017-09-29T10:15:28.000Z
|
applet/aide/source/palettes/aide-palette-of_exceptions.adb
|
charlie5/aIDE
|
fab406dbcd9b72a4cb215ffebb05166c788d6365
|
[
"MIT"
] | null | null | null |
applet/aide/source/palettes/aide-palette-of_exceptions.adb
|
charlie5/aIDE
|
fab406dbcd9b72a4cb215ffebb05166c788d6365
|
[
"MIT"
] | null | null | null |
with
aIDE.Palette.of_exceptions_subpackages;
-- AdaM.Declaration.of_exception;
with Ada.Text_IO; use Ada.Text_IO;
with Glib; use Glib;
with Glib.Error; use Glib.Error;
with Glib.Object; use Glib.Object;
with Gtk.Builder; use Gtk.Builder;
with Gtk.Button; use Gtk.Button;
with Gtk.Handlers;
-- Gtk.Label;
with Common_Gtk; use Common_Gtk;
with Gtk.Window; use Gtk.Window;
with adam.Assist;
with ada.Containers.Ordered_Sets;
with Ada.Containers.Vectors;
with ada.Strings.Unbounded;
with AdaM.a_Package;
package body aIDE.Palette.of_exceptions
is
-- Recent Exceptions
--
package recent_Exceptions
is
procedure register_Usage (the_Exception : in AdaM.Declaration.of_exception.view);
function fetch return AdaM.Declaration.of_exception.vector;
end recent_Exceptions;
package body recent_Exceptions
is
type exception_Usage is
record
the_Exception : AdaM.Declaration.of_exception.view;
Count : Natural;
end record;
function "<" (L, R : in exception_Usage) return Boolean
is
use type AdaM.Identifier;
begin
return L.the_Exception.Name < R.the_Exception.Name;
end "<";
overriding function "=" (L, R : in exception_Usage) return Boolean
is
use type AdaM.Identifier;
begin
return L.the_Exception.Name = R.the_Exception.Name;
end "=";
package exception_Usage_Sets is new ada.Containers.Ordered_Sets (exception_Usage);
the_usage_Stats : exception_Usage_Sets.Set;
-- procedure register_Usage (the_Exception : in adam.Text)
-- is
-- use exception_Usage_Sets;
--
-- the_exception_Usage : exception_Usage := (the_Exception, others => <>);
-- Current : constant exception_Usage_Sets.Cursor := the_usage_Stats.find (the_exception_Usage);
-- begin
-- if Current /= No_Element
-- then
-- the_exception_Usage.Count := Element (Current).Count + 1;
-- the_usage_Stats.replace_Element (Current, the_exception_Usage);
-- else
-- the_exception_Usage.Count := 1;
-- the_usage_Stats.insert (the_exception_Usage);
-- end if;
-- end register_Usage;
procedure register_Usage (the_Exception : in AdaM.Declaration.of_exception.view)
is
use exception_Usage_Sets;
use type AdaM.Declaration.of_exception.view;
the_exception_Usage : exception_Usage := (the_Exception, others => <>);
Current : constant exception_Usage_Sets.Cursor := the_usage_Stats.find (the_exception_Usage);
begin
if the_Exception = null
then
raise program_Error with "NULLLLLLLL exception !!!";
else
put_Line ("ALL FINEEEEEEEEEEEEEEEEEEEEEE");
end if;
if Current /= No_Element
then
the_exception_Usage.Count := Element (Current).Count + 1;
the_usage_Stats.replace_Element (Current, the_exception_Usage);
else
the_exception_Usage.Count := 1;
the_usage_Stats.insert (the_exception_Usage);
end if;
end register_Usage;
function fetch return AdaM.Declaration.of_exception.vector
is
use exception_Usage_Sets,
ada.Containers;
-- the_Lines : AdaM.text_Lines;
the_Exceptions : AdaM.Declaration.of_exception.vector;
package type_Usage_Vectors is new ada.Containers.Vectors (Positive, exception_Usage);
use type_Usage_Vectors;
the_usage_List : type_Usage_Vectors.Vector;
begin
declare
Cursor : exception_Usage_Sets.Cursor := the_usage_Stats.First;
begin
while has_Element (Cursor)
loop
if Element (Cursor).Count > 0 then
the_usage_List.append (Element (Cursor));
end if;
exit when the_Exceptions.Length = 25; -- Limit results to 25 entries.
next (Cursor);
end loop;
end;
declare
function "<" (L, R : in exception_Usage) return Boolean
is
begin
return L.Count > R.Count;
end "<";
package Sorter is new type_Usage_Vectors.Generic_Sorting ("<");
begin
Sorter.sort (the_usage_List);
end;
declare
use type AdaM.Declaration.of_exception.view;
Cursor : type_Usage_Vectors.Cursor := the_usage_List.First;
begin
while has_Element (Cursor)
loop
if Element (Cursor).Count > 0
then
if Element (Cursor).the_Exception = null
then
raise Program_Error with "KKKKKKKKKKKKKKKKKKKKK";
end if;
the_Exceptions.append (Element (Cursor).the_Exception);
end if;
next (Cursor);
end loop;
end;
return the_Exceptions;
end fetch;
-- function fetch return adam.text_Lines
-- is
-- use exception_Usage_Sets,
-- ada.Containers;
--
-- the_Lines : adam.text_Lines;
--
-- package exception_Usage_Vectors is new ada.Containers.Vectors (Positive, exception_Usage);
-- use exception_Usage_Vectors;
--
-- the_usage_List : exception_Usage_Vectors.Vector;
--
-- begin
-- declare
-- Cursor : exception_Usage_Sets.Cursor := the_usage_Stats.First;
-- begin
-- while has_Element (Cursor)
-- loop
-- if Element (Cursor).Count > 0 then
-- the_usage_List.append (Element (Cursor));
-- end if;
--
-- exit when the_Lines.Length = 25;
-- next (Cursor);
-- end loop;
-- end;
--
-- declare
-- function "<" (L, R : in exception_Usage) return Boolean
-- is
-- begin
-- return L.Count > R.Count;
-- end "<";
--
-- package Sorter is new exception_Usage_Vectors.Generic_Sorting ("<");
-- begin
-- Sorter.sort (the_usage_List);
-- end;
--
-- declare
-- Cursor : exception_Usage_Vectors.Cursor := the_usage_List.First;
-- begin
-- while has_Element (Cursor)
-- loop
-- if Element (Cursor).Count > 0 then
-- the_Lines.Append (Element (Cursor).Name);
-- end if;
--
-- exit when the_Lines.Length = 25;
-- next (Cursor);
-- end loop;
-- end;
--
-- return the_Lines;
-- end fetch;
end recent_Exceptions;
-- Events
--
procedure on_delete_Button_clicked (the_Button : access Gtk_Button_Record'Class;
Self : in aIDE.Palette.of_exceptions.view)
is
pragma Unreferenced (the_Button);
-- the_Label : String := the_Button.Get_Label;
begin
Self.Invoked_by.hide;
Self.Target.my_Exception_is (Self.Slot, null); -- "free");
Self.Top.hide;
end on_delete_Button_clicked;
procedure on_close_Button_clicked (the_Button : access Gtk_Button_Record'Class;
Self : in aIDE.Palette.of_exceptions.view)
is
pragma Unreferenced (the_Button);
begin
Self.Top.Hide;
end on_close_Button_clicked;
-- use gtk.Label;
-- type label_Info is
-- record
-- -- package_Name : AdaM.Text;
-- Palette : aIDE.Palette.of_exceptions.view;
-- end record;
package Button_Callbacks is new Gtk.Handlers.User_Callback (Gtk_Button_Record,
aIDE.Palette.of_exceptions.view);
-- package Label_return_Callbacks is new Gtk.Handlers.User_Return_Callback (gtk.Label.Gtk_Label_Record,
-- Boolean,
-- label_Info);
-- Forge
--
function to_exceptions_Palette return View
is
Self : constant Palette.of_exceptions.view := new Palette.of_exceptions.item;
the_Builder : Gtk_Builder;
Error : aliased GError;
Result : Guint;
pragma Unreferenced (Result);
begin
gtk_New (the_Builder);
Result := the_Builder.add_from_File ("glade/palette/exception_palette.glade", Error'Access);
if Error /= null then
raise program_Error with "Error: 'adam.Palette.exceptions.to_exceptions_Palette' ~ " & Get_Message (Error);
end if;
Self.Top := gtk_Window (the_Builder.get_Object ("top_Window"));
Self.top_Notebook := gtk_Notebook (the_Builder.get_Object ("top_Notebook"));
Self.all_Notebook := gtk_Notebook (the_Builder.get_Object ("all_Notebook"));
Self.recent_Table := gtk_Table (the_Builder.get_Object ("recent_Table"));
Self.delete_Button := gtk_Button (the_Builder.get_Object ("delete_Button"));
Self.close_Button := gtk_Button (the_Builder.get_Object ("close_Button"));
Button_Callbacks.connect (Self.delete_Button,
"clicked",
on_delete_Button_clicked'Access,
Self);
Button_Callbacks.connect (Self.close_Button,
"clicked",
on_close_Button_clicked'Access,
Self);
Self.freshen;
enable_bold_Tabs_for (Self.top_Notebook);
enable_bold_Tabs_for (Self.all_Notebook);
return Self;
end to_exceptions_Palette;
-- Attributes
--
function top_Widget (Self : in Item) return gtk.Widget.Gtk_Widget
is
begin
return gtk.Widget.Gtk_Widget (Self.Top);
end top_Widget;
-- Operations
--
procedure choice_is (Self : in out Item; --Now : in String;
-- package_Name : in String;
the_Exception : in AdaM.Declaration.of_exception.view)
is
use AdaM,
AdaM.Assist;
-- full_Name : constant String := package_Name & "." & Now;
full_Name : constant String := String (the_Exception.full_Name);
begin
-- recent_Exceptions.register_Usage (+full_Name);
recent_Exceptions.register_Usage (the_Exception);
Self.build_recent_List;
Self.Invoked_by.set_Label (String (strip_standard_Prefix (identifier_Suffix (the_Exception.full_Name, 2))));
Self.Invoked_by.set_Tooltip_Text (full_Name);
Self.Target.my_Exception_is (Self.Slot, the_Exception);
-- Self.Target.my_add_Exception (the_Exception);
Self.Top.hide;
end choice_is;
procedure show (Self : in out Item; Invoked_by : in gtk_Button;
Target : in adam.exception_Handler.view;
Slot : in Positive)
is
begin
Self.Invoked_by := Invoked_by;
Self.Target := Target;
Self.Slot := Slot;
Self.Top.show_All;
end show;
procedure freshen (Self : in out Item)
is
use Adam;
-- type a_Package;
-- type Package_view is access all a_Package;
--
-- package package_Vectors is new ada.Containers.Vectors (Positive, Package_view);
-- subtype Package_vector is package_Vectors.Vector;
--
-- type a_Package is
-- record
-- Name : adam.Text;
-- Parent : Package_view;
-- Children : Package_vector;
--
-- Exceptions : adam.text_Lines;
-- end record;
-- the_Exceptions : constant adam.text_Lines := adam.Assist.known_Exceptions;
-- Root : aliased a_Package;
begin
-- Root.Name := +"Root";
-- Clear out old notebook pages.
--
while Self.all_Notebook.Get_N_Pages > 0
loop
Self.all_Notebook.Get_Nth_Page (0).Destroy;
end loop;
-- Build the Gui tree.
--
build_Gui_Tree:
declare
procedure build_Gui_for (the_Package : in AdaM.a_Package.view;
children_Notebook : in gtk_Notebook)
is
the_Children : AdaM.a_Package.Vector renames the_Package.child_Packages;
the_exceptions_Palette_package : constant Palette.of_exceptions_subpackages.view
:= aIDE.Palette.of_exceptions_subpackages.to_exceptions_Palette_package;
begin
-- Build the package pane.
--
the_exceptions_Palette_package.Parent_is (Self'unchecked_Access);
the_exceptions_Palette_package.top_Widget.Reparent (children_Notebook);
children_Notebook.set_Tab_Label_Text (the_exceptions_Palette_package.top_Widget,
+the_Package.Name);
-- Build the exceptions sub-pane.
--
for Each of the_Package.all_Exceptions
loop
the_exceptions_Palette_package.add_Exception (Each, the_Package);
-- the_exceptions_Palette_package.add_Exception (named => Each.Name,
-- package_Name => the_Package.Name);
-- -- package_Name => full_Name (the_Package));
end loop;
-- Configure event handling.
--
-- declare
-- use gtk.Label;
-- the_tab_Label : constant gtk_Label
-- := gtk_Label (children_Notebook.get_tab_Label (the_exceptions_Palette_package.top_Widget));
-- begin
-- the_tab_Label.set_Selectable (True);
-- label_return_Callbacks.connect (the_tab_Label,
-- "button-release-event",
-- on_tab_Label_clicked'Access,
-- (package_name => the_Package.Name,
-- palette => Self'unchecked_Access));
-- end;
-- Build each childs Gui.
--
for i in 1 .. Integer (the_Children.Length)
loop
build_Gui_for (the_Children.Element (i),
the_exceptions_Palette_package.children_Notebook); -- Recurse.
end loop;
enable_bold_Tabs_for (the_exceptions_Palette_package.children_Notebook);
end build_Gui_for;
begin
-- Recursively add sub-gui's for each package, rooted at 'Standard'.
--
-- for i in 1 .. Integer (the_Environ.standard_Package.Children.Length)
-- loop
-- build_Gui_for (the_Environ.standard_Package.child_Packages.Element (i).all'Access,
-- Self.all_Notebook);
-- end loop;
-- for i in 1 .. Integer (the_entity_Environ.standard_Package.child_Packages.Length)
-- loop
-- build_Gui_for (the_Environ.standard_Package.child_Packages.Element (i).all'Access,
-- Self.all_Notebook);
-- end loop;
build_Gui_for (the_entity_Environ.standard_Package,
Self.all_Notebook);
Self.all_Notebook.Popup_enable;
Self.all_Notebook.Show_All;
end build_Gui_Tree;
Self.build_recent_List; -- todo: This is useless til usage stats are made persistent.
end freshen;
procedure destroy_Callback (Widget : not null access Gtk.Widget.Gtk_Widget_Record'Class)
is
begin
Widget.destroy;
end destroy_Callback;
procedure build_recent_List (Self : in out Item)
is
-- the_Recent : constant adam.text_Lines := recent_Exceptions.fetch;
the_Recent : constant adam.Declaration.of_exception.vector := recent_Exceptions.fetch;
the_Button : gtk_Button;
Row, Col : Guint := 0;
begin
Self.recent_Table.Foreach (destroy_Callback'Access);
for i in 1 .. Integer (the_Recent.Length)
loop
declare
use adam,
ada.Strings.Unbounded;
-- the_Exception : adam.Text renames the_Recent.Element (i);
the_Exception : constant adam.Declaration.of_exception.view := the_Recent.Element (i);
begin
put_Line ("Recent: " & String (the_Exception.full_Name));
put_Line ("Named : " & String (assist. Tail_of (the_Exception.full_Name)));
put_Line ("package_Name: " & String (assist.strip_Tail_of (the_Exception.full_Name)));
-- gtk_New (the_Button, +the_Exception);
the_Button := aIDE.Palette.of_exceptions_subpackages.new_Button
(for_Exception => the_Exception,
Named => String (assist. Tail_of (the_Exception.full_Name)),
package_Name => String (assist.strip_Tail_of (the_Exception.full_Name)),
exceptions_Palette => Self'unchecked_Access,
use_simple_Name => False);
Self.recent_Table.attach (the_Button,
Col, Col + 1,
Row, Row + 1,
Xoptions => 0,
Yoptions => 0);
the_Button.show_All;
if Row = 6 then
Row := 0;
Col := Col + 1;
else
Row := Row + 1;
end if;
end;
end loop;
end build_recent_List;
end aIDE.Palette.of_exceptions;
| 33.329114
| 118
| 0.553958
|
13467362cd2d2c0d67366bd7d28cfd51424b167a
| 10,795
|
adb
|
Ada
|
extern/game_support/stm32f4/src/stm32f4_discovery.adb
|
AdaCore/training_material
|
6651eb2c53f8c39649b8e0b3c757bc8ff963025a
|
[
"CC-BY-4.0"
] | 15
|
2020-10-07T08:56:45.000Z
|
2022-02-08T23:13:22.000Z
|
extern/game_support/stm32f4/src/stm32f4_discovery.adb
|
AdaCore/training_material
|
6651eb2c53f8c39649b8e0b3c757bc8ff963025a
|
[
"CC-BY-4.0"
] | 20
|
2020-11-05T14:35:20.000Z
|
2022-01-13T15:59:33.000Z
|
extern/game_support/stm32f4/src/stm32f4_discovery.adb
|
AdaCore/training_material
|
6651eb2c53f8c39649b8e0b3c757bc8ff963025a
|
[
"CC-BY-4.0"
] | 6
|
2020-10-08T15:57:06.000Z
|
2021-08-31T12:03:08.000Z
|
------------------------------------------------------------------------------
-- --
-- Hardware Abstraction Layer for STM32 Targets --
-- --
-- Copyright (C) 2014, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception, --
-- version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with STM32F4.RCC; use STM32F4.RCC;
package body STM32F4_Discovery is
All_LEDs : constant GPIO_Pins := LED3 & LED4 & LED5 & LED6;
--------
-- On --
--------
procedure On (This : User_LED) is
begin
Set (GPIO_D, This);
end On;
---------
-- Off --
---------
procedure Off (This : User_LED) is
begin
Clear (GPIO_D, This);
end Off;
------------
-- Toggle --
------------
procedure Toggle (This : User_LED) is
begin
Toggle (GPIO_D, This);
end Toggle;
------------------
-- All_LEDs_Off --
------------------
procedure All_LEDs_Off is
begin
Clear (GPIO_D, All_LEDs);
end All_LEDs_Off;
-----------------
-- All_LEDs_On --
-----------------
procedure All_LEDs_On is
begin
Set (GPIO_D, All_LEDs);
end All_LEDs_On;
---------------------
-- Initialize_LEDs --
---------------------
procedure Initialize_LEDs is
Configuration : GPIO_Port_Configuration;
begin
Enable_Clock (GPIO_D);
Configuration.Mode := Mode_Out;
Configuration.Output_Type := Push_Pull;
Configuration.Speed := Speed_100MHz;
Configuration.Resistors := Floating;
Configure_IO (Port => GPIO_D,
Pins => All_LEDs,
Config => Configuration);
end Initialize_LEDs;
------------------
-- Enable_Clock --
------------------
procedure Enable_Clock (This : aliased in out GPIO_Port) is
begin
if This'Address = System'To_Address (GPIOA_Base) then
GPIOA_Clock_Enable;
elsif This'Address = System'To_Address (GPIOB_Base) then
GPIOB_Clock_Enable;
elsif This'Address = System'To_Address (GPIOC_Base) then
GPIOC_Clock_Enable;
elsif This'Address = System'To_Address (GPIOD_Base) then
GPIOD_Clock_Enable;
elsif This'Address = System'To_Address (GPIOE_Base) then
GPIOE_Clock_Enable;
elsif This'Address = System'To_Address (GPIOF_Base) then
GPIOF_Clock_Enable;
elsif This'Address = System'To_Address (GPIOG_Base) then
GPIOG_Clock_Enable;
elsif This'Address = System'To_Address (GPIOH_Base) then
GPIOH_Clock_Enable;
elsif This'Address = System'To_Address (GPIOI_Base) then
GPIOI_Clock_Enable;
else
raise Program_Error;
end if;
end Enable_Clock;
------------------
-- Enable_Clock --
------------------
procedure Enable_Clock (This : aliased in out USART) is
begin
if This'Address = System'To_Address (USART1_Base) then
USART1_Clock_Enable;
elsif This'Address = System'To_Address (USART2_Base) then
USART2_Clock_Enable;
elsif This'Address = System'To_Address (USART3_Base) then
USART3_Clock_Enable;
elsif This'Address = System'To_Address (USART6_Base) then
USART6_Clock_Enable;
else
raise Program_Error;
end if;
end Enable_Clock;
------------------
-- Enable_Clock --
------------------
procedure Enable_Clock (This : aliased in out DMA_Controller) is
begin
if This'Address = System'To_Address (STM32F4.DMA1_BASE) then
DMA1_Clock_Enable;
elsif This'Address = System'To_Address (STM32F4.DMA2_BASE) then
DMA2_Clock_Enable;
else
raise Program_Error;
end if;
end Enable_Clock;
------------------
-- Enable_Clock --
------------------
procedure Enable_Clock (This : aliased in out I2C_Port) is
begin
if This'Address = System'To_Address (I2C1_Base) then
I2C1_Clock_Enable;
elsif This'Address = System'To_Address (I2C2_Base) then
I2C2_Clock_Enable;
elsif This'Address = System'To_Address (I2C3_Base) then
I2C3_Clock_Enable;
else
raise Program_Error;
end if;
end Enable_Clock;
-----------
-- Reset --
-----------
procedure Reset (This : in out I2C_Port) is
begin
if This'Address = System'To_Address (I2C1_Base) then
I2C1_Force_Reset;
I2C1_Release_Reset;
elsif This'Address = System'To_Address (I2C2_Base) then
I2C2_Force_Reset;
I2C2_Release_Reset;
elsif This'Address = System'To_Address (I2C3_Base) then
I2C3_Force_Reset;
I2C3_Release_Reset;
else
raise Program_Error;
end if;
end Reset;
------------------
-- Enable_Clock --
------------------
procedure Enable_Clock (This : aliased in out SPI_Port) is
begin
if This'Address = System'To_Address (SPI1_Base) then
SPI1_Force_Reset;
SPI1_Release_Reset;
elsif This'Address = System'To_Address (SPI2_Base) then
SPI2_Force_Reset;
SPI2_Release_Reset;
elsif This'Address = System'To_Address (SPI3_Base) then
SPI3_Force_Reset;
SPI3_Release_Reset;
else
raise Program_Error;
end if;
end Enable_Clock;
-----------
-- Reset --
-----------
procedure Reset (This : in out SPI_Port) is
begin
if This'Address = System'To_Address (SPI1_Base) then
SPI1_Clock_Enable;
elsif This'Address = System'To_Address (SPI2_Base) then
SPI2_Clock_Enable;
elsif This'Address = System'To_Address (SPI3_Base) then
SPI3_Clock_Enable;
else
raise Program_Error;
end if;
end Reset;
------------------
-- Enable_Clock --
------------------
procedure Enable_Clock (This : in out Timer) is
begin
if This'Address = System'To_Address (TIM1_Base) then
TIM1_Clock_Enable;
elsif This'Address = System'To_Address (TIM2_Base) then
TIM2_Clock_Enable;
elsif This'Address = System'To_Address (TIM3_Base) then
TIM3_Clock_Enable;
elsif This'Address = System'To_Address (TIM4_Base) then
TIM4_Clock_Enable;
elsif This'Address = System'To_Address (TIM5_Base) then
TIM5_Clock_Enable;
elsif This'Address = System'To_Address (TIM6_Base) then
TIM6_Clock_Enable;
elsif This'Address = System'To_Address (TIM7_Base) then
TIM7_Clock_Enable;
elsif This'Address = System'To_Address (TIM8_Base) then
TIM8_Clock_Enable;
elsif This'Address = System'To_Address (TIM9_Base) then
TIM9_Clock_Enable;
elsif This'Address = System'To_Address (TIM10_Base) then
TIM10_Clock_Enable;
elsif This'Address = System'To_Address (TIM11_Base) then
TIM11_Clock_Enable;
elsif This'Address = System'To_Address (TIM12_Base) then
TIM12_Clock_Enable;
elsif This'Address = System'To_Address (TIM13_Base) then
TIM13_Clock_Enable;
elsif This'Address = System'To_Address (TIM14_Base) then
TIM14_Clock_Enable;
else
raise Program_Error;
end if;
end Enable_Clock;
-----------
-- Reset --
-----------
procedure Reset (This : in out Timer) is
begin
if This'Address = System'To_Address (TIM1_Base) then
TIM1_Force_Reset;
TIM1_Release_Reset;
elsif This'Address = System'To_Address (TIM2_Base) then
TIM2_Force_Reset;
TIM2_Release_Reset;
elsif This'Address = System'To_Address (TIM3_Base) then
TIM3_Force_Reset;
TIM3_Release_Reset;
elsif This'Address = System'To_Address (TIM4_Base) then
TIM4_Force_Reset;
TIM4_Release_Reset;
elsif This'Address = System'To_Address (TIM5_Base) then
TIM5_Force_Reset;
TIM5_Release_Reset;
elsif This'Address = System'To_Address (TIM6_Base) then
TIM6_Force_Reset;
TIM6_Release_Reset;
elsif This'Address = System'To_Address (TIM7_Base) then
TIM7_Force_Reset;
TIM7_Release_Reset;
elsif This'Address = System'To_Address (TIM8_Base) then
TIM8_Force_Reset;
TIM8_Release_Reset;
elsif This'Address = System'To_Address (TIM9_Base) then
TIM9_Force_Reset;
TIM9_Release_Reset;
elsif This'Address = System'To_Address (TIM10_Base) then
TIM10_Force_Reset;
TIM10_Release_Reset;
elsif This'Address = System'To_Address (TIM11_Base) then
TIM11_Force_Reset;
TIM11_Release_Reset;
elsif This'Address = System'To_Address (TIM12_Base) then
TIM12_Force_Reset;
TIM12_Release_Reset;
elsif This'Address = System'To_Address (TIM13_Base) then
TIM13_Force_Reset;
TIM13_Release_Reset;
elsif This'Address = System'To_Address (TIM14_Base) then
TIM14_Force_Reset;
TIM14_Release_Reset;
else
raise Program_Error;
end if;
end Reset;
end STM32F4_Discovery;
| 33.012232
| 78
| 0.57786
|
1e931e1f7251570edcb80a1310150b3e0ed51222
| 5,162
|
ads
|
Ada
|
source/amf/ocl/amf-ocl-null_literal_exps-collections.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 24
|
2016-11-29T06:59:41.000Z
|
2021-08-30T11:55:16.000Z
|
source/amf/ocl/amf-ocl-null_literal_exps-collections.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 2
|
2019-01-16T05:15:20.000Z
|
2019-02-03T10:03:32.000Z
|
source/amf/ocl/amf-ocl-null_literal_exps-collections.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 4
|
2017-07-18T07:11:05.000Z
|
2020-06-21T03:02:25.000Z
|
------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012-2013, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
with AMF.Generic_Collections;
package AMF.OCL.Null_Literal_Exps.Collections is
pragma Preelaborate;
package OCL_Null_Literal_Exp_Collections is
new AMF.Generic_Collections
(OCL_Null_Literal_Exp,
OCL_Null_Literal_Exp_Access);
type Set_Of_OCL_Null_Literal_Exp is
new OCL_Null_Literal_Exp_Collections.Set with null record;
Empty_Set_Of_OCL_Null_Literal_Exp : constant Set_Of_OCL_Null_Literal_Exp;
type Ordered_Set_Of_OCL_Null_Literal_Exp is
new OCL_Null_Literal_Exp_Collections.Ordered_Set with null record;
Empty_Ordered_Set_Of_OCL_Null_Literal_Exp : constant Ordered_Set_Of_OCL_Null_Literal_Exp;
type Bag_Of_OCL_Null_Literal_Exp is
new OCL_Null_Literal_Exp_Collections.Bag with null record;
Empty_Bag_Of_OCL_Null_Literal_Exp : constant Bag_Of_OCL_Null_Literal_Exp;
type Sequence_Of_OCL_Null_Literal_Exp is
new OCL_Null_Literal_Exp_Collections.Sequence with null record;
Empty_Sequence_Of_OCL_Null_Literal_Exp : constant Sequence_Of_OCL_Null_Literal_Exp;
private
Empty_Set_Of_OCL_Null_Literal_Exp : constant Set_Of_OCL_Null_Literal_Exp
:= (OCL_Null_Literal_Exp_Collections.Set with null record);
Empty_Ordered_Set_Of_OCL_Null_Literal_Exp : constant Ordered_Set_Of_OCL_Null_Literal_Exp
:= (OCL_Null_Literal_Exp_Collections.Ordered_Set with null record);
Empty_Bag_Of_OCL_Null_Literal_Exp : constant Bag_Of_OCL_Null_Literal_Exp
:= (OCL_Null_Literal_Exp_Collections.Bag with null record);
Empty_Sequence_Of_OCL_Null_Literal_Exp : constant Sequence_Of_OCL_Null_Literal_Exp
:= (OCL_Null_Literal_Exp_Collections.Sequence with null record);
end AMF.OCL.Null_Literal_Exps.Collections;
| 56.108696
| 92
| 0.531383
|
224baf15dff7f357d4d0703116f85e1230781501
| 396
|
adb
|
Ada
|
PIM/TD1_Algorithmique/pour_tantque.adb
|
Hathoute/ENSEEIHT
|
d42f0b0dedb269e6df3b1c006d4d45e52fc518b8
|
[
"MIT"
] | 1
|
2021-06-26T21:51:11.000Z
|
2021-06-26T21:51:11.000Z
|
PIM/TD1_Algorithmique/pour_tantque.adb
|
Hathoute/ENSEEIHT
|
d42f0b0dedb269e6df3b1c006d4d45e52fc518b8
|
[
"MIT"
] | null | null | null |
PIM/TD1_Algorithmique/pour_tantque.adb
|
Hathoute/ENSEEIHT
|
d42f0b0dedb269e6df3b1c006d4d45e52fc518b8
|
[
"MIT"
] | null | null | null |
with Ada.Text_IO; use Ada.Text_IO;
with Ada.Integer_Text_IO; use Ada.Integer_Text_IO;
procedure Pour_TantQue is
Debut: Integer;
Fin: Integer;
begin
-- Demander les valeurs de Debut et Fin
Get (Debut);
Get (Fin);
-- Afficher les entiers de Début à Fin
while Debut <= Fin loop
Put(Debut);
New_Line;
Debut := Debut + 1;
end loop;
end Pour_TantQue;
| 19.8
| 51
| 0.65404
|
4b65da2c7578f8bcc6f8f4c3ecd95c99075f2906
| 4,498
|
adb
|
Ada
|
llvm-gcc-4.2-2.9/gcc/ada/itypes.adb
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | 1
|
2016-04-09T02:58:13.000Z
|
2016-04-09T02:58:13.000Z
|
llvm-gcc-4.2-2.9/gcc/ada/itypes.adb
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | null | null | null |
llvm-gcc-4.2-2.9/gcc/ada/itypes.adb
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- I T Y P E S --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2005, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
-- Boston, MA 02110-1301, USA. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Atree; use Atree;
with Opt; use Opt;
with Sem; use Sem;
with Sinfo; use Sinfo;
with Stand; use Stand;
package body Itypes is
------------------
-- Create_Itype --
------------------
function Create_Itype
(Ekind : Entity_Kind;
Related_Nod : Node_Id;
Related_Id : Entity_Id := Empty;
Suffix : Character := ' ';
Suffix_Index : Nat := 0;
Scope_Id : Entity_Id := Current_Scope) return Entity_Id
is
Typ : Entity_Id;
begin
if Related_Id = Empty then
Typ := New_Internal_Entity (Ekind, Scope_Id, Sloc (Related_Nod), 'T');
Set_Public_Status (Typ);
else
Typ := New_External_Entity
(Ekind, Scope_Id, Sloc (Related_Nod), Related_Id, Suffix,
Suffix_Index, 'T');
end if;
Init_Size_Align (Typ);
Set_Etype (Typ, Any_Type);
Set_Is_Itype (Typ);
Set_Associated_Node_For_Itype (Typ, Related_Nod);
if In_Deleted_Code
and then not ASIS_Mode
then
Set_Is_Frozen (Typ);
end if;
return Typ;
end Create_Itype;
---------------------------------
-- Create_Null_Excluding_Itype --
---------------------------------
function Create_Null_Excluding_Itype
(T : Entity_Id;
Related_Nod : Node_Id;
Scope_Id : Entity_Id := Current_Scope) return Entity_Id
is
I_Typ : Entity_Id;
begin
pragma Assert (Is_Access_Type (T));
I_Typ := Create_Itype (Ekind => E_Access_Subtype,
Related_Nod => Related_Nod,
Scope_Id => Scope_Id);
Set_Directly_Designated_Type (I_Typ, Directly_Designated_Type (T));
Set_Etype (I_Typ, T);
Init_Size_Align (I_Typ);
Set_Depends_On_Private (I_Typ, Depends_On_Private (T));
Set_Is_Public (I_Typ, Is_Public (T));
Set_From_With_Type (I_Typ, From_With_Type (T));
Set_Is_Access_Constant (I_Typ, Is_Access_Constant (T));
Set_Is_Generic_Type (I_Typ, Is_Generic_Type (T));
Set_Is_Volatile (I_Typ, Is_Volatile (T));
Set_Treat_As_Volatile (I_Typ, Treat_As_Volatile (T));
Set_Is_Atomic (I_Typ, Is_Atomic (T));
Set_Is_Ada_2005 (I_Typ, Is_Ada_2005 (T));
Set_Can_Never_Be_Null (I_Typ);
return I_Typ;
end Create_Null_Excluding_Itype;
end Itypes;
| 40.890909
| 79
| 0.471098
|
2f93804072f9e9ab72e18f4f4c0ff780e4e6bd13
| 3,793
|
adb
|
Ada
|
src/keystore-passwords-keys.adb
|
My-Colaborations/ada-keystore
|
6ab222c2df81f32309c5a7b4f94a475214ef5ce3
|
[
"Apache-2.0"
] | 25
|
2019-05-07T20:35:50.000Z
|
2021-11-30T10:35:47.000Z
|
src/keystore-passwords-keys.adb
|
My-Colaborations/ada-keystore
|
6ab222c2df81f32309c5a7b4f94a475214ef5ce3
|
[
"Apache-2.0"
] | 12
|
2019-12-16T23:30:00.000Z
|
2021-09-26T18:52:41.000Z
|
src/keystore-passwords-keys.adb
|
My-Colaborations/ada-keystore
|
6ab222c2df81f32309c5a7b4f94a475214ef5ce3
|
[
"Apache-2.0"
] | 3
|
2019-12-18T21:30:04.000Z
|
2021-01-06T08:30:36.000Z
|
-----------------------------------------------------------------------
-- keystore-passwords-keys -- Key provider
-- Copyright (C) 2019 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Util.Encoders.SHA256;
with Util.Encoders.HMAC.SHA256;
package body Keystore.Passwords.Keys is
type Raw_Key_Provider (Len : Key_Length) is limited new Key_Provider
and Internal_Key_Provider with record
Password : Ada.Streams.Stream_Element_Array (1 .. Len);
end record;
type Raw_Key_Provider_Access is access all Raw_Key_Provider'Class;
-- Get the Key, IV and signature.
overriding
procedure Get_Keys (From : in Raw_Key_Provider;
Key : out Secret_Key;
IV : out Secret_Key;
Sign : out Secret_Key);
overriding
procedure Save_Key (Provider : in Raw_Key_Provider;
Data : out Ada.Streams.Stream_Element_Array);
-- ------------------------------
-- Create a key, iv, sign provider from the string.
-- ------------------------------
function Create (Password : in String;
Length : in Key_Length := DEFAULT_KEY_LENGTH)
return Key_Provider_Access is
Result : Raw_Key_Provider_Access;
Hash : Util.Encoders.SHA256.Hash_Array;
begin
Result := new Raw_Key_Provider '(Len => Length, others => <>);
Hash := Util.Encoders.HMAC.SHA256.Sign (Password, Password);
for I in 1 .. Length loop
Result.Password (I) := Hash (I mod Hash'Length);
Util.Encoders.HMAC.SHA256.Sign (Hash, Hash, Hash);
end loop;
return Result.all'Access;
end Create;
function Create (Password : in Ada.Streams.Stream_Element_Array)
return Key_Provider_Access is
begin
return new Raw_Key_Provider '(Len => Password'Length,
Password => Password);
end Create;
-- ------------------------------
-- Get the Key, IV and signature.
-- ------------------------------
overriding
procedure Get_Keys (From : in Raw_Key_Provider;
Key : out Secret_Key;
IV : out Secret_Key;
Sign : out Secret_Key) is
First : Ada.Streams.Stream_Element_Offset := 1;
Last : Ada.Streams.Stream_Element_Offset := First + Key.Length - 1;
begin
if From.Len /= Key.Length + IV.Length + Sign.Length then
raise Keystore.Bad_Password with "Invalid length for the key file";
end if;
Util.Encoders.Create (From.Password (First .. Last), Key);
First := Last + 1;
Last := First + IV.Length - 1;
Util.Encoders.Create (From.Password (First .. Last), IV);
First := Last + 1;
Last := First + Sign.Length - 1;
Util.Encoders.Create (From.Password (First .. Last), Sign);
end Get_Keys;
overriding
procedure Save_Key (Provider : in Raw_Key_Provider;
Data : out Ada.Streams.Stream_Element_Array) is
begin
Data := Provider.Password;
end Save_Key;
end Keystore.Passwords.Keys;
| 39.510417
| 76
| 0.589243
|
03cc1c6d4bb9c2e81e9501890aa6a4e65beadcdb
| 7,442
|
ads
|
Ada
|
.emacs.d/elpa/wisi-3.1.3/sal-gen_graphs.ads
|
caqg/linux-home
|
eed631aae6f5e59e4f46e14f1dff443abca5fa28
|
[
"Linux-OpenIB"
] | null | null | null |
.emacs.d/elpa/wisi-3.1.3/sal-gen_graphs.ads
|
caqg/linux-home
|
eed631aae6f5e59e4f46e14f1dff443abca5fa28
|
[
"Linux-OpenIB"
] | null | null | null |
.emacs.d/elpa/wisi-3.1.3/sal-gen_graphs.ads
|
caqg/linux-home
|
eed631aae6f5e59e4f46e14f1dff443abca5fa28
|
[
"Linux-OpenIB"
] | null | null | null |
-- Abstract :
--
-- Type and operations for graphs.
--
-- References:
--
-- [1] Introduction to Algorithms, Thomas H. Cormen, Charles E.
-- Leiserson, Ronald L. Rivest, Clifford Stein.
--
-- [2] "An Efficient Search Algorithm to Find the Elementary Circuits
-- of a Graph", James C. Tiernan, Communications of the ACM Volume 13
-- Number 12 December 1970.
-- https://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.516.9454&rep=rep1&type=pdf
--
-- [3] "Finding all the Elementary Circuits of a Directed Graph",
-- Donald B. Johnson, SIAM J. Comput. Vol 4, No. 1, March 1975.
-- https://epubs.siam.org/doi/abs/10.1137/0204007
--
-- [4] "Depth-First Search and Linear Graph Algorithms", Robert
-- Tarjan, SIAM J. Comput. Vol. 1, No 2, June 1972.
-- https://epubs.siam.org/doi/abs/10.1137/0201010
--
-- Copyright (C) 2017, 2019, 2020 Free Software Foundation All Rights Reserved.
--
-- This library is free software; you can redistribute it and/or modify it
-- under terms of the GNU General Public License as published by the Free
-- Software Foundation; either version 3, or (at your option) any later
-- version. This library is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHAN-
-- TABILITY or FITNESS FOR A PARTICULAR PURPOSE.
-- As a special exception under Section 7 of GPL version 3, you are granted
-- additional permissions described in the GCC Runtime Library Exception,
-- version 3.1, as published by the Free Software Foundation.
pragma License (Modified_GPL);
with Ada.Containers.Doubly_Linked_Lists;
with Ada.Containers.Indefinite_Vectors;
with SAL.Ada_Containers.Gen_Doubly_Linked_Lists_Image;
with SAL.Gen_Trimmed_Image;
with SAL.Gen_Unbounded_Definite_Vectors;
generic
type Edge_Data is private;
Default_Edge_Data : in Edge_Data;
type Vertex_Index is range <>;
Invalid_Vertex : in Vertex_Index'Base;
type Path_Index is range <>;
with function Edge_Image (Item : in Edge_Data) return String;
package SAL.Gen_Graphs is
type Graph is tagged private;
procedure Add_Edge
(Graph : in out Gen_Graphs.Graph;
Vertex_A : in Vertex_Index;
Vertex_B : in Vertex_Index;
Data : in Edge_Data);
-- Adds a directed edge from Vertex_A to Vertex_B.
function Count_Nodes (Graph : in Gen_Graphs.Graph) return Ada.Containers.Count_Type;
function Count_Edges (Graph : in Gen_Graphs.Graph) return Ada.Containers.Count_Type;
function Multigraph (Graph : in Gen_Graphs.Graph) return Boolean;
-- If more than one edge is added between two vertices, the graph is
-- a multigraph. The edges are given separate identifiers internally.
Multigraph_Error : exception;
type Base_Edge_ID is range 0 .. Integer'Last;
subtype Edge_ID is Base_Edge_ID range 1 .. Base_Edge_ID'Last;
Invalid_Edge_ID : constant Base_Edge_ID := 0;
-- Edge ids are unique graph-wide, assigned by Add_Edge.
type Edge_Item is record
ID : Base_Edge_ID := Invalid_Edge_ID;
Data : Edge_Data := Default_Edge_Data;
end record;
function Image (Item : in Edge_Item) return String
is (Edge_Image (Item.Data));
package Edge_Lists is new Ada.Containers.Doubly_Linked_Lists (Edge_Item);
function "+" (Right : in Edge_Item) return Edge_Lists.List;
function Edges (Graph : in Gen_Graphs.Graph; Vertex : in Vertex_Index) return Edge_Lists.List;
-- All edges from Vertex, as set by Add_Edge.
function Image is new SAL.Ada_Containers.Gen_Doubly_Linked_Lists_Image
(Element_Type => Edge_Item,
Lists => Edge_Lists,
Element_Image => Image);
type Path_Item is record
Vertex : Vertex_Index'Base := Invalid_Vertex;
Edges : Edge_Lists.List;
-- Edges describe the edges leading from the previous vertex
-- in the path to Vertex. If this is the first vertex in an open
-- path, Edges is empty. If it is the first vertex in a
-- cycle, the edge are from the last vertex in the cycle.
end record;
type Path is array (Positive range <>) of Path_Item;
function Image (Item : in Path) return String;
-- For trace, debugging.
package Path_Arrays is new Ada.Containers.Indefinite_Vectors (Path_Index, Path);
function "<" (Left, Right : in Path) return Boolean;
package Sort_Paths is new Path_Arrays.Generic_Sorting;
function Find_Paths
(Graph : in out Gen_Graphs.Graph;
From : in Vertex_Index;
To : in Edge_Data)
return Path_Arrays.Vector;
-- Return all non-cyclic paths starting at From that lead to a To
-- edge, using algorithm [1]. First entry in each item in result is
-- From, with first edge. Last entry in result contains edge data for
-- To.
--
-- Raises Multigraph_Error if Graph is a multigraph.
function Find_Cycles_Tiernan (Graph : in Gen_Graphs.Graph) return Path_Arrays.Vector;
-- Return all cyclic paths in Graph, using algorithm [2] extended for
-- multigraphs.
--
-- Time complexity is exponential in the number of nodes. Used in
-- unit tests for Find_Cycles, since [2] is easier to
-- implement.
function Find_Cycles (Graph : in Gen_Graphs.Graph) return Path_Arrays.Vector;
-- Return all cyclic paths in Graph, using algorithm [3] extended for
-- multigraphs.
--
-- Time complexity is linear in the number of nodes and edges.
package Vertex_Lists is new Ada.Containers.Doubly_Linked_Lists (Vertex_Index);
function Trimmed_Image is new SAL.Gen_Trimmed_Image (Vertex_Index);
function Image is new SAL.Ada_Containers.Gen_Doubly_Linked_Lists_Image
(Vertex_Index, "=", Vertex_Lists, Trimmed_Image);
function Loops (Graph : in Gen_Graphs.Graph) return Vertex_Lists.List;
-- List of vertices that have an edge to themselves.
package Adjacency_Structures is new SAL.Gen_Unbounded_Definite_Vectors
(Vertex_Index, Vertex_Lists.List, Vertex_Lists.Empty_List);
-- Graphs with no Edge_ID or Edge_Data; useful as intermediate results.
function To_Adjancency (Graph : in Gen_Graphs.Graph) return Adjacency_Structures.Vector;
package Component_Lists is new Ada.Containers.Doubly_Linked_Lists (Vertex_Lists.List, Vertex_Lists."=");
function Strongly_Connected_Components
(Graph : in Adjacency_Structures.Vector;
Non_Trivial_Only : in Boolean := False)
return Component_Lists.List;
-- Find strongly connected components of Graph, using algorithm in [4].
-- If Non_Trivial_Only, don't include single-vertex components.
Trace : Integer := 0;
-- Some bodies output debug info to Text_IO.Current_Output for
-- non-zero values of Trace.
private
type Edge_Node is record
-- Edge is from vertex contaning this Node to Vertex_B
ID : Edge_ID;
Vertex_B : Vertex_Index;
Multigraph : Boolean; -- Same Vertex_B as another edge in same vertex.
Data : Edge_Data;
end record;
package Edge_Node_Lists is new Ada.Containers.Doubly_Linked_Lists (Edge_Node);
package Vertex_Arrays is new SAL.Gen_Unbounded_Definite_Vectors
(Vertex_Index, Edge_Node_Lists.List, Edge_Node_Lists.Empty_List);
type Graph is tagged record
Last_Edge_ID : Base_Edge_ID := Invalid_Edge_ID;
Multigraph : Boolean := False;
Vertices : Vertex_Arrays.Vector;
end record;
end SAL.Gen_Graphs;
| 38.963351
| 107
| 0.71634
|
9a06d39a9120e2d508ca51721f957657f11bfcbd
| 1,752
|
ads
|
Ada
|
tier-1/xcb/source/thin/xcb-xcb_grab_key_request_t.ads
|
charlie5/cBound
|
741be08197a61ad9c72553e3302f3b669902216d
|
[
"0BSD"
] | 2
|
2015-11-12T11:16:20.000Z
|
2021-08-24T22:32:04.000Z
|
tier-1/xcb/source/thin/xcb-xcb_grab_key_request_t.ads
|
charlie5/cBound
|
741be08197a61ad9c72553e3302f3b669902216d
|
[
"0BSD"
] | 1
|
2018-06-05T05:19:35.000Z
|
2021-11-20T01:13:23.000Z
|
tier-1/xcb/source/thin/xcb-xcb_grab_key_request_t.ads
|
charlie5/cBound
|
741be08197a61ad9c72553e3302f3b669902216d
|
[
"0BSD"
] | null | null | null |
-- This file is generated by SWIG. Please do not modify by hand.
--
with Interfaces;
with swig;
with Interfaces.C;
with Interfaces.C.Pointers;
package xcb.xcb_grab_key_request_t is
-- Item
--
type Item is record
major_opcode : aliased Interfaces.Unsigned_8;
owner_events : aliased Interfaces.Unsigned_8;
length : aliased Interfaces.Unsigned_16;
grab_window : aliased xcb.xcb_window_t;
modifiers : aliased Interfaces.Unsigned_16;
key : aliased xcb.xcb_keycode_t;
pointer_mode : aliased Interfaces.Unsigned_8;
keyboard_mode : aliased Interfaces.Unsigned_8;
pad0 : aliased swig.int8_t_Array (0 .. 2);
end record;
-- Item_Array
--
type Item_Array is
array
(Interfaces.C.size_t range <>) of aliased xcb.xcb_grab_key_request_t
.Item;
-- Pointer
--
package C_Pointers is new Interfaces.C.Pointers
(Index => Interfaces.C.size_t,
Element => xcb.xcb_grab_key_request_t.Item,
Element_Array => xcb.xcb_grab_key_request_t.Item_Array,
Default_Terminator => (others => <>));
subtype Pointer is C_Pointers.Pointer;
-- Pointer_Array
--
type Pointer_Array is
array
(Interfaces.C.size_t range <>) of aliased xcb.xcb_grab_key_request_t
.Pointer;
-- Pointer_Pointer
--
package C_Pointer_Pointers is new Interfaces.C.Pointers
(Index => Interfaces.C.size_t,
Element => xcb.xcb_grab_key_request_t.Pointer,
Element_Array => xcb.xcb_grab_key_request_t.Pointer_Array,
Default_Terminator => null);
subtype Pointer_Pointer is C_Pointer_Pointers.Pointer;
end xcb.xcb_grab_key_request_t;
| 29.2
| 75
| 0.664384
|
03cabd8d954b4c8340bf17bf015e55012bd2e23d
| 13,329
|
ads
|
Ada
|
strings_edit.ads
|
jrcarter/Ada_GUI
|
65a829c55dec91fd48a0b72f88d76137768bf4fb
|
[
"BSD-3-Clause"
] | 19
|
2018-03-18T18:07:14.000Z
|
2022-03-30T03:10:12.000Z
|
strings_edit.ads
|
jrcarter/Ada_GUI
|
65a829c55dec91fd48a0b72f88d76137768bf4fb
|
[
"BSD-3-Clause"
] | 4
|
2021-08-23T12:52:06.000Z
|
2022-03-31T10:48:43.000Z
|
strings_edit.ads
|
jrcarter/Ada_GUI
|
65a829c55dec91fd48a0b72f88d76137768bf4fb
|
[
"BSD-3-Clause"
] | null | null | null |
-- --
-- package Strings_Edit Copyright (c) Dmitry A. Kazakov --
-- Interface Luebeck --
-- Spring, 2000 --
-- --
-- Last revision : 22:14 08 May 2009 --
-- --
-- This library is free software; you can redistribute it and/or --
-- modify it under the terms of the GNU General Public License as --
-- published by the Free Software Foundation; either version 2 of --
-- the License, or (at your option) any later version. This library --
-- is distributed in the hope that it will be useful, but WITHOUT --
-- ANY WARRANTY; without even the implied warranty of --
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU --
-- General Public License for more details. You should have --
-- received a copy of the GNU General Public License along with --
-- this library; if not, write to the Free Software Foundation, --
-- Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. --
-- --
-- As a special exception, if other files instantiate generics from --
-- this unit, or you link this unit with other files to produce an --
-- executable, this unit does not by itself cause the resulting --
-- executable to be covered by the GNU General Public License. This --
-- exception does not however invalidate any other reasons why the --
-- executable file might be covered by the GNU Public License. --
--____________________________________________________________________--
--
-- The following I/O items are supported by the package:
--
-- (o) Integer numbers (generic, package Integer_Edit)
-- (o) Floating-point numbers (generic, package Float_Edit)
-- (o) Roman numbers (the child package Roman_Edit)
-- (o) Strings
--
-- The major differences to the standard Image/Value attributes and
-- Text_IO procedures.
--
-- 1. For numeric types, the base is neither written nor read. For
-- instance, output of 23 as hexadecimal gives 17, not 16#17#.
--
-- 2. Get procedures do not skip blank characters around input tokens,
-- except the cases when the blank charactes is required by the
-- syntax.
--
-- 3. Get procedures use the current string position pointer, so that
-- they can be consequently called advancing the pointer as the tokes
-- are recognized.
--
-- 4. Numeric get procedures allow to specify the expected value range.
-- When the actual value is out of the range then depending on
-- procedure parameters, either Constrain_Error is propagated or the
-- value is forced to the nearest range boundary.
--
-- 5. Put procedures also use the current string position pointer, which
-- allows to call them consequently.
--
-- 6. The format used for floating-number output is based on the number
-- precision, instead of rather typographic approach of Text_IO. The
-- precision can be specified either as the number of valid digits of
-- the current base (i.e. relative) or as the position of the last
-- valid digit (i.e. absolute). For instance, 12.345678 with relative
-- precision 3 gives 12.3. With absolute precision -3, it gives
-- 12.346.
--
-- G E T P R O C E D U R E S
--
-- Get procedures are used to scan strings. The first two parameters are
-- always Source and Pointer. Source is the string to be scaned. Pointer
-- indicates the current position. After successful completion it is
-- advanced to the first string position following the recognized item.
-- The value of Pointer shall be in the range Source'First ..
-- Source'Last+1. The Layout_Error exception is propagated when this
-- check fails. The third parameter usually accepts the value. The
-- following example shows how to use get procedures:
--
-- package Edit_Float is new Strings_Edit.Float_Edit (Float);
-- use Edit_Float;
--
-- Line : String (1..512); -- A line
-- Pointer : Integer;
-- Value : Float;
-- TabAndSpace : Ada.Strings.Maps.Character_Set :=
-- To_Set (" " & Ada.Characters.Latin_1.HT);
-- begin
-- ...
-- Pointer := Line'First;
-- Get (Line, Pointer, TabAndSpace); -- Skip tabs and spaces
-- Get (Line, Pointer, Value); -- Get number
-- Get (Line, Pointer, TabAndSpace); -- Skip tabs and spaces
-- ...
--
-- The numeric Get procedures have additional parameters controlling the
-- range of the input value. The parameters First and Last define the
-- range of the expected value. The exception Constraint_Error is
-- propagated when the value is not in the range. The exception can be
-- suppressed using the parameters ToFirst and ToLast, which cause the
-- input value to be substituted by the corresponding margin when the
-- parameter is True.
--
-- V A L U E F U N C T I O N S
--
-- Each get procedure returning some value has a corresponding function
-- Value. The function Value has the same parameter profile with the
-- exception that the parameter Pointer is absent and the value is
-- returned via result. Unlike Get the function Value tolerates spaces
-- and tabs around the converted value. The whole string should be
-- matched, otherwise, the exception Data_Error is propagated.
--
-- P U T P R O C E D U R E S
--
-- Put procedures place something into the output string Destination.
-- The string is written starting from Destination (Pointer). The
-- parameter Field defines the output size. When it has the value zero
-- then the output size is defined by the output item. Otherwise the
-- output is justified within the field and the parameter Justify
-- specifies output alignment and the parameter Fill gives the pad
-- character. When Field is greater than Destination'Last - Pointer + 1,
-- the later is used instead. After successful completion Pointer is
-- advanced to the first character following the output or to
-- Destination'Last + 1.
--
-- I M A G E F U N C T I O N S
--
-- Image functions convert a value into string. Unlike standard S'Image
-- they do not place an extra space character.
--
with Ada.Strings.Maps; use Ada.Strings.Maps;
with Ada.Strings;
with Ada.Characters.Latin_1;
package Strings_Edit is
pragma Elaborate_Body (Strings_Edit);
MaxSmall : constant := 250; -- Bigger than any possible
Figures : constant String := "0123456789ABCDEF";
Blanks : constant String := ' ' & Ada.Characters.Latin_1.HT;
SpaceAndTab : constant Character_Set := To_Set (Blanks);
subtype Alignment is Ada.Strings.Alignment;
Center : Alignment renames Ada.Strings.Center;
Left : Alignment renames Ada.Strings.Left;
Right : Alignment renames Ada.Strings.Right;
subtype NumberBase is Integer range 2..16;
--
-- S T R I N G S
--
-- Get -- Skip blank characters
--
-- Source - The string to be processed
-- Pointer - The current position in the string
-- Blank - The blank character
--
-- This procedure skips the character Blank starting from Source
-- (Pointer). Pointer is advanced to the first non-Blank character or
-- to Source'Last + 1.
--
-- Exceptions :
--
-- Layout_Error - Pointer is not in Source'First..Source'Last + 1
--
procedure Get
( Source : String;
Pointer : in out Integer;
Blank : Character := ' '
);
--
-- Get -- Skip blank characters
--
-- Source - The string to be processed
-- Pointer - The current position in the string
-- Blanks - The set characters to be considered as blank ones
--
-- This procedure skips all the characters of the set Blanks starting
-- from Source (Pointer). Pointer is advanced to the first non-blank
-- character or to Source'Last + 1.
--
-- Exceptions :
--
-- Layout_Error - Pointer is not in Source'First..Source'Last + 1
--
procedure Get
( Source : String;
Pointer : in out Integer;
Blanks : Character_Set
);
--
-- Put -- Put a character into a string
--
-- Destination - The string that accepts the output
-- Pointer - The current position in the string
-- Value - The character to be put
-- Field - The output field
-- Justify - Alignment within the field
-- Fill - The fill character
--
-- This procedure places the specified character (Value parameter)
-- into the output string Destination. The string is written starting
-- from the Destination (Pointer).
--
-- Exceptions:
--
-- Layout_Error - Pointer is not in Destination'Range or there is
-- no room for the output.
--
procedure Put
( Destination : in out String;
Pointer : in out Integer;
Value : Character;
Field : Natural := 0;
Justify : Alignment := Left;
Fill : Character := ' '
);
--
-- Put -- Put a string into another string
--
-- Destination - The string that accepts the output
-- Pointer - The current position in the string
-- Value - The string to be put
-- Field - The output field
-- Justify - Alignment within the field
-- Fill - The fill character
--
-- This procedure places the specified by the Value parameter string
-- into the output string Destination. The string is written starting
-- from the Destination (Pointer).
--
-- Exceptions:
--
-- Layout_Error - Pointer is not in Destination'Range or there is
-- no room for the output.
--
procedure Put
( Destination : in out String;
Pointer : in out Integer;
Value : String;
Field : Natural := 0;
Justify : Alignment := Left;
Fill : Character := ' '
);
--
-- R O M A N N U M B E R S
--
-- Roman_Edit -- Child package for roman numbers
--
-- I N T E G E R N U M B E R S
--
-- Integer_Edit -- Generic child package for integer numbers
--
-- F L O A T I N G - P O I N T N U M B E R S
--
-- Float_Edit -- Generic child package for floating-point numbers
--
-- P R E F I X T E S T
--
--
-- Is_Prefix -- Test if Prefix is a prefix of Text
--
-- Prefix - To check
-- Source - The string
-- [ Pointer ] - To start at
-- [ Map ] - Used to convert characters before comparison
--
-- Returns :
--
-- True if Prefix is a prefix of Source
--
function Is_Prefix (Prefix, Source : String) return Boolean;
function Is_Prefix
( Prefix, Source : String;
Pointer : Integer
) return Boolean;
function Is_Prefix
( Prefix, Source : String;
Map : Character_Mapping
) return Boolean;
function Is_Prefix
( Prefix, Source : String;
Pointer : Integer;
Map : Character_Mapping
) return Boolean;
--
-- T R I M F U N C T I O N S
--
-- Trim -- Delete blank characters form string ends
--
-- Source - The string to be processed
-- Blank - The blank character
--
-- This function removes the Blank character from both ends of the
-- string and returns the result.
--
-- Returns :
--
-- The result string
--
function Trim
( Source : String;
Blank : Character := ' '
) return String;
--
-- Trim -- Delete blank characters form string ends
--
-- Source - The string to be processed
-- Blanks - The set of blank characters
--
-- This function removes any characters of the Blanks set from both
-- ends of the string and returns the result.
--
-- Returns :
--
-- The result string
--
function Trim
( Source : String;
Blanks : Character_Set
) return String;
private
pragma Inline (Is_Prefix);
--
-- GetDigit -- Get one digit
--
-- Symbol - To be decoded
--
-- Returns :
--
-- [0..15] The decoded digit value
-- [16] The Symbol is not a digit
--
function GetDigit (Symbol : Character) return Natural;
pragma Inline (GetDigit);
end Strings_Edit;
| 39.669643
| 73
| 0.58474
|
1eaccb52a9bd2e48cac3e0f8467103282e1749f8
| 1,430
|
ads
|
Ada
|
tier-1/xcb/source/thin/xcb-xcb_glx_float32_iterator_t.ads
|
charlie5/cBound
|
741be08197a61ad9c72553e3302f3b669902216d
|
[
"0BSD"
] | 2
|
2015-11-12T11:16:20.000Z
|
2021-08-24T22:32:04.000Z
|
tier-1/xcb/source/thin/xcb-xcb_glx_float32_iterator_t.ads
|
charlie5/cBound
|
741be08197a61ad9c72553e3302f3b669902216d
|
[
"0BSD"
] | 1
|
2018-06-05T05:19:35.000Z
|
2021-11-20T01:13:23.000Z
|
tier-1/xcb/source/thin/xcb-xcb_glx_float32_iterator_t.ads
|
charlie5/cBound
|
741be08197a61ad9c72553e3302f3b669902216d
|
[
"0BSD"
] | null | null | null |
-- This file is generated by SWIG. Please do not modify by hand.
--
with Interfaces.C;
with Interfaces.C;
with Interfaces.C.Pointers;
package xcb.xcb_glx_float32_iterator_t is
-- Item
--
type Item is record
data : access xcb.xcb_glx_float32_t;
the_rem : aliased Interfaces.C.int;
index : aliased Interfaces.C.int;
end record;
-- Item_Array
--
type Item_Array is
array
(Interfaces.C.size_t range <>) of aliased xcb.xcb_glx_float32_iterator_t
.Item;
-- Pointer
--
package C_Pointers is new Interfaces.C.Pointers
(Index => Interfaces.C.size_t,
Element => xcb.xcb_glx_float32_iterator_t.Item,
Element_Array => xcb.xcb_glx_float32_iterator_t.Item_Array,
Default_Terminator => (others => <>));
subtype Pointer is C_Pointers.Pointer;
-- Pointer_Array
--
type Pointer_Array is
array
(Interfaces.C.size_t range <>) of aliased xcb.xcb_glx_float32_iterator_t
.Pointer;
-- Pointer_Pointer
--
package C_Pointer_Pointers is new Interfaces.C.Pointers
(Index => Interfaces.C.size_t,
Element => xcb.xcb_glx_float32_iterator_t.Pointer,
Element_Array => xcb.xcb_glx_float32_iterator_t.Pointer_Array,
Default_Terminator => null);
subtype Pointer_Pointer is C_Pointer_Pointers.Pointer;
end xcb.xcb_glx_float32_iterator_t;
| 26.981132
| 79
| 0.669231
|
1e51a6b2e466d594bef76e34bf028b49c3214be2
| 232
|
adb
|
Ada
|
tests/typing/bad/testfile-inout-10.adb
|
xuedong/mini-ada
|
59a8b966cf50ba22a3b5a7cb449f671e4da32e44
|
[
"MIT"
] | null | null | null |
tests/typing/bad/testfile-inout-10.adb
|
xuedong/mini-ada
|
59a8b966cf50ba22a3b5a7cb449f671e4da32e44
|
[
"MIT"
] | 1
|
2019-03-10T19:13:21.000Z
|
2019-03-10T19:19:46.000Z
|
tests/typing/bad/testfile-inout-10.adb
|
xuedong/mini-ada
|
59a8b966cf50ba22a3b5a7cb449f671e4da32e44
|
[
"MIT"
] | null | null | null |
with Ada.Text_IO; use Ada.Text_IO;
procedure Test is
type R is record A: Integer; end record;
procedure F(X: in out Integer) is begin X := 0; end;
procedure G(X: in R) is begin F(X.A); end; X: R;
begin
G(X);
end Test;
| 21.090909
| 55
| 0.646552
|
8b03d25790be06d5f3cb2f0e926c3ce4c4040490
| 1,133
|
adb
|
Ada
|
Read Only/gdb-7.12.1/gdb/testsuite/gdb.ada/tick_length_array_enum_idx/pck.adb
|
samyvic/OS-Project
|
1622bc1641876584964effd91d65ef02e92728e1
|
[
"Apache-2.0"
] | null | null | null |
Read Only/gdb-7.12.1/gdb/testsuite/gdb.ada/tick_length_array_enum_idx/pck.adb
|
samyvic/OS-Project
|
1622bc1641876584964effd91d65ef02e92728e1
|
[
"Apache-2.0"
] | null | null | null |
Read Only/gdb-7.12.1/gdb/testsuite/gdb.ada/tick_length_array_enum_idx/pck.adb
|
samyvic/OS-Project
|
1622bc1641876584964effd91d65ef02e92728e1
|
[
"Apache-2.0"
] | null | null | null |
-- Copyright 2014-2017 Free Software Foundation, Inc.
--
-- This program is free software; you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation; either version 3 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with this program. If not, see <http://www.gnu.org/licenses/>.
package body Pck is
function New_Variable_Table (Low: Color; High: Color) return Variable_Table
is
Result : Variable_Table (Low .. High);
begin
for J in Low .. High loop
Result (J) := (J = Black or J = Green or J = White);
end loop;
return Result;
end New_Variable_Table;
procedure Do_Nothing (A : System.Address) is
begin
null;
end Do_Nothing;
end Pck;
| 32.371429
| 78
| 0.697264
|
9ab45b286fe1f111d9ebfc1888edb260f536c42d
| 281
|
ads
|
Ada
|
source/containers/a-cosede.ads
|
ytomino/drake
|
4e4bdcd8b8e23a11a29b31d3a8861fdf60090ea2
|
[
"MIT"
] | 33
|
2015-04-04T09:19:36.000Z
|
2021-11-10T05:33:34.000Z
|
source/containers/a-cosede.ads
|
ytomino/drake
|
4e4bdcd8b8e23a11a29b31d3a8861fdf60090ea2
|
[
"MIT"
] | 8
|
2017-11-14T13:05:07.000Z
|
2018-08-09T15:28:49.000Z
|
source/containers/a-cosede.ads
|
ytomino/drake
|
4e4bdcd8b8e23a11a29b31d3a8861fdf60090ea2
|
[
"MIT"
] | 9
|
2015-02-03T17:09:53.000Z
|
2021-11-12T01:16:05.000Z
|
pragma License (Unrestricted);
-- implementation unit
generic
package Ada.Containers.Ordered_Sets.Debug is
pragma Preelaborate;
procedure Dump (Source : Set; Message : String := "");
function Valid (Source : Set) return Boolean;
end Ada.Containers.Ordered_Sets.Debug;
| 23.416667
| 57
| 0.747331
|
1ec3283063cfca19e5e1e757d411aedcfa45f82d
| 4,563
|
adb
|
Ada
|
awa/plugins/awa-workspaces/src/awa-workspaces-beans.adb
|
Letractively/ada-awa
|
3c82a4d29ed6c1209a2ac7d5fe123c142f3cffbe
|
[
"Apache-2.0"
] | null | null | null |
awa/plugins/awa-workspaces/src/awa-workspaces-beans.adb
|
Letractively/ada-awa
|
3c82a4d29ed6c1209a2ac7d5fe123c142f3cffbe
|
[
"Apache-2.0"
] | null | null | null |
awa/plugins/awa-workspaces/src/awa-workspaces-beans.adb
|
Letractively/ada-awa
|
3c82a4d29ed6c1209a2ac7d5fe123c142f3cffbe
|
[
"Apache-2.0"
] | null | null | null |
-----------------------------------------------------------------------
-- awa-workspaces-beans -- Beans for module workspaces
-- Copyright (C) 2011, 2012 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with ASF.Events.Faces.Actions;
with ADO.Sessions;
with AWA.Workspaces.Models;
with AWA.Events.Action_Method;
with AWA.Services.Contexts;
package body AWA.Workspaces.Beans is
-- ------------------------------
-- Example of action method.
-- ------------------------------
procedure Action (Bean : in out Workspaces_Bean;
Outcome : in out Ada.Strings.Unbounded.Unbounded_String) is
begin
null;
end Action;
-- ------------------------------
-- Event action called to create the workspace when the given event is posted.
-- ------------------------------
procedure Create (Bean : in out Workspaces_Bean;
Event : in AWA.Events.Module_Event'Class) is
pragma Unreferenced (Bean, Event);
WS : AWA.Workspaces.Models.Workspace_Ref;
Ctx : constant AWA.Services.Contexts.Service_Context_Access := AWA.Services.Contexts.Current;
DB : ADO.Sessions.Master_Session := AWA.Services.Contexts.Get_Master_Session (Ctx);
begin
Ctx.Start;
AWA.Workspaces.Modules.Get_Workspace (Session => DB,
Context => Ctx,
Workspace => WS);
Ctx.Commit;
end Create;
package Action_Binding is
new ASF.Events.Faces.Actions.Action_Method.Bind (Bean => Workspaces_Bean,
Method => Action,
Name => "action");
package Create_Binding is
new AWA.Events.Action_Method.Bind (Name => "create",
Bean => Workspaces_Bean,
Method => Create);
Workspaces_Bean_Binding : aliased constant Util.Beans.Methods.Method_Binding_Array
:= (Action_Binding.Proxy'Access, Create_Binding.Proxy'Access);
-- ------------------------------
-- Get the value identified by the name.
-- ------------------------------
overriding
function Get_Value (From : in Workspaces_Bean;
Name : in String) return Util.Beans.Objects.Object is
begin
if Name = "count" then
return Util.Beans.Objects.To_Object (From.Count);
else
return Util.Beans.Objects.Null_Object;
end if;
end Get_Value;
-- ------------------------------
-- Set the value identified by the name.
-- ------------------------------
overriding
procedure Set_Value (From : in out Workspaces_Bean;
Name : in String;
Value : in Util.Beans.Objects.Object) is
begin
if Name = "count" then
From.Count := Util.Beans.Objects.To_Integer (Value);
end if;
end Set_Value;
-- ------------------------------
-- This bean provides some methods that can be used in a Method_Expression
-- ------------------------------
overriding
function Get_Method_Bindings (From : in Workspaces_Bean)
return Util.Beans.Methods.Method_Binding_Array_Access is
pragma Unreferenced (From);
begin
return Workspaces_Bean_Binding'Access;
end Get_Method_Bindings;
-- ------------------------------
-- Create the Workspaces_Bean bean instance.
-- ------------------------------
function Create_Workspaces_Bean (Module : in AWA.Workspaces.Modules.Workspace_Module_Access)
return Util.Beans.Basic.Readonly_Bean_Access is
Object : constant Workspaces_Bean_Access := new Workspaces_Bean;
begin
Object.Module := Module;
return Object.all'Access;
end Create_Workspaces_Bean;
end AWA.Workspaces.Beans;
| 38.669492
| 99
| 0.559939
|
031c59b6eb862402f17d020c2f7b898db071c463
| 1,463
|
adb
|
Ada
|
src/cobs-stream-encoder.adb
|
Fabien-Chouteau/COBS
|
155ce5c2ecb4fffdac31df9dccd1a0d0c5916c2b
|
[
"MIT"
] | null | null | null |
src/cobs-stream-encoder.adb
|
Fabien-Chouteau/COBS
|
155ce5c2ecb4fffdac31df9dccd1a0d0c5916c2b
|
[
"MIT"
] | null | null | null |
src/cobs-stream-encoder.adb
|
Fabien-Chouteau/COBS
|
155ce5c2ecb4fffdac31df9dccd1a0d0c5916c2b
|
[
"MIT"
] | null | null | null |
package body COBS.Stream.Encoder is
subtype Dispatch is Instance'Class;
procedure Do_Flush (This : in out Instance);
procedure Do_Flush (This : in out Instance) is
begin
Dispatch (This).Flush
(This.Buffer (This.Buffer'First .. This.Encode_Pointer - 1));
This.Code_Pointer := This.Buffer'First;
This.Encode_Pointer := This.Code_Pointer + 1;
end Do_Flush;
----------
-- Push --
----------
procedure Push (This : in out Instance; Data : Storage_Element) is
begin
if Data /= 0 then
This.Buffer (This.Encode_Pointer) := Data;
This.Encode_Pointer := This.Encode_Pointer + 1;
This.Code := This.Code + 1;
end if;
if Data = 0 or else This.Code = 16#FF# then
This.Buffer (This.Code_Pointer) := This.Code;
This.Prev_Code := This.Code;
Do_Flush (This);
This.Code := 1;
end if;
end Push;
---------------
-- End_Frame --
---------------
procedure End_Frame (This : in out Instance) is
begin
if This.Code /= 1 or else This.Prev_Code /= 16#FF# then
This.Buffer (This.Code_Pointer) := This.Code;
This.Buffer (This.Encode_Pointer) := 0;
This.Encode_Pointer := This.Encode_Pointer + 1;
else
This.Buffer (This.Code_Pointer) := 0;
end if;
Do_Flush (This);
This.Code := 1;
This.Prev_Code := 1;
end End_Frame;
end COBS.Stream.Encoder;
| 24.383333
| 69
| 0.576897
|
1a6f72394a221aab918664a8fed9e8e16bfeb02e
| 6,373
|
ads
|
Ada
|
src/asf-views-facelets.ads
|
jquorning/ada-asf
|
ddc697c5dfa4e22c57c6958f4cff27e14d02ce98
|
[
"Apache-2.0"
] | 12
|
2015-01-18T23:02:20.000Z
|
2022-03-25T15:30:30.000Z
|
src/asf-views-facelets.ads
|
jquorning/ada-asf
|
ddc697c5dfa4e22c57c6958f4cff27e14d02ce98
|
[
"Apache-2.0"
] | 3
|
2021-01-06T09:44:02.000Z
|
2022-02-04T20:20:53.000Z
|
src/asf-views-facelets.ads
|
jquorning/ada-asf
|
ddc697c5dfa4e22c57c6958f4cff27e14d02ce98
|
[
"Apache-2.0"
] | 4
|
2016-04-12T05:29:00.000Z
|
2022-01-24T23:53:59.000Z
|
-----------------------------------------------------------------------
-- asf-views-facelets -- Facelets representation and management
-- Copyright (C) 2009, 2010, 2011, 2014, 2015, 2019, 2021 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Calendar;
with ASF.Views.Nodes;
with ASF.Contexts.Facelets;
with ASF.Factory;
with ASF.Components.Base;
with Ada.Finalization;
private with Ada.Strings.Unbounded;
private with Ada.Containers.Hashed_Sets;
private with Util.Refs;
private with Ada.Strings.Hash;
-- The <b>ASF.Views.Facelets</b> package contains the facelet factory
-- responsible for getting the facelet tree from a facelet name.
-- The facelets (or *.xhtml) files are loaded by the reader to form
-- a tag node tree which is cached by the factory. The facelet factory
-- is shared by multiple requests and threads.
package ASF.Views.Facelets is
type Facelet is private;
-- Returns True if the facelet is null/empty.
function Is_Null (F : Facelet) return Boolean;
-- ------------------------------
-- Facelet factory
-- ------------------------------
-- The facelet factory allows to retrieve the node tree to build the
-- component tree. The node tree can be shared by several component trees.
-- The node tree is initialized from the <b>XHTML</b> view file. It is put
-- in a cache to avoid loading and parsing the file several times.
type Facelet_Factory is limited private;
-- Get the facelet identified by the given name. If the facelet is already
-- loaded, the cached value is returned. The facelet file is searched in
-- a set of directories configured in the facelet factory.
procedure Find_Facelet (Factory : in out Facelet_Factory;
Name : in String;
Context : in ASF.Contexts.Facelets.Facelet_Context'Class;
Result : out Facelet;
Ignore : in Boolean := False);
-- Create the component tree from the facelet view.
procedure Build_View (View : in Facelet;
Context : in out ASF.Contexts.Facelets.Facelet_Context'Class;
Root : in ASF.Components.Base.UIComponent_Access);
-- Initialize the facelet factory.
-- Set the search directories for facelet files.
-- Set the ignore white space configuration when reading XHTML files.
-- Set the ignore empty lines configuration when reading XHTML files.
-- Set the escape unknown tags configuration when reading XHTML files.
procedure Initialize (Factory : in out Facelet_Factory;
Components : access ASF.Factory.Component_Factory;
Paths : in String;
Ignore_White_Spaces : in Boolean;
Ignore_Empty_Lines : in Boolean;
Escape_Unknown_Tags : in Boolean);
-- Find the facelet file in one of the facelet directories.
-- Returns the path to be used for reading the facelet file.
function Find_Facelet_Path (Factory : in Facelet_Factory;
Name : in String) return String;
-- Clear the facelet cache
procedure Clear_Cache (Factory : in out Facelet_Factory);
private
use Ada.Strings.Unbounded;
CHECK_FILE_DELAY : constant := 10.0;
type Facelet_Type (Len : Natural) is limited new Util.Refs.Ref_Entity with record
Root : ASF.Views.Nodes.Tag_Node_Access;
File : ASF.Views.File_Info_Access;
Modify_Time : Ada.Calendar.Time;
Check_Time : Ada.Calendar.Time;
Name : String (1 .. Len);
end record;
type Facelet_Access is access all Facelet_Type;
package Ref is
new Util.Refs.Indefinite_References (Facelet_Type, Facelet_Access);
type Facelet is record
Facelet : Facelet_Access;
end record;
Empty : constant Facelet := (others => <>);
function Hash (Item : in Facelet_Access) return Ada.Containers.Hash_Type is
(Ada.Strings.Hash (Item.Name));
function Compare (Left, Right : in Facelet_Access) return Boolean is
(Left.Name = Right.Name);
-- Tag library map indexed on the library namespace.
package Facelet_Sets is new
Ada.Containers.Hashed_Sets (Element_Type => Facelet_Access,
Hash => Hash,
Equivalent_Elements => Compare);
use Facelet_Sets;
protected type Facelet_Cache is
-- Find the facelet entry associated with the given name.
function Find (Name : in String) return Facelet_Access;
-- Insert or replace the facelet entry associated with the given name.
procedure Insert (Facelet : in Facelet_Access);
-- Clear the cache.
procedure Clear;
private
Map : Facelet_Sets.Set;
end Facelet_Cache;
type Facelet_Factory is new Ada.Finalization.Limited_Controlled with record
Paths : Unbounded_String := To_Unbounded_String ("");
-- The facelet cache.
Map : Facelet_Cache;
-- The component factory
Factory : access ASF.Factory.Component_Factory;
-- Whether the unknown tags are escaped using XML escape rules.
Escape_Unknown_Tags : Boolean := True;
-- Whether white spaces can be ignored.
Ignore_White_Spaces : Boolean := True;
-- Whether empty lines should be ignored (when white spaces are kept).
Ignore_Empty_Lines : Boolean := True;
end record;
-- Free the storage held by the factory cache.
overriding
procedure Finalize (Factory : in out Facelet_Factory);
end ASF.Views.Facelets;
| 39.83125
| 86
| 0.643653
|
193f9bdfdc0cceba31cb8f9a9c6fbe8d28cec8cc
| 2,536
|
ads
|
Ada
|
gcc-gcc-7_3_0-release/gcc/ada/s-valcha.ads
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | 7
|
2020-05-02T17:34:05.000Z
|
2021-10-17T10:15:18.000Z
|
gcc-gcc-7_3_0-release/gcc/ada/s-valcha.ads
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | null | null | null |
gcc-gcc-7_3_0-release/gcc/ada/s-valcha.ads
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | 2
|
2020-07-27T00:22:36.000Z
|
2021-04-01T09:41:02.000Z
|
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- S Y S T E M . V A L _ C H A R --
-- --
-- S p e c --
-- --
-- Copyright (C) 1992-2009, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception, --
-- version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
package System.Val_Char is
pragma Pure;
function Value_Character (Str : String) return Character;
-- Computes Character'Value (Str)
end System.Val_Char;
| 65.025641
| 78
| 0.38959
|
5e06fd881545e11c9eef35e2b7338454728e0f9d
| 5,228
|
ads
|
Ada
|
4-high/gel/applet/demo/skinning/rig/attic/my_box.ads
|
charlie5/lace
|
e9b7dc751d500ff3f559617a6fc3089ace9dc134
|
[
"0BSD"
] | 20
|
2015-11-04T09:23:59.000Z
|
2022-01-14T10:21:42.000Z
|
4-high/gel/applet/demo/skinning/rig/attic/my_box.ads
|
charlie5/lace
|
e9b7dc751d500ff3f559617a6fc3089ace9dc134
|
[
"0BSD"
] | 2
|
2015-11-04T17:05:56.000Z
|
2015-12-08T03:16:13.000Z
|
4-high/gel/applet/demo/skinning/rig/attic/my_box.ads
|
charlie5/lace
|
e9b7dc751d500ff3f559617a6fc3089ace9dc134
|
[
"0BSD"
] | 1
|
2015-12-07T12:53:52.000Z
|
2015-12-07T12:53:52.000Z
|
with openGL.Model,
mmi.Sprite,
mmi.Joint,
mmi.World,
openGL,
opengl.Variable.uniform,
openGL.Program,
float_Math;
private
with collada.Library.visual_scenes;
package my_Box
--
-- Provides access to and control of 'my_Box', a simply rigged collada model with a simple animation.
--
is
package Math renames float_Math;
type Item is tagged limited private;
type View is access all Item'Class;
type bone_Id is (Base, Bone_1, Bone_2);
type collada_joint_Id is (Bone_1, Bone_2);
type joint_inverse_bind_Matrices is array (collada_joint_Id) of math.Matrix_4x4;
type joint_to_bone_site_Offets is array (collada_joint_Id) of math.Vector_3; -- The 'bind time' offset from a joint to its bone.
type bone_Sprites is array (bone_Id) of mmi.Sprite.view;
--- Forge
--
procedure define (Self : in out Item; in_World : in mmi.World.view;
Model : access openGL.Model.item'class;
Mass : in math.Real := 0.0;
is_Kinematic : in Boolean := False);
package Forge is
function new_Box (in_World : in mmi.World.view;
Model : access openGL.Model.item'class;
Mass : in math.Real := 0.0;
is_Kinematic : in Boolean := False) return my_Box.view;
function new_Box (bone_Sprites : in my_box.bone_Sprites ;
joint_inv_bind_Matrices : in joint_inverse_bind_Matrices;
joint_site_Offets : in joint_to_bone_site_Offets ;
Model : access openGL.Model.item'class ) return my_Box.view;
end Forge;
type joint_Id is (base_To_bone_1, bone_1_To_bone_2);
function skin_Sprite (Self : in Item'Class) return mmi.Sprite.view;
function base_Sprite (Self : in Item'Class) return mmi.Sprite.view;
function Sprite (Self : in Item'Class; for_Bone : in bone_Id) return mmi.Sprite.view;
procedure enable_Graphics (Self : in out Item);
procedure attach_program_Parameters_to_model_Faces (Self : in out Item); -- tbd: move into 'enable_Grpahics'
procedure joint_inv_bind_Matrices_are (Self : in out Item'Class; Now : in joint_inverse_bind_Matrices);
function joint_inv_bind_Matrices (Self : in Item'Class) return joint_inverse_bind_Matrices;
function joint_site_Offets (Self : in Item'Class) return joint_to_bone_site_Offets;
procedure evolve (Self : in out Item'Class);
--- Animation
--
type scene_joint_Id is (Bone_1, Bone_2);
type animation_Transforms is array (bone_Id) of math.Matrix_4x4;
procedure animation_Transforms_are (Self : in out Item'Class; Now : in animation_Transforms);
procedure set_x_rotation_Angle (Self : in out Item'Class; for_Joint : in scene_joint_Id;
To : in math.Real);
procedure set_y_rotation_Angle (Self : in out Item'Class; for_Joint : in scene_joint_Id;
To : in math.Real);
procedure set_z_rotation_Angle (Self : in out Item'Class; for_Joint : in scene_joint_Id;
To : in math.Real);
private
type Joints is array (joint_Id) of mmi.Joint.view;
type joint_Transforms is array (collada_joint_Id) of opengl.Matrix_4x4;
type joint_global_Transforms is array (scene_joint_Id) of math.Matrix_4x4;
type collada_Joints is array (scene_joint_Id) of collada.Library.visual_scenes.Node_view;
type skin_program_Parameters is new opengl.Program.Parameters with
record
bone_Transforms : joint_Transforms := (others => openGL.Math.Identity_4x4);
end record;
procedure enable (Self : in out skin_program_Parameters);
type Item is tagged limited
record
bone_Sprites : my_box.bone_Sprites;
skin_Sprite : mmi.Sprite.view;
Joints : my_Box.Joints;
joint_inv_bind_Matrices : joint_inverse_bind_Matrices;
joint_site_Offets : joint_to_bone_site_Offets;
joint_global_Transforms : my_box.joint_global_Transforms;
collada_Joints : my_box.collada_Joints;
root_Joint : collada.Library.visual_scenes.Node_view;
Model : access openGL.Model.item'class;
program_Parameters : aliased skin_program_Parameters;
animation_Transforms : my_Box.animation_Transforms := (others => math.Identity_4x4);
bone_rest_Rotations : my_Box.animation_Transforms := (others => math.Identity_4x4);
end record;
end my_Box;
| 32.880503
| 143
| 0.587414
|
9ae93918c1573c83f53a0838677df8a71e67b2cf
| 769
|
ads
|
Ada
|
src/covidsimform.ads
|
mgrojo/COVID-19_Simulator
|
1857dd9aa170dad72ea1fd97a5317aec0f313b51
|
[
"MIT"
] | 6
|
2020-06-11T07:51:36.000Z
|
2020-09-02T07:07:18.000Z
|
src/covidsimform.ads
|
mgrojo/COVID-19_Simulator
|
1857dd9aa170dad72ea1fd97a5317aec0f313b51
|
[
"MIT"
] | 12
|
2020-10-03T17:55:50.000Z
|
2020-10-29T20:26:15.000Z
|
src/covidsimform.ads
|
mgrojo/COVID-19_Simulator
|
1857dd9aa170dad72ea1fd97a5317aec0f313b51
|
[
"MIT"
] | 1
|
2020-10-03T14:17:49.000Z
|
2020-10-03T14:17:49.000Z
|
with Qt; use Qt;
package CovidSimForm is
type Simulation_Engine is (Lancet, XPH_Pharmaceutical);
covidsim_form : QWidgetH;
procedure covidsim_form_init (parent : QWidgetH := null);
procedure slot_change_simulation_engine (simulation_engine_beautiful_name : QStringH);
pragma Convention (C, slot_change_simulation_engine);
procedure slot_change_scenario (scenario_beautiful_name : QStringH);
pragma Convention (C, slot_change_scenario);
procedure slot_change_iterations (iterations: Integer);
pragma Convention (C, slot_change_iterations);
procedure slot_change_population (population: Integer);
pragma Convention (C, slot_change_population);
procedure slot_export_to_csv;
pragma Convention (C, slot_export_to_csv);
end;
| 29.576923
| 89
| 0.786736
|
032034a95d1f57ad948393774e35fa8dc828f669
| 17,683
|
ads
|
Ada
|
src/asis/asis-set_get.ads
|
jquorning/dynamo
|
10d68571476c270b8e45a9c5ef585fa9139b0d05
|
[
"Apache-2.0"
] | 15
|
2015-01-18T23:04:19.000Z
|
2022-03-01T20:27:08.000Z
|
src/asis/asis-set_get.ads
|
jquorning/dynamo
|
10d68571476c270b8e45a9c5ef585fa9139b0d05
|
[
"Apache-2.0"
] | 16
|
2018-06-10T07:09:30.000Z
|
2022-03-26T18:28:40.000Z
|
src/asis/asis-set_get.ads
|
jquorning/dynamo
|
10d68571476c270b8e45a9c5ef585fa9139b0d05
|
[
"Apache-2.0"
] | 3
|
2015-11-11T18:00:14.000Z
|
2022-01-30T23:08:45.000Z
|
------------------------------------------------------------------------------
-- --
-- ASIS-for-GNAT IMPLEMENTATION COMPONENTS --
-- --
-- A S I S . S E T _ G E T --
-- --
-- S p e c --
-- --
-- Copyright (C) 1995-2010, Free Software Foundation, Inc. --
-- --
-- ASIS-for-GNAT is free software; you can redistribute it and/or modify it --
-- under terms of the GNU General Public License as published by the Free --
-- Software Foundation; either version 2, or (at your option) any later --
-- version. ASIS-for-GNAT is distributed in the hope that it will be use- --
-- ful, but WITHOUT ANY WARRANTY; without even the implied warranty of MER- --
-- CHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General --
-- Public License for more details. You should have received a copy of the --
-- GNU General Public License distributed with ASIS-for-GNAT; see file --
-- COPYING. If not, write to the Free Software Foundation, 51 Franklin --
-- Street, Fifth Floor, Boston, MA 02110-1301, USA. --
-- --
-- --
-- --
-- --
-- --
-- --
-- --
-- --
-- ASIS-for-GNAT was originally developed by the ASIS-for-GNAT team at the --
-- Software Engineering Laboratory of the Swiss Federal Institute of --
-- Technology (LGL-EPFL) in Lausanne, Switzerland, in cooperation with the --
-- Scientific Research Computer Center of Moscow State University (SRCC --
-- MSU), Russia, with funding partially provided by grants from the Swiss --
-- National Science Foundation and the Swiss Academy of Engineering --
-- Sciences. ASIS-for-GNAT is now maintained by AdaCore --
-- (http://www.adacore.com). --
-- --
------------------------------------------------------------------------------
with Ada.Calendar; use Ada.Calendar;
with Asis.Extensions; use Asis.Extensions;
package Asis.Set_Get is
pragma Elaborate_Body (Asis.Set_Get);
-- This package contains the interface routines for setting and getting
-- the values of the internal components of the main ASIS abstractions -
-- Context, Compilation_Unit and Element. All the operations for getting
-- components are defined as functions, but the operations for obtaining
-- the tree nodes from an Element value may change the tree being accessed,
-- which should be considered as the side effect.
-- THE DOCUMENTATION IS INCOMPLETE!!!!!
---------------------------------------
-- String -> Program_Text conversion --
---------------------------------------
function To_Program_Text (S : String) return Program_Text;
-- This function takes the string which is a part of the source code
-- representation and converts it into ASIS Program_Text type. It tries
-- to recognize the wide character encoding and to convert it back into
-- Wide_Character
-------------
-- CONTEXT --
-------------
-------------------------------------
-- Id <-> ASIS Context conversions --
-------------------------------------
function Get_Cont_Id (C : Context) return Context_Id;
function Get_Cont (Id : Context_Id) return Context;
procedure Set_Cont (C : out Context; Id : Context_Id);
-- Assigns the value of Id to the Id fields of a given variable C
-- of the Asis Context type
pragma Inline (Get_Cont_Id);
pragma Inline (Get_Cont);
--------------------------------
-- Getting Context Attributes --
--------------------------------
function Valid (C : Context) return Boolean;
-- checks if its argument is an opened (=valid) Context
-- DO WE REALLY NEED THIS FUNCTION??
----------------------
-- COMPILATION_UNIT --
----------------------
----------------------------------------------
-- Id <-> ASIS Compilation Unit conversions --
----------------------------------------------
function Get_Unit_Id (C_U : Compilation_Unit) return Unit_Id;
function Get_Comp_Unit
(U : Unit_Id;
C : Context_Id)
return Compilation_Unit;
-- this function creates the new value of the Compilation_Unit
-- type; note, that it also sets the field Obtained as equal to
-- the current OS time
function Get_Comp_Unit_List
(U_List : Unit_Id_List;
C : Context_Id)
return Compilation_Unit_List;
-- Creates the ASIS Compilation Unit List from the list of unit Ids
pragma Inline (Get_Unit_Id);
pragma Inline (Get_Comp_Unit);
-----------------------------------------
-- Getting Compilation Unit Attributes --
-----------------------------------------
function Not_Nil (C_U : Compilation_Unit) return Boolean;
-- Check if C_U /= Nil_Compilation_Unit (the name "Exists" is already
-- busy in ASIS
function Nil (C_U : Compilation_Unit) return Boolean;
-- Check if C_U = Nil_Compilation_Unit
function Is_Standard (C_U : Compilation_Unit) return Boolean;
-- Check if C_U represents the predefined package Standard
function Kind (C_U : Compilation_Unit) return Asis.Unit_Kinds;
function Class (C_U : Compilation_Unit) return Unit_Classes;
function Origin (C_U : Compilation_Unit) return Unit_Origins;
function Is_Main_Unit (C_U : Compilation_Unit) return Boolean;
function Top (C_U : Compilation_Unit) return Node_Id;
function Is_Body_Required (C_U : Compilation_Unit) return Boolean;
function Unit_Name (C_U : Compilation_Unit) return String;
function Encl_Cont (C_U : Compilation_Unit) return Context;
function Encl_Cont_Id (C_U : Compilation_Unit) return Context_Id;
function Source_File (C_U : Compilation_Unit) return String;
function Ref_File (C_U : Compilation_Unit) return String;
function Context_Info (C_U : Compilation_Unit) return String;
function Time_Stamp (C_U : Compilation_Unit) return Time;
function Source_Status (C_U : Compilation_Unit)
return Source_File_Statuses;
function Main_Tree (C_U : Compilation_Unit) return Tree_Id;
-------------------
-- Miscellaneous --
-------------------
function "=" (Left, Right : Compilation_Unit) return Boolean;
-- This function "re-implements" the equivalent-to-predefined
-- compare operation for Compilation_Unit. It should never be used in
-- any ASIS application code.
function Valid (C_U : Compilation_Unit) return Boolean;
-- checks, if the argument is valid, that is, if its enclosing
-- Context is opened
procedure Reset_Main_Tree (C_U : Compilation_Unit);
-- If C_U is a main unit in some tree, this procedure resets
-- this tree, otherwise it does nothing. This procedure does not
-- reset the context, it should be done by a caller.
function Get_Configuration_CU
(C_U : Compilation_Unit)
return Compilation_Unit;
-- Returns the ASIS COmpilation unit which represents
-- A_Configuration_Compilation in the enclosing context of C_U
pragma Inline (Not_Nil);
pragma Inline (Nil);
pragma Inline (Is_Standard);
pragma Inline (Kind);
pragma Inline (Class);
pragma Inline (Origin);
pragma Inline (Is_Main_Unit);
pragma Inline (Top);
pragma Inline (Is_Body_Required);
pragma Inline (Unit_Name);
pragma Inline (Encl_Cont);
pragma Inline (Encl_Cont_Id);
pragma Inline (Valid);
-- THIS "INLINE" LIST IS INCOMPLETE!!!
-------------
-- ELEMENT --
-------------
function "=" (Left, Right : Element) return Boolean;
-- This function "re-implements" the equivalent-to-predefined
-- compare operation for Elements. It should never be used in
-- any ASIS application code.
---------
-- Get --
---------
function Node (E : Element) return Node_Id;
function R_Node (E : Element) return Node_Id;
function Node_Field_1 (E : Element) return Node_Id;
function Node_Field_2 (E : Element) return Node_Id;
function Node_Value (E : Element) return Node_Id;
function R_Node_Value (E : Element) return Node_Id;
function Node_Field_1_Value (E : Element) return Node_Id;
function Node_Field_2_Value (E : Element) return Node_Id;
-- Node, R_Node and Node_Field_1 reset the tree when returning
-- the node value in a way that the returned node will be the
-- proper node value for the tree being accessed by ASIS,
-- whereas Node_Value, R_Node_Value and Node_Field_1_Value
-- just return the node value without changing the currently
-- accessed tree
function Encl_Unit (E : Element) return Compilation_Unit;
function Encl_Unit_Id (E : Element) return Unit_Id;
function Encl_Cont (E : Element) return Context;
function Encl_Cont_Id (E : Element) return Context_Id;
function Kind (E : Element) return Asis.Element_Kinds;
function Int_Kind (E : Element) return Internal_Element_Kinds;
function Is_From_Implicit (E : Element) return Boolean;
function Is_From_Inherited (E : Element) return Boolean;
function Is_From_Instance (E : Element) return Boolean;
function Special_Case (E : Element) return Special_Cases;
function Normalization_Case (E : Element) return Normalization_Cases;
function Parenth_Count (E : Element) return Nat;
function Encl_Tree (E : Element) return Tree_Id;
function Rel_Sloc (E : Element) return Source_Ptr;
function Character_Code (E : Element) return Char_Code;
function Obtained (E : Element) return ASIS_OS_Time;
function Location (E : Asis.Element) return Source_Ptr;
-- this function returns not relative (as Rel_Sloc does), but
-- "absolute" location of the source position corresponding
-- to the Node on which E is based. This function is
-- "tree-swapping-safe"
function Valid (E : Element) return Boolean;
-- checks, if the argument is valid, that is, if the enclosing
-- Context of its enclosing Unit is opened
pragma Inline (Node);
pragma Inline (R_Node);
pragma Inline (Encl_Unit);
pragma Inline (Encl_Unit_Id);
pragma Inline (Encl_Cont);
pragma Inline (Encl_Cont_Id);
pragma Inline (Kind);
pragma Inline (Int_Kind);
pragma Inline (Is_From_Implicit);
pragma Inline (Is_From_Inherited);
pragma Inline (Is_From_Instance);
pragma Inline (Special_Case);
pragma Inline (Encl_Tree);
pragma Inline (Rel_Sloc);
pragma Inline (Valid);
---------
-- Set --
---------
procedure Set_Node (E : in out Element; N : Node_Id);
procedure Set_R_Node (E : in out Element; N : Node_Id);
procedure Set_Node_Field_1 (E : in out Element; N : Node_Id);
procedure Set_Node_Field_2 (E : in out Element; N : Node_Id);
procedure Set_Encl_Unit_Id (E : in out Element; U : Unit_Id);
procedure Set_Enclosing_Context (E : in out Element; C : Context_Id);
procedure Set_Obtained (E : in out Element; T : ASIS_OS_Time);
procedure Set_Int_Kind (E : in out Element;
K : Internal_Element_Kinds);
procedure Set_From_Implicit (E : in out Element; I : Boolean := True);
procedure Set_From_Inherited (E : in out Element; I : Boolean := True);
procedure Set_From_Instance (E : in out Element; I : Boolean := True);
procedure Set_Special_Case (E : in out Element; S : Special_Cases);
procedure Set_Rel_Sloc (E : in out Element; S : Source_Ptr);
procedure Set_Character_Code (E : in out Element; C : Char_Code);
procedure Set_Encl_Tree (E : in out Element; T : Tree_Id);
procedure Set_Normalization_Case (E : in out Element;
N : Normalization_Cases);
procedure Set_Parenth_Count (E : in out Element; Val : Nat);
function Set_Element
(Node : Node_Id;
R_Node : Node_Id;
Node_Field_1 : Node_Id;
Node_Field_2 : Node_Id;
Encl_Unit : Compilation_Unit;
-- contains Ids for both Enclosing Compilation Unit and Enclosing
-- Context
Int_Kind : Internal_Element_Kinds;
Implicit : Boolean;
Inherited : Boolean;
Instance : Boolean;
Spec_Case : Special_Cases;
Norm_Case : Normalization_Cases;
Par_Count : Nat;
Character_Code : Char_Code)
return Element;
-- Constructs and returns the ASIS Element value on the base of
-- Element attributes
-- Note, that it should not be any parameter passed for the
-- Enclosing_Tree field, because this field should be set equal
-- to the Id of the tree being currently accessed!
-- Note also, that it should not be any parameter passed for the
-- Rel_Scr field, because this field should be computed as the
-- difference between the source location of the node upon
-- the given element is to be built (that is, passed as the
-- actual for the Node parameter, and the top node of the
-- Element's enclosing Unit.
--
-- It is supposed, that this function is called as the part of the
-- constructing of the new element during processing some ASIS
-- query, so the actuals for Node, R_Node and the current setting of
-- the top node for the Unit pointed by Encl_Unit are consistent.
-- See also A4G.Mapping (body).
function Set_In_List
(EL : Element_List;
Node_Field_1 : Node_Id := Empty;
Implicit : Boolean := False;
Inherited : Boolean := False)
return Element_List;
-- For all the Elements in EL sets their fields Node_Field_1,
-- Is_Part_Of_Implicit, Is_Part_Of_Inherited to the values passed as
-- actuals accordingly for Node_Field_1, Implicit and Inherited.
procedure Convert_To_Limited_View (El : in out Asis.Element);
-- Provided that A4G.A_Sem.Belongs_To_Limited_View (El), changes its
-- internal representation in such a way that El represents the limited
-- view of the corresponding type or package. This includes changing of the
-- Element kind for type elements.
Char_Literal_Spec_Template : Element;
-- Used as a template for creating lists of
-- An_Enumeration_Literal_Specification representing defining
-- character literals of types Standard.Character and
-- Standard.Wide_Character. This variable is initialized in package body
Numeric_Error_Template : Element;
-- Used as a template for the artificial elements representing the obsolete
-- renaming of Numeric_Error exception in package Standard and components
-- thereof.
-----------------------------------------------------------
-- Special processing for Elements representing root and --
-- universal numeric types in ASIS --
-----------------------------------------------------------
function Set_Root_Type_Declaration
(Int_Kind : Internal_Element_Kinds;
Cont : Context_Id)
return Element;
-- Constructs and returns the ASIS Element representing the declaration
-- of a root or universal numeric type. If an actual for Int_Kind does
-- not belong to Internal_Root_Type_Kinds, Nil_Element is returned.
-- Otherwise the child element of the result returned by the
-- Type_Declaration_View function should be of Int_Kind kind.
-- Every opened Context contains exactly one Element representing
-- the declaration of a given root or universal numeric type.
-- These elements (as well as their child elements) have no Node to
-- be based upon (they simply do not need such a Node), they are
-- implicit declarations located in the predefined Standard package.
function Is_Root_Num_Type (Declaration : Asis.Declaration) return Boolean;
-- Checks if Declaration is A_Type_Declaration Element representing
-- the declaration of a root or universal numeric type.
function Root_Type_Definition
(Declaration : Asis.Declaration)
return Asis.Definition;
-- Transforms A_Type_Declaration Element representing the declaration
-- of a root or universal numeric type into the corresponding type
-- definition (being of Root_Type_Kinds). This function does not
-- check if its argument really represents the declaration of a root
-- or universal numeric type
end Asis.Set_Get;
| 46.290576
| 79
| 0.60216
|
8bde1aa8b13e5315593bfa542ab75ecb1a9e77ba
| 1,749
|
ads
|
Ada
|
resources/scripts/api/binaryedge.ads
|
mzpqnxow/Amass
|
798f0f113cd44b59fe950d5020b394d6804839f0
|
[
"Apache-2.0"
] | 11
|
2020-08-19T01:01:42.000Z
|
2022-02-12T08:36:53.000Z
|
resources/scripts/api/binaryedge.ads
|
mzpqnxow/Amass
|
798f0f113cd44b59fe950d5020b394d6804839f0
|
[
"Apache-2.0"
] | null | null | null |
resources/scripts/api/binaryedge.ads
|
mzpqnxow/Amass
|
798f0f113cd44b59fe950d5020b394d6804839f0
|
[
"Apache-2.0"
] | 2
|
2020-11-10T17:13:54.000Z
|
2021-01-23T07:23:24.000Z
|
-- Copyright 2017 Jeff Foley. All rights reserved.
-- Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.
local json = require("json")
name = "BinaryEdge"
type = "api"
function start()
setratelimit(2)
end
function check()
if (api ~= nil and api.key ~= nil and api.key ~= "") then
return true
end
return false
end
function vertical(ctx, domain)
if check() then
apiquery(ctx, domain)
end
end
function apiquery(ctx, domain)
local hdrs={
['X-KEY']=api["key"],
['Content-Type']="application/json",
}
for i=1,500 do
local resp
local vurl = apiurl(domain, i)
-- Check if the response data is in the graph database
if (api.ttl ~= nil and api.ttl > 0) then
resp = obtain_response(vurl, api.ttl)
end
if (resp == nil or resp == "") then
local err
resp, err = request({
url=vurl,
headers=hdrs,
})
if (err ~= nil and err ~= "") then
return
end
if (api.ttl ~= nil and api.ttl > 0) then
cache_response(vurl, resp)
end
end
local d = json.decode(resp)
if (d == nil or #(d.events) == 0) then
return
end
for i, v in pairs(d.events) do
newname(ctx, v)
end
if (d.page > 500 or d.page > (d.total / d.pagesize)) then
return
end
active(ctx)
checkratelimit()
end
end
function apiurl(domain, pagenum)
return "https://api.binaryedge.io/v2/query/domains/subdomain/" .. domain .. "?page=" .. pagenum
end
| 22.714286
| 99
| 0.525443
|
199e3e8094741ad1f0ba871537f453d85d914c63
| 10,795
|
ads
|
Ada
|
src/gnat/prj-conf.ads
|
Letractively/ada-gen
|
d06d03821057f9177f2350e32dd09e467df08612
|
[
"Apache-2.0"
] | null | null | null |
src/gnat/prj-conf.ads
|
Letractively/ada-gen
|
d06d03821057f9177f2350e32dd09e467df08612
|
[
"Apache-2.0"
] | null | null | null |
src/gnat/prj-conf.ads
|
Letractively/ada-gen
|
d06d03821057f9177f2350e32dd09e467df08612
|
[
"Apache-2.0"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- P R J . C O N F --
-- --
-- S p e c --
-- --
-- Copyright (C) 2006-2009, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING3. If not, go to --
-- http://www.gnu.org/licenses for a complete copy of the license. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- The following package manipulates the configuration files
with Prj.Tree;
package Prj.Conf is
type Config_File_Hook is access procedure
(Config_File : in out Prj.Tree.Project_Node_Id;
Project_Node_Tree : Prj.Tree.Project_Node_Tree_Ref);
-- Hook called after the config file has been parsed. This lets the
-- application do last minute changes to it (GPS uses this to add the
-- default naming schemes for instance). At that point, the config file
-- has not been applied to the project yet. When no config file was found,
-- and automatic generation is disabled, it is possible that Config_File
-- is set to Empty_Node when this procedure is called. You can then decide
-- to create a new config file if you need.
procedure Parse_Project_And_Apply_Config
(Main_Project : out Prj.Project_Id;
User_Project_Node : out Prj.Tree.Project_Node_Id;
Config_File_Name : String := "";
Autoconf_Specified : Boolean;
Project_File_Name : String;
Project_Tree : Prj.Project_Tree_Ref;
Project_Node_Tree : Prj.Tree.Project_Node_Tree_Ref;
Packages_To_Check : String_List_Access;
Allow_Automatic_Generation : Boolean := True;
Automatically_Generated : out Boolean;
Config_File_Path : out String_Access;
Target_Name : String := "";
Normalized_Hostname : String;
Flags : Processing_Flags;
On_Load_Config : Config_File_Hook := null);
-- Find the main configuration project and parse the project tree rooted at
-- this configuration project.
--
-- Project_Node_Tree must have been initialized first (and possibly the
-- value for external references and project path should also have been
-- set).
--
-- If the processing fails, Main_Project is set to No_Project. If the error
-- happened while parsing the project itself (i.e. creating the tree),
-- User_Project_Node is also set to Empty_Node.
--
-- Autoconf_Specified indicates whether the user has specified --autoconf.
-- If this is the case, the config file might be (re)generated, as
-- appropriate, to match languages and target if the one specified doesn't
-- already match.
--
-- Normalized_Hostname is the host on which gprbuild is returned,
-- normalized so that we can more easily compare it with what is stored in
-- configuration files. It is used when the target is unspecified, although
-- we need to know the target specified by the user (Target_Name) when
-- computing the name of the default config file that should be used.
--
-- If specified, On_Load_Config is called just after the config file has
-- been created/loaded. You can then modify it before it is later applied
-- to the project itself.
--
-- Any error in generating or parsing the config file is reported via the
-- Invalid_Config exception, with an appropriate message. Any error while
-- parsing the project file results in No_Project.
procedure Process_Project_And_Apply_Config
(Main_Project : out Prj.Project_Id;
User_Project_Node : Prj.Tree.Project_Node_Id;
Config_File_Name : String := "";
Autoconf_Specified : Boolean;
Project_Tree : Prj.Project_Tree_Ref;
Project_Node_Tree : Prj.Tree.Project_Node_Tree_Ref;
Packages_To_Check : String_List_Access;
Allow_Automatic_Generation : Boolean := True;
Automatically_Generated : out Boolean;
Config_File_Path : out String_Access;
Target_Name : String := "";
Normalized_Hostname : String;
Flags : Processing_Flags;
On_Load_Config : Config_File_Hook := null;
Reset_Tree : Boolean := True);
-- Same as above, except the project must already have been parsed through
-- Prj.Part.Parse, and only the processing of the project and the
-- configuration is done at this level.
--
-- If Reset_Tree is true, all projects are first removed from the tree.
-- When_No_Sources indicates what should be done when no sources are found
-- for one of the languages of the project.
--
-- If Require_Sources_Other_Lang is true, then all languages must have at
-- least one source file, or an error is reported via When_No_Sources. If
-- it is false, this is only required for Ada (and only if it is a language
-- of the project).
Invalid_Config : exception;
procedure Get_Or_Create_Configuration_File
(Project : Prj.Project_Id;
Project_Tree : Prj.Project_Tree_Ref;
Project_Node_Tree : Prj.Tree.Project_Node_Tree_Ref;
Allow_Automatic_Generation : Boolean;
Config_File_Name : String := "";
Autoconf_Specified : Boolean;
Target_Name : String := "";
Normalized_Hostname : String;
Packages_To_Check : String_List_Access := null;
Config : out Prj.Project_Id;
Config_File_Path : out String_Access;
Automatically_Generated : out Boolean;
Flags : Processing_Flags;
On_Load_Config : Config_File_Hook := null);
-- Compute the name of the configuration file that should be used. If no
-- default configuration file is found, a new one will be automatically
-- generated if Allow_Automatic_Generation is true.
--
-- Any error in generating or parsing the config file is reported via the
-- Invalid_Config exception, with an appropriate message.
--
-- On exit, Configuration_Project_Path is never null (if none could be
-- found, Os.Fail was called and the program exited anyway).
--
-- The choice and generation of a configuration file depends on several
-- attributes of the user's project file (given by the Project argument),
-- e.g. list of languages that must be supported. Project must therefore
-- have been partially processed (phase one of the processing only).
--
-- Config_File_Name should be set to the name of the config file specified
-- by the user (either through gprbuild's --config or --autoconf switches).
-- In the latter case, Autoconf_Specified should be set to true to indicate
-- that the configuration file can be regenerated to match target and
-- languages. This name can either be an absolute path, or the base name
-- that will be searched in the default config file directories (which
-- depends on the installation path for the tools).
--
-- Target_Name is used to chose the configuration file that will be used
-- from among several possibilities.
--
-- If a project file could be found, it is automatically parsed and
-- processed (and Packages_To_Check is used to indicate which packages
-- should be processed)
procedure Apply_Config_File
(Config_File : Prj.Project_Id;
Project_Tree : Prj.Project_Tree_Ref);
-- Apply the configuration file settings to all the projects in the
-- project tree. The Project_Tree must have been parsed first, and
-- processed through the first phase so that all its projects are known.
--
-- Currently, this will add new attributes and packages in the various
-- projects, so that when the second phase of the processing is performed
-- these attributes are automatically taken into account.
procedure Add_Default_GNAT_Naming_Scheme
(Config_File : in out Prj.Tree.Project_Node_Id;
Project_Tree : Prj.Tree.Project_Node_Tree_Ref);
-- A hook that will create a new config file (in memory), used for
-- Get_Or_Create_Configuration_File and Process_Project_And_Apply_Config
-- and add the default GNAT naming scheme to it. Nothing is done if the
-- config_file already exists, to avoid overriding what the user might
-- have put in there.
--------------
-- Runtimes --
--------------
procedure Set_Runtime_For (Language : Name_Id; RTS_Name : String);
-- Specifies the runtime to use for a specific language. Most of the time
-- this should be used for Ada, but other languages can also specify their
-- own runtime. This is in general specified via the --RTS command line
-- switch, and results in a specific component passed to gprconfig's
-- --config switch then automatically generating a configuration file.
function Runtime_Name_For (Language : Name_Id) return String;
-- Returns the runtime name for a language. Returns an empty string if no
-- runtime was specified for the language using option --RTS.
end Prj.Conf;
| 53.706468
| 79
| 0.62214
|
045eb1f7e7a352bbdfe8db3208d75e9af559198c
| 1,809
|
ads
|
Ada
|
source/oasis/program-elements-at_clauses.ads
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | null | null | null |
source/oasis/program-elements-at_clauses.ads
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | null | null | null |
source/oasis/program-elements-at_clauses.ads
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | 1
|
2019-10-16T09:05:27.000Z
|
2019-10-16T09:05:27.000Z
|
-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
with Program.Elements.Representation_Clauses;
with Program.Lexical_Elements;
with Program.Elements.Identifiers;
with Program.Elements.Expressions;
package Program.Elements.At_Clauses is
pragma Pure (Program.Elements.At_Clauses);
type At_Clause is
limited interface
and Program.Elements.Representation_Clauses.Representation_Clause;
type At_Clause_Access is access all At_Clause'Class with Storage_Size => 0;
not overriding function Name
(Self : At_Clause)
return not null Program.Elements.Identifiers.Identifier_Access
is abstract;
not overriding function Expression
(Self : At_Clause)
return not null Program.Elements.Expressions.Expression_Access
is abstract;
type At_Clause_Text is limited interface;
type At_Clause_Text_Access is access all At_Clause_Text'Class
with Storage_Size => 0;
not overriding function To_At_Clause_Text
(Self : in out At_Clause)
return At_Clause_Text_Access is abstract;
not overriding function For_Token
(Self : At_Clause_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
not overriding function Use_Token
(Self : At_Clause_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
not overriding function At_Token
(Self : At_Clause_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
not overriding function Semicolon_Token
(Self : At_Clause_Text)
return not null Program.Lexical_Elements.Lexical_Element_Access
is abstract;
end Program.Elements.At_Clauses;
| 29.655738
| 78
| 0.739082
|
38aa513583095dc291b403d78f53a23bf564ccdf
| 675
|
adb
|
Ada
|
src/lab-code/car-blinker/common/src/control.adb
|
hannesb0/rtpl18
|
6cd1ff776b98695713de88586391139447edb320
|
[
"MIT"
] | null | null | null |
src/lab-code/car-blinker/common/src/control.adb
|
hannesb0/rtpl18
|
6cd1ff776b98695713de88586391139447edb320
|
[
"MIT"
] | null | null | null |
src/lab-code/car-blinker/common/src/control.adb
|
hannesb0/rtpl18
|
6cd1ff776b98695713de88586391139447edb320
|
[
"MIT"
] | null | null | null |
with Text_IO;
package body Control is
procedure Put_Line (S: String) is
begin
Text_IO.Put_Line(S);
end Put_Line;
function Get_Line return String is
S: String(1..5) := (others => ASCII.NUL);
Char : Character;
begin
for I in 1 .. 3 loop
Text_IO.Get(Char);
Text_IO.Put(Char);
S(I) := Char;
end loop;
--S := Text_IO.Get_Line;
return S;
end Get_Line;
procedure Toggle_LedR is
begin
null;
end;
procedure Toggle_LedL is
begin
null;
end;
procedure Off_LedR is
begin
null;
end;
procedure Off_LedL is
begin
null;
end;
end Control;
| 15.697674
| 47
| 0.573333
|
19c457e10f0f994259787aa924ee65e65d6f2ea4
| 428,610
|
adb
|
Ada
|
LSTMcell/hls/LSTMcell/solution1/.autopilot/db/exp_generic_double_s.sched.adb
|
JerrytTom/FPGA-Based-LSTM-Accelerator
|
512253b82b5966e7914477d0317c4671c87853de
|
[
"MIT"
] | 3
|
2021-07-02T03:26:35.000Z
|
2021-12-07T02:52:51.000Z
|
LSTMcell/hls/LSTMcell/solution1/.autopilot/db/exp_generic_double_s.sched.adb
|
JerrytTom/FPGA-Based-LSTM-Accelerator
|
512253b82b5966e7914477d0317c4671c87853de
|
[
"MIT"
] | null | null | null |
LSTMcell/hls/LSTMcell/solution1/.autopilot/db/exp_generic_double_s.sched.adb
|
JerrytTom/FPGA-Based-LSTM-Accelerator
|
512253b82b5966e7914477d0317c4671c87853de
|
[
"MIT"
] | 3
|
2021-08-29T14:24:54.000Z
|
2022-01-28T11:22:34.000Z
|
<?xml version="1.0" encoding="UTF-8" standalone="yes" ?>
<!DOCTYPE boost_serialization>
<boost_serialization signature="serialization::archive" version="15">
<syndb class_id="0" tracking_level="0" version="0">
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<Value>
<Obj>
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</inlineStackInfo>
<originalName></originalName>
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</Value>
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<content>43</content>
</item>
<item class_id_reference="16" object_id="_195">
<Value>
<Obj>
<type>2</type>
<id>344</id>
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</inlineStackInfo>
<originalName></originalName>
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</Obj>
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</Value>
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<content>50</content>
</item>
<item class_id_reference="16" object_id="_196">
<Value>
<Obj>
<type>2</type>
<id>348</id>
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<fileName></fileName>
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</inlineStackInfo>
<originalName></originalName>
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</Obj>
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</Value>
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<content>35</content>
</item>
<item class_id_reference="16" object_id="_197">
<Value>
<Obj>
<type>2</type>
<id>350</id>
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</inlineStackInfo>
<originalName></originalName>
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</Obj>
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</Value>
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<content>42</content>
</item>
<item class_id_reference="16" object_id="_198">
<Value>
<Obj>
<type>2</type>
<id>355</id>
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<fileName></fileName>
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</inlineStackInfo>
<originalName></originalName>
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</Value>
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<item class_id_reference="16" object_id="_199">
<Value>
<Obj>
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<id>357</id>
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</inlineStackInfo>
<originalName></originalName>
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</Obj>
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</Value>
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</item>
<item class_id_reference="16" object_id="_200">
<Value>
<Obj>
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<id>367</id>
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</inlineStackInfo>
<originalName></originalName>
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</Obj>
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</Value>
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</item>
<item class_id_reference="16" object_id="_201">
<Value>
<Obj>
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<id>369</id>
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</inlineStackInfo>
<originalName></originalName>
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</Obj>
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</Value>
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</item>
<item class_id_reference="16" object_id="_202">
<Value>
<Obj>
<type>2</type>
<id>383</id>
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<fileName></fileName>
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</inlineStackInfo>
<originalName></originalName>
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</Obj>
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</Value>
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</item>
<item class_id_reference="16" object_id="_203">
<Value>
<Obj>
<type>2</type>
<id>394</id>
<name>empty</name>
<fileName></fileName>
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<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
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</Value>
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<content>59</content>
</item>
<item class_id_reference="16" object_id="_204">
<Value>
<Obj>
<type>2</type>
<id>396</id>
<name>empty</name>
<fileName></fileName>
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<inlineStackInfo>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
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</Value>
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</item>
<item class_id_reference="16" object_id="_205">
<Value>
<Obj>
<type>2</type>
<id>412</id>
<name>empty</name>
<fileName></fileName>
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</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
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</Value>
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</item>
<item class_id_reference="16" object_id="_206">
<Value>
<Obj>
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<id>414</id>
<name>empty</name>
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</inlineStackInfo>
<originalName></originalName>
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</Obj>
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</Value>
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</item>
<item class_id_reference="16" object_id="_207">
<Value>
<Obj>
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<id>428</id>
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</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
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</Value>
<const_type>0</const_type>
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</item>
<item class_id_reference="16" object_id="_208">
<Value>
<Obj>
<type>2</type>
<id>430</id>
<name>empty</name>
<fileName></fileName>
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</inlineStackInfo>
<originalName></originalName>
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</Obj>
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</Value>
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</item>
<item class_id_reference="16" object_id="_209">
<Value>
<Obj>
<type>2</type>
<id>437</id>
<name>empty</name>
<fileName></fileName>
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<inlineStackInfo>
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</inlineStackInfo>
<originalName></originalName>
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</Obj>
<bitwidth>2</bitwidth>
</Value>
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</item>
<item class_id_reference="16" object_id="_210">
<Value>
<Obj>
<type>2</type>
<id>454</id>
<name>empty</name>
<fileName></fileName>
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<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<const_type>0</const_type>
<content>8</content>
</item>
<item class_id_reference="16" object_id="_211">
<Value>
<Obj>
<type>2</type>
<id>458</id>
<name>empty</name>
<fileName></fileName>
<fileDirectory></fileDirectory>
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<contextFuncName></contextFuncName>
<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
<bitwidth>59</bitwidth>
</Value>
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</item>
<item class_id_reference="16" object_id="_212">
<Value>
<Obj>
<type>2</type>
<id>468</id>
<name>empty</name>
<fileName></fileName>
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<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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</Obj>
<bitwidth>49</bitwidth>
</Value>
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</item>
<item class_id_reference="16" object_id="_213">
<Value>
<Obj>
<type>2</type>
<id>484</id>
<name>empty</name>
<fileName></fileName>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<const_type>0</const_type>
<content>106</content>
</item>
<item class_id_reference="16" object_id="_214">
<Value>
<Obj>
<type>2</type>
<id>486</id>
<name>empty</name>
<fileName></fileName>
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<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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</Obj>
<bitwidth>13</bitwidth>
</Value>
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</item>
<item class_id_reference="16" object_id="_215">
<Value>
<Obj>
<type>2</type>
<id>493</id>
<name>empty</name>
<fileName></fileName>
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<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
<bitwidth>12</bitwidth>
</Value>
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</item>
<item class_id_reference="16" object_id="_216">
<Value>
<Obj>
<type>2</type>
<id>507</id>
<name>empty</name>
<fileName></fileName>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<const_type>0</const_type>
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</item>
<item class_id_reference="16" object_id="_217">
<Value>
<Obj>
<type>2</type>
<id>509</id>
<name>empty</name>
<fileName></fileName>
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</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
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</item>
<item class_id_reference="16" object_id="_218">
<Value>
<Obj>
<type>2</type>
<id>512</id>
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<fileName></fileName>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
<bitwidth>3</bitwidth>
</Value>
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</item>
<item class_id_reference="16" object_id="_219">
<Value>
<Obj>
<type>2</type>
<id>519</id>
<name>empty</name>
<fileName></fileName>
<fileDirectory></fileDirectory>
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<inlineStackInfo>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<const_type>0</const_type>
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</item>
<item class_id_reference="16" object_id="_220">
<Value>
<Obj>
<type>2</type>
<id>524</id>
<name>empty</name>
<fileName></fileName>
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<inlineStackInfo>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>13</bitwidth>
</Value>
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<content>7170</content>
</item>
<item class_id_reference="16" object_id="_221">
<Value>
<Obj>
<type>2</type>
<id>529</id>
<name>empty</name>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<const_type>0</const_type>
<content>54</content>
</item>
<item class_id_reference="16" object_id="_222">
<Value>
<Obj>
<type>2</type>
<id>531</id>
<name>empty</name>
<fileName></fileName>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<const_type>0</const_type>
<content>105</content>
</item>
<item class_id_reference="16" object_id="_223">
<Value>
<Obj>
<type>2</type>
<id>536</id>
<name>empty</name>
<fileName></fileName>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
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</item>
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<Value>
<Obj>
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<id>595</id>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
<bitwidth>64</bitwidth>
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<Value>
<Obj>
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<id>597</id>
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</inlineStackInfo>
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<coreName></coreName>
</Obj>
<bitwidth>64</bitwidth>
</Value>
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<Obj>
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<id>606</id>
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</inlineStackInfo>
<originalName></originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>64</bitwidth>
</Value>
<const_type>1</const_type>
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</item>
</consts>
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<item_version>0</item_version>
</inlineStackInfo>
<originalName></originalName>
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<coreName></coreName>
</Obj>
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<item>104</item>
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<item>125</item>
<item>126</item>
<item>127</item>
<item>128</item>
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</item>
<item>
<first>67</first>
<second>
<first>8</first>
<second>0</second>
</second>
</item>
<item>
<first>68</first>
<second>
<first>8</first>
<second>0</second>
</second>
</item>
<item>
<first>69</first>
<second>
<first>8</first>
<second>0</second>
</second>
</item>
<item>
<first>70</first>
<second>
<first>8</first>
<second>0</second>
</second>
</item>
<item>
<first>71</first>
<second>
<first>8</first>
<second>1</second>
</second>
</item>
<item>
<first>72</first>
<second>
<first>9</first>
<second>0</second>
</second>
</item>
<item>
<first>73</first>
<second>
<first>9</first>
<second>0</second>
</second>
</item>
<item>
<first>74</first>
<second>
<first>9</first>
<second>0</second>
</second>
</item>
<item>
<first>75</first>
<second>
<first>9</first>
<second>0</second>
</second>
</item>
<item>
<first>76</first>
<second>
<first>8</first>
<second>0</second>
</second>
</item>
<item>
<first>77</first>
<second>
<first>8</first>
<second>0</second>
</second>
</item>
<item>
<first>78</first>
<second>
<first>8</first>
<second>1</second>
</second>
</item>
<item>
<first>79</first>
<second>
<first>10</first>
<second>0</second>
</second>
</item>
<item>
<first>80</first>
<second>
<first>12</first>
<second>0</second>
</second>
</item>
<item>
<first>81</first>
<second>
<first>10</first>
<second>0</second>
</second>
</item>
<item>
<first>82</first>
<second>
<first>10</first>
<second>0</second>
</second>
</item>
<item>
<first>83</first>
<second>
<first>10</first>
<second>1</second>
</second>
</item>
<item>
<first>84</first>
<second>
<first>11</first>
<second>0</second>
</second>
</item>
<item>
<first>85</first>
<second>
<first>12</first>
<second>0</second>
</second>
</item>
<item>
<first>86</first>
<second>
<first>12</first>
<second>0</second>
</second>
</item>
<item>
<first>87</first>
<second>
<first>12</first>
<second>0</second>
</second>
</item>
<item>
<first>88</first>
<second>
<first>12</first>
<second>0</second>
</second>
</item>
<item>
<first>89</first>
<second>
<first>11</first>
<second>0</second>
</second>
</item>
<item>
<first>90</first>
<second>
<first>11</first>
<second>0</second>
</second>
</item>
<item>
<first>91</first>
<second>
<first>11</first>
<second>1</second>
</second>
</item>
<item>
<first>92</first>
<second>
<first>12</first>
<second>0</second>
</second>
</item>
<item>
<first>93</first>
<second>
<first>13</first>
<second>0</second>
</second>
</item>
<item>
<first>94</first>
<second>
<first>13</first>
<second>0</second>
</second>
</item>
<item>
<first>95</first>
<second>
<first>13</first>
<second>0</second>
</second>
</item>
<item>
<first>96</first>
<second>
<first>13</first>
<second>1</second>
</second>
</item>
<item>
<first>97</first>
<second>
<first>14</first>
<second>0</second>
</second>
</item>
<item>
<first>98</first>
<second>
<first>15</first>
<second>0</second>
</second>
</item>
<item>
<first>99</first>
<second>
<first>15</first>
<second>0</second>
</second>
</item>
<item>
<first>100</first>
<second>
<first>15</first>
<second>0</second>
</second>
</item>
<item>
<first>101</first>
<second>
<first>15</first>
<second>0</second>
</second>
</item>
<item>
<first>102</first>
<second>
<first>15</first>
<second>0</second>
</second>
</item>
<item>
<first>103</first>
<second>
<first>15</first>
<second>0</second>
</second>
</item>
<item>
<first>104</first>
<second>
<first>15</first>
<second>0</second>
</second>
</item>
<item>
<first>105</first>
<second>
<first>15</first>
<second>0</second>
</second>
</item>
<item>
<first>106</first>
<second>
<first>17</first>
<second>0</second>
</second>
</item>
<item>
<first>107</first>
<second>
<first>17</first>
<second>0</second>
</second>
</item>
<item>
<first>108</first>
<second>
<first>16</first>
<second>0</second>
</second>
</item>
<item>
<first>109</first>
<second>
<first>16</first>
<second>0</second>
</second>
</item>
<item>
<first>110</first>
<second>
<first>16</first>
<second>1</second>
</second>
</item>
<item>
<first>111</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>112</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>113</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>114</first>
<second>
<first>17</first>
<second>0</second>
</second>
</item>
<item>
<first>115</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>116</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>117</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>118</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>119</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>120</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>121</first>
<second>
<first>1</first>
<second>0</second>
</second>
</item>
<item>
<first>122</first>
<second>
<first>2</first>
<second>0</second>
</second>
</item>
<item>
<first>123</first>
<second>
<first>2</first>
<second>0</second>
</second>
</item>
<item>
<first>124</first>
<second>
<first>2</first>
<second>0</second>
</second>
</item>
<item>
<first>125</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>126</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>127</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>128</first>
<second>
<first>0</first>
<second>0</second>
</second>
</item>
<item>
<first>129</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>130</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>131</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>132</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>133</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>134</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>135</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>136</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>137</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>138</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>139</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>140</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>141</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>142</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>143</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>144</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>145</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>146</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>147</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>148</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>149</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>150</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>151</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>152</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>153</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>154</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>155</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>156</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>157</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>158</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>159</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>160</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>161</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>162</first>
<second>
<first>18</first>
<second>0</second>
</second>
</item>
<item>
<first>163</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>164</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>165</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>166</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>167</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>168</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
<item>
<first>169</first>
<second>
<first>19</first>
<second>0</second>
</second>
</item>
</node_label_latency>
<bblk_ent_exit class_id="29" tracking_level="0" version="0">
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<item_version>0</item_version>
<item class_id="30" tracking_level="0" version="0">
<first>170</first>
<second class_id="31" tracking_level="0" version="0">
<first>0</first>
<second>19</second>
</second>
</item>
</bblk_ent_exit>
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<count>1</count>
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<item class_id="33" tracking_level="1" version="0" object_id="_550">
<region_name>exp_generic<double></region_name>
<basic_blocks>
<count>1</count>
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</basic_blocks>
<nodes>
<count>0</count>
<item_version>0</item_version>
</nodes>
<anchor_node>-1</anchor_node>
<region_type>8</region_type>
<interval>1</interval>
<pipe_depth>20</pipe_depth>
</item>
</regions>
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</boost_serialization>
| 31.185244
| 140
| 0.625536
|
1ef05163e41514cd7f6201e059698f8da1eedef6
| 2,953
|
ada
|
Ada
|
gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/tests/c8/c87b14a.ada
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | 7
|
2020-05-02T17:34:05.000Z
|
2021-10-17T10:15:18.000Z
|
gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/tests/c8/c87b14a.ada
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | null | null | null |
gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/tests/c8/c87b14a.ada
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | 2
|
2020-07-27T00:22:36.000Z
|
2021-04-01T09:41:02.000Z
|
-- C87B14A.ADA
-- Grant of Unlimited Rights
--
-- Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
-- F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
-- unlimited rights in the software and documentation contained herein.
-- Unlimited rights are defined in DFAR 252.227-7013(a)(19). By making
-- this public release, the Government intends to confer upon all
-- recipients unlimited rights equal to those held by the Government.
-- These rights include rights to use, duplicate, release or disclose the
-- released technical data and computer software in whole or in part, in
-- any manner and for any purpose whatsoever, and to have or permit others
-- to do so.
--
-- DISCLAIMER
--
-- ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
-- DISCLOSED ARE AS IS. THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
-- WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
-- SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
-- OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
-- PARTICULAR PURPOSE OF SAID MATERIAL.
--*
-- CHECK THAT OVERLOADING RESOLUTION USES THE RULE THAT:
--
-- IN SUBTYPE INDICATIONS WITH INDEX CONSTRAINTS, THE LOWER AND UPPER
-- BOUNDS MUST BE OF THE INDEX BASE TYPE.
--
-- TEST (A): INDEX CONSTRAINTS WITH OVERLOADED FUNCTIONS.
-- TRH 30 JUNE 82
WITH REPORT; USE REPORT;
PROCEDURE C87B14A IS
SUBTYPE WHOLE IS INTEGER RANGE 0 .. INTEGER'LAST;
SUBTYPE BASE10 IS INTEGER RANGE 0 .. 9;
TYPE LIST IS ARRAY (INTEGER RANGE <>) OF BOOLEAN;
TYPE GRID IS ARRAY (INTEGER RANGE <>, INTEGER RANGE <>) OF BOOLEAN;
FUNCTION F1 RETURN WHOLE IS
BEGIN
RETURN 1;
END F1;
FUNCTION F1 RETURN BOOLEAN IS
BEGIN
FAILED ("RESOLUTION INCORRECT - INDEX CONSTRAINTS " &
" IN SUBTYPE INDICATIONS");
RETURN TRUE;
END F1;
FUNCTION F2 RETURN BASE10 IS
BEGIN
RETURN 2;
END F2;
FUNCTION F2 RETURN FLOAT IS
BEGIN
FAILED ("RESOLUTION INCORRECT - INDEX CONSTRAINTS " &
" IN SUBTYPE INDICATIONS");
RETURN 2.0;
END F2;
BEGIN
TEST ("C87B14A","OVERLOADED EXPRESSIONS IN INDEX CONSTRAINTS " &
"OF SUBTYPE INDICATIONS");
DECLARE
SUBTYPE LIST1 IS LIST (1 .. F1);
SUBTYPE LIST2 IS LIST (F1 .. 1);
SUBTYPE LIST3 IS LIST (F2 .. F2);
SUBTYPE LIST4 IS LIST (F1 .. F2);
SUBTYPE GRID1 IS GRID (1 .. F1, F1 .. 1);
SUBTYPE GRID2 IS GRID (F1 .. 2, 2 .. F2);
SUBTYPE GRID3 IS GRID (F1 .. F1, F2 .. F2);
SUBTYPE GRID4 IS GRID (F1 .. F2, 1 .. 2);
BEGIN
NULL;
END;
RESULT;
END C87B14A;
| 33.556818
| 79
| 0.612936
|
1a418f0719cd36d32a7dd7954055a1ecda30770e
| 2,529
|
adb
|
Ada
|
tests/src/Safe_Alloc/sa_arrays_tests.adb
|
mhatzl/spark_unbound
|
21d6b80516c9a494a2d7db6b2a62ee226e9a98c1
|
[
"MIT"
] | 8
|
2022-01-27T14:16:48.000Z
|
2022-02-01T16:35:35.000Z
|
tests/src/Safe_Alloc/sa_arrays_tests.adb
|
mhatzl/spark_unbound
|
21d6b80516c9a494a2d7db6b2a62ee226e9a98c1
|
[
"MIT"
] | 2
|
2021-12-13T08:13:22.000Z
|
2022-02-06T17:59:57.000Z
|
tests/src/Safe_Alloc/sa_arrays_tests.adb
|
mhatzl/spark_unbound
|
21d6b80516c9a494a2d7db6b2a62ee226e9a98c1
|
[
"MIT"
] | null | null | null |
with Spark_Unbound.Safe_Alloc;
with AUnit.Assertions; use AUnit.Assertions;
with Ada.Exceptions;
package body SA_Arrays_Tests is
procedure TestAlloc_WithForcingStorageError_ResultNullReturned(T : in out Test_Fixture)
is
type Array_Type is array (Integer range <>) of Integer;
type Array_Acc is access Array_Type;
package Int_Arrays is new Spark_Unbound.Safe_Alloc.Arrays(Element_Type => Integer, Index_Type => Integer, Array_Type => Array_Type, Array_Type_Acc => Array_Acc);
Arr_Acc : Array_Acc;
Array_Last : Integer := 1_000_000_000;
Storage_Error_Forced : Boolean := False;
-- table to keep track of allocated arrays to be freed later
type Acc_Table_Array is array (Integer range <>) of Array_Acc;
Acc_Table : Acc_Table_Array(0 .. 1_000_000);
Table_Index : Integer := Acc_Table'First;
begin
declare
begin
loop
exit when (Storage_Error_Forced or else Table_Index >= Acc_Table'Last);
begin
Arr_Acc := Int_Arrays.Alloc(First => Integer'First, Last => Array_Last);
begin
Acc_Table(Table_Index) := Arr_Acc;
Table_Index := Table_Index + 1;
exception
when others =>
Assert(False, "Table append failed");
end;
if Arr_Acc = null then
Storage_Error_Forced := True;
elsif Array_Last < Integer'Last - Array_Last then
Array_Last := Array_Last + Array_Last;
else
Array_Last := Integer'Last;
end if;
exception
when E : others =>
Assert(False, "Alloc failed: " & Ada.Exceptions.Exception_Name(E) & " => " & Ada.Exceptions.Exception_Message(E));
end;
end loop;
-- free allocated
for I in Acc_Table'First .. Acc_Table'Last loop
Int_Arrays.Free(Acc_Table(I));
end loop;
Assert(Storage_Error_Forced, "Storage_Error could not be forced. Last value = " & Array_Last'Image);
exception
when E : others =>
Assert(False, "Exception got raised with Last = " & Array_Last'Image & " Reason: " & Ada.Exceptions.Exception_Name(E) & " => " & Ada.Exceptions.Exception_Message(E));
end;
end TestAlloc_WithForcingStorageError_ResultNullReturned;
end SA_Arrays_Tests;
| 39.515625
| 178
| 0.59312
|
5e0a782ec8a44e0168d2e2668c6f8dcaef759a20
| 3,860
|
ads
|
Ada
|
source/web/tools/a2js/properties-declarations-defining_names.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 24
|
2016-11-29T06:59:41.000Z
|
2021-08-30T11:55:16.000Z
|
source/web/tools/a2js/properties-declarations-defining_names.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 2
|
2019-01-16T05:15:20.000Z
|
2019-02-03T10:03:32.000Z
|
source/web/tools/a2js/properties-declarations-defining_names.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 4
|
2017-07-18T07:11:05.000Z
|
2020-06-21T03:02:25.000Z
|
------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Web Framework --
-- --
-- Tools Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2015, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with Asis;
with Engines.Contexts;
with League.Strings;
package Properties.Declarations.Defining_Names is
function Code
(Engine : access Engines.Contexts.Context;
Element : Asis.Declaration;
Name : Engines.Text_Property) return League.Strings.Universal_String;
function Method_Name
(Engine : access Engines.Contexts.Context;
Element : Asis.Declaration;
Name : Engines.Text_Property) return League.Strings.Universal_String;
end Properties.Declarations.Defining_Names;
| 61.269841
| 78
| 0.431865
|
03eb447ac3f3c805c6928cca70da1eed68ae9594
| 5,689
|
ads
|
Ada
|
llvm-gcc-4.2-2.9/gcc/ada/s-taspri-lynxos.ads
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | 1
|
2016-04-09T02:58:13.000Z
|
2016-04-09T02:58:13.000Z
|
llvm-gcc-4.2-2.9/gcc/ada/s-taspri-lynxos.ads
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | null | null | null |
llvm-gcc-4.2-2.9/gcc/ada/s-taspri-lynxos.ads
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS --
-- --
-- S Y S T E M . T A S K _ P R I M I T I V E S --
-- --
-- S p e c --
-- --
-- Copyright (C) 1991-1994, Florida State University --
-- Copyright (C) 1995-2005, AdaCore --
-- --
-- GNARL is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNARL is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNARL; see file COPYING. If not, write --
-- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
-- Boston, MA 02110-1301, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNARL was developed by the GNARL team at Florida State University. --
-- Extensive contributions were provided by Ada Core Technologies, Inc. --
-- --
------------------------------------------------------------------------------
-- This is a LynxOS version of this package, derived from s-taspri-posix.ads
pragma Polling (Off);
-- Turn off polling, we do not want ATC polling to take place during
-- tasking operations. It causes infinite loops and other problems.
with System.OS_Interface;
-- used for pthread_mutex_t
-- pthread_cond_t
-- pthread_t
package System.Task_Primitives is
pragma Preelaborate;
type Lock is limited private;
-- Should be used for implementation of protected objects
type RTS_Lock is limited private;
-- Should be used inside the runtime system. The difference between Lock
-- and the RTS_Lock is that the later one serves only as a semaphore so
-- that do not check for ceiling violations.
type Suspension_Object is limited private;
-- Should be used for the implementation of Ada.Synchronous_Task_Control
type Task_Body_Access is access procedure;
-- Pointer to the task body's entry point (or possibly a wrapper
-- declared local to the GNARL).
type Private_Data is limited private;
-- Any information that the GNULLI needs maintained on a per-task basis.
-- A component of this type is guaranteed to be included in the
-- Ada_Task_Control_Block.
private
type Lock is record
Mutex : aliased System.OS_Interface.pthread_mutex_t;
Ceiling : System.Any_Priority;
Saved_Priority : System.Any_Priority;
end record;
type RTS_Lock is new System.OS_Interface.pthread_mutex_t;
type Suspension_Object is record
State : Boolean;
pragma Atomic (State);
-- Boolean that indicates whether the object is open. This field is
-- marked Atomic to ensure that we can read its value without locking
-- the access to the Suspension_Object.
Waiting : Boolean;
-- Flag showing if there is a task already suspended on this object
L : aliased System.OS_Interface.pthread_mutex_t;
-- Protection for ensuring mutual exclusion on the Suspension_Object
CV : aliased System.OS_Interface.pthread_cond_t;
-- Condition variable used to queue threads until condition is signaled
end record;
type Private_Data is record
Thread : aliased System.OS_Interface.pthread_t;
pragma Atomic (Thread);
-- Thread field may be updated by two different threads of control.
-- (See, Enter_Task and Create_Task in s-taprop.adb). They put the
-- same value (thr_self value). We do not want to use lock on those
-- operations and the only thing we have to make sure is that they
-- are updated in atomic fashion.
LWP : aliased System.Address;
-- The purpose of this field is to provide a better tasking support on
-- gdb. The order of the two first fields (Thread and LWP) is important.
-- On targets where lwp is not relevant, this is equivalent to Thread.
CV : aliased System.OS_Interface.pthread_cond_t;
L : aliased RTS_Lock;
-- Protection for all components is lock L
end record;
end System.Task_Primitives;
| 48.623932
| 79
| 0.572157
|
5e1cd25f28cadf0e321decb5b256d4f136167431
| 504,596
|
adb
|
Ada
|
llvm-gcc-4.2-2.9/gcc/ada/g-utf_32.adb
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | 1
|
2016-04-09T02:58:13.000Z
|
2016-04-09T02:58:13.000Z
|
llvm-gcc-4.2-2.9/gcc/ada/g-utf_32.adb
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | null | null | null |
llvm-gcc-4.2-2.9/gcc/ada/g-utf_32.adb
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT RUN-TIME COMPONENTS --
-- --
-- G N A T . U T F _ 3 2 --
-- --
-- B o d y --
-- --
-- Copyright (C) 2005 Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
-- Boston, MA 02110-1301, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
pragma Style_Checks (Off);
-- Allow long lines in this unit
package body GNAT.UTF_32 is
----------------------
-- Character Tables --
----------------------
-- Note these tables are derived from those given in AI-285. For details
-- see //www.ada-auth.org/cgi-bin/cvsweb.cgi/AIs/AI-00285.TXT?rev=1.22.
type UTF_32_Range is record
Lo : UTF_32;
Hi : UTF_32;
end record;
type UTF_32_Ranges is array (Positive range <>) of UTF_32_Range;
-- The following array includes ranges for all codes with defined unicode
-- categories (a group of characters is in the same range if and only if
-- they share the same category, indicated in the comment).
-- Note that we do not try to take care of FFFE/FFFF cases in this table
Unicode_Ranges : constant UTF_32_Ranges := (
(16#00000#, 16#0001F#), -- (Cc) <control> .. <control>
(16#00020#, 16#00020#), -- (Zs) SPACE .. SPACE
(16#00021#, 16#00023#), -- (Po) EXCLAMATION MARK .. NUMBER SIGN
(16#00024#, 16#00024#), -- (Sc) DOLLAR SIGN .. DOLLAR SIGN
(16#00025#, 16#00027#), -- (Po) PERCENT SIGN .. APOSTROPHE
(16#00028#, 16#00028#), -- (Ps) LEFT PARENTHESIS .. LEFT PARENTHESIS
(16#00029#, 16#00029#), -- (Pe) RIGHT PARENTHESIS .. RIGHT PARENTHESIS
(16#0002A#, 16#0002A#), -- (Po) ASTERISK .. ASTERISK
(16#0002B#, 16#0002B#), -- (Sm) PLUS SIGN .. PLUS SIGN
(16#0002C#, 16#0002C#), -- (Po) COMMA .. COMMA
(16#0002D#, 16#0002D#), -- (Pd) HYPHEN-MINUS .. HYPHEN-MINUS
(16#0002E#, 16#0002F#), -- (Po) FULL STOP .. SOLIDUS
(16#00030#, 16#00039#), -- (Nd) DIGIT ZERO .. DIGIT NINE
(16#0003A#, 16#0003B#), -- (Po) COLON .. SEMICOLON
(16#0003C#, 16#0003E#), -- (Sm) LESS-THAN SIGN .. GREATER-THAN SIGN
(16#0003F#, 16#00040#), -- (Po) QUESTION MARK .. COMMERCIAL AT
(16#00041#, 16#0005A#), -- (Lu) LATIN CAPITAL LETTER A .. LATIN CAPITAL LETTER Z
(16#0005B#, 16#0005B#), -- (Ps) LEFT SQUARE BRACKET .. LEFT SQUARE BRACKET
(16#0005C#, 16#0005C#), -- (Po) REVERSE SOLIDUS .. REVERSE SOLIDUS
(16#0005D#, 16#0005D#), -- (Pe) RIGHT SQUARE BRACKET .. RIGHT SQUARE BRACKET
(16#0005E#, 16#0005E#), -- (Sk) CIRCUMFLEX ACCENT .. CIRCUMFLEX ACCENT
(16#0005F#, 16#0005F#), -- (Pc) LOW LINE .. LOW LINE
(16#00060#, 16#00060#), -- (Sk) GRAVE ACCENT .. GRAVE ACCENT
(16#00061#, 16#0007A#), -- (Ll) LATIN SMALL LETTER A .. LATIN SMALL LETTER Z
(16#0007B#, 16#0007B#), -- (Ps) LEFT CURLY BRACKET .. LEFT CURLY BRACKET
(16#0007C#, 16#0007C#), -- (Sm) VERTICAL LINE .. VERTICAL LINE
(16#0007D#, 16#0007D#), -- (Pe) RIGHT CURLY BRACKET .. RIGHT CURLY BRACKET
(16#0007E#, 16#0007E#), -- (Sm) TILDE .. TILDE
(16#0007F#, 16#0009F#), -- (Cc) <control> .. <control>
(16#000A0#, 16#000A0#), -- (Zs) NO-BREAK SPACE .. NO-BREAK SPACE
(16#000A1#, 16#000A1#), -- (Po) INVERTED EXCLAMATION MARK .. INVERTED EXCLAMATION MARK
(16#000A2#, 16#000A5#), -- (Sc) CENT SIGN .. YEN SIGN
(16#000A6#, 16#000A7#), -- (So) BROKEN BAR .. SECTION SIGN
(16#000A8#, 16#000A8#), -- (Sk) DIAERESIS .. DIAERESIS
(16#000A9#, 16#000A9#), -- (So) COPYRIGHT SIGN .. COPYRIGHT SIGN
(16#000AA#, 16#000AA#), -- (Ll) FEMININE ORDINAL INDICATOR .. FEMININE ORDINAL INDICATOR
(16#000AB#, 16#000AB#), -- (Pi) LEFT-POINTING DOUBLE ANGLE QUOTATION MARK .. LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
(16#000AC#, 16#000AC#), -- (Sm) NOT SIGN .. NOT SIGN
(16#000AD#, 16#000AD#), -- (Cf) SOFT HYPHEN .. SOFT HYPHEN
(16#000AE#, 16#000AE#), -- (So) REGISTERED SIGN .. REGISTERED SIGN
(16#000AF#, 16#000AF#), -- (Sk) MACRON .. MACRON
(16#000B0#, 16#000B0#), -- (So) DEGREE SIGN .. DEGREE SIGN
(16#000B1#, 16#000B1#), -- (Sm) PLUS-MINUS SIGN .. PLUS-MINUS SIGN
(16#000B2#, 16#000B3#), -- (No) SUPERSCRIPT TWO .. SUPERSCRIPT THREE
(16#000B4#, 16#000B4#), -- (Sk) ACUTE ACCENT .. ACUTE ACCENT
(16#000B5#, 16#000B5#), -- (Ll) MICRO SIGN .. MICRO SIGN
(16#000B6#, 16#000B6#), -- (So) PILCROW SIGN .. PILCROW SIGN
(16#000B7#, 16#000B7#), -- (Po) MIDDLE DOT .. MIDDLE DOT
(16#000B8#, 16#000B8#), -- (Sk) CEDILLA .. CEDILLA
(16#000B9#, 16#000B9#), -- (No) SUPERSCRIPT ONE .. SUPERSCRIPT ONE
(16#000BA#, 16#000BA#), -- (Ll) MASCULINE ORDINAL INDICATOR .. MASCULINE ORDINAL INDICATOR
(16#000BB#, 16#000BB#), -- (Pf) RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK .. RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
(16#000BC#, 16#000BE#), -- (No) VULGAR FRACTION ONE QUARTER .. VULGAR FRACTION THREE QUARTERS
(16#000BF#, 16#000BF#), -- (Po) INVERTED QUESTION MARK .. INVERTED QUESTION MARK
(16#000C0#, 16#000D6#), -- (Lu) LATIN CAPITAL LETTER A WITH GRAVE .. LATIN CAPITAL LETTER O WITH DIAERESIS
(16#000D7#, 16#000D7#), -- (Sm) MULTIPLICATION SIGN .. MULTIPLICATION SIGN
(16#000D8#, 16#000DE#), -- (Lu) LATIN CAPITAL LETTER O WITH STROKE .. LATIN CAPITAL LETTER THORN
(16#000DF#, 16#000F6#), -- (Ll) LATIN SMALL LETTER SHARP S .. LATIN SMALL LETTER O WITH DIAERESIS
(16#000F7#, 16#000F7#), -- (Sm) DIVISION SIGN .. DIVISION SIGN
(16#000F8#, 16#000FF#), -- (Ll) LATIN SMALL LETTER O WITH STROKE .. LATIN SMALL LETTER Y WITH DIAERESIS
(16#00100#, 16#00100#), -- (Lu) LATIN CAPITAL LETTER A WITH MACRON .. LATIN CAPITAL LETTER A WITH MACRON
(16#00101#, 16#00101#), -- (Ll) LATIN SMALL LETTER A WITH MACRON .. LATIN SMALL LETTER A WITH MACRON
(16#00102#, 16#00102#), -- (Lu) LATIN CAPITAL LETTER A WITH BREVE .. LATIN CAPITAL LETTER A WITH BREVE
(16#00103#, 16#00103#), -- (Ll) LATIN SMALL LETTER A WITH BREVE .. LATIN SMALL LETTER A WITH BREVE
(16#00104#, 16#00104#), -- (Lu) LATIN CAPITAL LETTER A WITH OGONEK .. LATIN CAPITAL LETTER A WITH OGONEK
(16#00105#, 16#00105#), -- (Ll) LATIN SMALL LETTER A WITH OGONEK .. LATIN SMALL LETTER A WITH OGONEK
(16#00106#, 16#00106#), -- (Lu) LATIN CAPITAL LETTER C WITH ACUTE .. LATIN CAPITAL LETTER C WITH ACUTE
(16#00107#, 16#00107#), -- (Ll) LATIN SMALL LETTER C WITH ACUTE .. LATIN SMALL LETTER C WITH ACUTE
(16#00108#, 16#00108#), -- (Lu) LATIN CAPITAL LETTER C WITH CIRCUMFLEX .. LATIN CAPITAL LETTER C WITH CIRCUMFLEX
(16#00109#, 16#00109#), -- (Ll) LATIN SMALL LETTER C WITH CIRCUMFLEX .. LATIN SMALL LETTER C WITH CIRCUMFLEX
(16#0010A#, 16#0010A#), -- (Lu) LATIN CAPITAL LETTER C WITH DOT ABOVE .. LATIN CAPITAL LETTER C WITH DOT ABOVE
(16#0010B#, 16#0010B#), -- (Ll) LATIN SMALL LETTER C WITH DOT ABOVE .. LATIN SMALL LETTER C WITH DOT ABOVE
(16#0010C#, 16#0010C#), -- (Lu) LATIN CAPITAL LETTER C WITH CARON .. LATIN CAPITAL LETTER C WITH CARON
(16#0010D#, 16#0010D#), -- (Ll) LATIN SMALL LETTER C WITH CARON .. LATIN SMALL LETTER C WITH CARON
(16#0010E#, 16#0010E#), -- (Lu) LATIN CAPITAL LETTER D WITH CARON .. LATIN CAPITAL LETTER D WITH CARON
(16#0010F#, 16#0010F#), -- (Ll) LATIN SMALL LETTER D WITH CARON .. LATIN SMALL LETTER D WITH CARON
(16#00110#, 16#00110#), -- (Lu) LATIN CAPITAL LETTER D WITH STROKE .. LATIN CAPITAL LETTER D WITH STROKE
(16#00111#, 16#00111#), -- (Ll) LATIN SMALL LETTER D WITH STROKE .. LATIN SMALL LETTER D WITH STROKE
(16#00112#, 16#00112#), -- (Lu) LATIN CAPITAL LETTER E WITH MACRON .. LATIN CAPITAL LETTER E WITH MACRON
(16#00113#, 16#00113#), -- (Ll) LATIN SMALL LETTER E WITH MACRON .. LATIN SMALL LETTER E WITH MACRON
(16#00114#, 16#00114#), -- (Lu) LATIN CAPITAL LETTER E WITH BREVE .. LATIN CAPITAL LETTER E WITH BREVE
(16#00115#, 16#00115#), -- (Ll) LATIN SMALL LETTER E WITH BREVE .. LATIN SMALL LETTER E WITH BREVE
(16#00116#, 16#00116#), -- (Lu) LATIN CAPITAL LETTER E WITH DOT ABOVE .. LATIN CAPITAL LETTER E WITH DOT ABOVE
(16#00117#, 16#00117#), -- (Ll) LATIN SMALL LETTER E WITH DOT ABOVE .. LATIN SMALL LETTER E WITH DOT ABOVE
(16#00118#, 16#00118#), -- (Lu) LATIN CAPITAL LETTER E WITH OGONEK .. LATIN CAPITAL LETTER E WITH OGONEK
(16#00119#, 16#00119#), -- (Ll) LATIN SMALL LETTER E WITH OGONEK .. LATIN SMALL LETTER E WITH OGONEK
(16#0011A#, 16#0011A#), -- (Lu) LATIN CAPITAL LETTER E WITH CARON .. LATIN CAPITAL LETTER E WITH CARON
(16#0011B#, 16#0011B#), -- (Ll) LATIN SMALL LETTER E WITH CARON .. LATIN SMALL LETTER E WITH CARON
(16#0011C#, 16#0011C#), -- (Lu) LATIN CAPITAL LETTER G WITH CIRCUMFLEX .. LATIN CAPITAL LETTER G WITH CIRCUMFLEX
(16#0011D#, 16#0011D#), -- (Ll) LATIN SMALL LETTER G WITH CIRCUMFLEX .. LATIN SMALL LETTER G WITH CIRCUMFLEX
(16#0011E#, 16#0011E#), -- (Lu) LATIN CAPITAL LETTER G WITH BREVE .. LATIN CAPITAL LETTER G WITH BREVE
(16#0011F#, 16#0011F#), -- (Ll) LATIN SMALL LETTER G WITH BREVE .. LATIN SMALL LETTER G WITH BREVE
(16#00120#, 16#00120#), -- (Lu) LATIN CAPITAL LETTER G WITH DOT ABOVE .. LATIN CAPITAL LETTER G WITH DOT ABOVE
(16#00121#, 16#00121#), -- (Ll) LATIN SMALL LETTER G WITH DOT ABOVE .. LATIN SMALL LETTER G WITH DOT ABOVE
(16#00122#, 16#00122#), -- (Lu) LATIN CAPITAL LETTER G WITH CEDILLA .. LATIN CAPITAL LETTER G WITH CEDILLA
(16#00123#, 16#00123#), -- (Ll) LATIN SMALL LETTER G WITH CEDILLA .. LATIN SMALL LETTER G WITH CEDILLA
(16#00124#, 16#00124#), -- (Lu) LATIN CAPITAL LETTER H WITH CIRCUMFLEX .. LATIN CAPITAL LETTER H WITH CIRCUMFLEX
(16#00125#, 16#00125#), -- (Ll) LATIN SMALL LETTER H WITH CIRCUMFLEX .. LATIN SMALL LETTER H WITH CIRCUMFLEX
(16#00126#, 16#00126#), -- (Lu) LATIN CAPITAL LETTER H WITH STROKE .. LATIN CAPITAL LETTER H WITH STROKE
(16#00127#, 16#00127#), -- (Ll) LATIN SMALL LETTER H WITH STROKE .. LATIN SMALL LETTER H WITH STROKE
(16#00128#, 16#00128#), -- (Lu) LATIN CAPITAL LETTER I WITH TILDE .. LATIN CAPITAL LETTER I WITH TILDE
(16#00129#, 16#00129#), -- (Ll) LATIN SMALL LETTER I WITH TILDE .. LATIN SMALL LETTER I WITH TILDE
(16#0012A#, 16#0012A#), -- (Lu) LATIN CAPITAL LETTER I WITH MACRON .. LATIN CAPITAL LETTER I WITH MACRON
(16#0012B#, 16#0012B#), -- (Ll) LATIN SMALL LETTER I WITH MACRON .. LATIN SMALL LETTER I WITH MACRON
(16#0012C#, 16#0012C#), -- (Lu) LATIN CAPITAL LETTER I WITH BREVE .. LATIN CAPITAL LETTER I WITH BREVE
(16#0012D#, 16#0012D#), -- (Ll) LATIN SMALL LETTER I WITH BREVE .. LATIN SMALL LETTER I WITH BREVE
(16#0012E#, 16#0012E#), -- (Lu) LATIN CAPITAL LETTER I WITH OGONEK .. LATIN CAPITAL LETTER I WITH OGONEK
(16#0012F#, 16#0012F#), -- (Ll) LATIN SMALL LETTER I WITH OGONEK .. LATIN SMALL LETTER I WITH OGONEK
(16#00130#, 16#00130#), -- (Lu) LATIN CAPITAL LETTER I WITH DOT ABOVE .. LATIN CAPITAL LETTER I WITH DOT ABOVE
(16#00131#, 16#00131#), -- (Ll) LATIN SMALL LETTER DOTLESS I .. LATIN SMALL LETTER DOTLESS I
(16#00132#, 16#00132#), -- (Lu) LATIN CAPITAL LIGATURE IJ .. LATIN CAPITAL LIGATURE IJ
(16#00133#, 16#00133#), -- (Ll) LATIN SMALL LIGATURE IJ .. LATIN SMALL LIGATURE IJ
(16#00134#, 16#00134#), -- (Lu) LATIN CAPITAL LETTER J WITH CIRCUMFLEX .. LATIN CAPITAL LETTER J WITH CIRCUMFLEX
(16#00135#, 16#00135#), -- (Ll) LATIN SMALL LETTER J WITH CIRCUMFLEX .. LATIN SMALL LETTER J WITH CIRCUMFLEX
(16#00136#, 16#00136#), -- (Lu) LATIN CAPITAL LETTER K WITH CEDILLA .. LATIN CAPITAL LETTER K WITH CEDILLA
(16#00137#, 16#00138#), -- (Ll) LATIN SMALL LETTER K WITH CEDILLA .. LATIN SMALL LETTER KRA
(16#00139#, 16#00139#), -- (Lu) LATIN CAPITAL LETTER L WITH ACUTE .. LATIN CAPITAL LETTER L WITH ACUTE
(16#0013A#, 16#0013A#), -- (Ll) LATIN SMALL LETTER L WITH ACUTE .. LATIN SMALL LETTER L WITH ACUTE
(16#0013B#, 16#0013B#), -- (Lu) LATIN CAPITAL LETTER L WITH CEDILLA .. LATIN CAPITAL LETTER L WITH CEDILLA
(16#0013C#, 16#0013C#), -- (Ll) LATIN SMALL LETTER L WITH CEDILLA .. LATIN SMALL LETTER L WITH CEDILLA
(16#0013D#, 16#0013D#), -- (Lu) LATIN CAPITAL LETTER L WITH CARON .. LATIN CAPITAL LETTER L WITH CARON
(16#0013E#, 16#0013E#), -- (Ll) LATIN SMALL LETTER L WITH CARON .. LATIN SMALL LETTER L WITH CARON
(16#0013F#, 16#0013F#), -- (Lu) LATIN CAPITAL LETTER L WITH MIDDLE DOT .. LATIN CAPITAL LETTER L WITH MIDDLE DOT
(16#00140#, 16#00140#), -- (Ll) LATIN SMALL LETTER L WITH MIDDLE DOT .. LATIN SMALL LETTER L WITH MIDDLE DOT
(16#00141#, 16#00141#), -- (Lu) LATIN CAPITAL LETTER L WITH STROKE .. LATIN CAPITAL LETTER L WITH STROKE
(16#00142#, 16#00142#), -- (Ll) LATIN SMALL LETTER L WITH STROKE .. LATIN SMALL LETTER L WITH STROKE
(16#00143#, 16#00143#), -- (Lu) LATIN CAPITAL LETTER N WITH ACUTE .. LATIN CAPITAL LETTER N WITH ACUTE
(16#00144#, 16#00144#), -- (Ll) LATIN SMALL LETTER N WITH ACUTE .. LATIN SMALL LETTER N WITH ACUTE
(16#00145#, 16#00145#), -- (Lu) LATIN CAPITAL LETTER N WITH CEDILLA .. LATIN CAPITAL LETTER N WITH CEDILLA
(16#00146#, 16#00146#), -- (Ll) LATIN SMALL LETTER N WITH CEDILLA .. LATIN SMALL LETTER N WITH CEDILLA
(16#00147#, 16#00147#), -- (Lu) LATIN CAPITAL LETTER N WITH CARON .. LATIN CAPITAL LETTER N WITH CARON
(16#00148#, 16#00149#), -- (Ll) LATIN SMALL LETTER N WITH CARON .. LATIN SMALL LETTER N PRECEDED BY APOSTROPHE
(16#0014A#, 16#0014A#), -- (Lu) LATIN CAPITAL LETTER ENG .. LATIN CAPITAL LETTER ENG
(16#0014B#, 16#0014B#), -- (Ll) LATIN SMALL LETTER ENG .. LATIN SMALL LETTER ENG
(16#0014C#, 16#0014C#), -- (Lu) LATIN CAPITAL LETTER O WITH MACRON .. LATIN CAPITAL LETTER O WITH MACRON
(16#0014D#, 16#0014D#), -- (Ll) LATIN SMALL LETTER O WITH MACRON .. LATIN SMALL LETTER O WITH MACRON
(16#0014E#, 16#0014E#), -- (Lu) LATIN CAPITAL LETTER O WITH BREVE .. LATIN CAPITAL LETTER O WITH BREVE
(16#0014F#, 16#0014F#), -- (Ll) LATIN SMALL LETTER O WITH BREVE .. LATIN SMALL LETTER O WITH BREVE
(16#00150#, 16#00150#), -- (Lu) LATIN CAPITAL LETTER O WITH DOUBLE ACUTE .. LATIN CAPITAL LETTER O WITH DOUBLE ACUTE
(16#00151#, 16#00151#), -- (Ll) LATIN SMALL LETTER O WITH DOUBLE ACUTE .. LATIN SMALL LETTER O WITH DOUBLE ACUTE
(16#00152#, 16#00152#), -- (Lu) LATIN CAPITAL LIGATURE OE .. LATIN CAPITAL LIGATURE OE
(16#00153#, 16#00153#), -- (Ll) LATIN SMALL LIGATURE OE .. LATIN SMALL LIGATURE OE
(16#00154#, 16#00154#), -- (Lu) LATIN CAPITAL LETTER R WITH ACUTE .. LATIN CAPITAL LETTER R WITH ACUTE
(16#00155#, 16#00155#), -- (Ll) LATIN SMALL LETTER R WITH ACUTE .. LATIN SMALL LETTER R WITH ACUTE
(16#00156#, 16#00156#), -- (Lu) LATIN CAPITAL LETTER R WITH CEDILLA .. LATIN CAPITAL LETTER R WITH CEDILLA
(16#00157#, 16#00157#), -- (Ll) LATIN SMALL LETTER R WITH CEDILLA .. LATIN SMALL LETTER R WITH CEDILLA
(16#00158#, 16#00158#), -- (Lu) LATIN CAPITAL LETTER R WITH CARON .. LATIN CAPITAL LETTER R WITH CARON
(16#00159#, 16#00159#), -- (Ll) LATIN SMALL LETTER R WITH CARON .. LATIN SMALL LETTER R WITH CARON
(16#0015A#, 16#0015A#), -- (Lu) LATIN CAPITAL LETTER S WITH ACUTE .. LATIN CAPITAL LETTER S WITH ACUTE
(16#0015B#, 16#0015B#), -- (Ll) LATIN SMALL LETTER S WITH ACUTE .. LATIN SMALL LETTER S WITH ACUTE
(16#0015C#, 16#0015C#), -- (Lu) LATIN CAPITAL LETTER S WITH CIRCUMFLEX .. LATIN CAPITAL LETTER S WITH CIRCUMFLEX
(16#0015D#, 16#0015D#), -- (Ll) LATIN SMALL LETTER S WITH CIRCUMFLEX .. LATIN SMALL LETTER S WITH CIRCUMFLEX
(16#0015E#, 16#0015E#), -- (Lu) LATIN CAPITAL LETTER S WITH CEDILLA .. LATIN CAPITAL LETTER S WITH CEDILLA
(16#0015F#, 16#0015F#), -- (Ll) LATIN SMALL LETTER S WITH CEDILLA .. LATIN SMALL LETTER S WITH CEDILLA
(16#00160#, 16#00160#), -- (Lu) LATIN CAPITAL LETTER S WITH CARON .. LATIN CAPITAL LETTER S WITH CARON
(16#00161#, 16#00161#), -- (Ll) LATIN SMALL LETTER S WITH CARON .. LATIN SMALL LETTER S WITH CARON
(16#00162#, 16#00162#), -- (Lu) LATIN CAPITAL LETTER T WITH CEDILLA .. LATIN CAPITAL LETTER T WITH CEDILLA
(16#00163#, 16#00163#), -- (Ll) LATIN SMALL LETTER T WITH CEDILLA .. LATIN SMALL LETTER T WITH CEDILLA
(16#00164#, 16#00164#), -- (Lu) LATIN CAPITAL LETTER T WITH CARON .. LATIN CAPITAL LETTER T WITH CARON
(16#00165#, 16#00165#), -- (Ll) LATIN SMALL LETTER T WITH CARON .. LATIN SMALL LETTER T WITH CARON
(16#00166#, 16#00166#), -- (Lu) LATIN CAPITAL LETTER T WITH STROKE .. LATIN CAPITAL LETTER T WITH STROKE
(16#00167#, 16#00167#), -- (Ll) LATIN SMALL LETTER T WITH STROKE .. LATIN SMALL LETTER T WITH STROKE
(16#00168#, 16#00168#), -- (Lu) LATIN CAPITAL LETTER U WITH TILDE .. LATIN CAPITAL LETTER U WITH TILDE
(16#00169#, 16#00169#), -- (Ll) LATIN SMALL LETTER U WITH TILDE .. LATIN SMALL LETTER U WITH TILDE
(16#0016A#, 16#0016A#), -- (Lu) LATIN CAPITAL LETTER U WITH MACRON .. LATIN CAPITAL LETTER U WITH MACRON
(16#0016B#, 16#0016B#), -- (Ll) LATIN SMALL LETTER U WITH MACRON .. LATIN SMALL LETTER U WITH MACRON
(16#0016C#, 16#0016C#), -- (Lu) LATIN CAPITAL LETTER U WITH BREVE .. LATIN CAPITAL LETTER U WITH BREVE
(16#0016D#, 16#0016D#), -- (Ll) LATIN SMALL LETTER U WITH BREVE .. LATIN SMALL LETTER U WITH BREVE
(16#0016E#, 16#0016E#), -- (Lu) LATIN CAPITAL LETTER U WITH RING ABOVE .. LATIN CAPITAL LETTER U WITH RING ABOVE
(16#0016F#, 16#0016F#), -- (Ll) LATIN SMALL LETTER U WITH RING ABOVE .. LATIN SMALL LETTER U WITH RING ABOVE
(16#00170#, 16#00170#), -- (Lu) LATIN CAPITAL LETTER U WITH DOUBLE ACUTE .. LATIN CAPITAL LETTER U WITH DOUBLE ACUTE
(16#00171#, 16#00171#), -- (Ll) LATIN SMALL LETTER U WITH DOUBLE ACUTE .. LATIN SMALL LETTER U WITH DOUBLE ACUTE
(16#00172#, 16#00172#), -- (Lu) LATIN CAPITAL LETTER U WITH OGONEK .. LATIN CAPITAL LETTER U WITH OGONEK
(16#00173#, 16#00173#), -- (Ll) LATIN SMALL LETTER U WITH OGONEK .. LATIN SMALL LETTER U WITH OGONEK
(16#00174#, 16#00174#), -- (Lu) LATIN CAPITAL LETTER W WITH CIRCUMFLEX .. LATIN CAPITAL LETTER W WITH CIRCUMFLEX
(16#00175#, 16#00175#), -- (Ll) LATIN SMALL LETTER W WITH CIRCUMFLEX .. LATIN SMALL LETTER W WITH CIRCUMFLEX
(16#00176#, 16#00176#), -- (Lu) LATIN CAPITAL LETTER Y WITH CIRCUMFLEX .. LATIN CAPITAL LETTER Y WITH CIRCUMFLEX
(16#00177#, 16#00177#), -- (Ll) LATIN SMALL LETTER Y WITH CIRCUMFLEX .. LATIN SMALL LETTER Y WITH CIRCUMFLEX
(16#00178#, 16#00179#), -- (Lu) LATIN CAPITAL LETTER Y WITH DIAERESIS .. LATIN CAPITAL LETTER Z WITH ACUTE
(16#0017A#, 16#0017A#), -- (Ll) LATIN SMALL LETTER Z WITH ACUTE .. LATIN SMALL LETTER Z WITH ACUTE
(16#0017B#, 16#0017B#), -- (Lu) LATIN CAPITAL LETTER Z WITH DOT ABOVE .. LATIN CAPITAL LETTER Z WITH DOT ABOVE
(16#0017C#, 16#0017C#), -- (Ll) LATIN SMALL LETTER Z WITH DOT ABOVE .. LATIN SMALL LETTER Z WITH DOT ABOVE
(16#0017D#, 16#0017D#), -- (Lu) LATIN CAPITAL LETTER Z WITH CARON .. LATIN CAPITAL LETTER Z WITH CARON
(16#0017E#, 16#00180#), -- (Ll) LATIN SMALL LETTER Z WITH CARON .. LATIN SMALL LETTER B WITH STROKE
(16#00181#, 16#00182#), -- (Lu) LATIN CAPITAL LETTER B WITH HOOK .. LATIN CAPITAL LETTER B WITH TOPBAR
(16#00183#, 16#00183#), -- (Ll) LATIN SMALL LETTER B WITH TOPBAR .. LATIN SMALL LETTER B WITH TOPBAR
(16#00184#, 16#00184#), -- (Lu) LATIN CAPITAL LETTER TONE SIX .. LATIN CAPITAL LETTER TONE SIX
(16#00185#, 16#00185#), -- (Ll) LATIN SMALL LETTER TONE SIX .. LATIN SMALL LETTER TONE SIX
(16#00186#, 16#00187#), -- (Lu) LATIN CAPITAL LETTER OPEN O .. LATIN CAPITAL LETTER C WITH HOOK
(16#00188#, 16#00188#), -- (Ll) LATIN SMALL LETTER C WITH HOOK .. LATIN SMALL LETTER C WITH HOOK
(16#00189#, 16#0018B#), -- (Lu) LATIN CAPITAL LETTER AFRICAN D .. LATIN CAPITAL LETTER D WITH TOPBAR
(16#0018C#, 16#0018D#), -- (Ll) LATIN SMALL LETTER D WITH TOPBAR .. LATIN SMALL LETTER TURNED DELTA
(16#0018E#, 16#00191#), -- (Lu) LATIN CAPITAL LETTER REVERSED E .. LATIN CAPITAL LETTER F WITH HOOK
(16#00192#, 16#00192#), -- (Ll) LATIN SMALL LETTER F WITH HOOK .. LATIN SMALL LETTER F WITH HOOK
(16#00193#, 16#00194#), -- (Lu) LATIN CAPITAL LETTER G WITH HOOK .. LATIN CAPITAL LETTER GAMMA
(16#00195#, 16#00195#), -- (Ll) LATIN SMALL LETTER HV .. LATIN SMALL LETTER HV
(16#00196#, 16#00198#), -- (Lu) LATIN CAPITAL LETTER IOTA .. LATIN CAPITAL LETTER K WITH HOOK
(16#00199#, 16#0019B#), -- (Ll) LATIN SMALL LETTER K WITH HOOK .. LATIN SMALL LETTER LAMBDA WITH STROKE
(16#0019C#, 16#0019D#), -- (Lu) LATIN CAPITAL LETTER TURNED M .. LATIN CAPITAL LETTER N WITH LEFT HOOK
(16#0019E#, 16#0019E#), -- (Ll) LATIN SMALL LETTER N WITH LONG RIGHT LEG .. LATIN SMALL LETTER N WITH LONG RIGHT LEG
(16#0019F#, 16#001A0#), -- (Lu) LATIN CAPITAL LETTER O WITH MIDDLE TILDE .. LATIN CAPITAL LETTER O WITH HORN
(16#001A1#, 16#001A1#), -- (Ll) LATIN SMALL LETTER O WITH HORN .. LATIN SMALL LETTER O WITH HORN
(16#001A2#, 16#001A2#), -- (Lu) LATIN CAPITAL LETTER OI .. LATIN CAPITAL LETTER OI
(16#001A3#, 16#001A3#), -- (Ll) LATIN SMALL LETTER OI .. LATIN SMALL LETTER OI
(16#001A4#, 16#001A4#), -- (Lu) LATIN CAPITAL LETTER P WITH HOOK .. LATIN CAPITAL LETTER P WITH HOOK
(16#001A5#, 16#001A5#), -- (Ll) LATIN SMALL LETTER P WITH HOOK .. LATIN SMALL LETTER P WITH HOOK
(16#001A6#, 16#001A7#), -- (Lu) LATIN LETTER YR .. LATIN CAPITAL LETTER TONE TWO
(16#001A8#, 16#001A8#), -- (Ll) LATIN SMALL LETTER TONE TWO .. LATIN SMALL LETTER TONE TWO
(16#001A9#, 16#001A9#), -- (Lu) LATIN CAPITAL LETTER ESH .. LATIN CAPITAL LETTER ESH
(16#001AA#, 16#001AB#), -- (Ll) LATIN LETTER REVERSED ESH LOOP .. LATIN SMALL LETTER T WITH PALATAL HOOK
(16#001AC#, 16#001AC#), -- (Lu) LATIN CAPITAL LETTER T WITH HOOK .. LATIN CAPITAL LETTER T WITH HOOK
(16#001AD#, 16#001AD#), -- (Ll) LATIN SMALL LETTER T WITH HOOK .. LATIN SMALL LETTER T WITH HOOK
(16#001AE#, 16#001AF#), -- (Lu) LATIN CAPITAL LETTER T WITH RETROFLEX HOOK .. LATIN CAPITAL LETTER U WITH HORN
(16#001B0#, 16#001B0#), -- (Ll) LATIN SMALL LETTER U WITH HORN .. LATIN SMALL LETTER U WITH HORN
(16#001B1#, 16#001B3#), -- (Lu) LATIN CAPITAL LETTER UPSILON .. LATIN CAPITAL LETTER Y WITH HOOK
(16#001B4#, 16#001B4#), -- (Ll) LATIN SMALL LETTER Y WITH HOOK .. LATIN SMALL LETTER Y WITH HOOK
(16#001B5#, 16#001B5#), -- (Lu) LATIN CAPITAL LETTER Z WITH STROKE .. LATIN CAPITAL LETTER Z WITH STROKE
(16#001B6#, 16#001B6#), -- (Ll) LATIN SMALL LETTER Z WITH STROKE .. LATIN SMALL LETTER Z WITH STROKE
(16#001B7#, 16#001B8#), -- (Lu) LATIN CAPITAL LETTER EZH .. LATIN CAPITAL LETTER EZH REVERSED
(16#001B9#, 16#001BA#), -- (Ll) LATIN SMALL LETTER EZH REVERSED .. LATIN SMALL LETTER EZH WITH TAIL
(16#001BB#, 16#001BB#), -- (Lo) LATIN LETTER TWO WITH STROKE .. LATIN LETTER TWO WITH STROKE
(16#001BC#, 16#001BC#), -- (Lu) LATIN CAPITAL LETTER TONE FIVE .. LATIN CAPITAL LETTER TONE FIVE
(16#001BD#, 16#001BF#), -- (Ll) LATIN SMALL LETTER TONE FIVE .. LATIN LETTER WYNN
(16#001C0#, 16#001C3#), -- (Lo) LATIN LETTER DENTAL CLICK .. LATIN LETTER RETROFLEX CLICK
(16#001C4#, 16#001C4#), -- (Lu) LATIN CAPITAL LETTER DZ WITH CARON .. LATIN CAPITAL LETTER DZ WITH CARON
(16#001C5#, 16#001C5#), -- (Lt) LATIN CAPITAL LETTER D WITH SMALL LETTER Z WITH CARON .. LATIN CAPITAL LETTER D WITH SMALL LETTER Z WITH CARON
(16#001C6#, 16#001C6#), -- (Ll) LATIN SMALL LETTER DZ WITH CARON .. LATIN SMALL LETTER DZ WITH CARON
(16#001C7#, 16#001C7#), -- (Lu) LATIN CAPITAL LETTER LJ .. LATIN CAPITAL LETTER LJ
(16#001C8#, 16#001C8#), -- (Lt) LATIN CAPITAL LETTER L WITH SMALL LETTER J .. LATIN CAPITAL LETTER L WITH SMALL LETTER J
(16#001C9#, 16#001C9#), -- (Ll) LATIN SMALL LETTER LJ .. LATIN SMALL LETTER LJ
(16#001CA#, 16#001CA#), -- (Lu) LATIN CAPITAL LETTER NJ .. LATIN CAPITAL LETTER NJ
(16#001CB#, 16#001CB#), -- (Lt) LATIN CAPITAL LETTER N WITH SMALL LETTER J .. LATIN CAPITAL LETTER N WITH SMALL LETTER J
(16#001CC#, 16#001CC#), -- (Ll) LATIN SMALL LETTER NJ .. LATIN SMALL LETTER NJ
(16#001CD#, 16#001CD#), -- (Lu) LATIN CAPITAL LETTER A WITH CARON .. LATIN CAPITAL LETTER A WITH CARON
(16#001CE#, 16#001CE#), -- (Ll) LATIN SMALL LETTER A WITH CARON .. LATIN SMALL LETTER A WITH CARON
(16#001CF#, 16#001CF#), -- (Lu) LATIN CAPITAL LETTER I WITH CARON .. LATIN CAPITAL LETTER I WITH CARON
(16#001D0#, 16#001D0#), -- (Ll) LATIN SMALL LETTER I WITH CARON .. LATIN SMALL LETTER I WITH CARON
(16#001D1#, 16#001D1#), -- (Lu) LATIN CAPITAL LETTER O WITH CARON .. LATIN CAPITAL LETTER O WITH CARON
(16#001D2#, 16#001D2#), -- (Ll) LATIN SMALL LETTER O WITH CARON .. LATIN SMALL LETTER O WITH CARON
(16#001D3#, 16#001D3#), -- (Lu) LATIN CAPITAL LETTER U WITH CARON .. LATIN CAPITAL LETTER U WITH CARON
(16#001D4#, 16#001D4#), -- (Ll) LATIN SMALL LETTER U WITH CARON .. LATIN SMALL LETTER U WITH CARON
(16#001D5#, 16#001D5#), -- (Lu) LATIN CAPITAL LETTER U WITH DIAERESIS AND MACRON .. LATIN CAPITAL LETTER U WITH DIAERESIS AND MACRON
(16#001D6#, 16#001D6#), -- (Ll) LATIN SMALL LETTER U WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER U WITH DIAERESIS AND MACRON
(16#001D7#, 16#001D7#), -- (Lu) LATIN CAPITAL LETTER U WITH DIAERESIS AND ACUTE .. LATIN CAPITAL LETTER U WITH DIAERESIS AND ACUTE
(16#001D8#, 16#001D8#), -- (Ll) LATIN SMALL LETTER U WITH DIAERESIS AND ACUTE .. LATIN SMALL LETTER U WITH DIAERESIS AND ACUTE
(16#001D9#, 16#001D9#), -- (Lu) LATIN CAPITAL LETTER U WITH DIAERESIS AND CARON .. LATIN CAPITAL LETTER U WITH DIAERESIS AND CARON
(16#001DA#, 16#001DA#), -- (Ll) LATIN SMALL LETTER U WITH DIAERESIS AND CARON .. LATIN SMALL LETTER U WITH DIAERESIS AND CARON
(16#001DB#, 16#001DB#), -- (Lu) LATIN CAPITAL LETTER U WITH DIAERESIS AND GRAVE .. LATIN CAPITAL LETTER U WITH DIAERESIS AND GRAVE
(16#001DC#, 16#001DD#), -- (Ll) LATIN SMALL LETTER U WITH DIAERESIS AND GRAVE .. LATIN SMALL LETTER TURNED E
(16#001DE#, 16#001DE#), -- (Lu) LATIN CAPITAL LETTER A WITH DIAERESIS AND MACRON .. LATIN CAPITAL LETTER A WITH DIAERESIS AND MACRON
(16#001DF#, 16#001DF#), -- (Ll) LATIN SMALL LETTER A WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER A WITH DIAERESIS AND MACRON
(16#001E0#, 16#001E0#), -- (Lu) LATIN CAPITAL LETTER A WITH DOT ABOVE AND MACRON .. LATIN CAPITAL LETTER A WITH DOT ABOVE AND MACRON
(16#001E1#, 16#001E1#), -- (Ll) LATIN SMALL LETTER A WITH DOT ABOVE AND MACRON .. LATIN SMALL LETTER A WITH DOT ABOVE AND MACRON
(16#001E2#, 16#001E2#), -- (Lu) LATIN CAPITAL LETTER AE WITH MACRON .. LATIN CAPITAL LETTER AE WITH MACRON
(16#001E3#, 16#001E3#), -- (Ll) LATIN SMALL LETTER AE WITH MACRON .. LATIN SMALL LETTER AE WITH MACRON
(16#001E4#, 16#001E4#), -- (Lu) LATIN CAPITAL LETTER G WITH STROKE .. LATIN CAPITAL LETTER G WITH STROKE
(16#001E5#, 16#001E5#), -- (Ll) LATIN SMALL LETTER G WITH STROKE .. LATIN SMALL LETTER G WITH STROKE
(16#001E6#, 16#001E6#), -- (Lu) LATIN CAPITAL LETTER G WITH CARON .. LATIN CAPITAL LETTER G WITH CARON
(16#001E7#, 16#001E7#), -- (Ll) LATIN SMALL LETTER G WITH CARON .. LATIN SMALL LETTER G WITH CARON
(16#001E8#, 16#001E8#), -- (Lu) LATIN CAPITAL LETTER K WITH CARON .. LATIN CAPITAL LETTER K WITH CARON
(16#001E9#, 16#001E9#), -- (Ll) LATIN SMALL LETTER K WITH CARON .. LATIN SMALL LETTER K WITH CARON
(16#001EA#, 16#001EA#), -- (Lu) LATIN CAPITAL LETTER O WITH OGONEK .. LATIN CAPITAL LETTER O WITH OGONEK
(16#001EB#, 16#001EB#), -- (Ll) LATIN SMALL LETTER O WITH OGONEK .. LATIN SMALL LETTER O WITH OGONEK
(16#001EC#, 16#001EC#), -- (Lu) LATIN CAPITAL LETTER O WITH OGONEK AND MACRON .. LATIN CAPITAL LETTER O WITH OGONEK AND MACRON
(16#001ED#, 16#001ED#), -- (Ll) LATIN SMALL LETTER O WITH OGONEK AND MACRON .. LATIN SMALL LETTER O WITH OGONEK AND MACRON
(16#001EE#, 16#001EE#), -- (Lu) LATIN CAPITAL LETTER EZH WITH CARON .. LATIN CAPITAL LETTER EZH WITH CARON
(16#001EF#, 16#001F0#), -- (Ll) LATIN SMALL LETTER EZH WITH CARON .. LATIN SMALL LETTER J WITH CARON
(16#001F1#, 16#001F1#), -- (Lu) LATIN CAPITAL LETTER DZ .. LATIN CAPITAL LETTER DZ
(16#001F2#, 16#001F2#), -- (Lt) LATIN CAPITAL LETTER D WITH SMALL LETTER Z .. LATIN CAPITAL LETTER D WITH SMALL LETTER Z
(16#001F3#, 16#001F3#), -- (Ll) LATIN SMALL LETTER DZ .. LATIN SMALL LETTER DZ
(16#001F4#, 16#001F4#), -- (Lu) LATIN CAPITAL LETTER G WITH ACUTE .. LATIN CAPITAL LETTER G WITH ACUTE
(16#001F5#, 16#001F5#), -- (Ll) LATIN SMALL LETTER G WITH ACUTE .. LATIN SMALL LETTER G WITH ACUTE
(16#001F6#, 16#001F8#), -- (Lu) LATIN CAPITAL LETTER HWAIR .. LATIN CAPITAL LETTER N WITH GRAVE
(16#001F9#, 16#001F9#), -- (Ll) LATIN SMALL LETTER N WITH GRAVE .. LATIN SMALL LETTER N WITH GRAVE
(16#001FA#, 16#001FA#), -- (Lu) LATIN CAPITAL LETTER A WITH RING ABOVE AND ACUTE .. LATIN CAPITAL LETTER A WITH RING ABOVE AND ACUTE
(16#001FB#, 16#001FB#), -- (Ll) LATIN SMALL LETTER A WITH RING ABOVE AND ACUTE .. LATIN SMALL LETTER A WITH RING ABOVE AND ACUTE
(16#001FC#, 16#001FC#), -- (Lu) LATIN CAPITAL LETTER AE WITH ACUTE .. LATIN CAPITAL LETTER AE WITH ACUTE
(16#001FD#, 16#001FD#), -- (Ll) LATIN SMALL LETTER AE WITH ACUTE .. LATIN SMALL LETTER AE WITH ACUTE
(16#001FE#, 16#001FE#), -- (Lu) LATIN CAPITAL LETTER O WITH STROKE AND ACUTE .. LATIN CAPITAL LETTER O WITH STROKE AND ACUTE
(16#001FF#, 16#001FF#), -- (Ll) LATIN SMALL LETTER O WITH STROKE AND ACUTE .. LATIN SMALL LETTER O WITH STROKE AND ACUTE
(16#00200#, 16#00200#), -- (Lu) LATIN CAPITAL LETTER A WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER A WITH DOUBLE GRAVE
(16#00201#, 16#00201#), -- (Ll) LATIN SMALL LETTER A WITH DOUBLE GRAVE .. LATIN SMALL LETTER A WITH DOUBLE GRAVE
(16#00202#, 16#00202#), -- (Lu) LATIN CAPITAL LETTER A WITH INVERTED BREVE .. LATIN CAPITAL LETTER A WITH INVERTED BREVE
(16#00203#, 16#00203#), -- (Ll) LATIN SMALL LETTER A WITH INVERTED BREVE .. LATIN SMALL LETTER A WITH INVERTED BREVE
(16#00204#, 16#00204#), -- (Lu) LATIN CAPITAL LETTER E WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER E WITH DOUBLE GRAVE
(16#00205#, 16#00205#), -- (Ll) LATIN SMALL LETTER E WITH DOUBLE GRAVE .. LATIN SMALL LETTER E WITH DOUBLE GRAVE
(16#00206#, 16#00206#), -- (Lu) LATIN CAPITAL LETTER E WITH INVERTED BREVE .. LATIN CAPITAL LETTER E WITH INVERTED BREVE
(16#00207#, 16#00207#), -- (Ll) LATIN SMALL LETTER E WITH INVERTED BREVE .. LATIN SMALL LETTER E WITH INVERTED BREVE
(16#00208#, 16#00208#), -- (Lu) LATIN CAPITAL LETTER I WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER I WITH DOUBLE GRAVE
(16#00209#, 16#00209#), -- (Ll) LATIN SMALL LETTER I WITH DOUBLE GRAVE .. LATIN SMALL LETTER I WITH DOUBLE GRAVE
(16#0020A#, 16#0020A#), -- (Lu) LATIN CAPITAL LETTER I WITH INVERTED BREVE .. LATIN CAPITAL LETTER I WITH INVERTED BREVE
(16#0020B#, 16#0020B#), -- (Ll) LATIN SMALL LETTER I WITH INVERTED BREVE .. LATIN SMALL LETTER I WITH INVERTED BREVE
(16#0020C#, 16#0020C#), -- (Lu) LATIN CAPITAL LETTER O WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER O WITH DOUBLE GRAVE
(16#0020D#, 16#0020D#), -- (Ll) LATIN SMALL LETTER O WITH DOUBLE GRAVE .. LATIN SMALL LETTER O WITH DOUBLE GRAVE
(16#0020E#, 16#0020E#), -- (Lu) LATIN CAPITAL LETTER O WITH INVERTED BREVE .. LATIN CAPITAL LETTER O WITH INVERTED BREVE
(16#0020F#, 16#0020F#), -- (Ll) LATIN SMALL LETTER O WITH INVERTED BREVE .. LATIN SMALL LETTER O WITH INVERTED BREVE
(16#00210#, 16#00210#), -- (Lu) LATIN CAPITAL LETTER R WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER R WITH DOUBLE GRAVE
(16#00211#, 16#00211#), -- (Ll) LATIN SMALL LETTER R WITH DOUBLE GRAVE .. LATIN SMALL LETTER R WITH DOUBLE GRAVE
(16#00212#, 16#00212#), -- (Lu) LATIN CAPITAL LETTER R WITH INVERTED BREVE .. LATIN CAPITAL LETTER R WITH INVERTED BREVE
(16#00213#, 16#00213#), -- (Ll) LATIN SMALL LETTER R WITH INVERTED BREVE .. LATIN SMALL LETTER R WITH INVERTED BREVE
(16#00214#, 16#00214#), -- (Lu) LATIN CAPITAL LETTER U WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER U WITH DOUBLE GRAVE
(16#00215#, 16#00215#), -- (Ll) LATIN SMALL LETTER U WITH DOUBLE GRAVE .. LATIN SMALL LETTER U WITH DOUBLE GRAVE
(16#00216#, 16#00216#), -- (Lu) LATIN CAPITAL LETTER U WITH INVERTED BREVE .. LATIN CAPITAL LETTER U WITH INVERTED BREVE
(16#00217#, 16#00217#), -- (Ll) LATIN SMALL LETTER U WITH INVERTED BREVE .. LATIN SMALL LETTER U WITH INVERTED BREVE
(16#00218#, 16#00218#), -- (Lu) LATIN CAPITAL LETTER S WITH COMMA BELOW .. LATIN CAPITAL LETTER S WITH COMMA BELOW
(16#00219#, 16#00219#), -- (Ll) LATIN SMALL LETTER S WITH COMMA BELOW .. LATIN SMALL LETTER S WITH COMMA BELOW
(16#0021A#, 16#0021A#), -- (Lu) LATIN CAPITAL LETTER T WITH COMMA BELOW .. LATIN CAPITAL LETTER T WITH COMMA BELOW
(16#0021B#, 16#0021B#), -- (Ll) LATIN SMALL LETTER T WITH COMMA BELOW .. LATIN SMALL LETTER T WITH COMMA BELOW
(16#0021C#, 16#0021C#), -- (Lu) LATIN CAPITAL LETTER YOGH .. LATIN CAPITAL LETTER YOGH
(16#0021D#, 16#0021D#), -- (Ll) LATIN SMALL LETTER YOGH .. LATIN SMALL LETTER YOGH
(16#0021E#, 16#0021E#), -- (Lu) LATIN CAPITAL LETTER H WITH CARON .. LATIN CAPITAL LETTER H WITH CARON
(16#0021F#, 16#0021F#), -- (Ll) LATIN SMALL LETTER H WITH CARON .. LATIN SMALL LETTER H WITH CARON
(16#00220#, 16#00220#), -- (Lu) LATIN CAPITAL LETTER N WITH LONG RIGHT LEG .. LATIN CAPITAL LETTER N WITH LONG RIGHT LEG
(16#00221#, 16#00221#), -- (Ll) LATIN SMALL LETTER D WITH CURL .. LATIN SMALL LETTER D WITH CURL
(16#00222#, 16#00222#), -- (Lu) LATIN CAPITAL LETTER OU .. LATIN CAPITAL LETTER OU
(16#00223#, 16#00223#), -- (Ll) LATIN SMALL LETTER OU .. LATIN SMALL LETTER OU
(16#00224#, 16#00224#), -- (Lu) LATIN CAPITAL LETTER Z WITH HOOK .. LATIN CAPITAL LETTER Z WITH HOOK
(16#00225#, 16#00225#), -- (Ll) LATIN SMALL LETTER Z WITH HOOK .. LATIN SMALL LETTER Z WITH HOOK
(16#00226#, 16#00226#), -- (Lu) LATIN CAPITAL LETTER A WITH DOT ABOVE .. LATIN CAPITAL LETTER A WITH DOT ABOVE
(16#00227#, 16#00227#), -- (Ll) LATIN SMALL LETTER A WITH DOT ABOVE .. LATIN SMALL LETTER A WITH DOT ABOVE
(16#00228#, 16#00228#), -- (Lu) LATIN CAPITAL LETTER E WITH CEDILLA .. LATIN CAPITAL LETTER E WITH CEDILLA
(16#00229#, 16#00229#), -- (Ll) LATIN SMALL LETTER E WITH CEDILLA .. LATIN SMALL LETTER E WITH CEDILLA
(16#0022A#, 16#0022A#), -- (Lu) LATIN CAPITAL LETTER O WITH DIAERESIS AND MACRON .. LATIN CAPITAL LETTER O WITH DIAERESIS AND MACRON
(16#0022B#, 16#0022B#), -- (Ll) LATIN SMALL LETTER O WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER O WITH DIAERESIS AND MACRON
(16#0022C#, 16#0022C#), -- (Lu) LATIN CAPITAL LETTER O WITH TILDE AND MACRON .. LATIN CAPITAL LETTER O WITH TILDE AND MACRON
(16#0022D#, 16#0022D#), -- (Ll) LATIN SMALL LETTER O WITH TILDE AND MACRON .. LATIN SMALL LETTER O WITH TILDE AND MACRON
(16#0022E#, 16#0022E#), -- (Lu) LATIN CAPITAL LETTER O WITH DOT ABOVE .. LATIN CAPITAL LETTER O WITH DOT ABOVE
(16#0022F#, 16#0022F#), -- (Ll) LATIN SMALL LETTER O WITH DOT ABOVE .. LATIN SMALL LETTER O WITH DOT ABOVE
(16#00230#, 16#00230#), -- (Lu) LATIN CAPITAL LETTER O WITH DOT ABOVE AND MACRON .. LATIN CAPITAL LETTER O WITH DOT ABOVE AND MACRON
(16#00231#, 16#00231#), -- (Ll) LATIN SMALL LETTER O WITH DOT ABOVE AND MACRON .. LATIN SMALL LETTER O WITH DOT ABOVE AND MACRON
(16#00232#, 16#00232#), -- (Lu) LATIN CAPITAL LETTER Y WITH MACRON .. LATIN CAPITAL LETTER Y WITH MACRON
(16#00233#, 16#00236#), -- (Ll) LATIN SMALL LETTER Y WITH MACRON .. LATIN SMALL LETTER T WITH CURL
(16#00250#, 16#002AF#), -- (Ll) LATIN SMALL LETTER TURNED A .. LATIN SMALL LETTER TURNED H WITH FISHHOOK AND TAIL
(16#002B0#, 16#002C1#), -- (Lm) MODIFIER LETTER SMALL H .. MODIFIER LETTER REVERSED GLOTTAL STOP
(16#002C2#, 16#002C5#), -- (Sk) MODIFIER LETTER LEFT ARROWHEAD .. MODIFIER LETTER DOWN ARROWHEAD
(16#002C6#, 16#002D1#), -- (Lm) MODIFIER LETTER CIRCUMFLEX ACCENT .. MODIFIER LETTER HALF TRIANGULAR COLON
(16#002D2#, 16#002DF#), -- (Sk) MODIFIER LETTER CENTRED RIGHT HALF RING .. MODIFIER LETTER CROSS ACCENT
(16#002E0#, 16#002E4#), -- (Lm) MODIFIER LETTER SMALL GAMMA .. MODIFIER LETTER SMALL REVERSED GLOTTAL STOP
(16#002E5#, 16#002ED#), -- (Sk) MODIFIER LETTER EXTRA-HIGH TONE BAR .. MODIFIER LETTER UNASPIRATED
(16#002EE#, 16#002EE#), -- (Lm) MODIFIER LETTER DOUBLE APOSTROPHE .. MODIFIER LETTER DOUBLE APOSTROPHE
(16#002EF#, 16#002FF#), -- (Sk) MODIFIER LETTER LOW DOWN ARROWHEAD .. MODIFIER LETTER LOW LEFT ARROW
(16#00300#, 16#00357#), -- (Mn) COMBINING GRAVE ACCENT .. COMBINING RIGHT HALF RING ABOVE
(16#0035D#, 16#0036F#), -- (Mn) COMBINING DOUBLE BREVE .. COMBINING LATIN SMALL LETTER X
(16#00374#, 16#00375#), -- (Sk) GREEK NUMERAL SIGN .. GREEK LOWER NUMERAL SIGN
(16#0037A#, 16#0037A#), -- (Lm) GREEK YPOGEGRAMMENI .. GREEK YPOGEGRAMMENI
(16#0037E#, 16#0037E#), -- (Po) GREEK QUESTION MARK .. GREEK QUESTION MARK
(16#00384#, 16#00385#), -- (Sk) GREEK TONOS .. GREEK DIALYTIKA TONOS
(16#00386#, 16#00386#), -- (Lu) GREEK CAPITAL LETTER ALPHA WITH TONOS .. GREEK CAPITAL LETTER ALPHA WITH TONOS
(16#00387#, 16#00387#), -- (Po) GREEK ANO TELEIA .. GREEK ANO TELEIA
(16#00388#, 16#0038A#), -- (Lu) GREEK CAPITAL LETTER EPSILON WITH TONOS .. GREEK CAPITAL LETTER IOTA WITH TONOS
(16#0038C#, 16#0038C#), -- (Lu) GREEK CAPITAL LETTER OMICRON WITH TONOS .. GREEK CAPITAL LETTER OMICRON WITH TONOS
(16#0038E#, 16#0038F#), -- (Lu) GREEK CAPITAL LETTER UPSILON WITH TONOS .. GREEK CAPITAL LETTER OMEGA WITH TONOS
(16#00390#, 16#00390#), -- (Ll) GREEK SMALL LETTER IOTA WITH DIALYTIKA AND TONOS .. GREEK SMALL LETTER IOTA WITH DIALYTIKA AND TONOS
(16#00391#, 16#003A1#), -- (Lu) GREEK CAPITAL LETTER ALPHA .. GREEK CAPITAL LETTER RHO
(16#003A3#, 16#003AB#), -- (Lu) GREEK CAPITAL LETTER SIGMA .. GREEK CAPITAL LETTER UPSILON WITH DIALYTIKA
(16#003AC#, 16#003CE#), -- (Ll) GREEK SMALL LETTER ALPHA WITH TONOS .. GREEK SMALL LETTER OMEGA WITH TONOS
(16#003D0#, 16#003D1#), -- (Ll) GREEK BETA SYMBOL .. GREEK THETA SYMBOL
(16#003D2#, 16#003D4#), -- (Lu) GREEK UPSILON WITH HOOK SYMBOL .. GREEK UPSILON WITH DIAERESIS AND HOOK SYMBOL
(16#003D5#, 16#003D7#), -- (Ll) GREEK PHI SYMBOL .. GREEK KAI SYMBOL
(16#003D8#, 16#003D8#), -- (Lu) GREEK LETTER ARCHAIC KOPPA .. GREEK LETTER ARCHAIC KOPPA
(16#003D9#, 16#003D9#), -- (Ll) GREEK SMALL LETTER ARCHAIC KOPPA .. GREEK SMALL LETTER ARCHAIC KOPPA
(16#003DA#, 16#003DA#), -- (Lu) GREEK LETTER STIGMA .. GREEK LETTER STIGMA
(16#003DB#, 16#003DB#), -- (Ll) GREEK SMALL LETTER STIGMA .. GREEK SMALL LETTER STIGMA
(16#003DC#, 16#003DC#), -- (Lu) GREEK LETTER DIGAMMA .. GREEK LETTER DIGAMMA
(16#003DD#, 16#003DD#), -- (Ll) GREEK SMALL LETTER DIGAMMA .. GREEK SMALL LETTER DIGAMMA
(16#003DE#, 16#003DE#), -- (Lu) GREEK LETTER KOPPA .. GREEK LETTER KOPPA
(16#003DF#, 16#003DF#), -- (Ll) GREEK SMALL LETTER KOPPA .. GREEK SMALL LETTER KOPPA
(16#003E0#, 16#003E0#), -- (Lu) GREEK LETTER SAMPI .. GREEK LETTER SAMPI
(16#003E1#, 16#003E1#), -- (Ll) GREEK SMALL LETTER SAMPI .. GREEK SMALL LETTER SAMPI
(16#003E2#, 16#003E2#), -- (Lu) COPTIC CAPITAL LETTER SHEI .. COPTIC CAPITAL LETTER SHEI
(16#003E3#, 16#003E3#), -- (Ll) COPTIC SMALL LETTER SHEI .. COPTIC SMALL LETTER SHEI
(16#003E4#, 16#003E4#), -- (Lu) COPTIC CAPITAL LETTER FEI .. COPTIC CAPITAL LETTER FEI
(16#003E5#, 16#003E5#), -- (Ll) COPTIC SMALL LETTER FEI .. COPTIC SMALL LETTER FEI
(16#003E6#, 16#003E6#), -- (Lu) COPTIC CAPITAL LETTER KHEI .. COPTIC CAPITAL LETTER KHEI
(16#003E7#, 16#003E7#), -- (Ll) COPTIC SMALL LETTER KHEI .. COPTIC SMALL LETTER KHEI
(16#003E8#, 16#003E8#), -- (Lu) COPTIC CAPITAL LETTER HORI .. COPTIC CAPITAL LETTER HORI
(16#003E9#, 16#003E9#), -- (Ll) COPTIC SMALL LETTER HORI .. COPTIC SMALL LETTER HORI
(16#003EA#, 16#003EA#), -- (Lu) COPTIC CAPITAL LETTER GANGIA .. COPTIC CAPITAL LETTER GANGIA
(16#003EB#, 16#003EB#), -- (Ll) COPTIC SMALL LETTER GANGIA .. COPTIC SMALL LETTER GANGIA
(16#003EC#, 16#003EC#), -- (Lu) COPTIC CAPITAL LETTER SHIMA .. COPTIC CAPITAL LETTER SHIMA
(16#003ED#, 16#003ED#), -- (Ll) COPTIC SMALL LETTER SHIMA .. COPTIC SMALL LETTER SHIMA
(16#003EE#, 16#003EE#), -- (Lu) COPTIC CAPITAL LETTER DEI .. COPTIC CAPITAL LETTER DEI
(16#003EF#, 16#003F3#), -- (Ll) COPTIC SMALL LETTER DEI .. GREEK LETTER YOT
(16#003F4#, 16#003F4#), -- (Lu) GREEK CAPITAL THETA SYMBOL .. GREEK CAPITAL THETA SYMBOL
(16#003F5#, 16#003F5#), -- (Ll) GREEK LUNATE EPSILON SYMBOL .. GREEK LUNATE EPSILON SYMBOL
(16#003F6#, 16#003F6#), -- (Sm) GREEK REVERSED LUNATE EPSILON SYMBOL .. GREEK REVERSED LUNATE EPSILON SYMBOL
(16#003F7#, 16#003F7#), -- (Lu) GREEK CAPITAL LETTER SHO .. GREEK CAPITAL LETTER SHO
(16#003F8#, 16#003F8#), -- (Ll) GREEK SMALL LETTER SHO .. GREEK SMALL LETTER SHO
(16#003F9#, 16#003FA#), -- (Lu) GREEK CAPITAL LUNATE SIGMA SYMBOL .. GREEK CAPITAL LETTER SAN
(16#003FB#, 16#003FB#), -- (Ll) GREEK SMALL LETTER SAN .. GREEK SMALL LETTER SAN
(16#00400#, 16#0042F#), -- (Lu) CYRILLIC CAPITAL LETTER IE WITH GRAVE .. CYRILLIC CAPITAL LETTER YA
(16#00430#, 16#0045F#), -- (Ll) CYRILLIC SMALL LETTER A .. CYRILLIC SMALL LETTER DZHE
(16#00460#, 16#00460#), -- (Lu) CYRILLIC CAPITAL LETTER OMEGA .. CYRILLIC CAPITAL LETTER OMEGA
(16#00461#, 16#00461#), -- (Ll) CYRILLIC SMALL LETTER OMEGA .. CYRILLIC SMALL LETTER OMEGA
(16#00462#, 16#00462#), -- (Lu) CYRILLIC CAPITAL LETTER YAT .. CYRILLIC CAPITAL LETTER YAT
(16#00463#, 16#00463#), -- (Ll) CYRILLIC SMALL LETTER YAT .. CYRILLIC SMALL LETTER YAT
(16#00464#, 16#00464#), -- (Lu) CYRILLIC CAPITAL LETTER IOTIFIED E .. CYRILLIC CAPITAL LETTER IOTIFIED E
(16#00465#, 16#00465#), -- (Ll) CYRILLIC SMALL LETTER IOTIFIED E .. CYRILLIC SMALL LETTER IOTIFIED E
(16#00466#, 16#00466#), -- (Lu) CYRILLIC CAPITAL LETTER LITTLE YUS .. CYRILLIC CAPITAL LETTER LITTLE YUS
(16#00467#, 16#00467#), -- (Ll) CYRILLIC SMALL LETTER LITTLE YUS .. CYRILLIC SMALL LETTER LITTLE YUS
(16#00468#, 16#00468#), -- (Lu) CYRILLIC CAPITAL LETTER IOTIFIED LITTLE YUS .. CYRILLIC CAPITAL LETTER IOTIFIED LITTLE YUS
(16#00469#, 16#00469#), -- (Ll) CYRILLIC SMALL LETTER IOTIFIED LITTLE YUS .. CYRILLIC SMALL LETTER IOTIFIED LITTLE YUS
(16#0046A#, 16#0046A#), -- (Lu) CYRILLIC CAPITAL LETTER BIG YUS .. CYRILLIC CAPITAL LETTER BIG YUS
(16#0046B#, 16#0046B#), -- (Ll) CYRILLIC SMALL LETTER BIG YUS .. CYRILLIC SMALL LETTER BIG YUS
(16#0046C#, 16#0046C#), -- (Lu) CYRILLIC CAPITAL LETTER IOTIFIED BIG YUS .. CYRILLIC CAPITAL LETTER IOTIFIED BIG YUS
(16#0046D#, 16#0046D#), -- (Ll) CYRILLIC SMALL LETTER IOTIFIED BIG YUS .. CYRILLIC SMALL LETTER IOTIFIED BIG YUS
(16#0046E#, 16#0046E#), -- (Lu) CYRILLIC CAPITAL LETTER KSI .. CYRILLIC CAPITAL LETTER KSI
(16#0046F#, 16#0046F#), -- (Ll) CYRILLIC SMALL LETTER KSI .. CYRILLIC SMALL LETTER KSI
(16#00470#, 16#00470#), -- (Lu) CYRILLIC CAPITAL LETTER PSI .. CYRILLIC CAPITAL LETTER PSI
(16#00471#, 16#00471#), -- (Ll) CYRILLIC SMALL LETTER PSI .. CYRILLIC SMALL LETTER PSI
(16#00472#, 16#00472#), -- (Lu) CYRILLIC CAPITAL LETTER FITA .. CYRILLIC CAPITAL LETTER FITA
(16#00473#, 16#00473#), -- (Ll) CYRILLIC SMALL LETTER FITA .. CYRILLIC SMALL LETTER FITA
(16#00474#, 16#00474#), -- (Lu) CYRILLIC CAPITAL LETTER IZHITSA .. CYRILLIC CAPITAL LETTER IZHITSA
(16#00475#, 16#00475#), -- (Ll) CYRILLIC SMALL LETTER IZHITSA .. CYRILLIC SMALL LETTER IZHITSA
(16#00476#, 16#00476#), -- (Lu) CYRILLIC CAPITAL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT .. CYRILLIC CAPITAL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT
(16#00477#, 16#00477#), -- (Ll) CYRILLIC SMALL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT .. CYRILLIC SMALL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT
(16#00478#, 16#00478#), -- (Lu) CYRILLIC CAPITAL LETTER UK .. CYRILLIC CAPITAL LETTER UK
(16#00479#, 16#00479#), -- (Ll) CYRILLIC SMALL LETTER UK .. CYRILLIC SMALL LETTER UK
(16#0047A#, 16#0047A#), -- (Lu) CYRILLIC CAPITAL LETTER ROUND OMEGA .. CYRILLIC CAPITAL LETTER ROUND OMEGA
(16#0047B#, 16#0047B#), -- (Ll) CYRILLIC SMALL LETTER ROUND OMEGA .. CYRILLIC SMALL LETTER ROUND OMEGA
(16#0047C#, 16#0047C#), -- (Lu) CYRILLIC CAPITAL LETTER OMEGA WITH TITLO .. CYRILLIC CAPITAL LETTER OMEGA WITH TITLO
(16#0047D#, 16#0047D#), -- (Ll) CYRILLIC SMALL LETTER OMEGA WITH TITLO .. CYRILLIC SMALL LETTER OMEGA WITH TITLO
(16#0047E#, 16#0047E#), -- (Lu) CYRILLIC CAPITAL LETTER OT .. CYRILLIC CAPITAL LETTER OT
(16#0047F#, 16#0047F#), -- (Ll) CYRILLIC SMALL LETTER OT .. CYRILLIC SMALL LETTER OT
(16#00480#, 16#00480#), -- (Lu) CYRILLIC CAPITAL LETTER KOPPA .. CYRILLIC CAPITAL LETTER KOPPA
(16#00481#, 16#00481#), -- (Ll) CYRILLIC SMALL LETTER KOPPA .. CYRILLIC SMALL LETTER KOPPA
(16#00482#, 16#00482#), -- (So) CYRILLIC THOUSANDS SIGN .. CYRILLIC THOUSANDS SIGN
(16#00483#, 16#00486#), -- (Mn) COMBINING CYRILLIC TITLO .. COMBINING CYRILLIC PSILI PNEUMATA
(16#00488#, 16#00489#), -- (Me) COMBINING CYRILLIC HUNDRED THOUSANDS SIGN .. COMBINING CYRILLIC MILLIONS SIGN
(16#0048A#, 16#0048A#), -- (Lu) CYRILLIC CAPITAL LETTER SHORT I WITH TAIL .. CYRILLIC CAPITAL LETTER SHORT I WITH TAIL
(16#0048B#, 16#0048B#), -- (Ll) CYRILLIC SMALL LETTER SHORT I WITH TAIL .. CYRILLIC SMALL LETTER SHORT I WITH TAIL
(16#0048C#, 16#0048C#), -- (Lu) CYRILLIC CAPITAL LETTER SEMISOFT SIGN .. CYRILLIC CAPITAL LETTER SEMISOFT SIGN
(16#0048D#, 16#0048D#), -- (Ll) CYRILLIC SMALL LETTER SEMISOFT SIGN .. CYRILLIC SMALL LETTER SEMISOFT SIGN
(16#0048E#, 16#0048E#), -- (Lu) CYRILLIC CAPITAL LETTER ER WITH TICK .. CYRILLIC CAPITAL LETTER ER WITH TICK
(16#0048F#, 16#0048F#), -- (Ll) CYRILLIC SMALL LETTER ER WITH TICK .. CYRILLIC SMALL LETTER ER WITH TICK
(16#00490#, 16#00490#), -- (Lu) CYRILLIC CAPITAL LETTER GHE WITH UPTURN .. CYRILLIC CAPITAL LETTER GHE WITH UPTURN
(16#00491#, 16#00491#), -- (Ll) CYRILLIC SMALL LETTER GHE WITH UPTURN .. CYRILLIC SMALL LETTER GHE WITH UPTURN
(16#00492#, 16#00492#), -- (Lu) CYRILLIC CAPITAL LETTER GHE WITH STROKE .. CYRILLIC CAPITAL LETTER GHE WITH STROKE
(16#00493#, 16#00493#), -- (Ll) CYRILLIC SMALL LETTER GHE WITH STROKE .. CYRILLIC SMALL LETTER GHE WITH STROKE
(16#00494#, 16#00494#), -- (Lu) CYRILLIC CAPITAL LETTER GHE WITH MIDDLE HOOK .. CYRILLIC CAPITAL LETTER GHE WITH MIDDLE HOOK
(16#00495#, 16#00495#), -- (Ll) CYRILLIC SMALL LETTER GHE WITH MIDDLE HOOK .. CYRILLIC SMALL LETTER GHE WITH MIDDLE HOOK
(16#00496#, 16#00496#), -- (Lu) CYRILLIC CAPITAL LETTER ZHE WITH DESCENDER .. CYRILLIC CAPITAL LETTER ZHE WITH DESCENDER
(16#00497#, 16#00497#), -- (Ll) CYRILLIC SMALL LETTER ZHE WITH DESCENDER .. CYRILLIC SMALL LETTER ZHE WITH DESCENDER
(16#00498#, 16#00498#), -- (Lu) CYRILLIC CAPITAL LETTER ZE WITH DESCENDER .. CYRILLIC CAPITAL LETTER ZE WITH DESCENDER
(16#00499#, 16#00499#), -- (Ll) CYRILLIC SMALL LETTER ZE WITH DESCENDER .. CYRILLIC SMALL LETTER ZE WITH DESCENDER
(16#0049A#, 16#0049A#), -- (Lu) CYRILLIC CAPITAL LETTER KA WITH DESCENDER .. CYRILLIC CAPITAL LETTER KA WITH DESCENDER
(16#0049B#, 16#0049B#), -- (Ll) CYRILLIC SMALL LETTER KA WITH DESCENDER .. CYRILLIC SMALL LETTER KA WITH DESCENDER
(16#0049C#, 16#0049C#), -- (Lu) CYRILLIC CAPITAL LETTER KA WITH VERTICAL STROKE .. CYRILLIC CAPITAL LETTER KA WITH VERTICAL STROKE
(16#0049D#, 16#0049D#), -- (Ll) CYRILLIC SMALL LETTER KA WITH VERTICAL STROKE .. CYRILLIC SMALL LETTER KA WITH VERTICAL STROKE
(16#0049E#, 16#0049E#), -- (Lu) CYRILLIC CAPITAL LETTER KA WITH STROKE .. CYRILLIC CAPITAL LETTER KA WITH STROKE
(16#0049F#, 16#0049F#), -- (Ll) CYRILLIC SMALL LETTER KA WITH STROKE .. CYRILLIC SMALL LETTER KA WITH STROKE
(16#004A0#, 16#004A0#), -- (Lu) CYRILLIC CAPITAL LETTER BASHKIR KA .. CYRILLIC CAPITAL LETTER BASHKIR KA
(16#004A1#, 16#004A1#), -- (Ll) CYRILLIC SMALL LETTER BASHKIR KA .. CYRILLIC SMALL LETTER BASHKIR KA
(16#004A2#, 16#004A2#), -- (Lu) CYRILLIC CAPITAL LETTER EN WITH DESCENDER .. CYRILLIC CAPITAL LETTER EN WITH DESCENDER
(16#004A3#, 16#004A3#), -- (Ll) CYRILLIC SMALL LETTER EN WITH DESCENDER .. CYRILLIC SMALL LETTER EN WITH DESCENDER
(16#004A4#, 16#004A4#), -- (Lu) CYRILLIC CAPITAL LIGATURE EN GHE .. CYRILLIC CAPITAL LIGATURE EN GHE
(16#004A5#, 16#004A5#), -- (Ll) CYRILLIC SMALL LIGATURE EN GHE .. CYRILLIC SMALL LIGATURE EN GHE
(16#004A6#, 16#004A6#), -- (Lu) CYRILLIC CAPITAL LETTER PE WITH MIDDLE HOOK .. CYRILLIC CAPITAL LETTER PE WITH MIDDLE HOOK
(16#004A7#, 16#004A7#), -- (Ll) CYRILLIC SMALL LETTER PE WITH MIDDLE HOOK .. CYRILLIC SMALL LETTER PE WITH MIDDLE HOOK
(16#004A8#, 16#004A8#), -- (Lu) CYRILLIC CAPITAL LETTER ABKHASIAN HA .. CYRILLIC CAPITAL LETTER ABKHASIAN HA
(16#004A9#, 16#004A9#), -- (Ll) CYRILLIC SMALL LETTER ABKHASIAN HA .. CYRILLIC SMALL LETTER ABKHASIAN HA
(16#004AA#, 16#004AA#), -- (Lu) CYRILLIC CAPITAL LETTER ES WITH DESCENDER .. CYRILLIC CAPITAL LETTER ES WITH DESCENDER
(16#004AB#, 16#004AB#), -- (Ll) CYRILLIC SMALL LETTER ES WITH DESCENDER .. CYRILLIC SMALL LETTER ES WITH DESCENDER
(16#004AC#, 16#004AC#), -- (Lu) CYRILLIC CAPITAL LETTER TE WITH DESCENDER .. CYRILLIC CAPITAL LETTER TE WITH DESCENDER
(16#004AD#, 16#004AD#), -- (Ll) CYRILLIC SMALL LETTER TE WITH DESCENDER .. CYRILLIC SMALL LETTER TE WITH DESCENDER
(16#004AE#, 16#004AE#), -- (Lu) CYRILLIC CAPITAL LETTER STRAIGHT U .. CYRILLIC CAPITAL LETTER STRAIGHT U
(16#004AF#, 16#004AF#), -- (Ll) CYRILLIC SMALL LETTER STRAIGHT U .. CYRILLIC SMALL LETTER STRAIGHT U
(16#004B0#, 16#004B0#), -- (Lu) CYRILLIC CAPITAL LETTER STRAIGHT U WITH STROKE .. CYRILLIC CAPITAL LETTER STRAIGHT U WITH STROKE
(16#004B1#, 16#004B1#), -- (Ll) CYRILLIC SMALL LETTER STRAIGHT U WITH STROKE .. CYRILLIC SMALL LETTER STRAIGHT U WITH STROKE
(16#004B2#, 16#004B2#), -- (Lu) CYRILLIC CAPITAL LETTER HA WITH DESCENDER .. CYRILLIC CAPITAL LETTER HA WITH DESCENDER
(16#004B3#, 16#004B3#), -- (Ll) CYRILLIC SMALL LETTER HA WITH DESCENDER .. CYRILLIC SMALL LETTER HA WITH DESCENDER
(16#004B4#, 16#004B4#), -- (Lu) CYRILLIC CAPITAL LIGATURE TE TSE .. CYRILLIC CAPITAL LIGATURE TE TSE
(16#004B5#, 16#004B5#), -- (Ll) CYRILLIC SMALL LIGATURE TE TSE .. CYRILLIC SMALL LIGATURE TE TSE
(16#004B6#, 16#004B6#), -- (Lu) CYRILLIC CAPITAL LETTER CHE WITH DESCENDER .. CYRILLIC CAPITAL LETTER CHE WITH DESCENDER
(16#004B7#, 16#004B7#), -- (Ll) CYRILLIC SMALL LETTER CHE WITH DESCENDER .. CYRILLIC SMALL LETTER CHE WITH DESCENDER
(16#004B8#, 16#004B8#), -- (Lu) CYRILLIC CAPITAL LETTER CHE WITH VERTICAL STROKE .. CYRILLIC CAPITAL LETTER CHE WITH VERTICAL STROKE
(16#004B9#, 16#004B9#), -- (Ll) CYRILLIC SMALL LETTER CHE WITH VERTICAL STROKE .. CYRILLIC SMALL LETTER CHE WITH VERTICAL STROKE
(16#004BA#, 16#004BA#), -- (Lu) CYRILLIC CAPITAL LETTER SHHA .. CYRILLIC CAPITAL LETTER SHHA
(16#004BB#, 16#004BB#), -- (Ll) CYRILLIC SMALL LETTER SHHA .. CYRILLIC SMALL LETTER SHHA
(16#004BC#, 16#004BC#), -- (Lu) CYRILLIC CAPITAL LETTER ABKHASIAN CHE .. CYRILLIC CAPITAL LETTER ABKHASIAN CHE
(16#004BD#, 16#004BD#), -- (Ll) CYRILLIC SMALL LETTER ABKHASIAN CHE .. CYRILLIC SMALL LETTER ABKHASIAN CHE
(16#004BE#, 16#004BE#), -- (Lu) CYRILLIC CAPITAL LETTER ABKHASIAN CHE WITH DESCENDER .. CYRILLIC CAPITAL LETTER ABKHASIAN CHE WITH DESCENDER
(16#004BF#, 16#004BF#), -- (Ll) CYRILLIC SMALL LETTER ABKHASIAN CHE WITH DESCENDER .. CYRILLIC SMALL LETTER ABKHASIAN CHE WITH DESCENDER
(16#004C0#, 16#004C1#), -- (Lu) CYRILLIC LETTER PALOCHKA .. CYRILLIC CAPITAL LETTER ZHE WITH BREVE
(16#004C2#, 16#004C2#), -- (Ll) CYRILLIC SMALL LETTER ZHE WITH BREVE .. CYRILLIC SMALL LETTER ZHE WITH BREVE
(16#004C3#, 16#004C3#), -- (Lu) CYRILLIC CAPITAL LETTER KA WITH HOOK .. CYRILLIC CAPITAL LETTER KA WITH HOOK
(16#004C4#, 16#004C4#), -- (Ll) CYRILLIC SMALL LETTER KA WITH HOOK .. CYRILLIC SMALL LETTER KA WITH HOOK
(16#004C5#, 16#004C5#), -- (Lu) CYRILLIC CAPITAL LETTER EL WITH TAIL .. CYRILLIC CAPITAL LETTER EL WITH TAIL
(16#004C6#, 16#004C6#), -- (Ll) CYRILLIC SMALL LETTER EL WITH TAIL .. CYRILLIC SMALL LETTER EL WITH TAIL
(16#004C7#, 16#004C7#), -- (Lu) CYRILLIC CAPITAL LETTER EN WITH HOOK .. CYRILLIC CAPITAL LETTER EN WITH HOOK
(16#004C8#, 16#004C8#), -- (Ll) CYRILLIC SMALL LETTER EN WITH HOOK .. CYRILLIC SMALL LETTER EN WITH HOOK
(16#004C9#, 16#004C9#), -- (Lu) CYRILLIC CAPITAL LETTER EN WITH TAIL .. CYRILLIC CAPITAL LETTER EN WITH TAIL
(16#004CA#, 16#004CA#), -- (Ll) CYRILLIC SMALL LETTER EN WITH TAIL .. CYRILLIC SMALL LETTER EN WITH TAIL
(16#004CB#, 16#004CB#), -- (Lu) CYRILLIC CAPITAL LETTER KHAKASSIAN CHE .. CYRILLIC CAPITAL LETTER KHAKASSIAN CHE
(16#004CC#, 16#004CC#), -- (Ll) CYRILLIC SMALL LETTER KHAKASSIAN CHE .. CYRILLIC SMALL LETTER KHAKASSIAN CHE
(16#004CD#, 16#004CD#), -- (Lu) CYRILLIC CAPITAL LETTER EM WITH TAIL .. CYRILLIC CAPITAL LETTER EM WITH TAIL
(16#004CE#, 16#004CE#), -- (Ll) CYRILLIC SMALL LETTER EM WITH TAIL .. CYRILLIC SMALL LETTER EM WITH TAIL
(16#004D0#, 16#004D0#), -- (Lu) CYRILLIC CAPITAL LETTER A WITH BREVE .. CYRILLIC CAPITAL LETTER A WITH BREVE
(16#004D1#, 16#004D1#), -- (Ll) CYRILLIC SMALL LETTER A WITH BREVE .. CYRILLIC SMALL LETTER A WITH BREVE
(16#004D2#, 16#004D2#), -- (Lu) CYRILLIC CAPITAL LETTER A WITH DIAERESIS .. CYRILLIC CAPITAL LETTER A WITH DIAERESIS
(16#004D3#, 16#004D3#), -- (Ll) CYRILLIC SMALL LETTER A WITH DIAERESIS .. CYRILLIC SMALL LETTER A WITH DIAERESIS
(16#004D4#, 16#004D4#), -- (Lu) CYRILLIC CAPITAL LIGATURE A IE .. CYRILLIC CAPITAL LIGATURE A IE
(16#004D5#, 16#004D5#), -- (Ll) CYRILLIC SMALL LIGATURE A IE .. CYRILLIC SMALL LIGATURE A IE
(16#004D6#, 16#004D6#), -- (Lu) CYRILLIC CAPITAL LETTER IE WITH BREVE .. CYRILLIC CAPITAL LETTER IE WITH BREVE
(16#004D7#, 16#004D7#), -- (Ll) CYRILLIC SMALL LETTER IE WITH BREVE .. CYRILLIC SMALL LETTER IE WITH BREVE
(16#004D8#, 16#004D8#), -- (Lu) CYRILLIC CAPITAL LETTER SCHWA .. CYRILLIC CAPITAL LETTER SCHWA
(16#004D9#, 16#004D9#), -- (Ll) CYRILLIC SMALL LETTER SCHWA .. CYRILLIC SMALL LETTER SCHWA
(16#004DA#, 16#004DA#), -- (Lu) CYRILLIC CAPITAL LETTER SCHWA WITH DIAERESIS .. CYRILLIC CAPITAL LETTER SCHWA WITH DIAERESIS
(16#004DB#, 16#004DB#), -- (Ll) CYRILLIC SMALL LETTER SCHWA WITH DIAERESIS .. CYRILLIC SMALL LETTER SCHWA WITH DIAERESIS
(16#004DC#, 16#004DC#), -- (Lu) CYRILLIC CAPITAL LETTER ZHE WITH DIAERESIS .. CYRILLIC CAPITAL LETTER ZHE WITH DIAERESIS
(16#004DD#, 16#004DD#), -- (Ll) CYRILLIC SMALL LETTER ZHE WITH DIAERESIS .. CYRILLIC SMALL LETTER ZHE WITH DIAERESIS
(16#004DE#, 16#004DE#), -- (Lu) CYRILLIC CAPITAL LETTER ZE WITH DIAERESIS .. CYRILLIC CAPITAL LETTER ZE WITH DIAERESIS
(16#004DF#, 16#004DF#), -- (Ll) CYRILLIC SMALL LETTER ZE WITH DIAERESIS .. CYRILLIC SMALL LETTER ZE WITH DIAERESIS
(16#004E0#, 16#004E0#), -- (Lu) CYRILLIC CAPITAL LETTER ABKHASIAN DZE .. CYRILLIC CAPITAL LETTER ABKHASIAN DZE
(16#004E1#, 16#004E1#), -- (Ll) CYRILLIC SMALL LETTER ABKHASIAN DZE .. CYRILLIC SMALL LETTER ABKHASIAN DZE
(16#004E2#, 16#004E2#), -- (Lu) CYRILLIC CAPITAL LETTER I WITH MACRON .. CYRILLIC CAPITAL LETTER I WITH MACRON
(16#004E3#, 16#004E3#), -- (Ll) CYRILLIC SMALL LETTER I WITH MACRON .. CYRILLIC SMALL LETTER I WITH MACRON
(16#004E4#, 16#004E4#), -- (Lu) CYRILLIC CAPITAL LETTER I WITH DIAERESIS .. CYRILLIC CAPITAL LETTER I WITH DIAERESIS
(16#004E5#, 16#004E5#), -- (Ll) CYRILLIC SMALL LETTER I WITH DIAERESIS .. CYRILLIC SMALL LETTER I WITH DIAERESIS
(16#004E6#, 16#004E6#), -- (Lu) CYRILLIC CAPITAL LETTER O WITH DIAERESIS .. CYRILLIC CAPITAL LETTER O WITH DIAERESIS
(16#004E7#, 16#004E7#), -- (Ll) CYRILLIC SMALL LETTER O WITH DIAERESIS .. CYRILLIC SMALL LETTER O WITH DIAERESIS
(16#004E8#, 16#004E8#), -- (Lu) CYRILLIC CAPITAL LETTER BARRED O .. CYRILLIC CAPITAL LETTER BARRED O
(16#004E9#, 16#004E9#), -- (Ll) CYRILLIC SMALL LETTER BARRED O .. CYRILLIC SMALL LETTER BARRED O
(16#004EA#, 16#004EA#), -- (Lu) CYRILLIC CAPITAL LETTER BARRED O WITH DIAERESIS .. CYRILLIC CAPITAL LETTER BARRED O WITH DIAERESIS
(16#004EB#, 16#004EB#), -- (Ll) CYRILLIC SMALL LETTER BARRED O WITH DIAERESIS .. CYRILLIC SMALL LETTER BARRED O WITH DIAERESIS
(16#004EC#, 16#004EC#), -- (Lu) CYRILLIC CAPITAL LETTER E WITH DIAERESIS .. CYRILLIC CAPITAL LETTER E WITH DIAERESIS
(16#004ED#, 16#004ED#), -- (Ll) CYRILLIC SMALL LETTER E WITH DIAERESIS .. CYRILLIC SMALL LETTER E WITH DIAERESIS
(16#004EE#, 16#004EE#), -- (Lu) CYRILLIC CAPITAL LETTER U WITH MACRON .. CYRILLIC CAPITAL LETTER U WITH MACRON
(16#004EF#, 16#004EF#), -- (Ll) CYRILLIC SMALL LETTER U WITH MACRON .. CYRILLIC SMALL LETTER U WITH MACRON
(16#004F0#, 16#004F0#), -- (Lu) CYRILLIC CAPITAL LETTER U WITH DIAERESIS .. CYRILLIC CAPITAL LETTER U WITH DIAERESIS
(16#004F1#, 16#004F1#), -- (Ll) CYRILLIC SMALL LETTER U WITH DIAERESIS .. CYRILLIC SMALL LETTER U WITH DIAERESIS
(16#004F2#, 16#004F2#), -- (Lu) CYRILLIC CAPITAL LETTER U WITH DOUBLE ACUTE .. CYRILLIC CAPITAL LETTER U WITH DOUBLE ACUTE
(16#004F3#, 16#004F3#), -- (Ll) CYRILLIC SMALL LETTER U WITH DOUBLE ACUTE .. CYRILLIC SMALL LETTER U WITH DOUBLE ACUTE
(16#004F4#, 16#004F4#), -- (Lu) CYRILLIC CAPITAL LETTER CHE WITH DIAERESIS .. CYRILLIC CAPITAL LETTER CHE WITH DIAERESIS
(16#004F5#, 16#004F5#), -- (Ll) CYRILLIC SMALL LETTER CHE WITH DIAERESIS .. CYRILLIC SMALL LETTER CHE WITH DIAERESIS
(16#004F8#, 16#004F8#), -- (Lu) CYRILLIC CAPITAL LETTER YERU WITH DIAERESIS .. CYRILLIC CAPITAL LETTER YERU WITH DIAERESIS
(16#004F9#, 16#004F9#), -- (Ll) CYRILLIC SMALL LETTER YERU WITH DIAERESIS .. CYRILLIC SMALL LETTER YERU WITH DIAERESIS
(16#00500#, 16#00500#), -- (Lu) CYRILLIC CAPITAL LETTER KOMI DE .. CYRILLIC CAPITAL LETTER KOMI DE
(16#00501#, 16#00501#), -- (Ll) CYRILLIC SMALL LETTER KOMI DE .. CYRILLIC SMALL LETTER KOMI DE
(16#00502#, 16#00502#), -- (Lu) CYRILLIC CAPITAL LETTER KOMI DJE .. CYRILLIC CAPITAL LETTER KOMI DJE
(16#00503#, 16#00503#), -- (Ll) CYRILLIC SMALL LETTER KOMI DJE .. CYRILLIC SMALL LETTER KOMI DJE
(16#00504#, 16#00504#), -- (Lu) CYRILLIC CAPITAL LETTER KOMI ZJE .. CYRILLIC CAPITAL LETTER KOMI ZJE
(16#00505#, 16#00505#), -- (Ll) CYRILLIC SMALL LETTER KOMI ZJE .. CYRILLIC SMALL LETTER KOMI ZJE
(16#00506#, 16#00506#), -- (Lu) CYRILLIC CAPITAL LETTER KOMI DZJE .. CYRILLIC CAPITAL LETTER KOMI DZJE
(16#00507#, 16#00507#), -- (Ll) CYRILLIC SMALL LETTER KOMI DZJE .. CYRILLIC SMALL LETTER KOMI DZJE
(16#00508#, 16#00508#), -- (Lu) CYRILLIC CAPITAL LETTER KOMI LJE .. CYRILLIC CAPITAL LETTER KOMI LJE
(16#00509#, 16#00509#), -- (Ll) CYRILLIC SMALL LETTER KOMI LJE .. CYRILLIC SMALL LETTER KOMI LJE
(16#0050A#, 16#0050A#), -- (Lu) CYRILLIC CAPITAL LETTER KOMI NJE .. CYRILLIC CAPITAL LETTER KOMI NJE
(16#0050B#, 16#0050B#), -- (Ll) CYRILLIC SMALL LETTER KOMI NJE .. CYRILLIC SMALL LETTER KOMI NJE
(16#0050C#, 16#0050C#), -- (Lu) CYRILLIC CAPITAL LETTER KOMI SJE .. CYRILLIC CAPITAL LETTER KOMI SJE
(16#0050D#, 16#0050D#), -- (Ll) CYRILLIC SMALL LETTER KOMI SJE .. CYRILLIC SMALL LETTER KOMI SJE
(16#0050E#, 16#0050E#), -- (Lu) CYRILLIC CAPITAL LETTER KOMI TJE .. CYRILLIC CAPITAL LETTER KOMI TJE
(16#0050F#, 16#0050F#), -- (Ll) CYRILLIC SMALL LETTER KOMI TJE .. CYRILLIC SMALL LETTER KOMI TJE
(16#00531#, 16#00556#), -- (Lu) ARMENIAN CAPITAL LETTER AYB .. ARMENIAN CAPITAL LETTER FEH
(16#00559#, 16#00559#), -- (Lm) ARMENIAN MODIFIER LETTER LEFT HALF RING .. ARMENIAN MODIFIER LETTER LEFT HALF RING
(16#0055A#, 16#0055F#), -- (Po) ARMENIAN APOSTROPHE .. ARMENIAN ABBREVIATION MARK
(16#00561#, 16#00587#), -- (Ll) ARMENIAN SMALL LETTER AYB .. ARMENIAN SMALL LIGATURE ECH YIWN
(16#00589#, 16#00589#), -- (Po) ARMENIAN FULL STOP .. ARMENIAN FULL STOP
(16#0058A#, 16#0058A#), -- (Pd) ARMENIAN HYPHEN .. ARMENIAN HYPHEN
(16#00591#, 16#005A1#), -- (Mn) HEBREW ACCENT ETNAHTA .. HEBREW ACCENT PAZER
(16#005A3#, 16#005B9#), -- (Mn) HEBREW ACCENT MUNAH .. HEBREW POINT HOLAM
(16#005BB#, 16#005BD#), -- (Mn) HEBREW POINT QUBUTS .. HEBREW POINT METEG
(16#005BE#, 16#005BE#), -- (Po) HEBREW PUNCTUATION MAQAF .. HEBREW PUNCTUATION MAQAF
(16#005BF#, 16#005BF#), -- (Mn) HEBREW POINT RAFE .. HEBREW POINT RAFE
(16#005C0#, 16#005C0#), -- (Po) HEBREW PUNCTUATION PASEQ .. HEBREW PUNCTUATION PASEQ
(16#005C1#, 16#005C2#), -- (Mn) HEBREW POINT SHIN DOT .. HEBREW POINT SIN DOT
(16#005C3#, 16#005C3#), -- (Po) HEBREW PUNCTUATION SOF PASUQ .. HEBREW PUNCTUATION SOF PASUQ
(16#005C4#, 16#005C4#), -- (Mn) HEBREW MARK UPPER DOT .. HEBREW MARK UPPER DOT
(16#005D0#, 16#005EA#), -- (Lo) HEBREW LETTER ALEF .. HEBREW LETTER TAV
(16#005F0#, 16#005F2#), -- (Lo) HEBREW LIGATURE YIDDISH DOUBLE VAV .. HEBREW LIGATURE YIDDISH DOUBLE YOD
(16#005F3#, 16#005F4#), -- (Po) HEBREW PUNCTUATION GERESH .. HEBREW PUNCTUATION GERSHAYIM
(16#00600#, 16#00603#), -- (Cf) ARABIC NUMBER SIGN .. ARABIC SIGN SAFHA
(16#0060C#, 16#0060D#), -- (Po) ARABIC COMMA .. ARABIC DATE SEPARATOR
(16#0060E#, 16#0060F#), -- (So) ARABIC POETIC VERSE SIGN .. ARABIC SIGN MISRA
(16#00610#, 16#00615#), -- (Mn) ARABIC SIGN SALLALLAHOU ALAYHE WASSALLAM .. ARABIC SMALL HIGH TAH
(16#0061B#, 16#0061B#), -- (Po) ARABIC SEMICOLON .. ARABIC SEMICOLON
(16#0061F#, 16#0061F#), -- (Po) ARABIC QUESTION MARK .. ARABIC QUESTION MARK
(16#00621#, 16#0063A#), -- (Lo) ARABIC LETTER HAMZA .. ARABIC LETTER GHAIN
(16#00640#, 16#00640#), -- (Lm) ARABIC TATWEEL .. ARABIC TATWEEL
(16#00641#, 16#0064A#), -- (Lo) ARABIC LETTER FEH .. ARABIC LETTER YEH
(16#0064B#, 16#00658#), -- (Mn) ARABIC FATHATAN .. ARABIC MARK NOON GHUNNA
(16#00660#, 16#00669#), -- (Nd) ARABIC-INDIC DIGIT ZERO .. ARABIC-INDIC DIGIT NINE
(16#0066A#, 16#0066D#), -- (Po) ARABIC PERCENT SIGN .. ARABIC FIVE POINTED STAR
(16#0066E#, 16#0066F#), -- (Lo) ARABIC LETTER DOTLESS BEH .. ARABIC LETTER DOTLESS QAF
(16#00670#, 16#00670#), -- (Mn) ARABIC LETTER SUPERSCRIPT ALEF .. ARABIC LETTER SUPERSCRIPT ALEF
(16#00671#, 16#006D3#), -- (Lo) ARABIC LETTER ALEF WASLA .. ARABIC LETTER YEH BARREE WITH HAMZA ABOVE
(16#006D4#, 16#006D4#), -- (Po) ARABIC FULL STOP .. ARABIC FULL STOP
(16#006D5#, 16#006D5#), -- (Lo) ARABIC LETTER AE .. ARABIC LETTER AE
(16#006D6#, 16#006DC#), -- (Mn) ARABIC SMALL HIGH LIGATURE SAD WITH LAM WITH ALEF MAKSURA .. ARABIC SMALL HIGH SEEN
(16#006DD#, 16#006DD#), -- (Cf) ARABIC END OF AYAH .. ARABIC END OF AYAH
(16#006DE#, 16#006DE#), -- (Me) ARABIC START OF RUB EL HIZB .. ARABIC START OF RUB EL HIZB
(16#006DF#, 16#006E4#), -- (Mn) ARABIC SMALL HIGH ROUNDED ZERO .. ARABIC SMALL HIGH MADDA
(16#006E5#, 16#006E6#), -- (Lm) ARABIC SMALL WAW .. ARABIC SMALL YEH
(16#006E7#, 16#006E8#), -- (Mn) ARABIC SMALL HIGH YEH .. ARABIC SMALL HIGH NOON
(16#006E9#, 16#006E9#), -- (So) ARABIC PLACE OF SAJDAH .. ARABIC PLACE OF SAJDAH
(16#006EA#, 16#006ED#), -- (Mn) ARABIC EMPTY CENTRE LOW STOP .. ARABIC SMALL LOW MEEM
(16#006EE#, 16#006EF#), -- (Lo) ARABIC LETTER DAL WITH INVERTED V .. ARABIC LETTER REH WITH INVERTED V
(16#006F0#, 16#006F9#), -- (Nd) EXTENDED ARABIC-INDIC DIGIT ZERO .. EXTENDED ARABIC-INDIC DIGIT NINE
(16#006FA#, 16#006FC#), -- (Lo) ARABIC LETTER SHEEN WITH DOT BELOW .. ARABIC LETTER GHAIN WITH DOT BELOW
(16#006FD#, 16#006FE#), -- (So) ARABIC SIGN SINDHI AMPERSAND .. ARABIC SIGN SINDHI POSTPOSITION MEN
(16#006FF#, 16#006FF#), -- (Lo) ARABIC LETTER HEH WITH INVERTED V .. ARABIC LETTER HEH WITH INVERTED V
(16#00700#, 16#0070D#), -- (Po) SYRIAC END OF PARAGRAPH .. SYRIAC HARKLEAN ASTERISCUS
(16#0070F#, 16#0070F#), -- (Cf) SYRIAC ABBREVIATION MARK .. SYRIAC ABBREVIATION MARK
(16#00710#, 16#00710#), -- (Lo) SYRIAC LETTER ALAPH .. SYRIAC LETTER ALAPH
(16#00711#, 16#00711#), -- (Mn) SYRIAC LETTER SUPERSCRIPT ALAPH .. SYRIAC LETTER SUPERSCRIPT ALAPH
(16#00712#, 16#0072F#), -- (Lo) SYRIAC LETTER BETH .. SYRIAC LETTER PERSIAN DHALATH
(16#00730#, 16#0074A#), -- (Mn) SYRIAC PTHAHA ABOVE .. SYRIAC BARREKH
(16#0074D#, 16#0074F#), -- (Lo) SYRIAC LETTER SOGDIAN ZHAIN .. SYRIAC LETTER SOGDIAN FE
(16#00780#, 16#007A5#), -- (Lo) THAANA LETTER HAA .. THAANA LETTER WAAVU
(16#007A6#, 16#007B0#), -- (Mn) THAANA ABAFILI .. THAANA SUKUN
(16#007B1#, 16#007B1#), -- (Lo) THAANA LETTER NAA .. THAANA LETTER NAA
(16#00901#, 16#00902#), -- (Mn) DEVANAGARI SIGN CANDRABINDU .. DEVANAGARI SIGN ANUSVARA
(16#00903#, 16#00903#), -- (Mc) DEVANAGARI SIGN VISARGA .. DEVANAGARI SIGN VISARGA
(16#00904#, 16#00939#), -- (Lo) DEVANAGARI LETTER SHORT A .. DEVANAGARI LETTER HA
(16#0093C#, 16#0093C#), -- (Mn) DEVANAGARI SIGN NUKTA .. DEVANAGARI SIGN NUKTA
(16#0093D#, 16#0093D#), -- (Lo) DEVANAGARI SIGN AVAGRAHA .. DEVANAGARI SIGN AVAGRAHA
(16#0093E#, 16#00940#), -- (Mc) DEVANAGARI VOWEL SIGN AA .. DEVANAGARI VOWEL SIGN II
(16#00941#, 16#00948#), -- (Mn) DEVANAGARI VOWEL SIGN U .. DEVANAGARI VOWEL SIGN AI
(16#00949#, 16#0094C#), -- (Mc) DEVANAGARI VOWEL SIGN CANDRA O .. DEVANAGARI VOWEL SIGN AU
(16#0094D#, 16#0094D#), -- (Mn) DEVANAGARI SIGN VIRAMA .. DEVANAGARI SIGN VIRAMA
(16#00950#, 16#00950#), -- (Lo) DEVANAGARI OM .. DEVANAGARI OM
(16#00951#, 16#00954#), -- (Mn) DEVANAGARI STRESS SIGN UDATTA .. DEVANAGARI ACUTE ACCENT
(16#00958#, 16#00961#), -- (Lo) DEVANAGARI LETTER QA .. DEVANAGARI LETTER VOCALIC LL
(16#00962#, 16#00963#), -- (Mn) DEVANAGARI VOWEL SIGN VOCALIC L .. DEVANAGARI VOWEL SIGN VOCALIC LL
(16#00964#, 16#00965#), -- (Po) DEVANAGARI DANDA .. DEVANAGARI DOUBLE DANDA
(16#00966#, 16#0096F#), -- (Nd) DEVANAGARI DIGIT ZERO .. DEVANAGARI DIGIT NINE
(16#00970#, 16#00970#), -- (Po) DEVANAGARI ABBREVIATION SIGN .. DEVANAGARI ABBREVIATION SIGN
(16#00981#, 16#00981#), -- (Mn) BENGALI SIGN CANDRABINDU .. BENGALI SIGN CANDRABINDU
(16#00982#, 16#00983#), -- (Mc) BENGALI SIGN ANUSVARA .. BENGALI SIGN VISARGA
(16#00985#, 16#0098C#), -- (Lo) BENGALI LETTER A .. BENGALI LETTER VOCALIC L
(16#0098F#, 16#00990#), -- (Lo) BENGALI LETTER E .. BENGALI LETTER AI
(16#00993#, 16#009A8#), -- (Lo) BENGALI LETTER O .. BENGALI LETTER NA
(16#009AA#, 16#009B0#), -- (Lo) BENGALI LETTER PA .. BENGALI LETTER RA
(16#009B2#, 16#009B2#), -- (Lo) BENGALI LETTER LA .. BENGALI LETTER LA
(16#009B6#, 16#009B9#), -- (Lo) BENGALI LETTER SHA .. BENGALI LETTER HA
(16#009BC#, 16#009BC#), -- (Mn) BENGALI SIGN NUKTA .. BENGALI SIGN NUKTA
(16#009BD#, 16#009BD#), -- (Lo) BENGALI SIGN AVAGRAHA .. BENGALI SIGN AVAGRAHA
(16#009BE#, 16#009C0#), -- (Mc) BENGALI VOWEL SIGN AA .. BENGALI VOWEL SIGN II
(16#009C1#, 16#009C4#), -- (Mn) BENGALI VOWEL SIGN U .. BENGALI VOWEL SIGN VOCALIC RR
(16#009C7#, 16#009C8#), -- (Mc) BENGALI VOWEL SIGN E .. BENGALI VOWEL SIGN AI
(16#009CB#, 16#009CC#), -- (Mc) BENGALI VOWEL SIGN O .. BENGALI VOWEL SIGN AU
(16#009CD#, 16#009CD#), -- (Mn) BENGALI SIGN VIRAMA .. BENGALI SIGN VIRAMA
(16#009D7#, 16#009D7#), -- (Mc) BENGALI AU LENGTH MARK .. BENGALI AU LENGTH MARK
(16#009DC#, 16#009DD#), -- (Lo) BENGALI LETTER RRA .. BENGALI LETTER RHA
(16#009DF#, 16#009E1#), -- (Lo) BENGALI LETTER YYA .. BENGALI LETTER VOCALIC LL
(16#009E2#, 16#009E3#), -- (Mn) BENGALI VOWEL SIGN VOCALIC L .. BENGALI VOWEL SIGN VOCALIC LL
(16#009E6#, 16#009EF#), -- (Nd) BENGALI DIGIT ZERO .. BENGALI DIGIT NINE
(16#009F0#, 16#009F1#), -- (Lo) BENGALI LETTER RA WITH MIDDLE DIAGONAL .. BENGALI LETTER RA WITH LOWER DIAGONAL
(16#009F2#, 16#009F3#), -- (Sc) BENGALI RUPEE MARK .. BENGALI RUPEE SIGN
(16#009F4#, 16#009F9#), -- (No) BENGALI CURRENCY NUMERATOR ONE .. BENGALI CURRENCY DENOMINATOR SIXTEEN
(16#009FA#, 16#009FA#), -- (So) BENGALI ISSHAR .. BENGALI ISSHAR
(16#00A01#, 16#00A02#), -- (Mn) GURMUKHI SIGN ADAK BINDI .. GURMUKHI SIGN BINDI
(16#00A03#, 16#00A03#), -- (Mc) GURMUKHI SIGN VISARGA .. GURMUKHI SIGN VISARGA
(16#00A05#, 16#00A0A#), -- (Lo) GURMUKHI LETTER A .. GURMUKHI LETTER UU
(16#00A0F#, 16#00A10#), -- (Lo) GURMUKHI LETTER EE .. GURMUKHI LETTER AI
(16#00A13#, 16#00A28#), -- (Lo) GURMUKHI LETTER OO .. GURMUKHI LETTER NA
(16#00A2A#, 16#00A30#), -- (Lo) GURMUKHI LETTER PA .. GURMUKHI LETTER RA
(16#00A32#, 16#00A33#), -- (Lo) GURMUKHI LETTER LA .. GURMUKHI LETTER LLA
(16#00A35#, 16#00A36#), -- (Lo) GURMUKHI LETTER VA .. GURMUKHI LETTER SHA
(16#00A38#, 16#00A39#), -- (Lo) GURMUKHI LETTER SA .. GURMUKHI LETTER HA
(16#00A3C#, 16#00A3C#), -- (Mn) GURMUKHI SIGN NUKTA .. GURMUKHI SIGN NUKTA
(16#00A3E#, 16#00A40#), -- (Mc) GURMUKHI VOWEL SIGN AA .. GURMUKHI VOWEL SIGN II
(16#00A41#, 16#00A42#), -- (Mn) GURMUKHI VOWEL SIGN U .. GURMUKHI VOWEL SIGN UU
(16#00A47#, 16#00A48#), -- (Mn) GURMUKHI VOWEL SIGN EE .. GURMUKHI VOWEL SIGN AI
(16#00A4B#, 16#00A4D#), -- (Mn) GURMUKHI VOWEL SIGN OO .. GURMUKHI SIGN VIRAMA
(16#00A59#, 16#00A5C#), -- (Lo) GURMUKHI LETTER KHHA .. GURMUKHI LETTER RRA
(16#00A5E#, 16#00A5E#), -- (Lo) GURMUKHI LETTER FA .. GURMUKHI LETTER FA
(16#00A66#, 16#00A6F#), -- (Nd) GURMUKHI DIGIT ZERO .. GURMUKHI DIGIT NINE
(16#00A70#, 16#00A71#), -- (Mn) GURMUKHI TIPPI .. GURMUKHI ADDAK
(16#00A72#, 16#00A74#), -- (Lo) GURMUKHI IRI .. GURMUKHI EK ONKAR
(16#00A81#, 16#00A82#), -- (Mn) GUJARATI SIGN CANDRABINDU .. GUJARATI SIGN ANUSVARA
(16#00A83#, 16#00A83#), -- (Mc) GUJARATI SIGN VISARGA .. GUJARATI SIGN VISARGA
(16#00A85#, 16#00A8D#), -- (Lo) GUJARATI LETTER A .. GUJARATI VOWEL CANDRA E
(16#00A8F#, 16#00A91#), -- (Lo) GUJARATI LETTER E .. GUJARATI VOWEL CANDRA O
(16#00A93#, 16#00AA8#), -- (Lo) GUJARATI LETTER O .. GUJARATI LETTER NA
(16#00AAA#, 16#00AB0#), -- (Lo) GUJARATI LETTER PA .. GUJARATI LETTER RA
(16#00AB2#, 16#00AB3#), -- (Lo) GUJARATI LETTER LA .. GUJARATI LETTER LLA
(16#00AB5#, 16#00AB9#), -- (Lo) GUJARATI LETTER VA .. GUJARATI LETTER HA
(16#00ABC#, 16#00ABC#), -- (Mn) GUJARATI SIGN NUKTA .. GUJARATI SIGN NUKTA
(16#00ABD#, 16#00ABD#), -- (Lo) GUJARATI SIGN AVAGRAHA .. GUJARATI SIGN AVAGRAHA
(16#00ABE#, 16#00AC0#), -- (Mc) GUJARATI VOWEL SIGN AA .. GUJARATI VOWEL SIGN II
(16#00AC1#, 16#00AC5#), -- (Mn) GUJARATI VOWEL SIGN U .. GUJARATI VOWEL SIGN CANDRA E
(16#00AC7#, 16#00AC8#), -- (Mn) GUJARATI VOWEL SIGN E .. GUJARATI VOWEL SIGN AI
(16#00AC9#, 16#00AC9#), -- (Mc) GUJARATI VOWEL SIGN CANDRA O .. GUJARATI VOWEL SIGN CANDRA O
(16#00ACB#, 16#00ACC#), -- (Mc) GUJARATI VOWEL SIGN O .. GUJARATI VOWEL SIGN AU
(16#00ACD#, 16#00ACD#), -- (Mn) GUJARATI SIGN VIRAMA .. GUJARATI SIGN VIRAMA
(16#00AD0#, 16#00AD0#), -- (Lo) GUJARATI OM .. GUJARATI OM
(16#00AE0#, 16#00AE1#), -- (Lo) GUJARATI LETTER VOCALIC RR .. GUJARATI LETTER VOCALIC LL
(16#00AE2#, 16#00AE3#), -- (Mn) GUJARATI VOWEL SIGN VOCALIC L .. GUJARATI VOWEL SIGN VOCALIC LL
(16#00AE6#, 16#00AEF#), -- (Nd) GUJARATI DIGIT ZERO .. GUJARATI DIGIT NINE
(16#00AF1#, 16#00AF1#), -- (Sc) GUJARATI RUPEE SIGN .. GUJARATI RUPEE SIGN
(16#00B01#, 16#00B01#), -- (Mn) ORIYA SIGN CANDRABINDU .. ORIYA SIGN CANDRABINDU
(16#00B02#, 16#00B03#), -- (Mc) ORIYA SIGN ANUSVARA .. ORIYA SIGN VISARGA
(16#00B05#, 16#00B0C#), -- (Lo) ORIYA LETTER A .. ORIYA LETTER VOCALIC L
(16#00B0F#, 16#00B10#), -- (Lo) ORIYA LETTER E .. ORIYA LETTER AI
(16#00B13#, 16#00B28#), -- (Lo) ORIYA LETTER O .. ORIYA LETTER NA
(16#00B2A#, 16#00B30#), -- (Lo) ORIYA LETTER PA .. ORIYA LETTER RA
(16#00B32#, 16#00B33#), -- (Lo) ORIYA LETTER LA .. ORIYA LETTER LLA
(16#00B35#, 16#00B39#), -- (Lo) ORIYA LETTER VA .. ORIYA LETTER HA
(16#00B3C#, 16#00B3C#), -- (Mn) ORIYA SIGN NUKTA .. ORIYA SIGN NUKTA
(16#00B3D#, 16#00B3D#), -- (Lo) ORIYA SIGN AVAGRAHA .. ORIYA SIGN AVAGRAHA
(16#00B3E#, 16#00B3E#), -- (Mc) ORIYA VOWEL SIGN AA .. ORIYA VOWEL SIGN AA
(16#00B3F#, 16#00B3F#), -- (Mn) ORIYA VOWEL SIGN I .. ORIYA VOWEL SIGN I
(16#00B40#, 16#00B40#), -- (Mc) ORIYA VOWEL SIGN II .. ORIYA VOWEL SIGN II
(16#00B41#, 16#00B43#), -- (Mn) ORIYA VOWEL SIGN U .. ORIYA VOWEL SIGN VOCALIC R
(16#00B47#, 16#00B48#), -- (Mc) ORIYA VOWEL SIGN E .. ORIYA VOWEL SIGN AI
(16#00B4B#, 16#00B4C#), -- (Mc) ORIYA VOWEL SIGN O .. ORIYA VOWEL SIGN AU
(16#00B4D#, 16#00B4D#), -- (Mn) ORIYA SIGN VIRAMA .. ORIYA SIGN VIRAMA
(16#00B56#, 16#00B56#), -- (Mn) ORIYA AI LENGTH MARK .. ORIYA AI LENGTH MARK
(16#00B57#, 16#00B57#), -- (Mc) ORIYA AU LENGTH MARK .. ORIYA AU LENGTH MARK
(16#00B5C#, 16#00B5D#), -- (Lo) ORIYA LETTER RRA .. ORIYA LETTER RHA
(16#00B5F#, 16#00B61#), -- (Lo) ORIYA LETTER YYA .. ORIYA LETTER VOCALIC LL
(16#00B66#, 16#00B6F#), -- (Nd) ORIYA DIGIT ZERO .. ORIYA DIGIT NINE
(16#00B70#, 16#00B70#), -- (So) ORIYA ISSHAR .. ORIYA ISSHAR
(16#00B71#, 16#00B71#), -- (Lo) ORIYA LETTER WA .. ORIYA LETTER WA
(16#00B82#, 16#00B82#), -- (Mn) TAMIL SIGN ANUSVARA .. TAMIL SIGN ANUSVARA
(16#00B83#, 16#00B83#), -- (Lo) TAMIL SIGN VISARGA .. TAMIL SIGN VISARGA
(16#00B85#, 16#00B8A#), -- (Lo) TAMIL LETTER A .. TAMIL LETTER UU
(16#00B8E#, 16#00B90#), -- (Lo) TAMIL LETTER E .. TAMIL LETTER AI
(16#00B92#, 16#00B95#), -- (Lo) TAMIL LETTER O .. TAMIL LETTER KA
(16#00B99#, 16#00B9A#), -- (Lo) TAMIL LETTER NGA .. TAMIL LETTER CA
(16#00B9C#, 16#00B9C#), -- (Lo) TAMIL LETTER JA .. TAMIL LETTER JA
(16#00B9E#, 16#00B9F#), -- (Lo) TAMIL LETTER NYA .. TAMIL LETTER TTA
(16#00BA3#, 16#00BA4#), -- (Lo) TAMIL LETTER NNA .. TAMIL LETTER TA
(16#00BA8#, 16#00BAA#), -- (Lo) TAMIL LETTER NA .. TAMIL LETTER PA
(16#00BAE#, 16#00BB5#), -- (Lo) TAMIL LETTER MA .. TAMIL LETTER VA
(16#00BB7#, 16#00BB9#), -- (Lo) TAMIL LETTER SSA .. TAMIL LETTER HA
(16#00BBE#, 16#00BBF#), -- (Mc) TAMIL VOWEL SIGN AA .. TAMIL VOWEL SIGN I
(16#00BC0#, 16#00BC0#), -- (Mn) TAMIL VOWEL SIGN II .. TAMIL VOWEL SIGN II
(16#00BC1#, 16#00BC2#), -- (Mc) TAMIL VOWEL SIGN U .. TAMIL VOWEL SIGN UU
(16#00BC6#, 16#00BC8#), -- (Mc) TAMIL VOWEL SIGN E .. TAMIL VOWEL SIGN AI
(16#00BCA#, 16#00BCC#), -- (Mc) TAMIL VOWEL SIGN O .. TAMIL VOWEL SIGN AU
(16#00BCD#, 16#00BCD#), -- (Mn) TAMIL SIGN VIRAMA .. TAMIL SIGN VIRAMA
(16#00BD7#, 16#00BD7#), -- (Mc) TAMIL AU LENGTH MARK .. TAMIL AU LENGTH MARK
(16#00BE7#, 16#00BEF#), -- (Nd) TAMIL DIGIT ONE .. TAMIL DIGIT NINE
(16#00BF0#, 16#00BF2#), -- (No) TAMIL NUMBER TEN .. TAMIL NUMBER ONE THOUSAND
(16#00BF3#, 16#00BF8#), -- (So) TAMIL DAY SIGN .. TAMIL AS ABOVE SIGN
(16#00BF9#, 16#00BF9#), -- (Sc) TAMIL RUPEE SIGN .. TAMIL RUPEE SIGN
(16#00BFA#, 16#00BFA#), -- (So) TAMIL NUMBER SIGN .. TAMIL NUMBER SIGN
(16#00C01#, 16#00C03#), -- (Mc) TELUGU SIGN CANDRABINDU .. TELUGU SIGN VISARGA
(16#00C05#, 16#00C0C#), -- (Lo) TELUGU LETTER A .. TELUGU LETTER VOCALIC L
(16#00C0E#, 16#00C10#), -- (Lo) TELUGU LETTER E .. TELUGU LETTER AI
(16#00C12#, 16#00C28#), -- (Lo) TELUGU LETTER O .. TELUGU LETTER NA
(16#00C2A#, 16#00C33#), -- (Lo) TELUGU LETTER PA .. TELUGU LETTER LLA
(16#00C35#, 16#00C39#), -- (Lo) TELUGU LETTER VA .. TELUGU LETTER HA
(16#00C3E#, 16#00C40#), -- (Mn) TELUGU VOWEL SIGN AA .. TELUGU VOWEL SIGN II
(16#00C41#, 16#00C44#), -- (Mc) TELUGU VOWEL SIGN U .. TELUGU VOWEL SIGN VOCALIC RR
(16#00C46#, 16#00C48#), -- (Mn) TELUGU VOWEL SIGN E .. TELUGU VOWEL SIGN AI
(16#00C4A#, 16#00C4D#), -- (Mn) TELUGU VOWEL SIGN O .. TELUGU SIGN VIRAMA
(16#00C55#, 16#00C56#), -- (Mn) TELUGU LENGTH MARK .. TELUGU AI LENGTH MARK
(16#00C60#, 16#00C61#), -- (Lo) TELUGU LETTER VOCALIC RR .. TELUGU LETTER VOCALIC LL
(16#00C66#, 16#00C6F#), -- (Nd) TELUGU DIGIT ZERO .. TELUGU DIGIT NINE
(16#00C82#, 16#00C83#), -- (Mc) KANNADA SIGN ANUSVARA .. KANNADA SIGN VISARGA
(16#00C85#, 16#00C8C#), -- (Lo) KANNADA LETTER A .. KANNADA LETTER VOCALIC L
(16#00C8E#, 16#00C90#), -- (Lo) KANNADA LETTER E .. KANNADA LETTER AI
(16#00C92#, 16#00CA8#), -- (Lo) KANNADA LETTER O .. KANNADA LETTER NA
(16#00CAA#, 16#00CB3#), -- (Lo) KANNADA LETTER PA .. KANNADA LETTER LLA
(16#00CB5#, 16#00CB9#), -- (Lo) KANNADA LETTER VA .. KANNADA LETTER HA
(16#00CBC#, 16#00CBC#), -- (Mn) KANNADA SIGN NUKTA .. KANNADA SIGN NUKTA
(16#00CBD#, 16#00CBD#), -- (Lo) KANNADA SIGN AVAGRAHA .. KANNADA SIGN AVAGRAHA
(16#00CBE#, 16#00CBE#), -- (Mc) KANNADA VOWEL SIGN AA .. KANNADA VOWEL SIGN AA
(16#00CBF#, 16#00CBF#), -- (Mn) KANNADA VOWEL SIGN I .. KANNADA VOWEL SIGN I
(16#00CC0#, 16#00CC4#), -- (Mc) KANNADA VOWEL SIGN II .. KANNADA VOWEL SIGN VOCALIC RR
(16#00CC6#, 16#00CC6#), -- (Mn) KANNADA VOWEL SIGN E .. KANNADA VOWEL SIGN E
(16#00CC7#, 16#00CC8#), -- (Mc) KANNADA VOWEL SIGN EE .. KANNADA VOWEL SIGN AI
(16#00CCA#, 16#00CCB#), -- (Mc) KANNADA VOWEL SIGN O .. KANNADA VOWEL SIGN OO
(16#00CCC#, 16#00CCD#), -- (Mn) KANNADA VOWEL SIGN AU .. KANNADA SIGN VIRAMA
(16#00CD5#, 16#00CD6#), -- (Mc) KANNADA LENGTH MARK .. KANNADA AI LENGTH MARK
(16#00CDE#, 16#00CDE#), -- (Lo) KANNADA LETTER FA .. KANNADA LETTER FA
(16#00CE0#, 16#00CE1#), -- (Lo) KANNADA LETTER VOCALIC RR .. KANNADA LETTER VOCALIC LL
(16#00CE6#, 16#00CEF#), -- (Nd) KANNADA DIGIT ZERO .. KANNADA DIGIT NINE
(16#00D02#, 16#00D03#), -- (Mc) MALAYALAM SIGN ANUSVARA .. MALAYALAM SIGN VISARGA
(16#00D05#, 16#00D0C#), -- (Lo) MALAYALAM LETTER A .. MALAYALAM LETTER VOCALIC L
(16#00D0E#, 16#00D10#), -- (Lo) MALAYALAM LETTER E .. MALAYALAM LETTER AI
(16#00D12#, 16#00D28#), -- (Lo) MALAYALAM LETTER O .. MALAYALAM LETTER NA
(16#00D2A#, 16#00D39#), -- (Lo) MALAYALAM LETTER PA .. MALAYALAM LETTER HA
(16#00D3E#, 16#00D40#), -- (Mc) MALAYALAM VOWEL SIGN AA .. MALAYALAM VOWEL SIGN II
(16#00D41#, 16#00D43#), -- (Mn) MALAYALAM VOWEL SIGN U .. MALAYALAM VOWEL SIGN VOCALIC R
(16#00D46#, 16#00D48#), -- (Mc) MALAYALAM VOWEL SIGN E .. MALAYALAM VOWEL SIGN AI
(16#00D4A#, 16#00D4C#), -- (Mc) MALAYALAM VOWEL SIGN O .. MALAYALAM VOWEL SIGN AU
(16#00D4D#, 16#00D4D#), -- (Mn) MALAYALAM SIGN VIRAMA .. MALAYALAM SIGN VIRAMA
(16#00D57#, 16#00D57#), -- (Mc) MALAYALAM AU LENGTH MARK .. MALAYALAM AU LENGTH MARK
(16#00D60#, 16#00D61#), -- (Lo) MALAYALAM LETTER VOCALIC RR .. MALAYALAM LETTER VOCALIC LL
(16#00D66#, 16#00D6F#), -- (Nd) MALAYALAM DIGIT ZERO .. MALAYALAM DIGIT NINE
(16#00D82#, 16#00D83#), -- (Mc) SINHALA SIGN ANUSVARAYA .. SINHALA SIGN VISARGAYA
(16#00D85#, 16#00D96#), -- (Lo) SINHALA LETTER AYANNA .. SINHALA LETTER AUYANNA
(16#00D9A#, 16#00DB1#), -- (Lo) SINHALA LETTER ALPAPRAANA KAYANNA .. SINHALA LETTER DANTAJA NAYANNA
(16#00DB3#, 16#00DBB#), -- (Lo) SINHALA LETTER SANYAKA DAYANNA .. SINHALA LETTER RAYANNA
(16#00DBD#, 16#00DBD#), -- (Lo) SINHALA LETTER DANTAJA LAYANNA .. SINHALA LETTER DANTAJA LAYANNA
(16#00DC0#, 16#00DC6#), -- (Lo) SINHALA LETTER VAYANNA .. SINHALA LETTER FAYANNA
(16#00DCA#, 16#00DCA#), -- (Mn) SINHALA SIGN AL-LAKUNA .. SINHALA SIGN AL-LAKUNA
(16#00DCF#, 16#00DD1#), -- (Mc) SINHALA VOWEL SIGN AELA-PILLA .. SINHALA VOWEL SIGN DIGA AEDA-PILLA
(16#00DD2#, 16#00DD4#), -- (Mn) SINHALA VOWEL SIGN KETTI IS-PILLA .. SINHALA VOWEL SIGN KETTI PAA-PILLA
(16#00DD6#, 16#00DD6#), -- (Mn) SINHALA VOWEL SIGN DIGA PAA-PILLA .. SINHALA VOWEL SIGN DIGA PAA-PILLA
(16#00DD8#, 16#00DDF#), -- (Mc) SINHALA VOWEL SIGN GAETTA-PILLA .. SINHALA VOWEL SIGN GAYANUKITTA
(16#00DF2#, 16#00DF3#), -- (Mc) SINHALA VOWEL SIGN DIGA GAETTA-PILLA .. SINHALA VOWEL SIGN DIGA GAYANUKITTA
(16#00DF4#, 16#00DF4#), -- (Po) SINHALA PUNCTUATION KUNDDALIYA .. SINHALA PUNCTUATION KUNDDALIYA
(16#00E01#, 16#00E30#), -- (Lo) THAI CHARACTER KO KAI .. THAI CHARACTER SARA A
(16#00E31#, 16#00E31#), -- (Mn) THAI CHARACTER MAI HAN-AKAT .. THAI CHARACTER MAI HAN-AKAT
(16#00E32#, 16#00E33#), -- (Lo) THAI CHARACTER SARA AA .. THAI CHARACTER SARA AM
(16#00E34#, 16#00E3A#), -- (Mn) THAI CHARACTER SARA I .. THAI CHARACTER PHINTHU
(16#00E3F#, 16#00E3F#), -- (Sc) THAI CURRENCY SYMBOL BAHT .. THAI CURRENCY SYMBOL BAHT
(16#00E40#, 16#00E45#), -- (Lo) THAI CHARACTER SARA E .. THAI CHARACTER LAKKHANGYAO
(16#00E46#, 16#00E46#), -- (Lm) THAI CHARACTER MAIYAMOK .. THAI CHARACTER MAIYAMOK
(16#00E47#, 16#00E4E#), -- (Mn) THAI CHARACTER MAITAIKHU .. THAI CHARACTER YAMAKKAN
(16#00E4F#, 16#00E4F#), -- (Po) THAI CHARACTER FONGMAN .. THAI CHARACTER FONGMAN
(16#00E50#, 16#00E59#), -- (Nd) THAI DIGIT ZERO .. THAI DIGIT NINE
(16#00E5A#, 16#00E5B#), -- (Po) THAI CHARACTER ANGKHANKHU .. THAI CHARACTER KHOMUT
(16#00E81#, 16#00E82#), -- (Lo) LAO LETTER KO .. LAO LETTER KHO SUNG
(16#00E84#, 16#00E84#), -- (Lo) LAO LETTER KHO TAM .. LAO LETTER KHO TAM
(16#00E87#, 16#00E88#), -- (Lo) LAO LETTER NGO .. LAO LETTER CO
(16#00E8A#, 16#00E8A#), -- (Lo) LAO LETTER SO TAM .. LAO LETTER SO TAM
(16#00E8D#, 16#00E8D#), -- (Lo) LAO LETTER NYO .. LAO LETTER NYO
(16#00E94#, 16#00E97#), -- (Lo) LAO LETTER DO .. LAO LETTER THO TAM
(16#00E99#, 16#00E9F#), -- (Lo) LAO LETTER NO .. LAO LETTER FO SUNG
(16#00EA1#, 16#00EA3#), -- (Lo) LAO LETTER MO .. LAO LETTER LO LING
(16#00EA5#, 16#00EA5#), -- (Lo) LAO LETTER LO LOOT .. LAO LETTER LO LOOT
(16#00EA7#, 16#00EA7#), -- (Lo) LAO LETTER WO .. LAO LETTER WO
(16#00EAA#, 16#00EAB#), -- (Lo) LAO LETTER SO SUNG .. LAO LETTER HO SUNG
(16#00EAD#, 16#00EB0#), -- (Lo) LAO LETTER O .. LAO VOWEL SIGN A
(16#00EB1#, 16#00EB1#), -- (Mn) LAO VOWEL SIGN MAI KAN .. LAO VOWEL SIGN MAI KAN
(16#00EB2#, 16#00EB3#), -- (Lo) LAO VOWEL SIGN AA .. LAO VOWEL SIGN AM
(16#00EB4#, 16#00EB9#), -- (Mn) LAO VOWEL SIGN I .. LAO VOWEL SIGN UU
(16#00EBB#, 16#00EBC#), -- (Mn) LAO VOWEL SIGN MAI KON .. LAO SEMIVOWEL SIGN LO
(16#00EBD#, 16#00EBD#), -- (Lo) LAO SEMIVOWEL SIGN NYO .. LAO SEMIVOWEL SIGN NYO
(16#00EC0#, 16#00EC4#), -- (Lo) LAO VOWEL SIGN E .. LAO VOWEL SIGN AI
(16#00EC6#, 16#00EC6#), -- (Lm) LAO KO LA .. LAO KO LA
(16#00EC8#, 16#00ECD#), -- (Mn) LAO TONE MAI EK .. LAO NIGGAHITA
(16#00ED0#, 16#00ED9#), -- (Nd) LAO DIGIT ZERO .. LAO DIGIT NINE
(16#00EDC#, 16#00EDD#), -- (Lo) LAO HO NO .. LAO HO MO
(16#00F00#, 16#00F00#), -- (Lo) TIBETAN SYLLABLE OM .. TIBETAN SYLLABLE OM
(16#00F01#, 16#00F03#), -- (So) TIBETAN MARK GTER YIG MGO TRUNCATED A .. TIBETAN MARK GTER YIG MGO -UM GTER TSHEG MA
(16#00F04#, 16#00F12#), -- (Po) TIBETAN MARK INITIAL YIG MGO MDUN MA .. TIBETAN MARK RGYA GRAM SHAD
(16#00F13#, 16#00F17#), -- (So) TIBETAN MARK CARET -DZUD RTAGS ME LONG CAN .. TIBETAN ASTROLOGICAL SIGN SGRA GCAN -CHAR RTAGS
(16#00F18#, 16#00F19#), -- (Mn) TIBETAN ASTROLOGICAL SIGN -KHYUD PA .. TIBETAN ASTROLOGICAL SIGN SDONG TSHUGS
(16#00F1A#, 16#00F1F#), -- (So) TIBETAN SIGN RDEL DKAR GCIG .. TIBETAN SIGN RDEL DKAR RDEL NAG
(16#00F20#, 16#00F29#), -- (Nd) TIBETAN DIGIT ZERO .. TIBETAN DIGIT NINE
(16#00F2A#, 16#00F33#), -- (No) TIBETAN DIGIT HALF ONE .. TIBETAN DIGIT HALF ZERO
(16#00F34#, 16#00F34#), -- (So) TIBETAN MARK BSDUS RTAGS .. TIBETAN MARK BSDUS RTAGS
(16#00F35#, 16#00F35#), -- (Mn) TIBETAN MARK NGAS BZUNG NYI ZLA .. TIBETAN MARK NGAS BZUNG NYI ZLA
(16#00F36#, 16#00F36#), -- (So) TIBETAN MARK CARET -DZUD RTAGS BZHI MIG CAN .. TIBETAN MARK CARET -DZUD RTAGS BZHI MIG CAN
(16#00F37#, 16#00F37#), -- (Mn) TIBETAN MARK NGAS BZUNG SGOR RTAGS .. TIBETAN MARK NGAS BZUNG SGOR RTAGS
(16#00F38#, 16#00F38#), -- (So) TIBETAN MARK CHE MGO .. TIBETAN MARK CHE MGO
(16#00F39#, 16#00F39#), -- (Mn) TIBETAN MARK TSA -PHRU .. TIBETAN MARK TSA -PHRU
(16#00F3A#, 16#00F3A#), -- (Ps) TIBETAN MARK GUG RTAGS GYON .. TIBETAN MARK GUG RTAGS GYON
(16#00F3B#, 16#00F3B#), -- (Pe) TIBETAN MARK GUG RTAGS GYAS .. TIBETAN MARK GUG RTAGS GYAS
(16#00F3C#, 16#00F3C#), -- (Ps) TIBETAN MARK ANG KHANG GYON .. TIBETAN MARK ANG KHANG GYON
(16#00F3D#, 16#00F3D#), -- (Pe) TIBETAN MARK ANG KHANG GYAS .. TIBETAN MARK ANG KHANG GYAS
(16#00F3E#, 16#00F3F#), -- (Mc) TIBETAN SIGN YAR TSHES .. TIBETAN SIGN MAR TSHES
(16#00F40#, 16#00F47#), -- (Lo) TIBETAN LETTER KA .. TIBETAN LETTER JA
(16#00F49#, 16#00F6A#), -- (Lo) TIBETAN LETTER NYA .. TIBETAN LETTER FIXED-FORM RA
(16#00F71#, 16#00F7E#), -- (Mn) TIBETAN VOWEL SIGN AA .. TIBETAN SIGN RJES SU NGA RO
(16#00F7F#, 16#00F7F#), -- (Mc) TIBETAN SIGN RNAM BCAD .. TIBETAN SIGN RNAM BCAD
(16#00F80#, 16#00F84#), -- (Mn) TIBETAN VOWEL SIGN REVERSED I .. TIBETAN MARK HALANTA
(16#00F85#, 16#00F85#), -- (Po) TIBETAN MARK PALUTA .. TIBETAN MARK PALUTA
(16#00F86#, 16#00F87#), -- (Mn) TIBETAN SIGN LCI RTAGS .. TIBETAN SIGN YANG RTAGS
(16#00F88#, 16#00F8B#), -- (Lo) TIBETAN SIGN LCE TSA CAN .. TIBETAN SIGN GRU MED RGYINGS
(16#00F90#, 16#00F97#), -- (Mn) TIBETAN SUBJOINED LETTER KA .. TIBETAN SUBJOINED LETTER JA
(16#00F99#, 16#00FBC#), -- (Mn) TIBETAN SUBJOINED LETTER NYA .. TIBETAN SUBJOINED LETTER FIXED-FORM RA
(16#00FBE#, 16#00FC5#), -- (So) TIBETAN KU RU KHA .. TIBETAN SYMBOL RDO RJE
(16#00FC6#, 16#00FC6#), -- (Mn) TIBETAN SYMBOL PADMA GDAN .. TIBETAN SYMBOL PADMA GDAN
(16#00FC7#, 16#00FCC#), -- (So) TIBETAN SYMBOL RDO RJE RGYA GRAM .. TIBETAN SYMBOL NOR BU BZHI -KHYIL
(16#00FCF#, 16#00FCF#), -- (So) TIBETAN SIGN RDEL NAG GSUM .. TIBETAN SIGN RDEL NAG GSUM
(16#01000#, 16#01021#), -- (Lo) MYANMAR LETTER KA .. MYANMAR LETTER A
(16#01023#, 16#01027#), -- (Lo) MYANMAR LETTER I .. MYANMAR LETTER E
(16#01029#, 16#0102A#), -- (Lo) MYANMAR LETTER O .. MYANMAR LETTER AU
(16#0102C#, 16#0102C#), -- (Mc) MYANMAR VOWEL SIGN AA .. MYANMAR VOWEL SIGN AA
(16#0102D#, 16#01030#), -- (Mn) MYANMAR VOWEL SIGN I .. MYANMAR VOWEL SIGN UU
(16#01031#, 16#01031#), -- (Mc) MYANMAR VOWEL SIGN E .. MYANMAR VOWEL SIGN E
(16#01032#, 16#01032#), -- (Mn) MYANMAR VOWEL SIGN AI .. MYANMAR VOWEL SIGN AI
(16#01036#, 16#01037#), -- (Mn) MYANMAR SIGN ANUSVARA .. MYANMAR SIGN DOT BELOW
(16#01038#, 16#01038#), -- (Mc) MYANMAR SIGN VISARGA .. MYANMAR SIGN VISARGA
(16#01039#, 16#01039#), -- (Mn) MYANMAR SIGN VIRAMA .. MYANMAR SIGN VIRAMA
(16#01040#, 16#01049#), -- (Nd) MYANMAR DIGIT ZERO .. MYANMAR DIGIT NINE
(16#0104A#, 16#0104F#), -- (Po) MYANMAR SIGN LITTLE SECTION .. MYANMAR SYMBOL GENITIVE
(16#01050#, 16#01055#), -- (Lo) MYANMAR LETTER SHA .. MYANMAR LETTER VOCALIC LL
(16#01056#, 16#01057#), -- (Mc) MYANMAR VOWEL SIGN VOCALIC R .. MYANMAR VOWEL SIGN VOCALIC RR
(16#01058#, 16#01059#), -- (Mn) MYANMAR VOWEL SIGN VOCALIC L .. MYANMAR VOWEL SIGN VOCALIC LL
(16#010A0#, 16#010C5#), -- (Lu) GEORGIAN CAPITAL LETTER AN .. GEORGIAN CAPITAL LETTER HOE
(16#010D0#, 16#010F8#), -- (Lo) GEORGIAN LETTER AN .. GEORGIAN LETTER ELIFI
(16#010FB#, 16#010FB#), -- (Po) GEORGIAN PARAGRAPH SEPARATOR .. GEORGIAN PARAGRAPH SEPARATOR
(16#01100#, 16#01159#), -- (Lo) HANGUL CHOSEONG KIYEOK .. HANGUL CHOSEONG YEORINHIEUH
(16#0115F#, 16#011A2#), -- (Lo) HANGUL CHOSEONG FILLER .. HANGUL JUNGSEONG SSANGARAEA
(16#011A8#, 16#011F9#), -- (Lo) HANGUL JONGSEONG KIYEOK .. HANGUL JONGSEONG YEORINHIEUH
(16#01200#, 16#01206#), -- (Lo) ETHIOPIC SYLLABLE HA .. ETHIOPIC SYLLABLE HO
(16#01208#, 16#01246#), -- (Lo) ETHIOPIC SYLLABLE LA .. ETHIOPIC SYLLABLE QO
(16#01248#, 16#01248#), -- (Lo) ETHIOPIC SYLLABLE QWA .. ETHIOPIC SYLLABLE QWA
(16#0124A#, 16#0124D#), -- (Lo) ETHIOPIC SYLLABLE QWI .. ETHIOPIC SYLLABLE QWE
(16#01250#, 16#01256#), -- (Lo) ETHIOPIC SYLLABLE QHA .. ETHIOPIC SYLLABLE QHO
(16#01258#, 16#01258#), -- (Lo) ETHIOPIC SYLLABLE QHWA .. ETHIOPIC SYLLABLE QHWA
(16#0125A#, 16#0125D#), -- (Lo) ETHIOPIC SYLLABLE QHWI .. ETHIOPIC SYLLABLE QHWE
(16#01260#, 16#01286#), -- (Lo) ETHIOPIC SYLLABLE BA .. ETHIOPIC SYLLABLE XO
(16#01288#, 16#01288#), -- (Lo) ETHIOPIC SYLLABLE XWA .. ETHIOPIC SYLLABLE XWA
(16#0128A#, 16#0128D#), -- (Lo) ETHIOPIC SYLLABLE XWI .. ETHIOPIC SYLLABLE XWE
(16#01290#, 16#012AE#), -- (Lo) ETHIOPIC SYLLABLE NA .. ETHIOPIC SYLLABLE KO
(16#012B0#, 16#012B0#), -- (Lo) ETHIOPIC SYLLABLE KWA .. ETHIOPIC SYLLABLE KWA
(16#012B2#, 16#012B5#), -- (Lo) ETHIOPIC SYLLABLE KWI .. ETHIOPIC SYLLABLE KWE
(16#012B8#, 16#012BE#), -- (Lo) ETHIOPIC SYLLABLE KXA .. ETHIOPIC SYLLABLE KXO
(16#012C0#, 16#012C0#), -- (Lo) ETHIOPIC SYLLABLE KXWA .. ETHIOPIC SYLLABLE KXWA
(16#012C2#, 16#012C5#), -- (Lo) ETHIOPIC SYLLABLE KXWI .. ETHIOPIC SYLLABLE KXWE
(16#012C8#, 16#012CE#), -- (Lo) ETHIOPIC SYLLABLE WA .. ETHIOPIC SYLLABLE WO
(16#012D0#, 16#012D6#), -- (Lo) ETHIOPIC SYLLABLE PHARYNGEAL A .. ETHIOPIC SYLLABLE PHARYNGEAL O
(16#012D8#, 16#012EE#), -- (Lo) ETHIOPIC SYLLABLE ZA .. ETHIOPIC SYLLABLE YO
(16#012F0#, 16#0130E#), -- (Lo) ETHIOPIC SYLLABLE DA .. ETHIOPIC SYLLABLE GO
(16#01310#, 16#01310#), -- (Lo) ETHIOPIC SYLLABLE GWA .. ETHIOPIC SYLLABLE GWA
(16#01312#, 16#01315#), -- (Lo) ETHIOPIC SYLLABLE GWI .. ETHIOPIC SYLLABLE GWE
(16#01318#, 16#0131E#), -- (Lo) ETHIOPIC SYLLABLE GGA .. ETHIOPIC SYLLABLE GGO
(16#01320#, 16#01346#), -- (Lo) ETHIOPIC SYLLABLE THA .. ETHIOPIC SYLLABLE TZO
(16#01348#, 16#0135A#), -- (Lo) ETHIOPIC SYLLABLE FA .. ETHIOPIC SYLLABLE FYA
(16#01361#, 16#01368#), -- (Po) ETHIOPIC WORDSPACE .. ETHIOPIC PARAGRAPH SEPARATOR
(16#01369#, 16#01371#), -- (Nd) ETHIOPIC DIGIT ONE .. ETHIOPIC DIGIT NINE
(16#01372#, 16#0137C#), -- (No) ETHIOPIC NUMBER TEN .. ETHIOPIC NUMBER TEN THOUSAND
(16#013A0#, 16#013F4#), -- (Lo) CHEROKEE LETTER A .. CHEROKEE LETTER YV
(16#01401#, 16#0166C#), -- (Lo) CANADIAN SYLLABICS E .. CANADIAN SYLLABICS CARRIER TTSA
(16#0166D#, 16#0166E#), -- (Po) CANADIAN SYLLABICS CHI SIGN .. CANADIAN SYLLABICS FULL STOP
(16#0166F#, 16#01676#), -- (Lo) CANADIAN SYLLABICS QAI .. CANADIAN SYLLABICS NNGAA
(16#01680#, 16#01680#), -- (Zs) OGHAM SPACE MARK .. OGHAM SPACE MARK
(16#01681#, 16#0169A#), -- (Lo) OGHAM LETTER BEITH .. OGHAM LETTER PEITH
(16#0169B#, 16#0169B#), -- (Ps) OGHAM FEATHER MARK .. OGHAM FEATHER MARK
(16#0169C#, 16#0169C#), -- (Pe) OGHAM REVERSED FEATHER MARK .. OGHAM REVERSED FEATHER MARK
(16#016A0#, 16#016EA#), -- (Lo) RUNIC LETTER FEHU FEOH FE F .. RUNIC LETTER X
(16#016EB#, 16#016ED#), -- (Po) RUNIC SINGLE PUNCTUATION .. RUNIC CROSS PUNCTUATION
(16#016EE#, 16#016F0#), -- (Nl) RUNIC ARLAUG SYMBOL .. RUNIC BELGTHOR SYMBOL
(16#01700#, 16#0170C#), -- (Lo) TAGALOG LETTER A .. TAGALOG LETTER YA
(16#0170E#, 16#01711#), -- (Lo) TAGALOG LETTER LA .. TAGALOG LETTER HA
(16#01712#, 16#01714#), -- (Mn) TAGALOG VOWEL SIGN I .. TAGALOG SIGN VIRAMA
(16#01720#, 16#01731#), -- (Lo) HANUNOO LETTER A .. HANUNOO LETTER HA
(16#01732#, 16#01734#), -- (Mn) HANUNOO VOWEL SIGN I .. HANUNOO SIGN PAMUDPOD
(16#01735#, 16#01736#), -- (Po) PHILIPPINE SINGLE PUNCTUATION .. PHILIPPINE DOUBLE PUNCTUATION
(16#01740#, 16#01751#), -- (Lo) BUHID LETTER A .. BUHID LETTER HA
(16#01752#, 16#01753#), -- (Mn) BUHID VOWEL SIGN I .. BUHID VOWEL SIGN U
(16#01760#, 16#0176C#), -- (Lo) TAGBANWA LETTER A .. TAGBANWA LETTER YA
(16#0176E#, 16#01770#), -- (Lo) TAGBANWA LETTER LA .. TAGBANWA LETTER SA
(16#01772#, 16#01773#), -- (Mn) TAGBANWA VOWEL SIGN I .. TAGBANWA VOWEL SIGN U
(16#01780#, 16#017B3#), -- (Lo) KHMER LETTER KA .. KHMER INDEPENDENT VOWEL QAU
(16#017B4#, 16#017B5#), -- (Cf) KHMER VOWEL INHERENT AQ .. KHMER VOWEL INHERENT AA
(16#017B6#, 16#017B6#), -- (Mc) KHMER VOWEL SIGN AA .. KHMER VOWEL SIGN AA
(16#017B7#, 16#017BD#), -- (Mn) KHMER VOWEL SIGN I .. KHMER VOWEL SIGN UA
(16#017BE#, 16#017C5#), -- (Mc) KHMER VOWEL SIGN OE .. KHMER VOWEL SIGN AU
(16#017C6#, 16#017C6#), -- (Mn) KHMER SIGN NIKAHIT .. KHMER SIGN NIKAHIT
(16#017C7#, 16#017C8#), -- (Mc) KHMER SIGN REAHMUK .. KHMER SIGN YUUKALEAPINTU
(16#017C9#, 16#017D3#), -- (Mn) KHMER SIGN MUUSIKATOAN .. KHMER SIGN BATHAMASAT
(16#017D4#, 16#017D6#), -- (Po) KHMER SIGN KHAN .. KHMER SIGN CAMNUC PII KUUH
(16#017D7#, 16#017D7#), -- (Lm) KHMER SIGN LEK TOO .. KHMER SIGN LEK TOO
(16#017D8#, 16#017DA#), -- (Po) KHMER SIGN BEYYAL .. KHMER SIGN KOOMUUT
(16#017DB#, 16#017DB#), -- (Sc) KHMER CURRENCY SYMBOL RIEL .. KHMER CURRENCY SYMBOL RIEL
(16#017DC#, 16#017DC#), -- (Lo) KHMER SIGN AVAKRAHASANYA .. KHMER SIGN AVAKRAHASANYA
(16#017DD#, 16#017DD#), -- (Mn) KHMER SIGN ATTHACAN .. KHMER SIGN ATTHACAN
(16#017E0#, 16#017E9#), -- (Nd) KHMER DIGIT ZERO .. KHMER DIGIT NINE
(16#017F0#, 16#017F9#), -- (No) KHMER SYMBOL LEK ATTAK SON .. KHMER SYMBOL LEK ATTAK PRAM-BUON
(16#01800#, 16#01805#), -- (Po) MONGOLIAN BIRGA .. MONGOLIAN FOUR DOTS
(16#01806#, 16#01806#), -- (Pd) MONGOLIAN TODO SOFT HYPHEN .. MONGOLIAN TODO SOFT HYPHEN
(16#01807#, 16#0180A#), -- (Po) MONGOLIAN SIBE SYLLABLE BOUNDARY MARKER .. MONGOLIAN NIRUGU
(16#0180B#, 16#0180D#), -- (Mn) MONGOLIAN FREE VARIATION SELECTOR ONE .. MONGOLIAN FREE VARIATION SELECTOR THREE
(16#0180E#, 16#0180E#), -- (Zs) MONGOLIAN VOWEL SEPARATOR .. MONGOLIAN VOWEL SEPARATOR
(16#01810#, 16#01819#), -- (Nd) MONGOLIAN DIGIT ZERO .. MONGOLIAN DIGIT NINE
(16#01820#, 16#01842#), -- (Lo) MONGOLIAN LETTER A .. MONGOLIAN LETTER CHI
(16#01843#, 16#01843#), -- (Lm) MONGOLIAN LETTER TODO LONG VOWEL SIGN .. MONGOLIAN LETTER TODO LONG VOWEL SIGN
(16#01844#, 16#01877#), -- (Lo) MONGOLIAN LETTER TODO E .. MONGOLIAN LETTER MANCHU ZHA
(16#01880#, 16#018A8#), -- (Lo) MONGOLIAN LETTER ALI GALI ANUSVARA ONE .. MONGOLIAN LETTER MANCHU ALI GALI BHA
(16#018A9#, 16#018A9#), -- (Mn) MONGOLIAN LETTER ALI GALI DAGALGA .. MONGOLIAN LETTER ALI GALI DAGALGA
(16#01900#, 16#0191C#), -- (Lo) LIMBU VOWEL-CARRIER LETTER .. LIMBU LETTER HA
(16#01920#, 16#01922#), -- (Mn) LIMBU VOWEL SIGN A .. LIMBU VOWEL SIGN U
(16#01923#, 16#01926#), -- (Mc) LIMBU VOWEL SIGN EE .. LIMBU VOWEL SIGN AU
(16#01927#, 16#01928#), -- (Mn) LIMBU VOWEL SIGN E .. LIMBU VOWEL SIGN O
(16#01929#, 16#0192B#), -- (Mc) LIMBU SUBJOINED LETTER YA .. LIMBU SUBJOINED LETTER WA
(16#01930#, 16#01931#), -- (Mc) LIMBU SMALL LETTER KA .. LIMBU SMALL LETTER NGA
(16#01932#, 16#01932#), -- (Mn) LIMBU SMALL LETTER ANUSVARA .. LIMBU SMALL LETTER ANUSVARA
(16#01933#, 16#01938#), -- (Mc) LIMBU SMALL LETTER TA .. LIMBU SMALL LETTER LA
(16#01939#, 16#0193B#), -- (Mn) LIMBU SIGN MUKPHRENG .. LIMBU SIGN SA-I
(16#01940#, 16#01940#), -- (So) LIMBU SIGN LOO .. LIMBU SIGN LOO
(16#01944#, 16#01945#), -- (Po) LIMBU EXCLAMATION MARK .. LIMBU QUESTION MARK
(16#01946#, 16#0194F#), -- (Nd) LIMBU DIGIT ZERO .. LIMBU DIGIT NINE
(16#01950#, 16#0196D#), -- (Lo) TAI LE LETTER KA .. TAI LE LETTER AI
(16#01970#, 16#01974#), -- (Lo) TAI LE LETTER TONE-2 .. TAI LE LETTER TONE-6
(16#019E0#, 16#019FF#), -- (So) KHMER SYMBOL PATHAMASAT .. KHMER SYMBOL DAP-PRAM ROC
(16#01D00#, 16#01D2B#), -- (Ll) LATIN LETTER SMALL CAPITAL A .. CYRILLIC LETTER SMALL CAPITAL EL
(16#01D2C#, 16#01D61#), -- (Lm) MODIFIER LETTER CAPITAL A .. MODIFIER LETTER SMALL CHI
(16#01D62#, 16#01D6B#), -- (Ll) LATIN SUBSCRIPT SMALL LETTER I .. LATIN SMALL LETTER UE
(16#01E00#, 16#01E00#), -- (Lu) LATIN CAPITAL LETTER A WITH RING BELOW .. LATIN CAPITAL LETTER A WITH RING BELOW
(16#01E01#, 16#01E01#), -- (Ll) LATIN SMALL LETTER A WITH RING BELOW .. LATIN SMALL LETTER A WITH RING BELOW
(16#01E02#, 16#01E02#), -- (Lu) LATIN CAPITAL LETTER B WITH DOT ABOVE .. LATIN CAPITAL LETTER B WITH DOT ABOVE
(16#01E03#, 16#01E03#), -- (Ll) LATIN SMALL LETTER B WITH DOT ABOVE .. LATIN SMALL LETTER B WITH DOT ABOVE
(16#01E04#, 16#01E04#), -- (Lu) LATIN CAPITAL LETTER B WITH DOT BELOW .. LATIN CAPITAL LETTER B WITH DOT BELOW
(16#01E05#, 16#01E05#), -- (Ll) LATIN SMALL LETTER B WITH DOT BELOW .. LATIN SMALL LETTER B WITH DOT BELOW
(16#01E06#, 16#01E06#), -- (Lu) LATIN CAPITAL LETTER B WITH LINE BELOW .. LATIN CAPITAL LETTER B WITH LINE BELOW
(16#01E07#, 16#01E07#), -- (Ll) LATIN SMALL LETTER B WITH LINE BELOW .. LATIN SMALL LETTER B WITH LINE BELOW
(16#01E08#, 16#01E08#), -- (Lu) LATIN CAPITAL LETTER C WITH CEDILLA AND ACUTE .. LATIN CAPITAL LETTER C WITH CEDILLA AND ACUTE
(16#01E09#, 16#01E09#), -- (Ll) LATIN SMALL LETTER C WITH CEDILLA AND ACUTE .. LATIN SMALL LETTER C WITH CEDILLA AND ACUTE
(16#01E0A#, 16#01E0A#), -- (Lu) LATIN CAPITAL LETTER D WITH DOT ABOVE .. LATIN CAPITAL LETTER D WITH DOT ABOVE
(16#01E0B#, 16#01E0B#), -- (Ll) LATIN SMALL LETTER D WITH DOT ABOVE .. LATIN SMALL LETTER D WITH DOT ABOVE
(16#01E0C#, 16#01E0C#), -- (Lu) LATIN CAPITAL LETTER D WITH DOT BELOW .. LATIN CAPITAL LETTER D WITH DOT BELOW
(16#01E0D#, 16#01E0D#), -- (Ll) LATIN SMALL LETTER D WITH DOT BELOW .. LATIN SMALL LETTER D WITH DOT BELOW
(16#01E0E#, 16#01E0E#), -- (Lu) LATIN CAPITAL LETTER D WITH LINE BELOW .. LATIN CAPITAL LETTER D WITH LINE BELOW
(16#01E0F#, 16#01E0F#), -- (Ll) LATIN SMALL LETTER D WITH LINE BELOW .. LATIN SMALL LETTER D WITH LINE BELOW
(16#01E10#, 16#01E10#), -- (Lu) LATIN CAPITAL LETTER D WITH CEDILLA .. LATIN CAPITAL LETTER D WITH CEDILLA
(16#01E11#, 16#01E11#), -- (Ll) LATIN SMALL LETTER D WITH CEDILLA .. LATIN SMALL LETTER D WITH CEDILLA
(16#01E12#, 16#01E12#), -- (Lu) LATIN CAPITAL LETTER D WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER D WITH CIRCUMFLEX BELOW
(16#01E13#, 16#01E13#), -- (Ll) LATIN SMALL LETTER D WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER D WITH CIRCUMFLEX BELOW
(16#01E14#, 16#01E14#), -- (Lu) LATIN CAPITAL LETTER E WITH MACRON AND GRAVE .. LATIN CAPITAL LETTER E WITH MACRON AND GRAVE
(16#01E15#, 16#01E15#), -- (Ll) LATIN SMALL LETTER E WITH MACRON AND GRAVE .. LATIN SMALL LETTER E WITH MACRON AND GRAVE
(16#01E16#, 16#01E16#), -- (Lu) LATIN CAPITAL LETTER E WITH MACRON AND ACUTE .. LATIN CAPITAL LETTER E WITH MACRON AND ACUTE
(16#01E17#, 16#01E17#), -- (Ll) LATIN SMALL LETTER E WITH MACRON AND ACUTE .. LATIN SMALL LETTER E WITH MACRON AND ACUTE
(16#01E18#, 16#01E18#), -- (Lu) LATIN CAPITAL LETTER E WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX BELOW
(16#01E19#, 16#01E19#), -- (Ll) LATIN SMALL LETTER E WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER E WITH CIRCUMFLEX BELOW
(16#01E1A#, 16#01E1A#), -- (Lu) LATIN CAPITAL LETTER E WITH TILDE BELOW .. LATIN CAPITAL LETTER E WITH TILDE BELOW
(16#01E1B#, 16#01E1B#), -- (Ll) LATIN SMALL LETTER E WITH TILDE BELOW .. LATIN SMALL LETTER E WITH TILDE BELOW
(16#01E1C#, 16#01E1C#), -- (Lu) LATIN CAPITAL LETTER E WITH CEDILLA AND BREVE .. LATIN CAPITAL LETTER E WITH CEDILLA AND BREVE
(16#01E1D#, 16#01E1D#), -- (Ll) LATIN SMALL LETTER E WITH CEDILLA AND BREVE .. LATIN SMALL LETTER E WITH CEDILLA AND BREVE
(16#01E1E#, 16#01E1E#), -- (Lu) LATIN CAPITAL LETTER F WITH DOT ABOVE .. LATIN CAPITAL LETTER F WITH DOT ABOVE
(16#01E1F#, 16#01E1F#), -- (Ll) LATIN SMALL LETTER F WITH DOT ABOVE .. LATIN SMALL LETTER F WITH DOT ABOVE
(16#01E20#, 16#01E20#), -- (Lu) LATIN CAPITAL LETTER G WITH MACRON .. LATIN CAPITAL LETTER G WITH MACRON
(16#01E21#, 16#01E21#), -- (Ll) LATIN SMALL LETTER G WITH MACRON .. LATIN SMALL LETTER G WITH MACRON
(16#01E22#, 16#01E22#), -- (Lu) LATIN CAPITAL LETTER H WITH DOT ABOVE .. LATIN CAPITAL LETTER H WITH DOT ABOVE
(16#01E23#, 16#01E23#), -- (Ll) LATIN SMALL LETTER H WITH DOT ABOVE .. LATIN SMALL LETTER H WITH DOT ABOVE
(16#01E24#, 16#01E24#), -- (Lu) LATIN CAPITAL LETTER H WITH DOT BELOW .. LATIN CAPITAL LETTER H WITH DOT BELOW
(16#01E25#, 16#01E25#), -- (Ll) LATIN SMALL LETTER H WITH DOT BELOW .. LATIN SMALL LETTER H WITH DOT BELOW
(16#01E26#, 16#01E26#), -- (Lu) LATIN CAPITAL LETTER H WITH DIAERESIS .. LATIN CAPITAL LETTER H WITH DIAERESIS
(16#01E27#, 16#01E27#), -- (Ll) LATIN SMALL LETTER H WITH DIAERESIS .. LATIN SMALL LETTER H WITH DIAERESIS
(16#01E28#, 16#01E28#), -- (Lu) LATIN CAPITAL LETTER H WITH CEDILLA .. LATIN CAPITAL LETTER H WITH CEDILLA
(16#01E29#, 16#01E29#), -- (Ll) LATIN SMALL LETTER H WITH CEDILLA .. LATIN SMALL LETTER H WITH CEDILLA
(16#01E2A#, 16#01E2A#), -- (Lu) LATIN CAPITAL LETTER H WITH BREVE BELOW .. LATIN CAPITAL LETTER H WITH BREVE BELOW
(16#01E2B#, 16#01E2B#), -- (Ll) LATIN SMALL LETTER H WITH BREVE BELOW .. LATIN SMALL LETTER H WITH BREVE BELOW
(16#01E2C#, 16#01E2C#), -- (Lu) LATIN CAPITAL LETTER I WITH TILDE BELOW .. LATIN CAPITAL LETTER I WITH TILDE BELOW
(16#01E2D#, 16#01E2D#), -- (Ll) LATIN SMALL LETTER I WITH TILDE BELOW .. LATIN SMALL LETTER I WITH TILDE BELOW
(16#01E2E#, 16#01E2E#), -- (Lu) LATIN CAPITAL LETTER I WITH DIAERESIS AND ACUTE .. LATIN CAPITAL LETTER I WITH DIAERESIS AND ACUTE
(16#01E2F#, 16#01E2F#), -- (Ll) LATIN SMALL LETTER I WITH DIAERESIS AND ACUTE .. LATIN SMALL LETTER I WITH DIAERESIS AND ACUTE
(16#01E30#, 16#01E30#), -- (Lu) LATIN CAPITAL LETTER K WITH ACUTE .. LATIN CAPITAL LETTER K WITH ACUTE
(16#01E31#, 16#01E31#), -- (Ll) LATIN SMALL LETTER K WITH ACUTE .. LATIN SMALL LETTER K WITH ACUTE
(16#01E32#, 16#01E32#), -- (Lu) LATIN CAPITAL LETTER K WITH DOT BELOW .. LATIN CAPITAL LETTER K WITH DOT BELOW
(16#01E33#, 16#01E33#), -- (Ll) LATIN SMALL LETTER K WITH DOT BELOW .. LATIN SMALL LETTER K WITH DOT BELOW
(16#01E34#, 16#01E34#), -- (Lu) LATIN CAPITAL LETTER K WITH LINE BELOW .. LATIN CAPITAL LETTER K WITH LINE BELOW
(16#01E35#, 16#01E35#), -- (Ll) LATIN SMALL LETTER K WITH LINE BELOW .. LATIN SMALL LETTER K WITH LINE BELOW
(16#01E36#, 16#01E36#), -- (Lu) LATIN CAPITAL LETTER L WITH DOT BELOW .. LATIN CAPITAL LETTER L WITH DOT BELOW
(16#01E37#, 16#01E37#), -- (Ll) LATIN SMALL LETTER L WITH DOT BELOW .. LATIN SMALL LETTER L WITH DOT BELOW
(16#01E38#, 16#01E38#), -- (Lu) LATIN CAPITAL LETTER L WITH DOT BELOW AND MACRON .. LATIN CAPITAL LETTER L WITH DOT BELOW AND MACRON
(16#01E39#, 16#01E39#), -- (Ll) LATIN SMALL LETTER L WITH DOT BELOW AND MACRON .. LATIN SMALL LETTER L WITH DOT BELOW AND MACRON
(16#01E3A#, 16#01E3A#), -- (Lu) LATIN CAPITAL LETTER L WITH LINE BELOW .. LATIN CAPITAL LETTER L WITH LINE BELOW
(16#01E3B#, 16#01E3B#), -- (Ll) LATIN SMALL LETTER L WITH LINE BELOW .. LATIN SMALL LETTER L WITH LINE BELOW
(16#01E3C#, 16#01E3C#), -- (Lu) LATIN CAPITAL LETTER L WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER L WITH CIRCUMFLEX BELOW
(16#01E3D#, 16#01E3D#), -- (Ll) LATIN SMALL LETTER L WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER L WITH CIRCUMFLEX BELOW
(16#01E3E#, 16#01E3E#), -- (Lu) LATIN CAPITAL LETTER M WITH ACUTE .. LATIN CAPITAL LETTER M WITH ACUTE
(16#01E3F#, 16#01E3F#), -- (Ll) LATIN SMALL LETTER M WITH ACUTE .. LATIN SMALL LETTER M WITH ACUTE
(16#01E40#, 16#01E40#), -- (Lu) LATIN CAPITAL LETTER M WITH DOT ABOVE .. LATIN CAPITAL LETTER M WITH DOT ABOVE
(16#01E41#, 16#01E41#), -- (Ll) LATIN SMALL LETTER M WITH DOT ABOVE .. LATIN SMALL LETTER M WITH DOT ABOVE
(16#01E42#, 16#01E42#), -- (Lu) LATIN CAPITAL LETTER M WITH DOT BELOW .. LATIN CAPITAL LETTER M WITH DOT BELOW
(16#01E43#, 16#01E43#), -- (Ll) LATIN SMALL LETTER M WITH DOT BELOW .. LATIN SMALL LETTER M WITH DOT BELOW
(16#01E44#, 16#01E44#), -- (Lu) LATIN CAPITAL LETTER N WITH DOT ABOVE .. LATIN CAPITAL LETTER N WITH DOT ABOVE
(16#01E45#, 16#01E45#), -- (Ll) LATIN SMALL LETTER N WITH DOT ABOVE .. LATIN SMALL LETTER N WITH DOT ABOVE
(16#01E46#, 16#01E46#), -- (Lu) LATIN CAPITAL LETTER N WITH DOT BELOW .. LATIN CAPITAL LETTER N WITH DOT BELOW
(16#01E47#, 16#01E47#), -- (Ll) LATIN SMALL LETTER N WITH DOT BELOW .. LATIN SMALL LETTER N WITH DOT BELOW
(16#01E48#, 16#01E48#), -- (Lu) LATIN CAPITAL LETTER N WITH LINE BELOW .. LATIN CAPITAL LETTER N WITH LINE BELOW
(16#01E49#, 16#01E49#), -- (Ll) LATIN SMALL LETTER N WITH LINE BELOW .. LATIN SMALL LETTER N WITH LINE BELOW
(16#01E4A#, 16#01E4A#), -- (Lu) LATIN CAPITAL LETTER N WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER N WITH CIRCUMFLEX BELOW
(16#01E4B#, 16#01E4B#), -- (Ll) LATIN SMALL LETTER N WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER N WITH CIRCUMFLEX BELOW
(16#01E4C#, 16#01E4C#), -- (Lu) LATIN CAPITAL LETTER O WITH TILDE AND ACUTE .. LATIN CAPITAL LETTER O WITH TILDE AND ACUTE
(16#01E4D#, 16#01E4D#), -- (Ll) LATIN SMALL LETTER O WITH TILDE AND ACUTE .. LATIN SMALL LETTER O WITH TILDE AND ACUTE
(16#01E4E#, 16#01E4E#), -- (Lu) LATIN CAPITAL LETTER O WITH TILDE AND DIAERESIS .. LATIN CAPITAL LETTER O WITH TILDE AND DIAERESIS
(16#01E4F#, 16#01E4F#), -- (Ll) LATIN SMALL LETTER O WITH TILDE AND DIAERESIS .. LATIN SMALL LETTER O WITH TILDE AND DIAERESIS
(16#01E50#, 16#01E50#), -- (Lu) LATIN CAPITAL LETTER O WITH MACRON AND GRAVE .. LATIN CAPITAL LETTER O WITH MACRON AND GRAVE
(16#01E51#, 16#01E51#), -- (Ll) LATIN SMALL LETTER O WITH MACRON AND GRAVE .. LATIN SMALL LETTER O WITH MACRON AND GRAVE
(16#01E52#, 16#01E52#), -- (Lu) LATIN CAPITAL LETTER O WITH MACRON AND ACUTE .. LATIN CAPITAL LETTER O WITH MACRON AND ACUTE
(16#01E53#, 16#01E53#), -- (Ll) LATIN SMALL LETTER O WITH MACRON AND ACUTE .. LATIN SMALL LETTER O WITH MACRON AND ACUTE
(16#01E54#, 16#01E54#), -- (Lu) LATIN CAPITAL LETTER P WITH ACUTE .. LATIN CAPITAL LETTER P WITH ACUTE
(16#01E55#, 16#01E55#), -- (Ll) LATIN SMALL LETTER P WITH ACUTE .. LATIN SMALL LETTER P WITH ACUTE
(16#01E56#, 16#01E56#), -- (Lu) LATIN CAPITAL LETTER P WITH DOT ABOVE .. LATIN CAPITAL LETTER P WITH DOT ABOVE
(16#01E57#, 16#01E57#), -- (Ll) LATIN SMALL LETTER P WITH DOT ABOVE .. LATIN SMALL LETTER P WITH DOT ABOVE
(16#01E58#, 16#01E58#), -- (Lu) LATIN CAPITAL LETTER R WITH DOT ABOVE .. LATIN CAPITAL LETTER R WITH DOT ABOVE
(16#01E59#, 16#01E59#), -- (Ll) LATIN SMALL LETTER R WITH DOT ABOVE .. LATIN SMALL LETTER R WITH DOT ABOVE
(16#01E5A#, 16#01E5A#), -- (Lu) LATIN CAPITAL LETTER R WITH DOT BELOW .. LATIN CAPITAL LETTER R WITH DOT BELOW
(16#01E5B#, 16#01E5B#), -- (Ll) LATIN SMALL LETTER R WITH DOT BELOW .. LATIN SMALL LETTER R WITH DOT BELOW
(16#01E5C#, 16#01E5C#), -- (Lu) LATIN CAPITAL LETTER R WITH DOT BELOW AND MACRON .. LATIN CAPITAL LETTER R WITH DOT BELOW AND MACRON
(16#01E5D#, 16#01E5D#), -- (Ll) LATIN SMALL LETTER R WITH DOT BELOW AND MACRON .. LATIN SMALL LETTER R WITH DOT BELOW AND MACRON
(16#01E5E#, 16#01E5E#), -- (Lu) LATIN CAPITAL LETTER R WITH LINE BELOW .. LATIN CAPITAL LETTER R WITH LINE BELOW
(16#01E5F#, 16#01E5F#), -- (Ll) LATIN SMALL LETTER R WITH LINE BELOW .. LATIN SMALL LETTER R WITH LINE BELOW
(16#01E60#, 16#01E60#), -- (Lu) LATIN CAPITAL LETTER S WITH DOT ABOVE .. LATIN CAPITAL LETTER S WITH DOT ABOVE
(16#01E61#, 16#01E61#), -- (Ll) LATIN SMALL LETTER S WITH DOT ABOVE .. LATIN SMALL LETTER S WITH DOT ABOVE
(16#01E62#, 16#01E62#), -- (Lu) LATIN CAPITAL LETTER S WITH DOT BELOW .. LATIN CAPITAL LETTER S WITH DOT BELOW
(16#01E63#, 16#01E63#), -- (Ll) LATIN SMALL LETTER S WITH DOT BELOW .. LATIN SMALL LETTER S WITH DOT BELOW
(16#01E64#, 16#01E64#), -- (Lu) LATIN CAPITAL LETTER S WITH ACUTE AND DOT ABOVE .. LATIN CAPITAL LETTER S WITH ACUTE AND DOT ABOVE
(16#01E65#, 16#01E65#), -- (Ll) LATIN SMALL LETTER S WITH ACUTE AND DOT ABOVE .. LATIN SMALL LETTER S WITH ACUTE AND DOT ABOVE
(16#01E66#, 16#01E66#), -- (Lu) LATIN CAPITAL LETTER S WITH CARON AND DOT ABOVE .. LATIN CAPITAL LETTER S WITH CARON AND DOT ABOVE
(16#01E67#, 16#01E67#), -- (Ll) LATIN SMALL LETTER S WITH CARON AND DOT ABOVE .. LATIN SMALL LETTER S WITH CARON AND DOT ABOVE
(16#01E68#, 16#01E68#), -- (Lu) LATIN CAPITAL LETTER S WITH DOT BELOW AND DOT ABOVE .. LATIN CAPITAL LETTER S WITH DOT BELOW AND DOT ABOVE
(16#01E69#, 16#01E69#), -- (Ll) LATIN SMALL LETTER S WITH DOT BELOW AND DOT ABOVE .. LATIN SMALL LETTER S WITH DOT BELOW AND DOT ABOVE
(16#01E6A#, 16#01E6A#), -- (Lu) LATIN CAPITAL LETTER T WITH DOT ABOVE .. LATIN CAPITAL LETTER T WITH DOT ABOVE
(16#01E6B#, 16#01E6B#), -- (Ll) LATIN SMALL LETTER T WITH DOT ABOVE .. LATIN SMALL LETTER T WITH DOT ABOVE
(16#01E6C#, 16#01E6C#), -- (Lu) LATIN CAPITAL LETTER T WITH DOT BELOW .. LATIN CAPITAL LETTER T WITH DOT BELOW
(16#01E6D#, 16#01E6D#), -- (Ll) LATIN SMALL LETTER T WITH DOT BELOW .. LATIN SMALL LETTER T WITH DOT BELOW
(16#01E6E#, 16#01E6E#), -- (Lu) LATIN CAPITAL LETTER T WITH LINE BELOW .. LATIN CAPITAL LETTER T WITH LINE BELOW
(16#01E6F#, 16#01E6F#), -- (Ll) LATIN SMALL LETTER T WITH LINE BELOW .. LATIN SMALL LETTER T WITH LINE BELOW
(16#01E70#, 16#01E70#), -- (Lu) LATIN CAPITAL LETTER T WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER T WITH CIRCUMFLEX BELOW
(16#01E71#, 16#01E71#), -- (Ll) LATIN SMALL LETTER T WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER T WITH CIRCUMFLEX BELOW
(16#01E72#, 16#01E72#), -- (Lu) LATIN CAPITAL LETTER U WITH DIAERESIS BELOW .. LATIN CAPITAL LETTER U WITH DIAERESIS BELOW
(16#01E73#, 16#01E73#), -- (Ll) LATIN SMALL LETTER U WITH DIAERESIS BELOW .. LATIN SMALL LETTER U WITH DIAERESIS BELOW
(16#01E74#, 16#01E74#), -- (Lu) LATIN CAPITAL LETTER U WITH TILDE BELOW .. LATIN CAPITAL LETTER U WITH TILDE BELOW
(16#01E75#, 16#01E75#), -- (Ll) LATIN SMALL LETTER U WITH TILDE BELOW .. LATIN SMALL LETTER U WITH TILDE BELOW
(16#01E76#, 16#01E76#), -- (Lu) LATIN CAPITAL LETTER U WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER U WITH CIRCUMFLEX BELOW
(16#01E77#, 16#01E77#), -- (Ll) LATIN SMALL LETTER U WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER U WITH CIRCUMFLEX BELOW
(16#01E78#, 16#01E78#), -- (Lu) LATIN CAPITAL LETTER U WITH TILDE AND ACUTE .. LATIN CAPITAL LETTER U WITH TILDE AND ACUTE
(16#01E79#, 16#01E79#), -- (Ll) LATIN SMALL LETTER U WITH TILDE AND ACUTE .. LATIN SMALL LETTER U WITH TILDE AND ACUTE
(16#01E7A#, 16#01E7A#), -- (Lu) LATIN CAPITAL LETTER U WITH MACRON AND DIAERESIS .. LATIN CAPITAL LETTER U WITH MACRON AND DIAERESIS
(16#01E7B#, 16#01E7B#), -- (Ll) LATIN SMALL LETTER U WITH MACRON AND DIAERESIS .. LATIN SMALL LETTER U WITH MACRON AND DIAERESIS
(16#01E7C#, 16#01E7C#), -- (Lu) LATIN CAPITAL LETTER V WITH TILDE .. LATIN CAPITAL LETTER V WITH TILDE
(16#01E7D#, 16#01E7D#), -- (Ll) LATIN SMALL LETTER V WITH TILDE .. LATIN SMALL LETTER V WITH TILDE
(16#01E7E#, 16#01E7E#), -- (Lu) LATIN CAPITAL LETTER V WITH DOT BELOW .. LATIN CAPITAL LETTER V WITH DOT BELOW
(16#01E7F#, 16#01E7F#), -- (Ll) LATIN SMALL LETTER V WITH DOT BELOW .. LATIN SMALL LETTER V WITH DOT BELOW
(16#01E80#, 16#01E80#), -- (Lu) LATIN CAPITAL LETTER W WITH GRAVE .. LATIN CAPITAL LETTER W WITH GRAVE
(16#01E81#, 16#01E81#), -- (Ll) LATIN SMALL LETTER W WITH GRAVE .. LATIN SMALL LETTER W WITH GRAVE
(16#01E82#, 16#01E82#), -- (Lu) LATIN CAPITAL LETTER W WITH ACUTE .. LATIN CAPITAL LETTER W WITH ACUTE
(16#01E83#, 16#01E83#), -- (Ll) LATIN SMALL LETTER W WITH ACUTE .. LATIN SMALL LETTER W WITH ACUTE
(16#01E84#, 16#01E84#), -- (Lu) LATIN CAPITAL LETTER W WITH DIAERESIS .. LATIN CAPITAL LETTER W WITH DIAERESIS
(16#01E85#, 16#01E85#), -- (Ll) LATIN SMALL LETTER W WITH DIAERESIS .. LATIN SMALL LETTER W WITH DIAERESIS
(16#01E86#, 16#01E86#), -- (Lu) LATIN CAPITAL LETTER W WITH DOT ABOVE .. LATIN CAPITAL LETTER W WITH DOT ABOVE
(16#01E87#, 16#01E87#), -- (Ll) LATIN SMALL LETTER W WITH DOT ABOVE .. LATIN SMALL LETTER W WITH DOT ABOVE
(16#01E88#, 16#01E88#), -- (Lu) LATIN CAPITAL LETTER W WITH DOT BELOW .. LATIN CAPITAL LETTER W WITH DOT BELOW
(16#01E89#, 16#01E89#), -- (Ll) LATIN SMALL LETTER W WITH DOT BELOW .. LATIN SMALL LETTER W WITH DOT BELOW
(16#01E8A#, 16#01E8A#), -- (Lu) LATIN CAPITAL LETTER X WITH DOT ABOVE .. LATIN CAPITAL LETTER X WITH DOT ABOVE
(16#01E8B#, 16#01E8B#), -- (Ll) LATIN SMALL LETTER X WITH DOT ABOVE .. LATIN SMALL LETTER X WITH DOT ABOVE
(16#01E8C#, 16#01E8C#), -- (Lu) LATIN CAPITAL LETTER X WITH DIAERESIS .. LATIN CAPITAL LETTER X WITH DIAERESIS
(16#01E8D#, 16#01E8D#), -- (Ll) LATIN SMALL LETTER X WITH DIAERESIS .. LATIN SMALL LETTER X WITH DIAERESIS
(16#01E8E#, 16#01E8E#), -- (Lu) LATIN CAPITAL LETTER Y WITH DOT ABOVE .. LATIN CAPITAL LETTER Y WITH DOT ABOVE
(16#01E8F#, 16#01E8F#), -- (Ll) LATIN SMALL LETTER Y WITH DOT ABOVE .. LATIN SMALL LETTER Y WITH DOT ABOVE
(16#01E90#, 16#01E90#), -- (Lu) LATIN CAPITAL LETTER Z WITH CIRCUMFLEX .. LATIN CAPITAL LETTER Z WITH CIRCUMFLEX
(16#01E91#, 16#01E91#), -- (Ll) LATIN SMALL LETTER Z WITH CIRCUMFLEX .. LATIN SMALL LETTER Z WITH CIRCUMFLEX
(16#01E92#, 16#01E92#), -- (Lu) LATIN CAPITAL LETTER Z WITH DOT BELOW .. LATIN CAPITAL LETTER Z WITH DOT BELOW
(16#01E93#, 16#01E93#), -- (Ll) LATIN SMALL LETTER Z WITH DOT BELOW .. LATIN SMALL LETTER Z WITH DOT BELOW
(16#01E94#, 16#01E94#), -- (Lu) LATIN CAPITAL LETTER Z WITH LINE BELOW .. LATIN CAPITAL LETTER Z WITH LINE BELOW
(16#01E95#, 16#01E9B#), -- (Ll) LATIN SMALL LETTER Z WITH LINE BELOW .. LATIN SMALL LETTER LONG S WITH DOT ABOVE
(16#01EA0#, 16#01EA0#), -- (Lu) LATIN CAPITAL LETTER A WITH DOT BELOW .. LATIN CAPITAL LETTER A WITH DOT BELOW
(16#01EA1#, 16#01EA1#), -- (Ll) LATIN SMALL LETTER A WITH DOT BELOW .. LATIN SMALL LETTER A WITH DOT BELOW
(16#01EA2#, 16#01EA2#), -- (Lu) LATIN CAPITAL LETTER A WITH HOOK ABOVE .. LATIN CAPITAL LETTER A WITH HOOK ABOVE
(16#01EA3#, 16#01EA3#), -- (Ll) LATIN SMALL LETTER A WITH HOOK ABOVE .. LATIN SMALL LETTER A WITH HOOK ABOVE
(16#01EA4#, 16#01EA4#), -- (Lu) LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND ACUTE .. LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND ACUTE
(16#01EA5#, 16#01EA5#), -- (Ll) LATIN SMALL LETTER A WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND ACUTE
(16#01EA6#, 16#01EA6#), -- (Lu) LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND GRAVE .. LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND GRAVE
(16#01EA7#, 16#01EA7#), -- (Ll) LATIN SMALL LETTER A WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND GRAVE
(16#01EA8#, 16#01EA8#), -- (Lu) LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE
(16#01EA9#, 16#01EA9#), -- (Ll) LATIN SMALL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE
(16#01EAA#, 16#01EAA#), -- (Lu) LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND TILDE .. LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND TILDE
(16#01EAB#, 16#01EAB#), -- (Ll) LATIN SMALL LETTER A WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND TILDE
(16#01EAC#, 16#01EAC#), -- (Lu) LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND DOT BELOW .. LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND DOT BELOW
(16#01EAD#, 16#01EAD#), -- (Ll) LATIN SMALL LETTER A WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND DOT BELOW
(16#01EAE#, 16#01EAE#), -- (Lu) LATIN CAPITAL LETTER A WITH BREVE AND ACUTE .. LATIN CAPITAL LETTER A WITH BREVE AND ACUTE
(16#01EAF#, 16#01EAF#), -- (Ll) LATIN SMALL LETTER A WITH BREVE AND ACUTE .. LATIN SMALL LETTER A WITH BREVE AND ACUTE
(16#01EB0#, 16#01EB0#), -- (Lu) LATIN CAPITAL LETTER A WITH BREVE AND GRAVE .. LATIN CAPITAL LETTER A WITH BREVE AND GRAVE
(16#01EB1#, 16#01EB1#), -- (Ll) LATIN SMALL LETTER A WITH BREVE AND GRAVE .. LATIN SMALL LETTER A WITH BREVE AND GRAVE
(16#01EB2#, 16#01EB2#), -- (Lu) LATIN CAPITAL LETTER A WITH BREVE AND HOOK ABOVE .. LATIN CAPITAL LETTER A WITH BREVE AND HOOK ABOVE
(16#01EB3#, 16#01EB3#), -- (Ll) LATIN SMALL LETTER A WITH BREVE AND HOOK ABOVE .. LATIN SMALL LETTER A WITH BREVE AND HOOK ABOVE
(16#01EB4#, 16#01EB4#), -- (Lu) LATIN CAPITAL LETTER A WITH BREVE AND TILDE .. LATIN CAPITAL LETTER A WITH BREVE AND TILDE
(16#01EB5#, 16#01EB5#), -- (Ll) LATIN SMALL LETTER A WITH BREVE AND TILDE .. LATIN SMALL LETTER A WITH BREVE AND TILDE
(16#01EB6#, 16#01EB6#), -- (Lu) LATIN CAPITAL LETTER A WITH BREVE AND DOT BELOW .. LATIN CAPITAL LETTER A WITH BREVE AND DOT BELOW
(16#01EB7#, 16#01EB7#), -- (Ll) LATIN SMALL LETTER A WITH BREVE AND DOT BELOW .. LATIN SMALL LETTER A WITH BREVE AND DOT BELOW
(16#01EB8#, 16#01EB8#), -- (Lu) LATIN CAPITAL LETTER E WITH DOT BELOW .. LATIN CAPITAL LETTER E WITH DOT BELOW
(16#01EB9#, 16#01EB9#), -- (Ll) LATIN SMALL LETTER E WITH DOT BELOW .. LATIN SMALL LETTER E WITH DOT BELOW
(16#01EBA#, 16#01EBA#), -- (Lu) LATIN CAPITAL LETTER E WITH HOOK ABOVE .. LATIN CAPITAL LETTER E WITH HOOK ABOVE
(16#01EBB#, 16#01EBB#), -- (Ll) LATIN SMALL LETTER E WITH HOOK ABOVE .. LATIN SMALL LETTER E WITH HOOK ABOVE
(16#01EBC#, 16#01EBC#), -- (Lu) LATIN CAPITAL LETTER E WITH TILDE .. LATIN CAPITAL LETTER E WITH TILDE
(16#01EBD#, 16#01EBD#), -- (Ll) LATIN SMALL LETTER E WITH TILDE .. LATIN SMALL LETTER E WITH TILDE
(16#01EBE#, 16#01EBE#), -- (Lu) LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND ACUTE .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND ACUTE
(16#01EBF#, 16#01EBF#), -- (Ll) LATIN SMALL LETTER E WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND ACUTE
(16#01EC0#, 16#01EC0#), -- (Lu) LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND GRAVE .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND GRAVE
(16#01EC1#, 16#01EC1#), -- (Ll) LATIN SMALL LETTER E WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND GRAVE
(16#01EC2#, 16#01EC2#), -- (Lu) LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE
(16#01EC3#, 16#01EC3#), -- (Ll) LATIN SMALL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE
(16#01EC4#, 16#01EC4#), -- (Lu) LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND TILDE .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND TILDE
(16#01EC5#, 16#01EC5#), -- (Ll) LATIN SMALL LETTER E WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND TILDE
(16#01EC6#, 16#01EC6#), -- (Lu) LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND DOT BELOW .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND DOT BELOW
(16#01EC7#, 16#01EC7#), -- (Ll) LATIN SMALL LETTER E WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND DOT BELOW
(16#01EC8#, 16#01EC8#), -- (Lu) LATIN CAPITAL LETTER I WITH HOOK ABOVE .. LATIN CAPITAL LETTER I WITH HOOK ABOVE
(16#01EC9#, 16#01EC9#), -- (Ll) LATIN SMALL LETTER I WITH HOOK ABOVE .. LATIN SMALL LETTER I WITH HOOK ABOVE
(16#01ECA#, 16#01ECA#), -- (Lu) LATIN CAPITAL LETTER I WITH DOT BELOW .. LATIN CAPITAL LETTER I WITH DOT BELOW
(16#01ECB#, 16#01ECB#), -- (Ll) LATIN SMALL LETTER I WITH DOT BELOW .. LATIN SMALL LETTER I WITH DOT BELOW
(16#01ECC#, 16#01ECC#), -- (Lu) LATIN CAPITAL LETTER O WITH DOT BELOW .. LATIN CAPITAL LETTER O WITH DOT BELOW
(16#01ECD#, 16#01ECD#), -- (Ll) LATIN SMALL LETTER O WITH DOT BELOW .. LATIN SMALL LETTER O WITH DOT BELOW
(16#01ECE#, 16#01ECE#), -- (Lu) LATIN CAPITAL LETTER O WITH HOOK ABOVE .. LATIN CAPITAL LETTER O WITH HOOK ABOVE
(16#01ECF#, 16#01ECF#), -- (Ll) LATIN SMALL LETTER O WITH HOOK ABOVE .. LATIN SMALL LETTER O WITH HOOK ABOVE
(16#01ED0#, 16#01ED0#), -- (Lu) LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND ACUTE .. LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND ACUTE
(16#01ED1#, 16#01ED1#), -- (Ll) LATIN SMALL LETTER O WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND ACUTE
(16#01ED2#, 16#01ED2#), -- (Lu) LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND GRAVE .. LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND GRAVE
(16#01ED3#, 16#01ED3#), -- (Ll) LATIN SMALL LETTER O WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND GRAVE
(16#01ED4#, 16#01ED4#), -- (Lu) LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE
(16#01ED5#, 16#01ED5#), -- (Ll) LATIN SMALL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE
(16#01ED6#, 16#01ED6#), -- (Lu) LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND TILDE .. LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND TILDE
(16#01ED7#, 16#01ED7#), -- (Ll) LATIN SMALL LETTER O WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND TILDE
(16#01ED8#, 16#01ED8#), -- (Lu) LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND DOT BELOW .. LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND DOT BELOW
(16#01ED9#, 16#01ED9#), -- (Ll) LATIN SMALL LETTER O WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND DOT BELOW
(16#01EDA#, 16#01EDA#), -- (Lu) LATIN CAPITAL LETTER O WITH HORN AND ACUTE .. LATIN CAPITAL LETTER O WITH HORN AND ACUTE
(16#01EDB#, 16#01EDB#), -- (Ll) LATIN SMALL LETTER O WITH HORN AND ACUTE .. LATIN SMALL LETTER O WITH HORN AND ACUTE
(16#01EDC#, 16#01EDC#), -- (Lu) LATIN CAPITAL LETTER O WITH HORN AND GRAVE .. LATIN CAPITAL LETTER O WITH HORN AND GRAVE
(16#01EDD#, 16#01EDD#), -- (Ll) LATIN SMALL LETTER O WITH HORN AND GRAVE .. LATIN SMALL LETTER O WITH HORN AND GRAVE
(16#01EDE#, 16#01EDE#), -- (Lu) LATIN CAPITAL LETTER O WITH HORN AND HOOK ABOVE .. LATIN CAPITAL LETTER O WITH HORN AND HOOK ABOVE
(16#01EDF#, 16#01EDF#), -- (Ll) LATIN SMALL LETTER O WITH HORN AND HOOK ABOVE .. LATIN SMALL LETTER O WITH HORN AND HOOK ABOVE
(16#01EE0#, 16#01EE0#), -- (Lu) LATIN CAPITAL LETTER O WITH HORN AND TILDE .. LATIN CAPITAL LETTER O WITH HORN AND TILDE
(16#01EE1#, 16#01EE1#), -- (Ll) LATIN SMALL LETTER O WITH HORN AND TILDE .. LATIN SMALL LETTER O WITH HORN AND TILDE
(16#01EE2#, 16#01EE2#), -- (Lu) LATIN CAPITAL LETTER O WITH HORN AND DOT BELOW .. LATIN CAPITAL LETTER O WITH HORN AND DOT BELOW
(16#01EE3#, 16#01EE3#), -- (Ll) LATIN SMALL LETTER O WITH HORN AND DOT BELOW .. LATIN SMALL LETTER O WITH HORN AND DOT BELOW
(16#01EE4#, 16#01EE4#), -- (Lu) LATIN CAPITAL LETTER U WITH DOT BELOW .. LATIN CAPITAL LETTER U WITH DOT BELOW
(16#01EE5#, 16#01EE5#), -- (Ll) LATIN SMALL LETTER U WITH DOT BELOW .. LATIN SMALL LETTER U WITH DOT BELOW
(16#01EE6#, 16#01EE6#), -- (Lu) LATIN CAPITAL LETTER U WITH HOOK ABOVE .. LATIN CAPITAL LETTER U WITH HOOK ABOVE
(16#01EE7#, 16#01EE7#), -- (Ll) LATIN SMALL LETTER U WITH HOOK ABOVE .. LATIN SMALL LETTER U WITH HOOK ABOVE
(16#01EE8#, 16#01EE8#), -- (Lu) LATIN CAPITAL LETTER U WITH HORN AND ACUTE .. LATIN CAPITAL LETTER U WITH HORN AND ACUTE
(16#01EE9#, 16#01EE9#), -- (Ll) LATIN SMALL LETTER U WITH HORN AND ACUTE .. LATIN SMALL LETTER U WITH HORN AND ACUTE
(16#01EEA#, 16#01EEA#), -- (Lu) LATIN CAPITAL LETTER U WITH HORN AND GRAVE .. LATIN CAPITAL LETTER U WITH HORN AND GRAVE
(16#01EEB#, 16#01EEB#), -- (Ll) LATIN SMALL LETTER U WITH HORN AND GRAVE .. LATIN SMALL LETTER U WITH HORN AND GRAVE
(16#01EEC#, 16#01EEC#), -- (Lu) LATIN CAPITAL LETTER U WITH HORN AND HOOK ABOVE .. LATIN CAPITAL LETTER U WITH HORN AND HOOK ABOVE
(16#01EED#, 16#01EED#), -- (Ll) LATIN SMALL LETTER U WITH HORN AND HOOK ABOVE .. LATIN SMALL LETTER U WITH HORN AND HOOK ABOVE
(16#01EEE#, 16#01EEE#), -- (Lu) LATIN CAPITAL LETTER U WITH HORN AND TILDE .. LATIN CAPITAL LETTER U WITH HORN AND TILDE
(16#01EEF#, 16#01EEF#), -- (Ll) LATIN SMALL LETTER U WITH HORN AND TILDE .. LATIN SMALL LETTER U WITH HORN AND TILDE
(16#01EF0#, 16#01EF0#), -- (Lu) LATIN CAPITAL LETTER U WITH HORN AND DOT BELOW .. LATIN CAPITAL LETTER U WITH HORN AND DOT BELOW
(16#01EF1#, 16#01EF1#), -- (Ll) LATIN SMALL LETTER U WITH HORN AND DOT BELOW .. LATIN SMALL LETTER U WITH HORN AND DOT BELOW
(16#01EF2#, 16#01EF2#), -- (Lu) LATIN CAPITAL LETTER Y WITH GRAVE .. LATIN CAPITAL LETTER Y WITH GRAVE
(16#01EF3#, 16#01EF3#), -- (Ll) LATIN SMALL LETTER Y WITH GRAVE .. LATIN SMALL LETTER Y WITH GRAVE
(16#01EF4#, 16#01EF4#), -- (Lu) LATIN CAPITAL LETTER Y WITH DOT BELOW .. LATIN CAPITAL LETTER Y WITH DOT BELOW
(16#01EF5#, 16#01EF5#), -- (Ll) LATIN SMALL LETTER Y WITH DOT BELOW .. LATIN SMALL LETTER Y WITH DOT BELOW
(16#01EF6#, 16#01EF6#), -- (Lu) LATIN CAPITAL LETTER Y WITH HOOK ABOVE .. LATIN CAPITAL LETTER Y WITH HOOK ABOVE
(16#01EF7#, 16#01EF7#), -- (Ll) LATIN SMALL LETTER Y WITH HOOK ABOVE .. LATIN SMALL LETTER Y WITH HOOK ABOVE
(16#01EF8#, 16#01EF8#), -- (Lu) LATIN CAPITAL LETTER Y WITH TILDE .. LATIN CAPITAL LETTER Y WITH TILDE
(16#01EF9#, 16#01EF9#), -- (Ll) LATIN SMALL LETTER Y WITH TILDE .. LATIN SMALL LETTER Y WITH TILDE
(16#01F00#, 16#01F07#), -- (Ll) GREEK SMALL LETTER ALPHA WITH PSILI .. GREEK SMALL LETTER ALPHA WITH DASIA AND PERISPOMENI
(16#01F08#, 16#01F0F#), -- (Lu) GREEK CAPITAL LETTER ALPHA WITH PSILI .. GREEK CAPITAL LETTER ALPHA WITH DASIA AND PERISPOMENI
(16#01F10#, 16#01F15#), -- (Ll) GREEK SMALL LETTER EPSILON WITH PSILI .. GREEK SMALL LETTER EPSILON WITH DASIA AND OXIA
(16#01F18#, 16#01F1D#), -- (Lu) GREEK CAPITAL LETTER EPSILON WITH PSILI .. GREEK CAPITAL LETTER EPSILON WITH DASIA AND OXIA
(16#01F20#, 16#01F27#), -- (Ll) GREEK SMALL LETTER ETA WITH PSILI .. GREEK SMALL LETTER ETA WITH DASIA AND PERISPOMENI
(16#01F28#, 16#01F2F#), -- (Lu) GREEK CAPITAL LETTER ETA WITH PSILI .. GREEK CAPITAL LETTER ETA WITH DASIA AND PERISPOMENI
(16#01F30#, 16#01F37#), -- (Ll) GREEK SMALL LETTER IOTA WITH PSILI .. GREEK SMALL LETTER IOTA WITH DASIA AND PERISPOMENI
(16#01F38#, 16#01F3F#), -- (Lu) GREEK CAPITAL LETTER IOTA WITH PSILI .. GREEK CAPITAL LETTER IOTA WITH DASIA AND PERISPOMENI
(16#01F40#, 16#01F45#), -- (Ll) GREEK SMALL LETTER OMICRON WITH PSILI .. GREEK SMALL LETTER OMICRON WITH DASIA AND OXIA
(16#01F48#, 16#01F4D#), -- (Lu) GREEK CAPITAL LETTER OMICRON WITH PSILI .. GREEK CAPITAL LETTER OMICRON WITH DASIA AND OXIA
(16#01F50#, 16#01F57#), -- (Ll) GREEK SMALL LETTER UPSILON WITH PSILI .. GREEK SMALL LETTER UPSILON WITH DASIA AND PERISPOMENI
(16#01F59#, 16#01F59#), -- (Lu) GREEK CAPITAL LETTER UPSILON WITH DASIA .. GREEK CAPITAL LETTER UPSILON WITH DASIA
(16#01F5B#, 16#01F5B#), -- (Lu) GREEK CAPITAL LETTER UPSILON WITH DASIA AND VARIA .. GREEK CAPITAL LETTER UPSILON WITH DASIA AND VARIA
(16#01F5D#, 16#01F5D#), -- (Lu) GREEK CAPITAL LETTER UPSILON WITH DASIA AND OXIA .. GREEK CAPITAL LETTER UPSILON WITH DASIA AND OXIA
(16#01F5F#, 16#01F5F#), -- (Lu) GREEK CAPITAL LETTER UPSILON WITH DASIA AND PERISPOMENI .. GREEK CAPITAL LETTER UPSILON WITH DASIA AND PERISPOMENI
(16#01F60#, 16#01F67#), -- (Ll) GREEK SMALL LETTER OMEGA WITH PSILI .. GREEK SMALL LETTER OMEGA WITH DASIA AND PERISPOMENI
(16#01F68#, 16#01F6F#), -- (Lu) GREEK CAPITAL LETTER OMEGA WITH PSILI .. GREEK CAPITAL LETTER OMEGA WITH DASIA AND PERISPOMENI
(16#01F70#, 16#01F7D#), -- (Ll) GREEK SMALL LETTER ALPHA WITH VARIA .. GREEK SMALL LETTER OMEGA WITH OXIA
(16#01F80#, 16#01F87#), -- (Ll) GREEK SMALL LETTER ALPHA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER ALPHA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
(16#01F88#, 16#01F8F#), -- (Lt) GREEK CAPITAL LETTER ALPHA WITH PSILI AND PROSGEGRAMMENI .. GREEK CAPITAL LETTER ALPHA WITH DASIA AND PERISPOMENI AND PROSGEGRAMMENI
(16#01F90#, 16#01F97#), -- (Ll) GREEK SMALL LETTER ETA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER ETA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
(16#01F98#, 16#01F9F#), -- (Lt) GREEK CAPITAL LETTER ETA WITH PSILI AND PROSGEGRAMMENI .. GREEK CAPITAL LETTER ETA WITH DASIA AND PERISPOMENI AND PROSGEGRAMMENI
(16#01FA0#, 16#01FA7#), -- (Ll) GREEK SMALL LETTER OMEGA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER OMEGA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
(16#01FA8#, 16#01FAF#), -- (Lt) GREEK CAPITAL LETTER OMEGA WITH PSILI AND PROSGEGRAMMENI .. GREEK CAPITAL LETTER OMEGA WITH DASIA AND PERISPOMENI AND PROSGEGRAMMENI
(16#01FB0#, 16#01FB4#), -- (Ll) GREEK SMALL LETTER ALPHA WITH VRACHY .. GREEK SMALL LETTER ALPHA WITH OXIA AND YPOGEGRAMMENI
(16#01FB6#, 16#01FB7#), -- (Ll) GREEK SMALL LETTER ALPHA WITH PERISPOMENI .. GREEK SMALL LETTER ALPHA WITH PERISPOMENI AND YPOGEGRAMMENI
(16#01FB8#, 16#01FBB#), -- (Lu) GREEK CAPITAL LETTER ALPHA WITH VRACHY .. GREEK CAPITAL LETTER ALPHA WITH OXIA
(16#01FBC#, 16#01FBC#), -- (Lt) GREEK CAPITAL LETTER ALPHA WITH PROSGEGRAMMENI .. GREEK CAPITAL LETTER ALPHA WITH PROSGEGRAMMENI
(16#01FBD#, 16#01FBD#), -- (Sk) GREEK KORONIS .. GREEK KORONIS
(16#01FBE#, 16#01FBE#), -- (Ll) GREEK PROSGEGRAMMENI .. GREEK PROSGEGRAMMENI
(16#01FBF#, 16#01FC1#), -- (Sk) GREEK PSILI .. GREEK DIALYTIKA AND PERISPOMENI
(16#01FC2#, 16#01FC4#), -- (Ll) GREEK SMALL LETTER ETA WITH VARIA AND YPOGEGRAMMENI .. GREEK SMALL LETTER ETA WITH OXIA AND YPOGEGRAMMENI
(16#01FC6#, 16#01FC7#), -- (Ll) GREEK SMALL LETTER ETA WITH PERISPOMENI .. GREEK SMALL LETTER ETA WITH PERISPOMENI AND YPOGEGRAMMENI
(16#01FC8#, 16#01FCB#), -- (Lu) GREEK CAPITAL LETTER EPSILON WITH VARIA .. GREEK CAPITAL LETTER ETA WITH OXIA
(16#01FCC#, 16#01FCC#), -- (Lt) GREEK CAPITAL LETTER ETA WITH PROSGEGRAMMENI .. GREEK CAPITAL LETTER ETA WITH PROSGEGRAMMENI
(16#01FCD#, 16#01FCF#), -- (Sk) GREEK PSILI AND VARIA .. GREEK PSILI AND PERISPOMENI
(16#01FD0#, 16#01FD3#), -- (Ll) GREEK SMALL LETTER IOTA WITH VRACHY .. GREEK SMALL LETTER IOTA WITH DIALYTIKA AND OXIA
(16#01FD6#, 16#01FD7#), -- (Ll) GREEK SMALL LETTER IOTA WITH PERISPOMENI .. GREEK SMALL LETTER IOTA WITH DIALYTIKA AND PERISPOMENI
(16#01FD8#, 16#01FDB#), -- (Lu) GREEK CAPITAL LETTER IOTA WITH VRACHY .. GREEK CAPITAL LETTER IOTA WITH OXIA
(16#01FDD#, 16#01FDF#), -- (Sk) GREEK DASIA AND VARIA .. GREEK DASIA AND PERISPOMENI
(16#01FE0#, 16#01FE7#), -- (Ll) GREEK SMALL LETTER UPSILON WITH VRACHY .. GREEK SMALL LETTER UPSILON WITH DIALYTIKA AND PERISPOMENI
(16#01FE8#, 16#01FEC#), -- (Lu) GREEK CAPITAL LETTER UPSILON WITH VRACHY .. GREEK CAPITAL LETTER RHO WITH DASIA
(16#01FED#, 16#01FEF#), -- (Sk) GREEK DIALYTIKA AND VARIA .. GREEK VARIA
(16#01FF2#, 16#01FF4#), -- (Ll) GREEK SMALL LETTER OMEGA WITH VARIA AND YPOGEGRAMMENI .. GREEK SMALL LETTER OMEGA WITH OXIA AND YPOGEGRAMMENI
(16#01FF6#, 16#01FF7#), -- (Ll) GREEK SMALL LETTER OMEGA WITH PERISPOMENI .. GREEK SMALL LETTER OMEGA WITH PERISPOMENI AND YPOGEGRAMMENI
(16#01FF8#, 16#01FFB#), -- (Lu) GREEK CAPITAL LETTER OMICRON WITH VARIA .. GREEK CAPITAL LETTER OMEGA WITH OXIA
(16#01FFC#, 16#01FFC#), -- (Lt) GREEK CAPITAL LETTER OMEGA WITH PROSGEGRAMMENI .. GREEK CAPITAL LETTER OMEGA WITH PROSGEGRAMMENI
(16#01FFD#, 16#01FFE#), -- (Sk) GREEK OXIA .. GREEK DASIA
(16#02000#, 16#0200B#), -- (Zs) EN QUAD .. ZERO WIDTH SPACE
(16#0200C#, 16#0200F#), -- (Cf) ZERO WIDTH NON-JOINER .. RIGHT-TO-LEFT MARK
(16#02010#, 16#02015#), -- (Pd) HYPHEN .. HORIZONTAL BAR
(16#02016#, 16#02017#), -- (Po) DOUBLE VERTICAL LINE .. DOUBLE LOW LINE
(16#02018#, 16#02018#), -- (Pi) LEFT SINGLE QUOTATION MARK .. LEFT SINGLE QUOTATION MARK
(16#02019#, 16#02019#), -- (Pf) RIGHT SINGLE QUOTATION MARK .. RIGHT SINGLE QUOTATION MARK
(16#0201A#, 16#0201A#), -- (Ps) SINGLE LOW-9 QUOTATION MARK .. SINGLE LOW-9 QUOTATION MARK
(16#0201B#, 16#0201C#), -- (Pi) SINGLE HIGH-REVERSED-9 QUOTATION MARK .. LEFT DOUBLE QUOTATION MARK
(16#0201D#, 16#0201D#), -- (Pf) RIGHT DOUBLE QUOTATION MARK .. RIGHT DOUBLE QUOTATION MARK
(16#0201E#, 16#0201E#), -- (Ps) DOUBLE LOW-9 QUOTATION MARK .. DOUBLE LOW-9 QUOTATION MARK
(16#0201F#, 16#0201F#), -- (Pi) DOUBLE HIGH-REVERSED-9 QUOTATION MARK .. DOUBLE HIGH-REVERSED-9 QUOTATION MARK
(16#02020#, 16#02027#), -- (Po) DAGGER .. HYPHENATION POINT
(16#02028#, 16#02028#), -- (Zl) LINE SEPARATOR .. LINE SEPARATOR
(16#02029#, 16#02029#), -- (Zp) PARAGRAPH SEPARATOR .. PARAGRAPH SEPARATOR
(16#0202A#, 16#0202E#), -- (Cf) LEFT-TO-RIGHT EMBEDDING .. RIGHT-TO-LEFT OVERRIDE
(16#0202F#, 16#0202F#), -- (Zs) NARROW NO-BREAK SPACE .. NARROW NO-BREAK SPACE
(16#02030#, 16#02038#), -- (Po) PER MILLE SIGN .. CARET
(16#02039#, 16#02039#), -- (Pi) SINGLE LEFT-POINTING ANGLE QUOTATION MARK .. SINGLE LEFT-POINTING ANGLE QUOTATION MARK
(16#0203A#, 16#0203A#), -- (Pf) SINGLE RIGHT-POINTING ANGLE QUOTATION MARK .. SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
(16#0203B#, 16#0203E#), -- (Po) REFERENCE MARK .. OVERLINE
(16#0203F#, 16#02040#), -- (Pc) UNDERTIE .. CHARACTER TIE
(16#02041#, 16#02043#), -- (Po) CARET INSERTION POINT .. HYPHEN BULLET
(16#02044#, 16#02044#), -- (Sm) FRACTION SLASH .. FRACTION SLASH
(16#02045#, 16#02045#), -- (Ps) LEFT SQUARE BRACKET WITH QUILL .. LEFT SQUARE BRACKET WITH QUILL
(16#02046#, 16#02046#), -- (Pe) RIGHT SQUARE BRACKET WITH QUILL .. RIGHT SQUARE BRACKET WITH QUILL
(16#02047#, 16#02051#), -- (Po) DOUBLE QUESTION MARK .. TWO ASTERISKS ALIGNED VERTICALLY
(16#02052#, 16#02052#), -- (Sm) COMMERCIAL MINUS SIGN .. COMMERCIAL MINUS SIGN
(16#02053#, 16#02053#), -- (Po) SWUNG DASH .. SWUNG DASH
(16#02054#, 16#02054#), -- (Pc) INVERTED UNDERTIE .. INVERTED UNDERTIE
(16#02057#, 16#02057#), -- (Po) QUADRUPLE PRIME .. QUADRUPLE PRIME
(16#0205F#, 16#0205F#), -- (Zs) MEDIUM MATHEMATICAL SPACE .. MEDIUM MATHEMATICAL SPACE
(16#02060#, 16#02063#), -- (Cf) WORD JOINER .. INVISIBLE SEPARATOR
(16#0206A#, 16#0206F#), -- (Cf) INHIBIT SYMMETRIC SWAPPING .. NOMINAL DIGIT SHAPES
(16#02070#, 16#02070#), -- (No) SUPERSCRIPT ZERO .. SUPERSCRIPT ZERO
(16#02071#, 16#02071#), -- (Ll) SUPERSCRIPT LATIN SMALL LETTER I .. SUPERSCRIPT LATIN SMALL LETTER I
(16#02074#, 16#02079#), -- (No) SUPERSCRIPT FOUR .. SUPERSCRIPT NINE
(16#0207A#, 16#0207C#), -- (Sm) SUPERSCRIPT PLUS SIGN .. SUPERSCRIPT EQUALS SIGN
(16#0207D#, 16#0207D#), -- (Ps) SUPERSCRIPT LEFT PARENTHESIS .. SUPERSCRIPT LEFT PARENTHESIS
(16#0207E#, 16#0207E#), -- (Pe) SUPERSCRIPT RIGHT PARENTHESIS .. SUPERSCRIPT RIGHT PARENTHESIS
(16#0207F#, 16#0207F#), -- (Ll) SUPERSCRIPT LATIN SMALL LETTER N .. SUPERSCRIPT LATIN SMALL LETTER N
(16#02080#, 16#02089#), -- (No) SUBSCRIPT ZERO .. SUBSCRIPT NINE
(16#0208A#, 16#0208C#), -- (Sm) SUBSCRIPT PLUS SIGN .. SUBSCRIPT EQUALS SIGN
(16#0208D#, 16#0208D#), -- (Ps) SUBSCRIPT LEFT PARENTHESIS .. SUBSCRIPT LEFT PARENTHESIS
(16#0208E#, 16#0208E#), -- (Pe) SUBSCRIPT RIGHT PARENTHESIS .. SUBSCRIPT RIGHT PARENTHESIS
(16#020A0#, 16#020B1#), -- (Sc) EURO-CURRENCY SIGN .. PESO SIGN
(16#020D0#, 16#020DC#), -- (Mn) COMBINING LEFT HARPOON ABOVE .. COMBINING FOUR DOTS ABOVE
(16#020DD#, 16#020E0#), -- (Me) COMBINING ENCLOSING CIRCLE .. COMBINING ENCLOSING CIRCLE BACKSLASH
(16#020E1#, 16#020E1#), -- (Mn) COMBINING LEFT RIGHT ARROW ABOVE .. COMBINING LEFT RIGHT ARROW ABOVE
(16#020E2#, 16#020E4#), -- (Me) COMBINING ENCLOSING SCREEN .. COMBINING ENCLOSING UPWARD POINTING TRIANGLE
(16#020E5#, 16#020EA#), -- (Mn) COMBINING REVERSE SOLIDUS OVERLAY .. COMBINING LEFTWARDS ARROW OVERLAY
(16#02100#, 16#02101#), -- (So) ACCOUNT OF .. ADDRESSED TO THE SUBJECT
(16#02102#, 16#02102#), -- (Lu) DOUBLE-STRUCK CAPITAL C .. DOUBLE-STRUCK CAPITAL C
(16#02103#, 16#02106#), -- (So) DEGREE CELSIUS .. CADA UNA
(16#02107#, 16#02107#), -- (Lu) EULER CONSTANT .. EULER CONSTANT
(16#02108#, 16#02109#), -- (So) SCRUPLE .. DEGREE FAHRENHEIT
(16#0210A#, 16#0210A#), -- (Ll) SCRIPT SMALL G .. SCRIPT SMALL G
(16#0210B#, 16#0210D#), -- (Lu) SCRIPT CAPITAL H .. DOUBLE-STRUCK CAPITAL H
(16#0210E#, 16#0210F#), -- (Ll) PLANCK CONSTANT .. PLANCK CONSTANT OVER TWO PI
(16#02110#, 16#02112#), -- (Lu) SCRIPT CAPITAL I .. SCRIPT CAPITAL L
(16#02113#, 16#02113#), -- (Ll) SCRIPT SMALL L .. SCRIPT SMALL L
(16#02114#, 16#02114#), -- (So) L B BAR SYMBOL .. L B BAR SYMBOL
(16#02115#, 16#02115#), -- (Lu) DOUBLE-STRUCK CAPITAL N .. DOUBLE-STRUCK CAPITAL N
(16#02116#, 16#02118#), -- (So) NUMERO SIGN .. SCRIPT CAPITAL P
(16#02119#, 16#0211D#), -- (Lu) DOUBLE-STRUCK CAPITAL P .. DOUBLE-STRUCK CAPITAL R
(16#0211E#, 16#02123#), -- (So) PRESCRIPTION TAKE .. VERSICLE
(16#02124#, 16#02124#), -- (Lu) DOUBLE-STRUCK CAPITAL Z .. DOUBLE-STRUCK CAPITAL Z
(16#02125#, 16#02125#), -- (So) OUNCE SIGN .. OUNCE SIGN
(16#02126#, 16#02126#), -- (Lu) OHM SIGN .. OHM SIGN
(16#02127#, 16#02127#), -- (So) INVERTED OHM SIGN .. INVERTED OHM SIGN
(16#02128#, 16#02128#), -- (Lu) BLACK-LETTER CAPITAL Z .. BLACK-LETTER CAPITAL Z
(16#02129#, 16#02129#), -- (So) TURNED GREEK SMALL LETTER IOTA .. TURNED GREEK SMALL LETTER IOTA
(16#0212A#, 16#0212D#), -- (Lu) KELVIN SIGN .. BLACK-LETTER CAPITAL C
(16#0212E#, 16#0212E#), -- (So) ESTIMATED SYMBOL .. ESTIMATED SYMBOL
(16#0212F#, 16#0212F#), -- (Ll) SCRIPT SMALL E .. SCRIPT SMALL E
(16#02130#, 16#02131#), -- (Lu) SCRIPT CAPITAL E .. SCRIPT CAPITAL F
(16#02132#, 16#02132#), -- (So) TURNED CAPITAL F .. TURNED CAPITAL F
(16#02133#, 16#02133#), -- (Lu) SCRIPT CAPITAL M .. SCRIPT CAPITAL M
(16#02134#, 16#02134#), -- (Ll) SCRIPT SMALL O .. SCRIPT SMALL O
(16#02135#, 16#02138#), -- (Lo) ALEF SYMBOL .. DALET SYMBOL
(16#02139#, 16#02139#), -- (Ll) INFORMATION SOURCE .. INFORMATION SOURCE
(16#0213A#, 16#0213B#), -- (So) ROTATED CAPITAL Q .. FACSIMILE SIGN
(16#0213D#, 16#0213D#), -- (Ll) DOUBLE-STRUCK SMALL GAMMA .. DOUBLE-STRUCK SMALL GAMMA
(16#0213E#, 16#0213F#), -- (Lu) DOUBLE-STRUCK CAPITAL GAMMA .. DOUBLE-STRUCK CAPITAL PI
(16#02140#, 16#02144#), -- (Sm) DOUBLE-STRUCK N-ARY SUMMATION .. TURNED SANS-SERIF CAPITAL Y
(16#02145#, 16#02145#), -- (Lu) DOUBLE-STRUCK ITALIC CAPITAL D .. DOUBLE-STRUCK ITALIC CAPITAL D
(16#02146#, 16#02149#), -- (Ll) DOUBLE-STRUCK ITALIC SMALL D .. DOUBLE-STRUCK ITALIC SMALL J
(16#0214A#, 16#0214A#), -- (So) PROPERTY LINE .. PROPERTY LINE
(16#0214B#, 16#0214B#), -- (Sm) TURNED AMPERSAND .. TURNED AMPERSAND
(16#02153#, 16#0215F#), -- (No) VULGAR FRACTION ONE THIRD .. FRACTION NUMERATOR ONE
(16#02160#, 16#02183#), -- (Nl) ROMAN NUMERAL ONE .. ROMAN NUMERAL REVERSED ONE HUNDRED
(16#02190#, 16#02194#), -- (Sm) LEFTWARDS ARROW .. LEFT RIGHT ARROW
(16#02195#, 16#02199#), -- (So) UP DOWN ARROW .. SOUTH WEST ARROW
(16#0219A#, 16#0219B#), -- (Sm) LEFTWARDS ARROW WITH STROKE .. RIGHTWARDS ARROW WITH STROKE
(16#0219C#, 16#0219F#), -- (So) LEFTWARDS WAVE ARROW .. UPWARDS TWO HEADED ARROW
(16#021A0#, 16#021A0#), -- (Sm) RIGHTWARDS TWO HEADED ARROW .. RIGHTWARDS TWO HEADED ARROW
(16#021A1#, 16#021A2#), -- (So) DOWNWARDS TWO HEADED ARROW .. LEFTWARDS ARROW WITH TAIL
(16#021A3#, 16#021A3#), -- (Sm) RIGHTWARDS ARROW WITH TAIL .. RIGHTWARDS ARROW WITH TAIL
(16#021A4#, 16#021A5#), -- (So) LEFTWARDS ARROW FROM BAR .. UPWARDS ARROW FROM BAR
(16#021A6#, 16#021A6#), -- (Sm) RIGHTWARDS ARROW FROM BAR .. RIGHTWARDS ARROW FROM BAR
(16#021A7#, 16#021AD#), -- (So) DOWNWARDS ARROW FROM BAR .. LEFT RIGHT WAVE ARROW
(16#021AE#, 16#021AE#), -- (Sm) LEFT RIGHT ARROW WITH STROKE .. LEFT RIGHT ARROW WITH STROKE
(16#021AF#, 16#021CD#), -- (So) DOWNWARDS ZIGZAG ARROW .. LEFTWARDS DOUBLE ARROW WITH STROKE
(16#021CE#, 16#021CF#), -- (Sm) LEFT RIGHT DOUBLE ARROW WITH STROKE .. RIGHTWARDS DOUBLE ARROW WITH STROKE
(16#021D0#, 16#021D1#), -- (So) LEFTWARDS DOUBLE ARROW .. UPWARDS DOUBLE ARROW
(16#021D2#, 16#021D2#), -- (Sm) RIGHTWARDS DOUBLE ARROW .. RIGHTWARDS DOUBLE ARROW
(16#021D3#, 16#021D3#), -- (So) DOWNWARDS DOUBLE ARROW .. DOWNWARDS DOUBLE ARROW
(16#021D4#, 16#021D4#), -- (Sm) LEFT RIGHT DOUBLE ARROW .. LEFT RIGHT DOUBLE ARROW
(16#021D5#, 16#021F3#), -- (So) UP DOWN DOUBLE ARROW .. UP DOWN WHITE ARROW
(16#021F4#, 16#022FF#), -- (Sm) RIGHT ARROW WITH SMALL CIRCLE .. Z NOTATION BAG MEMBERSHIP
(16#02300#, 16#02307#), -- (So) DIAMETER SIGN .. WAVY LINE
(16#02308#, 16#0230B#), -- (Sm) LEFT CEILING .. RIGHT FLOOR
(16#0230C#, 16#0231F#), -- (So) BOTTOM RIGHT CROP .. BOTTOM RIGHT CORNER
(16#02320#, 16#02321#), -- (Sm) TOP HALF INTEGRAL .. BOTTOM HALF INTEGRAL
(16#02322#, 16#02328#), -- (So) FROWN .. KEYBOARD
(16#02329#, 16#02329#), -- (Ps) LEFT-POINTING ANGLE BRACKET .. LEFT-POINTING ANGLE BRACKET
(16#0232A#, 16#0232A#), -- (Pe) RIGHT-POINTING ANGLE BRACKET .. RIGHT-POINTING ANGLE BRACKET
(16#0232B#, 16#0237B#), -- (So) ERASE TO THE LEFT .. NOT CHECK MARK
(16#0237C#, 16#0237C#), -- (Sm) RIGHT ANGLE WITH DOWNWARDS ZIGZAG ARROW .. RIGHT ANGLE WITH DOWNWARDS ZIGZAG ARROW
(16#0237D#, 16#0239A#), -- (So) SHOULDERED OPEN BOX .. CLEAR SCREEN SYMBOL
(16#0239B#, 16#023B3#), -- (Sm) LEFT PARENTHESIS UPPER HOOK .. SUMMATION BOTTOM
(16#023B4#, 16#023B4#), -- (Ps) TOP SQUARE BRACKET .. TOP SQUARE BRACKET
(16#023B5#, 16#023B5#), -- (Pe) BOTTOM SQUARE BRACKET .. BOTTOM SQUARE BRACKET
(16#023B6#, 16#023B6#), -- (Po) BOTTOM SQUARE BRACKET OVER TOP SQUARE BRACKET .. BOTTOM SQUARE BRACKET OVER TOP SQUARE BRACKET
(16#023B7#, 16#023D0#), -- (So) RADICAL SYMBOL BOTTOM .. VERTICAL LINE EXTENSION
(16#02400#, 16#02426#), -- (So) SYMBOL FOR NULL .. SYMBOL FOR SUBSTITUTE FORM TWO
(16#02440#, 16#0244A#), -- (So) OCR HOOK .. OCR DOUBLE BACKSLASH
(16#02460#, 16#0249B#), -- (No) CIRCLED DIGIT ONE .. NUMBER TWENTY FULL STOP
(16#0249C#, 16#024E9#), -- (So) PARENTHESIZED LATIN SMALL LETTER A .. CIRCLED LATIN SMALL LETTER Z
(16#024EA#, 16#024FF#), -- (No) CIRCLED DIGIT ZERO .. NEGATIVE CIRCLED DIGIT ZERO
(16#02500#, 16#025B6#), -- (So) BOX DRAWINGS LIGHT HORIZONTAL .. BLACK RIGHT-POINTING TRIANGLE
(16#025B7#, 16#025B7#), -- (Sm) WHITE RIGHT-POINTING TRIANGLE .. WHITE RIGHT-POINTING TRIANGLE
(16#025B8#, 16#025C0#), -- (So) BLACK RIGHT-POINTING SMALL TRIANGLE .. BLACK LEFT-POINTING TRIANGLE
(16#025C1#, 16#025C1#), -- (Sm) WHITE LEFT-POINTING TRIANGLE .. WHITE LEFT-POINTING TRIANGLE
(16#025C2#, 16#025F7#), -- (So) BLACK LEFT-POINTING SMALL TRIANGLE .. WHITE CIRCLE WITH UPPER RIGHT QUADRANT
(16#025F8#, 16#025FF#), -- (Sm) UPPER LEFT TRIANGLE .. LOWER RIGHT TRIANGLE
(16#02600#, 16#02617#), -- (So) BLACK SUN WITH RAYS .. BLACK SHOGI PIECE
(16#02619#, 16#0266E#), -- (So) REVERSED ROTATED FLORAL HEART BULLET .. MUSIC NATURAL SIGN
(16#0266F#, 16#0266F#), -- (Sm) MUSIC SHARP SIGN .. MUSIC SHARP SIGN
(16#02670#, 16#0267D#), -- (So) WEST SYRIAC CROSS .. PARTIALLY-RECYCLED PAPER SYMBOL
(16#02680#, 16#02691#), -- (So) DIE FACE-1 .. BLACK FLAG
(16#026A0#, 16#026A1#), -- (So) WARNING SIGN .. HIGH VOLTAGE SIGN
(16#02701#, 16#02704#), -- (So) UPPER BLADE SCISSORS .. WHITE SCISSORS
(16#02706#, 16#02709#), -- (So) TELEPHONE LOCATION SIGN .. ENVELOPE
(16#0270C#, 16#02727#), -- (So) VICTORY HAND .. WHITE FOUR POINTED STAR
(16#02729#, 16#0274B#), -- (So) STRESS OUTLINED WHITE STAR .. HEAVY EIGHT TEARDROP-SPOKED PROPELLER ASTERISK
(16#0274D#, 16#0274D#), -- (So) SHADOWED WHITE CIRCLE .. SHADOWED WHITE CIRCLE
(16#0274F#, 16#02752#), -- (So) LOWER RIGHT DROP-SHADOWED WHITE SQUARE .. UPPER RIGHT SHADOWED WHITE SQUARE
(16#02756#, 16#02756#), -- (So) BLACK DIAMOND MINUS WHITE X .. BLACK DIAMOND MINUS WHITE X
(16#02758#, 16#0275E#), -- (So) LIGHT VERTICAL BAR .. HEAVY DOUBLE COMMA QUOTATION MARK ORNAMENT
(16#02761#, 16#02767#), -- (So) CURVED STEM PARAGRAPH SIGN ORNAMENT .. ROTATED FLORAL HEART BULLET
(16#02768#, 16#02768#), -- (Ps) MEDIUM LEFT PARENTHESIS ORNAMENT .. MEDIUM LEFT PARENTHESIS ORNAMENT
(16#02769#, 16#02769#), -- (Pe) MEDIUM RIGHT PARENTHESIS ORNAMENT .. MEDIUM RIGHT PARENTHESIS ORNAMENT
(16#0276A#, 16#0276A#), -- (Ps) MEDIUM FLATTENED LEFT PARENTHESIS ORNAMENT .. MEDIUM FLATTENED LEFT PARENTHESIS ORNAMENT
(16#0276B#, 16#0276B#), -- (Pe) MEDIUM FLATTENED RIGHT PARENTHESIS ORNAMENT .. MEDIUM FLATTENED RIGHT PARENTHESIS ORNAMENT
(16#0276C#, 16#0276C#), -- (Ps) MEDIUM LEFT-POINTING ANGLE BRACKET ORNAMENT .. MEDIUM LEFT-POINTING ANGLE BRACKET ORNAMENT
(16#0276D#, 16#0276D#), -- (Pe) MEDIUM RIGHT-POINTING ANGLE BRACKET ORNAMENT .. MEDIUM RIGHT-POINTING ANGLE BRACKET ORNAMENT
(16#0276E#, 16#0276E#), -- (Ps) HEAVY LEFT-POINTING ANGLE QUOTATION MARK ORNAMENT .. HEAVY LEFT-POINTING ANGLE QUOTATION MARK ORNAMENT
(16#0276F#, 16#0276F#), -- (Pe) HEAVY RIGHT-POINTING ANGLE QUOTATION MARK ORNAMENT .. HEAVY RIGHT-POINTING ANGLE QUOTATION MARK ORNAMENT
(16#02770#, 16#02770#), -- (Ps) HEAVY LEFT-POINTING ANGLE BRACKET ORNAMENT .. HEAVY LEFT-POINTING ANGLE BRACKET ORNAMENT
(16#02771#, 16#02771#), -- (Pe) HEAVY RIGHT-POINTING ANGLE BRACKET ORNAMENT .. HEAVY RIGHT-POINTING ANGLE BRACKET ORNAMENT
(16#02772#, 16#02772#), -- (Ps) LIGHT LEFT TORTOISE SHELL BRACKET ORNAMENT .. LIGHT LEFT TORTOISE SHELL BRACKET ORNAMENT
(16#02773#, 16#02773#), -- (Pe) LIGHT RIGHT TORTOISE SHELL BRACKET ORNAMENT .. LIGHT RIGHT TORTOISE SHELL BRACKET ORNAMENT
(16#02774#, 16#02774#), -- (Ps) MEDIUM LEFT CURLY BRACKET ORNAMENT .. MEDIUM LEFT CURLY BRACKET ORNAMENT
(16#02775#, 16#02775#), -- (Pe) MEDIUM RIGHT CURLY BRACKET ORNAMENT .. MEDIUM RIGHT CURLY BRACKET ORNAMENT
(16#02776#, 16#02793#), -- (No) DINGBAT NEGATIVE CIRCLED DIGIT ONE .. DINGBAT NEGATIVE CIRCLED SANS-SERIF NUMBER TEN
(16#02794#, 16#02794#), -- (So) HEAVY WIDE-HEADED RIGHTWARDS ARROW .. HEAVY WIDE-HEADED RIGHTWARDS ARROW
(16#02798#, 16#027AF#), -- (So) HEAVY SOUTH EAST ARROW .. NOTCHED LOWER RIGHT-SHADOWED WHITE RIGHTWARDS ARROW
(16#027B1#, 16#027BE#), -- (So) NOTCHED UPPER RIGHT-SHADOWED WHITE RIGHTWARDS ARROW .. OPEN-OUTLINED RIGHTWARDS ARROW
(16#027D0#, 16#027E5#), -- (Sm) WHITE DIAMOND WITH CENTRED DOT .. WHITE SQUARE WITH RIGHTWARDS TICK
(16#027E6#, 16#027E6#), -- (Ps) MATHEMATICAL LEFT WHITE SQUARE BRACKET .. MATHEMATICAL LEFT WHITE SQUARE BRACKET
(16#027E7#, 16#027E7#), -- (Pe) MATHEMATICAL RIGHT WHITE SQUARE BRACKET .. MATHEMATICAL RIGHT WHITE SQUARE BRACKET
(16#027E8#, 16#027E8#), -- (Ps) MATHEMATICAL LEFT ANGLE BRACKET .. MATHEMATICAL LEFT ANGLE BRACKET
(16#027E9#, 16#027E9#), -- (Pe) MATHEMATICAL RIGHT ANGLE BRACKET .. MATHEMATICAL RIGHT ANGLE BRACKET
(16#027EA#, 16#027EA#), -- (Ps) MATHEMATICAL LEFT DOUBLE ANGLE BRACKET .. MATHEMATICAL LEFT DOUBLE ANGLE BRACKET
(16#027EB#, 16#027EB#), -- (Pe) MATHEMATICAL RIGHT DOUBLE ANGLE BRACKET .. MATHEMATICAL RIGHT DOUBLE ANGLE BRACKET
(16#027F0#, 16#027FF#), -- (Sm) UPWARDS QUADRUPLE ARROW .. LONG RIGHTWARDS SQUIGGLE ARROW
(16#02800#, 16#028FF#), -- (So) BRAILLE PATTERN BLANK .. BRAILLE PATTERN DOTS-12345678
(16#02900#, 16#02982#), -- (Sm) RIGHTWARDS TWO-HEADED ARROW WITH VERTICAL STROKE .. Z NOTATION TYPE COLON
(16#02983#, 16#02983#), -- (Ps) LEFT WHITE CURLY BRACKET .. LEFT WHITE CURLY BRACKET
(16#02984#, 16#02984#), -- (Pe) RIGHT WHITE CURLY BRACKET .. RIGHT WHITE CURLY BRACKET
(16#02985#, 16#02985#), -- (Ps) LEFT WHITE PARENTHESIS .. LEFT WHITE PARENTHESIS
(16#02986#, 16#02986#), -- (Pe) RIGHT WHITE PARENTHESIS .. RIGHT WHITE PARENTHESIS
(16#02987#, 16#02987#), -- (Ps) Z NOTATION LEFT IMAGE BRACKET .. Z NOTATION LEFT IMAGE BRACKET
(16#02988#, 16#02988#), -- (Pe) Z NOTATION RIGHT IMAGE BRACKET .. Z NOTATION RIGHT IMAGE BRACKET
(16#02989#, 16#02989#), -- (Ps) Z NOTATION LEFT BINDING BRACKET .. Z NOTATION LEFT BINDING BRACKET
(16#0298A#, 16#0298A#), -- (Pe) Z NOTATION RIGHT BINDING BRACKET .. Z NOTATION RIGHT BINDING BRACKET
(16#0298B#, 16#0298B#), -- (Ps) LEFT SQUARE BRACKET WITH UNDERBAR .. LEFT SQUARE BRACKET WITH UNDERBAR
(16#0298C#, 16#0298C#), -- (Pe) RIGHT SQUARE BRACKET WITH UNDERBAR .. RIGHT SQUARE BRACKET WITH UNDERBAR
(16#0298D#, 16#0298D#), -- (Ps) LEFT SQUARE BRACKET WITH TICK IN TOP CORNER .. LEFT SQUARE BRACKET WITH TICK IN TOP CORNER
(16#0298E#, 16#0298E#), -- (Pe) RIGHT SQUARE BRACKET WITH TICK IN BOTTOM CORNER .. RIGHT SQUARE BRACKET WITH TICK IN BOTTOM CORNER
(16#0298F#, 16#0298F#), -- (Ps) LEFT SQUARE BRACKET WITH TICK IN BOTTOM CORNER .. LEFT SQUARE BRACKET WITH TICK IN BOTTOM CORNER
(16#02990#, 16#02990#), -- (Pe) RIGHT SQUARE BRACKET WITH TICK IN TOP CORNER .. RIGHT SQUARE BRACKET WITH TICK IN TOP CORNER
(16#02991#, 16#02991#), -- (Ps) LEFT ANGLE BRACKET WITH DOT .. LEFT ANGLE BRACKET WITH DOT
(16#02992#, 16#02992#), -- (Pe) RIGHT ANGLE BRACKET WITH DOT .. RIGHT ANGLE BRACKET WITH DOT
(16#02993#, 16#02993#), -- (Ps) LEFT ARC LESS-THAN BRACKET .. LEFT ARC LESS-THAN BRACKET
(16#02994#, 16#02994#), -- (Pe) RIGHT ARC GREATER-THAN BRACKET .. RIGHT ARC GREATER-THAN BRACKET
(16#02995#, 16#02995#), -- (Ps) DOUBLE LEFT ARC GREATER-THAN BRACKET .. DOUBLE LEFT ARC GREATER-THAN BRACKET
(16#02996#, 16#02996#), -- (Pe) DOUBLE RIGHT ARC LESS-THAN BRACKET .. DOUBLE RIGHT ARC LESS-THAN BRACKET
(16#02997#, 16#02997#), -- (Ps) LEFT BLACK TORTOISE SHELL BRACKET .. LEFT BLACK TORTOISE SHELL BRACKET
(16#02998#, 16#02998#), -- (Pe) RIGHT BLACK TORTOISE SHELL BRACKET .. RIGHT BLACK TORTOISE SHELL BRACKET
(16#02999#, 16#029D7#), -- (Sm) DOTTED FENCE .. BLACK HOURGLASS
(16#029D8#, 16#029D8#), -- (Ps) LEFT WIGGLY FENCE .. LEFT WIGGLY FENCE
(16#029D9#, 16#029D9#), -- (Pe) RIGHT WIGGLY FENCE .. RIGHT WIGGLY FENCE
(16#029DA#, 16#029DA#), -- (Ps) LEFT DOUBLE WIGGLY FENCE .. LEFT DOUBLE WIGGLY FENCE
(16#029DB#, 16#029DB#), -- (Pe) RIGHT DOUBLE WIGGLY FENCE .. RIGHT DOUBLE WIGGLY FENCE
(16#029DC#, 16#029FB#), -- (Sm) INCOMPLETE INFINITY .. TRIPLE PLUS
(16#029FC#, 16#029FC#), -- (Ps) LEFT-POINTING CURVED ANGLE BRACKET .. LEFT-POINTING CURVED ANGLE BRACKET
(16#029FD#, 16#029FD#), -- (Pe) RIGHT-POINTING CURVED ANGLE BRACKET .. RIGHT-POINTING CURVED ANGLE BRACKET
(16#029FE#, 16#02AFF#), -- (Sm) TINY .. N-ARY WHITE VERTICAL BAR
(16#02B00#, 16#02B0D#), -- (So) NORTH EAST WHITE ARROW .. UP DOWN BLACK ARROW
(16#02E80#, 16#02E99#), -- (So) CJK RADICAL REPEAT .. CJK RADICAL RAP
(16#02E9B#, 16#02EF3#), -- (So) CJK RADICAL CHOKE .. CJK RADICAL C-SIMPLIFIED TURTLE
(16#02F00#, 16#02FD5#), -- (So) KANGXI RADICAL ONE .. KANGXI RADICAL FLUTE
(16#02FF0#, 16#02FFB#), -- (So) IDEOGRAPHIC DESCRIPTION CHARACTER LEFT TO RIGHT .. IDEOGRAPHIC DESCRIPTION CHARACTER OVERLAID
(16#03000#, 16#03000#), -- (Zs) IDEOGRAPHIC SPACE .. IDEOGRAPHIC SPACE
(16#03001#, 16#03003#), -- (Po) IDEOGRAPHIC COMMA .. DITTO MARK
(16#03004#, 16#03004#), -- (So) JAPANESE INDUSTRIAL STANDARD SYMBOL .. JAPANESE INDUSTRIAL STANDARD SYMBOL
(16#03005#, 16#03005#), -- (Lm) IDEOGRAPHIC ITERATION MARK .. IDEOGRAPHIC ITERATION MARK
(16#03006#, 16#03006#), -- (Lo) IDEOGRAPHIC CLOSING MARK .. IDEOGRAPHIC CLOSING MARK
(16#03007#, 16#03007#), -- (Nl) IDEOGRAPHIC NUMBER ZERO .. IDEOGRAPHIC NUMBER ZERO
(16#03008#, 16#03008#), -- (Ps) LEFT ANGLE BRACKET .. LEFT ANGLE BRACKET
(16#03009#, 16#03009#), -- (Pe) RIGHT ANGLE BRACKET .. RIGHT ANGLE BRACKET
(16#0300A#, 16#0300A#), -- (Ps) LEFT DOUBLE ANGLE BRACKET .. LEFT DOUBLE ANGLE BRACKET
(16#0300B#, 16#0300B#), -- (Pe) RIGHT DOUBLE ANGLE BRACKET .. RIGHT DOUBLE ANGLE BRACKET
(16#0300C#, 16#0300C#), -- (Ps) LEFT CORNER BRACKET .. LEFT CORNER BRACKET
(16#0300D#, 16#0300D#), -- (Pe) RIGHT CORNER BRACKET .. RIGHT CORNER BRACKET
(16#0300E#, 16#0300E#), -- (Ps) LEFT WHITE CORNER BRACKET .. LEFT WHITE CORNER BRACKET
(16#0300F#, 16#0300F#), -- (Pe) RIGHT WHITE CORNER BRACKET .. RIGHT WHITE CORNER BRACKET
(16#03010#, 16#03010#), -- (Ps) LEFT BLACK LENTICULAR BRACKET .. LEFT BLACK LENTICULAR BRACKET
(16#03011#, 16#03011#), -- (Pe) RIGHT BLACK LENTICULAR BRACKET .. RIGHT BLACK LENTICULAR BRACKET
(16#03012#, 16#03013#), -- (So) POSTAL MARK .. GETA MARK
(16#03014#, 16#03014#), -- (Ps) LEFT TORTOISE SHELL BRACKET .. LEFT TORTOISE SHELL BRACKET
(16#03015#, 16#03015#), -- (Pe) RIGHT TORTOISE SHELL BRACKET .. RIGHT TORTOISE SHELL BRACKET
(16#03016#, 16#03016#), -- (Ps) LEFT WHITE LENTICULAR BRACKET .. LEFT WHITE LENTICULAR BRACKET
(16#03017#, 16#03017#), -- (Pe) RIGHT WHITE LENTICULAR BRACKET .. RIGHT WHITE LENTICULAR BRACKET
(16#03018#, 16#03018#), -- (Ps) LEFT WHITE TORTOISE SHELL BRACKET .. LEFT WHITE TORTOISE SHELL BRACKET
(16#03019#, 16#03019#), -- (Pe) RIGHT WHITE TORTOISE SHELL BRACKET .. RIGHT WHITE TORTOISE SHELL BRACKET
(16#0301A#, 16#0301A#), -- (Ps) LEFT WHITE SQUARE BRACKET .. LEFT WHITE SQUARE BRACKET
(16#0301B#, 16#0301B#), -- (Pe) RIGHT WHITE SQUARE BRACKET .. RIGHT WHITE SQUARE BRACKET
(16#0301C#, 16#0301C#), -- (Pd) WAVE DASH .. WAVE DASH
(16#0301D#, 16#0301D#), -- (Ps) REVERSED DOUBLE PRIME QUOTATION MARK .. REVERSED DOUBLE PRIME QUOTATION MARK
(16#0301E#, 16#0301F#), -- (Pe) DOUBLE PRIME QUOTATION MARK .. LOW DOUBLE PRIME QUOTATION MARK
(16#03020#, 16#03020#), -- (So) POSTAL MARK FACE .. POSTAL MARK FACE
(16#03021#, 16#03029#), -- (Nl) HANGZHOU NUMERAL ONE .. HANGZHOU NUMERAL NINE
(16#0302A#, 16#0302F#), -- (Mn) IDEOGRAPHIC LEVEL TONE MARK .. HANGUL DOUBLE DOT TONE MARK
(16#03030#, 16#03030#), -- (Pd) WAVY DASH .. WAVY DASH
(16#03031#, 16#03035#), -- (Lm) VERTICAL KANA REPEAT MARK .. VERTICAL KANA REPEAT MARK LOWER HALF
(16#03036#, 16#03037#), -- (So) CIRCLED POSTAL MARK .. IDEOGRAPHIC TELEGRAPH LINE FEED SEPARATOR SYMBOL
(16#03038#, 16#0303A#), -- (Nl) HANGZHOU NUMERAL TEN .. HANGZHOU NUMERAL THIRTY
(16#0303B#, 16#0303B#), -- (Lm) VERTICAL IDEOGRAPHIC ITERATION MARK .. VERTICAL IDEOGRAPHIC ITERATION MARK
(16#0303C#, 16#0303C#), -- (Lo) MASU MARK .. MASU MARK
(16#0303D#, 16#0303D#), -- (Po) PART ALTERNATION MARK .. PART ALTERNATION MARK
(16#0303E#, 16#0303F#), -- (So) IDEOGRAPHIC VARIATION INDICATOR .. IDEOGRAPHIC HALF FILL SPACE
(16#03041#, 16#03096#), -- (Lo) HIRAGANA LETTER SMALL A .. HIRAGANA LETTER SMALL KE
(16#03099#, 16#0309A#), -- (Mn) COMBINING KATAKANA-HIRAGANA VOICED SOUND MARK .. COMBINING KATAKANA-HIRAGANA SEMI-VOICED SOUND MARK
(16#0309B#, 16#0309C#), -- (Sk) KATAKANA-HIRAGANA VOICED SOUND MARK .. KATAKANA-HIRAGANA SEMI-VOICED SOUND MARK
(16#0309D#, 16#0309E#), -- (Lm) HIRAGANA ITERATION MARK .. HIRAGANA VOICED ITERATION MARK
(16#0309F#, 16#0309F#), -- (Lo) HIRAGANA DIGRAPH YORI .. HIRAGANA DIGRAPH YORI
(16#030A0#, 16#030A0#), -- (Pd) KATAKANA-HIRAGANA DOUBLE HYPHEN .. KATAKANA-HIRAGANA DOUBLE HYPHEN
(16#030A1#, 16#030FA#), -- (Lo) KATAKANA LETTER SMALL A .. KATAKANA LETTER VO
(16#030FB#, 16#030FB#), -- (Pc) KATAKANA MIDDLE DOT .. KATAKANA MIDDLE DOT
(16#030FC#, 16#030FE#), -- (Lm) KATAKANA-HIRAGANA PROLONGED SOUND MARK .. KATAKANA VOICED ITERATION MARK
(16#030FF#, 16#030FF#), -- (Lo) KATAKANA DIGRAPH KOTO .. KATAKANA DIGRAPH KOTO
(16#03105#, 16#0312C#), -- (Lo) BOPOMOFO LETTER B .. BOPOMOFO LETTER GN
(16#03131#, 16#0318E#), -- (Lo) HANGUL LETTER KIYEOK .. HANGUL LETTER ARAEAE
(16#03190#, 16#03191#), -- (So) IDEOGRAPHIC ANNOTATION LINKING MARK .. IDEOGRAPHIC ANNOTATION REVERSE MARK
(16#03192#, 16#03195#), -- (No) IDEOGRAPHIC ANNOTATION ONE MARK .. IDEOGRAPHIC ANNOTATION FOUR MARK
(16#03196#, 16#0319F#), -- (So) IDEOGRAPHIC ANNOTATION TOP MARK .. IDEOGRAPHIC ANNOTATION MAN MARK
(16#031A0#, 16#031B7#), -- (Lo) BOPOMOFO LETTER BU .. BOPOMOFO FINAL LETTER H
(16#031F0#, 16#031FF#), -- (Lo) KATAKANA LETTER SMALL KU .. KATAKANA LETTER SMALL RO
(16#03200#, 16#0321E#), -- (So) PARENTHESIZED HANGUL KIYEOK .. PARENTHESIZED KOREAN CHARACTER O HU
(16#03220#, 16#03229#), -- (No) PARENTHESIZED IDEOGRAPH ONE .. PARENTHESIZED IDEOGRAPH TEN
(16#0322A#, 16#03243#), -- (So) PARENTHESIZED IDEOGRAPH MOON .. PARENTHESIZED IDEOGRAPH REACH
(16#03250#, 16#03250#), -- (So) PARTNERSHIP SIGN .. PARTNERSHIP SIGN
(16#03251#, 16#0325F#), -- (No) CIRCLED NUMBER TWENTY ONE .. CIRCLED NUMBER THIRTY FIVE
(16#03260#, 16#0327D#), -- (So) CIRCLED HANGUL KIYEOK .. CIRCLED KOREAN CHARACTER JUEUI
(16#0327F#, 16#0327F#), -- (So) KOREAN STANDARD SYMBOL .. KOREAN STANDARD SYMBOL
(16#03280#, 16#03289#), -- (No) CIRCLED IDEOGRAPH ONE .. CIRCLED IDEOGRAPH TEN
(16#0328A#, 16#032B0#), -- (So) CIRCLED IDEOGRAPH MOON .. CIRCLED IDEOGRAPH NIGHT
(16#032B1#, 16#032BF#), -- (No) CIRCLED NUMBER THIRTY SIX .. CIRCLED NUMBER FIFTY
(16#032C0#, 16#032FE#), -- (So) IDEOGRAPHIC TELEGRAPH SYMBOL FOR JANUARY .. CIRCLED KATAKANA WO
(16#03300#, 16#033FF#), -- (So) SQUARE APAATO .. SQUARE GAL
(16#03400#, 16#04DB5#), -- (Lo) <CJK Ideograph Extension A, First> .. <CJK Ideograph Extension A, Last>
(16#04DC0#, 16#04DFF#), -- (So) HEXAGRAM FOR THE CREATIVE HEAVEN .. HEXAGRAM FOR BEFORE COMPLETION
(16#04E00#, 16#09FA5#), -- (Lo) <CJK Ideograph, First> .. <CJK Ideograph, Last>
(16#0A000#, 16#0A48C#), -- (Lo) YI SYLLABLE IT .. YI SYLLABLE YYR
(16#0A490#, 16#0A4C6#), -- (So) YI RADICAL QOT .. YI RADICAL KE
(16#0AC00#, 16#0D7A3#), -- (Lo) <Hangul Syllable, First> .. <Hangul Syllable, Last>
(16#0D800#, 16#0F8FF#), -- (Cs) <Non Private Use High Surrogate, First> .. <Private Use, Last>
(16#0F900#, 16#0FA2D#), -- (Lo) CJK COMPATIBILITY IDEOGRAPH-F900 .. CJK COMPATIBILITY IDEOGRAPH-FA2D
(16#0FA30#, 16#0FA6A#), -- (Lo) CJK COMPATIBILITY IDEOGRAPH-FA30 .. CJK COMPATIBILITY IDEOGRAPH-FA6A
(16#0FB00#, 16#0FB06#), -- (Ll) LATIN SMALL LIGATURE FF .. LATIN SMALL LIGATURE ST
(16#0FB13#, 16#0FB17#), -- (Ll) ARMENIAN SMALL LIGATURE MEN NOW .. ARMENIAN SMALL LIGATURE MEN XEH
(16#0FB1D#, 16#0FB1D#), -- (Lo) HEBREW LETTER YOD WITH HIRIQ .. HEBREW LETTER YOD WITH HIRIQ
(16#0FB1E#, 16#0FB1E#), -- (Mn) HEBREW POINT JUDEO-SPANISH VARIKA .. HEBREW POINT JUDEO-SPANISH VARIKA
(16#0FB1F#, 16#0FB28#), -- (Lo) HEBREW LIGATURE YIDDISH YOD YOD PATAH .. HEBREW LETTER WIDE TAV
(16#0FB29#, 16#0FB29#), -- (Sm) HEBREW LETTER ALTERNATIVE PLUS SIGN .. HEBREW LETTER ALTERNATIVE PLUS SIGN
(16#0FB2A#, 16#0FB36#), -- (Lo) HEBREW LETTER SHIN WITH SHIN DOT .. HEBREW LETTER ZAYIN WITH DAGESH
(16#0FB38#, 16#0FB3C#), -- (Lo) HEBREW LETTER TET WITH DAGESH .. HEBREW LETTER LAMED WITH DAGESH
(16#0FB3E#, 16#0FB3E#), -- (Lo) HEBREW LETTER MEM WITH DAGESH .. HEBREW LETTER MEM WITH DAGESH
(16#0FB40#, 16#0FB41#), -- (Lo) HEBREW LETTER NUN WITH DAGESH .. HEBREW LETTER SAMEKH WITH DAGESH
(16#0FB43#, 16#0FB44#), -- (Lo) HEBREW LETTER FINAL PE WITH DAGESH .. HEBREW LETTER PE WITH DAGESH
(16#0FB46#, 16#0FBB1#), -- (Lo) HEBREW LETTER TSADI WITH DAGESH .. ARABIC LETTER YEH BARREE WITH HAMZA ABOVE FINAL FORM
(16#0FBD3#, 16#0FD3D#), -- (Lo) ARABIC LETTER NG ISOLATED FORM .. ARABIC LIGATURE ALEF WITH FATHATAN ISOLATED FORM
(16#0FD3E#, 16#0FD3E#), -- (Ps) ORNATE LEFT PARENTHESIS .. ORNATE LEFT PARENTHESIS
(16#0FD3F#, 16#0FD3F#), -- (Pe) ORNATE RIGHT PARENTHESIS .. ORNATE RIGHT PARENTHESIS
(16#0FD50#, 16#0FD8F#), -- (Lo) ARABIC LIGATURE TEH WITH JEEM WITH MEEM INITIAL FORM .. ARABIC LIGATURE MEEM WITH KHAH WITH MEEM INITIAL FORM
(16#0FD92#, 16#0FDC7#), -- (Lo) ARABIC LIGATURE MEEM WITH JEEM WITH KHAH INITIAL FORM .. ARABIC LIGATURE NOON WITH JEEM WITH YEH FINAL FORM
(16#0FDF0#, 16#0FDFB#), -- (Lo) ARABIC LIGATURE SALLA USED AS KORANIC STOP SIGN ISOLATED FORM .. ARABIC LIGATURE JALLAJALALOUHOU
(16#0FDFC#, 16#0FDFC#), -- (Sc) RIAL SIGN .. RIAL SIGN
(16#0FDFD#, 16#0FDFD#), -- (So) ARABIC LIGATURE BISMILLAH AR-RAHMAN AR-RAHEEM .. ARABIC LIGATURE BISMILLAH AR-RAHMAN AR-RAHEEM
(16#0FE00#, 16#0FE0F#), -- (Mn) VARIATION SELECTOR-1 .. VARIATION SELECTOR-16
(16#0FE20#, 16#0FE23#), -- (Mn) COMBINING LIGATURE LEFT HALF .. COMBINING DOUBLE TILDE RIGHT HALF
(16#0FE30#, 16#0FE30#), -- (Po) PRESENTATION FORM FOR VERTICAL TWO DOT LEADER .. PRESENTATION FORM FOR VERTICAL TWO DOT LEADER
(16#0FE31#, 16#0FE32#), -- (Pd) PRESENTATION FORM FOR VERTICAL EM DASH .. PRESENTATION FORM FOR VERTICAL EN DASH
(16#0FE33#, 16#0FE34#), -- (Pc) PRESENTATION FORM FOR VERTICAL LOW LINE .. PRESENTATION FORM FOR VERTICAL WAVY LOW LINE
(16#0FE35#, 16#0FE35#), -- (Ps) PRESENTATION FORM FOR VERTICAL LEFT PARENTHESIS .. PRESENTATION FORM FOR VERTICAL LEFT PARENTHESIS
(16#0FE36#, 16#0FE36#), -- (Pe) PRESENTATION FORM FOR VERTICAL RIGHT PARENTHESIS .. PRESENTATION FORM FOR VERTICAL RIGHT PARENTHESIS
(16#0FE37#, 16#0FE37#), -- (Ps) PRESENTATION FORM FOR VERTICAL LEFT CURLY BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT CURLY BRACKET
(16#0FE38#, 16#0FE38#), -- (Pe) PRESENTATION FORM FOR VERTICAL RIGHT CURLY BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT CURLY BRACKET
(16#0FE39#, 16#0FE39#), -- (Ps) PRESENTATION FORM FOR VERTICAL LEFT TORTOISE SHELL BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT TORTOISE SHELL BRACKET
(16#0FE3A#, 16#0FE3A#), -- (Pe) PRESENTATION FORM FOR VERTICAL RIGHT TORTOISE SHELL BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT TORTOISE SHELL BRACKET
(16#0FE3B#, 16#0FE3B#), -- (Ps) PRESENTATION FORM FOR VERTICAL LEFT BLACK LENTICULAR BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT BLACK LENTICULAR BRACKET
(16#0FE3C#, 16#0FE3C#), -- (Pe) PRESENTATION FORM FOR VERTICAL RIGHT BLACK LENTICULAR BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT BLACK LENTICULAR BRACKET
(16#0FE3D#, 16#0FE3D#), -- (Ps) PRESENTATION FORM FOR VERTICAL LEFT DOUBLE ANGLE BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT DOUBLE ANGLE BRACKET
(16#0FE3E#, 16#0FE3E#), -- (Pe) PRESENTATION FORM FOR VERTICAL RIGHT DOUBLE ANGLE BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT DOUBLE ANGLE BRACKET
(16#0FE3F#, 16#0FE3F#), -- (Ps) PRESENTATION FORM FOR VERTICAL LEFT ANGLE BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT ANGLE BRACKET
(16#0FE40#, 16#0FE40#), -- (Pe) PRESENTATION FORM FOR VERTICAL RIGHT ANGLE BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT ANGLE BRACKET
(16#0FE41#, 16#0FE41#), -- (Ps) PRESENTATION FORM FOR VERTICAL LEFT CORNER BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT CORNER BRACKET
(16#0FE42#, 16#0FE42#), -- (Pe) PRESENTATION FORM FOR VERTICAL RIGHT CORNER BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT CORNER BRACKET
(16#0FE43#, 16#0FE43#), -- (Ps) PRESENTATION FORM FOR VERTICAL LEFT WHITE CORNER BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT WHITE CORNER BRACKET
(16#0FE44#, 16#0FE44#), -- (Pe) PRESENTATION FORM FOR VERTICAL RIGHT WHITE CORNER BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT WHITE CORNER BRACKET
(16#0FE45#, 16#0FE46#), -- (Po) SESAME DOT .. WHITE SESAME DOT
(16#0FE47#, 16#0FE47#), -- (Ps) PRESENTATION FORM FOR VERTICAL LEFT SQUARE BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT SQUARE BRACKET
(16#0FE48#, 16#0FE48#), -- (Pe) PRESENTATION FORM FOR VERTICAL RIGHT SQUARE BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT SQUARE BRACKET
(16#0FE49#, 16#0FE4C#), -- (Po) DASHED OVERLINE .. DOUBLE WAVY OVERLINE
(16#0FE4D#, 16#0FE4F#), -- (Pc) DASHED LOW LINE .. WAVY LOW LINE
(16#0FE50#, 16#0FE52#), -- (Po) SMALL COMMA .. SMALL FULL STOP
(16#0FE54#, 16#0FE57#), -- (Po) SMALL SEMICOLON .. SMALL EXCLAMATION MARK
(16#0FE58#, 16#0FE58#), -- (Pd) SMALL EM DASH .. SMALL EM DASH
(16#0FE59#, 16#0FE59#), -- (Ps) SMALL LEFT PARENTHESIS .. SMALL LEFT PARENTHESIS
(16#0FE5A#, 16#0FE5A#), -- (Pe) SMALL RIGHT PARENTHESIS .. SMALL RIGHT PARENTHESIS
(16#0FE5B#, 16#0FE5B#), -- (Ps) SMALL LEFT CURLY BRACKET .. SMALL LEFT CURLY BRACKET
(16#0FE5C#, 16#0FE5C#), -- (Pe) SMALL RIGHT CURLY BRACKET .. SMALL RIGHT CURLY BRACKET
(16#0FE5D#, 16#0FE5D#), -- (Ps) SMALL LEFT TORTOISE SHELL BRACKET .. SMALL LEFT TORTOISE SHELL BRACKET
(16#0FE5E#, 16#0FE5E#), -- (Pe) SMALL RIGHT TORTOISE SHELL BRACKET .. SMALL RIGHT TORTOISE SHELL BRACKET
(16#0FE5F#, 16#0FE61#), -- (Po) SMALL NUMBER SIGN .. SMALL ASTERISK
(16#0FE62#, 16#0FE62#), -- (Sm) SMALL PLUS SIGN .. SMALL PLUS SIGN
(16#0FE63#, 16#0FE63#), -- (Pd) SMALL HYPHEN-MINUS .. SMALL HYPHEN-MINUS
(16#0FE64#, 16#0FE66#), -- (Sm) SMALL LESS-THAN SIGN .. SMALL EQUALS SIGN
(16#0FE68#, 16#0FE68#), -- (Po) SMALL REVERSE SOLIDUS .. SMALL REVERSE SOLIDUS
(16#0FE69#, 16#0FE69#), -- (Sc) SMALL DOLLAR SIGN .. SMALL DOLLAR SIGN
(16#0FE6A#, 16#0FE6B#), -- (Po) SMALL PERCENT SIGN .. SMALL COMMERCIAL AT
(16#0FE70#, 16#0FE74#), -- (Lo) ARABIC FATHATAN ISOLATED FORM .. ARABIC KASRATAN ISOLATED FORM
(16#0FE76#, 16#0FEFC#), -- (Lo) ARABIC FATHA ISOLATED FORM .. ARABIC LIGATURE LAM WITH ALEF FINAL FORM
(16#0FEFF#, 16#0FEFF#), -- (Cf) ZERO WIDTH NO-BREAK SPACE .. ZERO WIDTH NO-BREAK SPACE
(16#0FF01#, 16#0FF03#), -- (Po) FULLWIDTH EXCLAMATION MARK .. FULLWIDTH NUMBER SIGN
(16#0FF04#, 16#0FF04#), -- (Sc) FULLWIDTH DOLLAR SIGN .. FULLWIDTH DOLLAR SIGN
(16#0FF05#, 16#0FF07#), -- (Po) FULLWIDTH PERCENT SIGN .. FULLWIDTH APOSTROPHE
(16#0FF08#, 16#0FF08#), -- (Ps) FULLWIDTH LEFT PARENTHESIS .. FULLWIDTH LEFT PARENTHESIS
(16#0FF09#, 16#0FF09#), -- (Pe) FULLWIDTH RIGHT PARENTHESIS .. FULLWIDTH RIGHT PARENTHESIS
(16#0FF0A#, 16#0FF0A#), -- (Po) FULLWIDTH ASTERISK .. FULLWIDTH ASTERISK
(16#0FF0B#, 16#0FF0B#), -- (Sm) FULLWIDTH PLUS SIGN .. FULLWIDTH PLUS SIGN
(16#0FF0C#, 16#0FF0C#), -- (Po) FULLWIDTH COMMA .. FULLWIDTH COMMA
(16#0FF0D#, 16#0FF0D#), -- (Pd) FULLWIDTH HYPHEN-MINUS .. FULLWIDTH HYPHEN-MINUS
(16#0FF0E#, 16#0FF0F#), -- (Po) FULLWIDTH FULL STOP .. FULLWIDTH SOLIDUS
(16#0FF10#, 16#0FF19#), -- (Nd) FULLWIDTH DIGIT ZERO .. FULLWIDTH DIGIT NINE
(16#0FF1A#, 16#0FF1B#), -- (Po) FULLWIDTH COLON .. FULLWIDTH SEMICOLON
(16#0FF1C#, 16#0FF1E#), -- (Sm) FULLWIDTH LESS-THAN SIGN .. FULLWIDTH GREATER-THAN SIGN
(16#0FF1F#, 16#0FF20#), -- (Po) FULLWIDTH QUESTION MARK .. FULLWIDTH COMMERCIAL AT
(16#0FF21#, 16#0FF3A#), -- (Lu) FULLWIDTH LATIN CAPITAL LETTER A .. FULLWIDTH LATIN CAPITAL LETTER Z
(16#0FF3B#, 16#0FF3B#), -- (Ps) FULLWIDTH LEFT SQUARE BRACKET .. FULLWIDTH LEFT SQUARE BRACKET
(16#0FF3C#, 16#0FF3C#), -- (Po) FULLWIDTH REVERSE SOLIDUS .. FULLWIDTH REVERSE SOLIDUS
(16#0FF3D#, 16#0FF3D#), -- (Pe) FULLWIDTH RIGHT SQUARE BRACKET .. FULLWIDTH RIGHT SQUARE BRACKET
(16#0FF3E#, 16#0FF3E#), -- (Sk) FULLWIDTH CIRCUMFLEX ACCENT .. FULLWIDTH CIRCUMFLEX ACCENT
(16#0FF3F#, 16#0FF3F#), -- (Pc) FULLWIDTH LOW LINE .. FULLWIDTH LOW LINE
(16#0FF40#, 16#0FF40#), -- (Sk) FULLWIDTH GRAVE ACCENT .. FULLWIDTH GRAVE ACCENT
(16#0FF41#, 16#0FF5A#), -- (Ll) FULLWIDTH LATIN SMALL LETTER A .. FULLWIDTH LATIN SMALL LETTER Z
(16#0FF5B#, 16#0FF5B#), -- (Ps) FULLWIDTH LEFT CURLY BRACKET .. FULLWIDTH LEFT CURLY BRACKET
(16#0FF5C#, 16#0FF5C#), -- (Sm) FULLWIDTH VERTICAL LINE .. FULLWIDTH VERTICAL LINE
(16#0FF5D#, 16#0FF5D#), -- (Pe) FULLWIDTH RIGHT CURLY BRACKET .. FULLWIDTH RIGHT CURLY BRACKET
(16#0FF5E#, 16#0FF5E#), -- (Sm) FULLWIDTH TILDE .. FULLWIDTH TILDE
(16#0FF5F#, 16#0FF5F#), -- (Ps) FULLWIDTH LEFT WHITE PARENTHESIS .. FULLWIDTH LEFT WHITE PARENTHESIS
(16#0FF60#, 16#0FF60#), -- (Pe) FULLWIDTH RIGHT WHITE PARENTHESIS .. FULLWIDTH RIGHT WHITE PARENTHESIS
(16#0FF61#, 16#0FF61#), -- (Po) HALFWIDTH IDEOGRAPHIC FULL STOP .. HALFWIDTH IDEOGRAPHIC FULL STOP
(16#0FF62#, 16#0FF62#), -- (Ps) HALFWIDTH LEFT CORNER BRACKET .. HALFWIDTH LEFT CORNER BRACKET
(16#0FF63#, 16#0FF63#), -- (Pe) HALFWIDTH RIGHT CORNER BRACKET .. HALFWIDTH RIGHT CORNER BRACKET
(16#0FF64#, 16#0FF64#), -- (Po) HALFWIDTH IDEOGRAPHIC COMMA .. HALFWIDTH IDEOGRAPHIC COMMA
(16#0FF65#, 16#0FF65#), -- (Pc) HALFWIDTH KATAKANA MIDDLE DOT .. HALFWIDTH KATAKANA MIDDLE DOT
(16#0FF66#, 16#0FF6F#), -- (Lo) HALFWIDTH KATAKANA LETTER WO .. HALFWIDTH KATAKANA LETTER SMALL TU
(16#0FF70#, 16#0FF70#), -- (Lm) HALFWIDTH KATAKANA-HIRAGANA PROLONGED SOUND MARK .. HALFWIDTH KATAKANA-HIRAGANA PROLONGED SOUND MARK
(16#0FF71#, 16#0FF9D#), -- (Lo) HALFWIDTH KATAKANA LETTER A .. HALFWIDTH KATAKANA LETTER N
(16#0FF9E#, 16#0FF9F#), -- (Lm) HALFWIDTH KATAKANA VOICED SOUND MARK .. HALFWIDTH KATAKANA SEMI-VOICED SOUND MARK
(16#0FFA0#, 16#0FFBE#), -- (Lo) HALFWIDTH HANGUL FILLER .. HALFWIDTH HANGUL LETTER HIEUH
(16#0FFC2#, 16#0FFC7#), -- (Lo) HALFWIDTH HANGUL LETTER A .. HALFWIDTH HANGUL LETTER E
(16#0FFCA#, 16#0FFCF#), -- (Lo) HALFWIDTH HANGUL LETTER YEO .. HALFWIDTH HANGUL LETTER OE
(16#0FFD2#, 16#0FFD7#), -- (Lo) HALFWIDTH HANGUL LETTER YO .. HALFWIDTH HANGUL LETTER YU
(16#0FFDA#, 16#0FFDC#), -- (Lo) HALFWIDTH HANGUL LETTER EU .. HALFWIDTH HANGUL LETTER I
(16#0FFE0#, 16#0FFE1#), -- (Sc) FULLWIDTH CENT SIGN .. FULLWIDTH POUND SIGN
(16#0FFE2#, 16#0FFE2#), -- (Sm) FULLWIDTH NOT SIGN .. FULLWIDTH NOT SIGN
(16#0FFE3#, 16#0FFE3#), -- (Sk) FULLWIDTH MACRON .. FULLWIDTH MACRON
(16#0FFE4#, 16#0FFE4#), -- (So) FULLWIDTH BROKEN BAR .. FULLWIDTH BROKEN BAR
(16#0FFE5#, 16#0FFE6#), -- (Sc) FULLWIDTH YEN SIGN .. FULLWIDTH WON SIGN
(16#0FFE8#, 16#0FFE8#), -- (So) HALFWIDTH FORMS LIGHT VERTICAL .. HALFWIDTH FORMS LIGHT VERTICAL
(16#0FFE9#, 16#0FFEC#), -- (Sm) HALFWIDTH LEFTWARDS ARROW .. HALFWIDTH DOWNWARDS ARROW
(16#0FFED#, 16#0FFEE#), -- (So) HALFWIDTH BLACK SQUARE .. HALFWIDTH WHITE CIRCLE
(16#0FFF9#, 16#0FFFB#), -- (Cf) INTERLINEAR ANNOTATION ANCHOR .. INTERLINEAR ANNOTATION TERMINATOR
(16#0FFFC#, 16#0FFFD#), -- (So) OBJECT REPLACEMENT CHARACTER .. REPLACEMENT CHARACTER
(16#10000#, 16#1000B#), -- (Lo) LINEAR B SYLLABLE B008 A .. LINEAR B SYLLABLE B046 JE
(16#1000D#, 16#10026#), -- (Lo) LINEAR B SYLLABLE B036 JO .. LINEAR B SYLLABLE B032 QO
(16#10028#, 16#1003A#), -- (Lo) LINEAR B SYLLABLE B060 RA .. LINEAR B SYLLABLE B042 WO
(16#1003C#, 16#1003D#), -- (Lo) LINEAR B SYLLABLE B017 ZA .. LINEAR B SYLLABLE B074 ZE
(16#1003F#, 16#1004D#), -- (Lo) LINEAR B SYLLABLE B020 ZO .. LINEAR B SYLLABLE B091 TWO
(16#10050#, 16#1005D#), -- (Lo) LINEAR B SYMBOL B018 .. LINEAR B SYMBOL B089
(16#10080#, 16#100FA#), -- (Lo) LINEAR B IDEOGRAM B100 MAN .. LINEAR B IDEOGRAM VESSEL B305
(16#10100#, 16#10101#), -- (Po) AEGEAN WORD SEPARATOR LINE .. AEGEAN WORD SEPARATOR DOT
(16#10102#, 16#10102#), -- (So) AEGEAN CHECK MARK .. AEGEAN CHECK MARK
(16#10107#, 16#10133#), -- (No) AEGEAN NUMBER ONE .. AEGEAN NUMBER NINETY THOUSAND
(16#10137#, 16#1013F#), -- (So) AEGEAN WEIGHT BASE UNIT .. AEGEAN MEASURE THIRD SUBUNIT
(16#10300#, 16#1031E#), -- (Lo) OLD ITALIC LETTER A .. OLD ITALIC LETTER UU
(16#10320#, 16#10323#), -- (No) OLD ITALIC NUMERAL ONE .. OLD ITALIC NUMERAL FIFTY
(16#10330#, 16#10349#), -- (Lo) GOTHIC LETTER AHSA .. GOTHIC LETTER OTHAL
(16#1034A#, 16#1034A#), -- (Nl) GOTHIC LETTER NINE HUNDRED .. GOTHIC LETTER NINE HUNDRED
(16#10380#, 16#1039D#), -- (Lo) UGARITIC LETTER ALPA .. UGARITIC LETTER SSU
(16#1039F#, 16#1039F#), -- (Po) UGARITIC WORD DIVIDER .. UGARITIC WORD DIVIDER
(16#10400#, 16#10427#), -- (Lu) DESERET CAPITAL LETTER LONG I .. DESERET CAPITAL LETTER EW
(16#10428#, 16#1044F#), -- (Ll) DESERET SMALL LETTER LONG I .. DESERET SMALL LETTER EW
(16#10450#, 16#1049D#), -- (Lo) SHAVIAN LETTER PEEP .. OSMANYA LETTER OO
(16#104A0#, 16#104A9#), -- (Nd) OSMANYA DIGIT ZERO .. OSMANYA DIGIT NINE
(16#10800#, 16#10805#), -- (Lo) CYPRIOT SYLLABLE A .. CYPRIOT SYLLABLE JA
(16#10808#, 16#10808#), -- (Lo) CYPRIOT SYLLABLE JO .. CYPRIOT SYLLABLE JO
(16#1080A#, 16#10835#), -- (Lo) CYPRIOT SYLLABLE KA .. CYPRIOT SYLLABLE WO
(16#10837#, 16#10838#), -- (Lo) CYPRIOT SYLLABLE XA .. CYPRIOT SYLLABLE XE
(16#1083C#, 16#1083C#), -- (Lo) CYPRIOT SYLLABLE ZA .. CYPRIOT SYLLABLE ZA
(16#1083F#, 16#1083F#), -- (Lo) CYPRIOT SYLLABLE ZO .. CYPRIOT SYLLABLE ZO
(16#1D000#, 16#1D0F5#), -- (So) BYZANTINE MUSICAL SYMBOL PSILI .. BYZANTINE MUSICAL SYMBOL GORGON NEO KATO
(16#1D100#, 16#1D126#), -- (So) MUSICAL SYMBOL SINGLE BARLINE .. MUSICAL SYMBOL DRUM CLEF-2
(16#1D12A#, 16#1D164#), -- (So) MUSICAL SYMBOL DOUBLE SHARP .. MUSICAL SYMBOL ONE HUNDRED TWENTY-EIGHTH NOTE
(16#1D165#, 16#1D166#), -- (Mc) MUSICAL SYMBOL COMBINING STEM .. MUSICAL SYMBOL COMBINING SPRECHGESANG STEM
(16#1D167#, 16#1D169#), -- (Mn) MUSICAL SYMBOL COMBINING TREMOLO-1 .. MUSICAL SYMBOL COMBINING TREMOLO-3
(16#1D16A#, 16#1D16C#), -- (So) MUSICAL SYMBOL FINGERED TREMOLO-1 .. MUSICAL SYMBOL FINGERED TREMOLO-3
(16#1D16D#, 16#1D172#), -- (Mc) MUSICAL SYMBOL COMBINING AUGMENTATION DOT .. MUSICAL SYMBOL COMBINING FLAG-5
(16#1D173#, 16#1D17A#), -- (Cf) MUSICAL SYMBOL BEGIN BEAM .. MUSICAL SYMBOL END PHRASE
(16#1D17B#, 16#1D182#), -- (Mn) MUSICAL SYMBOL COMBINING ACCENT .. MUSICAL SYMBOL COMBINING LOURE
(16#1D183#, 16#1D184#), -- (So) MUSICAL SYMBOL ARPEGGIATO UP .. MUSICAL SYMBOL ARPEGGIATO DOWN
(16#1D185#, 16#1D18B#), -- (Mn) MUSICAL SYMBOL COMBINING DOIT .. MUSICAL SYMBOL COMBINING TRIPLE TONGUE
(16#1D18C#, 16#1D1A9#), -- (So) MUSICAL SYMBOL RINFORZANDO .. MUSICAL SYMBOL DEGREE SLASH
(16#1D1AA#, 16#1D1AD#), -- (Mn) MUSICAL SYMBOL COMBINING DOWN BOW .. MUSICAL SYMBOL COMBINING SNAP PIZZICATO
(16#1D1AE#, 16#1D1DD#), -- (So) MUSICAL SYMBOL PEDAL MARK .. MUSICAL SYMBOL PES SUBPUNCTIS
(16#1D300#, 16#1D356#), -- (So) MONOGRAM FOR EARTH .. TETRAGRAM FOR FOSTERING
(16#1D400#, 16#1D419#), -- (Lu) MATHEMATICAL BOLD CAPITAL A .. MATHEMATICAL BOLD CAPITAL Z
(16#1D41A#, 16#1D433#), -- (Ll) MATHEMATICAL BOLD SMALL A .. MATHEMATICAL BOLD SMALL Z
(16#1D434#, 16#1D44D#), -- (Lu) MATHEMATICAL ITALIC CAPITAL A .. MATHEMATICAL ITALIC CAPITAL Z
(16#1D44E#, 16#1D454#), -- (Ll) MATHEMATICAL ITALIC SMALL A .. MATHEMATICAL ITALIC SMALL G
(16#1D456#, 16#1D467#), -- (Ll) MATHEMATICAL ITALIC SMALL I .. MATHEMATICAL ITALIC SMALL Z
(16#1D468#, 16#1D481#), -- (Lu) MATHEMATICAL BOLD ITALIC CAPITAL A .. MATHEMATICAL BOLD ITALIC CAPITAL Z
(16#1D482#, 16#1D49B#), -- (Ll) MATHEMATICAL BOLD ITALIC SMALL A .. MATHEMATICAL BOLD ITALIC SMALL Z
(16#1D49C#, 16#1D49C#), -- (Lu) MATHEMATICAL SCRIPT CAPITAL A .. MATHEMATICAL SCRIPT CAPITAL A
(16#1D49E#, 16#1D49F#), -- (Lu) MATHEMATICAL SCRIPT CAPITAL C .. MATHEMATICAL SCRIPT CAPITAL D
(16#1D4A2#, 16#1D4A2#), -- (Lu) MATHEMATICAL SCRIPT CAPITAL G .. MATHEMATICAL SCRIPT CAPITAL G
(16#1D4A5#, 16#1D4A6#), -- (Lu) MATHEMATICAL SCRIPT CAPITAL J .. MATHEMATICAL SCRIPT CAPITAL K
(16#1D4A9#, 16#1D4AC#), -- (Lu) MATHEMATICAL SCRIPT CAPITAL N .. MATHEMATICAL SCRIPT CAPITAL Q
(16#1D4AE#, 16#1D4B5#), -- (Lu) MATHEMATICAL SCRIPT CAPITAL S .. MATHEMATICAL SCRIPT CAPITAL Z
(16#1D4B6#, 16#1D4B9#), -- (Ll) MATHEMATICAL SCRIPT SMALL A .. MATHEMATICAL SCRIPT SMALL D
(16#1D4BB#, 16#1D4BB#), -- (Ll) MATHEMATICAL SCRIPT SMALL F .. MATHEMATICAL SCRIPT SMALL F
(16#1D4BD#, 16#1D4C3#), -- (Ll) MATHEMATICAL SCRIPT SMALL H .. MATHEMATICAL SCRIPT SMALL N
(16#1D4C5#, 16#1D4CF#), -- (Ll) MATHEMATICAL SCRIPT SMALL P .. MATHEMATICAL SCRIPT SMALL Z
(16#1D4D0#, 16#1D4E9#), -- (Lu) MATHEMATICAL BOLD SCRIPT CAPITAL A .. MATHEMATICAL BOLD SCRIPT CAPITAL Z
(16#1D4EA#, 16#1D503#), -- (Ll) MATHEMATICAL BOLD SCRIPT SMALL A .. MATHEMATICAL BOLD SCRIPT SMALL Z
(16#1D504#, 16#1D505#), -- (Lu) MATHEMATICAL FRAKTUR CAPITAL A .. MATHEMATICAL FRAKTUR CAPITAL B
(16#1D507#, 16#1D50A#), -- (Lu) MATHEMATICAL FRAKTUR CAPITAL D .. MATHEMATICAL FRAKTUR CAPITAL G
(16#1D50D#, 16#1D514#), -- (Lu) MATHEMATICAL FRAKTUR CAPITAL J .. MATHEMATICAL FRAKTUR CAPITAL Q
(16#1D516#, 16#1D51C#), -- (Lu) MATHEMATICAL FRAKTUR CAPITAL S .. MATHEMATICAL FRAKTUR CAPITAL Y
(16#1D51E#, 16#1D537#), -- (Ll) MATHEMATICAL FRAKTUR SMALL A .. MATHEMATICAL FRAKTUR SMALL Z
(16#1D538#, 16#1D539#), -- (Lu) MATHEMATICAL DOUBLE-STRUCK CAPITAL A .. MATHEMATICAL DOUBLE-STRUCK CAPITAL B
(16#1D53B#, 16#1D53E#), -- (Lu) MATHEMATICAL DOUBLE-STRUCK CAPITAL D .. MATHEMATICAL DOUBLE-STRUCK CAPITAL G
(16#1D540#, 16#1D544#), -- (Lu) MATHEMATICAL DOUBLE-STRUCK CAPITAL I .. MATHEMATICAL DOUBLE-STRUCK CAPITAL M
(16#1D546#, 16#1D546#), -- (Lu) MATHEMATICAL DOUBLE-STRUCK CAPITAL O .. MATHEMATICAL DOUBLE-STRUCK CAPITAL O
(16#1D54A#, 16#1D550#), -- (Lu) MATHEMATICAL DOUBLE-STRUCK CAPITAL S .. MATHEMATICAL DOUBLE-STRUCK CAPITAL Y
(16#1D552#, 16#1D56B#), -- (Ll) MATHEMATICAL DOUBLE-STRUCK SMALL A .. MATHEMATICAL DOUBLE-STRUCK SMALL Z
(16#1D56C#, 16#1D585#), -- (Lu) MATHEMATICAL BOLD FRAKTUR CAPITAL A .. MATHEMATICAL BOLD FRAKTUR CAPITAL Z
(16#1D586#, 16#1D59F#), -- (Ll) MATHEMATICAL BOLD FRAKTUR SMALL A .. MATHEMATICAL BOLD FRAKTUR SMALL Z
(16#1D5A0#, 16#1D5B9#), -- (Lu) MATHEMATICAL SANS-SERIF CAPITAL A .. MATHEMATICAL SANS-SERIF CAPITAL Z
(16#1D5BA#, 16#1D5D3#), -- (Ll) MATHEMATICAL SANS-SERIF SMALL A .. MATHEMATICAL SANS-SERIF SMALL Z
(16#1D5D4#, 16#1D5ED#), -- (Lu) MATHEMATICAL SANS-SERIF BOLD CAPITAL A .. MATHEMATICAL SANS-SERIF BOLD CAPITAL Z
(16#1D5EE#, 16#1D607#), -- (Ll) MATHEMATICAL SANS-SERIF BOLD SMALL A .. MATHEMATICAL SANS-SERIF BOLD SMALL Z
(16#1D608#, 16#1D621#), -- (Lu) MATHEMATICAL SANS-SERIF ITALIC CAPITAL A .. MATHEMATICAL SANS-SERIF ITALIC CAPITAL Z
(16#1D622#, 16#1D63B#), -- (Ll) MATHEMATICAL SANS-SERIF ITALIC SMALL A .. MATHEMATICAL SANS-SERIF ITALIC SMALL Z
(16#1D63C#, 16#1D655#), -- (Lu) MATHEMATICAL SANS-SERIF BOLD ITALIC CAPITAL A .. MATHEMATICAL SANS-SERIF BOLD ITALIC CAPITAL Z
(16#1D656#, 16#1D66F#), -- (Ll) MATHEMATICAL SANS-SERIF BOLD ITALIC SMALL A .. MATHEMATICAL SANS-SERIF BOLD ITALIC SMALL Z
(16#1D670#, 16#1D689#), -- (Lu) MATHEMATICAL MONOSPACE CAPITAL A .. MATHEMATICAL MONOSPACE CAPITAL Z
(16#1D68A#, 16#1D6A3#), -- (Ll) MATHEMATICAL MONOSPACE SMALL A .. MATHEMATICAL MONOSPACE SMALL Z
(16#1D6A8#, 16#1D6C0#), -- (Lu) MATHEMATICAL BOLD CAPITAL ALPHA .. MATHEMATICAL BOLD CAPITAL OMEGA
(16#1D6C1#, 16#1D6C1#), -- (Sm) MATHEMATICAL BOLD NABLA .. MATHEMATICAL BOLD NABLA
(16#1D6C2#, 16#1D6DA#), -- (Ll) MATHEMATICAL BOLD SMALL ALPHA .. MATHEMATICAL BOLD SMALL OMEGA
(16#1D6DB#, 16#1D6DB#), -- (Sm) MATHEMATICAL BOLD PARTIAL DIFFERENTIAL .. MATHEMATICAL BOLD PARTIAL DIFFERENTIAL
(16#1D6DC#, 16#1D6E1#), -- (Ll) MATHEMATICAL BOLD EPSILON SYMBOL .. MATHEMATICAL BOLD PI SYMBOL
(16#1D6E2#, 16#1D6FA#), -- (Lu) MATHEMATICAL ITALIC CAPITAL ALPHA .. MATHEMATICAL ITALIC CAPITAL OMEGA
(16#1D6FB#, 16#1D6FB#), -- (Sm) MATHEMATICAL ITALIC NABLA .. MATHEMATICAL ITALIC NABLA
(16#1D6FC#, 16#1D714#), -- (Ll) MATHEMATICAL ITALIC SMALL ALPHA .. MATHEMATICAL ITALIC SMALL OMEGA
(16#1D715#, 16#1D715#), -- (Sm) MATHEMATICAL ITALIC PARTIAL DIFFERENTIAL .. MATHEMATICAL ITALIC PARTIAL DIFFERENTIAL
(16#1D716#, 16#1D71B#), -- (Ll) MATHEMATICAL ITALIC EPSILON SYMBOL .. MATHEMATICAL ITALIC PI SYMBOL
(16#1D71C#, 16#1D734#), -- (Lu) MATHEMATICAL BOLD ITALIC CAPITAL ALPHA .. MATHEMATICAL BOLD ITALIC CAPITAL OMEGA
(16#1D735#, 16#1D735#), -- (Sm) MATHEMATICAL BOLD ITALIC NABLA .. MATHEMATICAL BOLD ITALIC NABLA
(16#1D736#, 16#1D74E#), -- (Ll) MATHEMATICAL BOLD ITALIC SMALL ALPHA .. MATHEMATICAL BOLD ITALIC SMALL OMEGA
(16#1D74F#, 16#1D74F#), -- (Sm) MATHEMATICAL BOLD ITALIC PARTIAL DIFFERENTIAL .. MATHEMATICAL BOLD ITALIC PARTIAL DIFFERENTIAL
(16#1D750#, 16#1D755#), -- (Ll) MATHEMATICAL BOLD ITALIC EPSILON SYMBOL .. MATHEMATICAL BOLD ITALIC PI SYMBOL
(16#1D756#, 16#1D76E#), -- (Lu) MATHEMATICAL SANS-SERIF BOLD CAPITAL ALPHA .. MATHEMATICAL SANS-SERIF BOLD CAPITAL OMEGA
(16#1D76F#, 16#1D76F#), -- (Sm) MATHEMATICAL SANS-SERIF BOLD NABLA .. MATHEMATICAL SANS-SERIF BOLD NABLA
(16#1D770#, 16#1D788#), -- (Ll) MATHEMATICAL SANS-SERIF BOLD SMALL ALPHA .. MATHEMATICAL SANS-SERIF BOLD SMALL OMEGA
(16#1D789#, 16#1D789#), -- (Sm) MATHEMATICAL SANS-SERIF BOLD PARTIAL DIFFERENTIAL .. MATHEMATICAL SANS-SERIF BOLD PARTIAL DIFFERENTIAL
(16#1D78A#, 16#1D78F#), -- (Ll) MATHEMATICAL SANS-SERIF BOLD EPSILON SYMBOL .. MATHEMATICAL SANS-SERIF BOLD PI SYMBOL
(16#1D790#, 16#1D7A8#), -- (Lu) MATHEMATICAL SANS-SERIF BOLD ITALIC CAPITAL ALPHA .. MATHEMATICAL SANS-SERIF BOLD ITALIC CAPITAL OMEGA
(16#1D7A9#, 16#1D7A9#), -- (Sm) MATHEMATICAL SANS-SERIF BOLD ITALIC NABLA .. MATHEMATICAL SANS-SERIF BOLD ITALIC NABLA
(16#1D7AA#, 16#1D7C2#), -- (Ll) MATHEMATICAL SANS-SERIF BOLD ITALIC SMALL ALPHA .. MATHEMATICAL SANS-SERIF BOLD ITALIC SMALL OMEGA
(16#1D7C3#, 16#1D7C3#), -- (Sm) MATHEMATICAL SANS-SERIF BOLD ITALIC PARTIAL DIFFERENTIAL .. MATHEMATICAL SANS-SERIF BOLD ITALIC PARTIAL DIFFERENTIAL
(16#1D7C4#, 16#1D7C9#), -- (Ll) MATHEMATICAL SANS-SERIF BOLD ITALIC EPSILON SYMBOL .. MATHEMATICAL SANS-SERIF BOLD ITALIC PI SYMBOL
(16#1D7CE#, 16#1D7FF#), -- (Nd) MATHEMATICAL BOLD DIGIT ZERO .. MATHEMATICAL MONOSPACE DIGIT NINE
(16#20000#, 16#2A6D6#), -- (Lo) <CJK Ideograph Extension B, First> .. <CJK Ideograph Extension B, Last>
(16#2F800#, 16#2FA1D#), -- (Lo) CJK COMPATIBILITY IDEOGRAPH-2F800 .. CJK COMPATIBILITY IDEOGRAPH-2FA1D
(16#E0001#, 16#E0001#), -- (Cf) LANGUAGE TAG .. LANGUAGE TAG
(16#E0020#, 16#E007F#), -- (Cf) TAG SPACE .. CANCEL TAG
(16#E0100#, 16#E01EF#), -- (Mn) VARIATION SELECTOR-17 .. VARIATION SELECTOR-256
(16#F0000#, 16#FFFFD#), -- (Co) <Plane 15 Private Use, First> .. <Plane 15 Private Use, Last>
(16#100000#, 16#10FFFD#)); -- (Co) <Plane 16 Private Use, First> .. <Plane 16 Private Use, Last>
-- The following array is parallel to the Unicode_Ranges table above. For
-- each entry in the Unicode_Ranges table, there is a corresponding entry
-- in the following table indicating the corresponding unicode category.
Unicode_Categories : constant array (Unicode_Ranges'Range) of Category := (
Cc, -- (16#00000#, 16#0001F#) <control> .. <control>
Zs, -- (16#00020#, 16#00020#) SPACE .. SPACE
Po, -- (16#00021#, 16#00023#) EXCLAMATION MARK .. NUMBER SIGN
Sc, -- (16#00024#, 16#00024#) DOLLAR SIGN .. DOLLAR SIGN
Po, -- (16#00025#, 16#00027#) PERCENT SIGN .. APOSTROPHE
Ps, -- (16#00028#, 16#00028#) LEFT PARENTHESIS .. LEFT PARENTHESIS
Pe, -- (16#00029#, 16#00029#) RIGHT PARENTHESIS .. RIGHT PARENTHESIS
Po, -- (16#0002A#, 16#0002A#) ASTERISK .. ASTERISK
Sm, -- (16#0002B#, 16#0002B#) PLUS SIGN .. PLUS SIGN
Po, -- (16#0002C#, 16#0002C#) COMMA .. COMMA
Pd, -- (16#0002D#, 16#0002D#) HYPHEN-MINUS .. HYPHEN-MINUS
Po, -- (16#0002E#, 16#0002F#) FULL STOP .. SOLIDUS
Nd, -- (16#00030#, 16#00039#) DIGIT ZERO .. DIGIT NINE
Po, -- (16#0003A#, 16#0003B#) COLON .. SEMICOLON
Sm, -- (16#0003C#, 16#0003E#) LESS-THAN SIGN .. GREATER-THAN SIGN
Po, -- (16#0003F#, 16#00040#) QUESTION MARK .. COMMERCIAL AT
Lu, -- (16#00041#, 16#0005A#) LATIN CAPITAL LETTER A .. LATIN CAPITAL LETTER Z
Ps, -- (16#0005B#, 16#0005B#) LEFT SQUARE BRACKET .. LEFT SQUARE BRACKET
Po, -- (16#0005C#, 16#0005C#) REVERSE SOLIDUS .. REVERSE SOLIDUS
Pe, -- (16#0005D#, 16#0005D#) RIGHT SQUARE BRACKET .. RIGHT SQUARE BRACKET
Sk, -- (16#0005E#, 16#0005E#) CIRCUMFLEX ACCENT .. CIRCUMFLEX ACCENT
Pc, -- (16#0005F#, 16#0005F#) LOW LINE .. LOW LINE
Sk, -- (16#00060#, 16#00060#) GRAVE ACCENT .. GRAVE ACCENT
Ll, -- (16#00061#, 16#0007A#) LATIN SMALL LETTER A .. LATIN SMALL LETTER Z
Ps, -- (16#0007B#, 16#0007B#) LEFT CURLY BRACKET .. LEFT CURLY BRACKET
Sm, -- (16#0007C#, 16#0007C#) VERTICAL LINE .. VERTICAL LINE
Pe, -- (16#0007D#, 16#0007D#) RIGHT CURLY BRACKET .. RIGHT CURLY BRACKET
Sm, -- (16#0007E#, 16#0007E#) TILDE .. TILDE
Cc, -- (16#0007F#, 16#0009F#) <control> .. <control>
Zs, -- (16#000A0#, 16#000A0#) NO-BREAK SPACE .. NO-BREAK SPACE
Po, -- (16#000A1#, 16#000A1#) INVERTED EXCLAMATION MARK .. INVERTED EXCLAMATION MARK
Sc, -- (16#000A2#, 16#000A5#) CENT SIGN .. YEN SIGN
So, -- (16#000A6#, 16#000A7#) BROKEN BAR .. SECTION SIGN
Sk, -- (16#000A8#, 16#000A8#) DIAERESIS .. DIAERESIS
So, -- (16#000A9#, 16#000A9#) COPYRIGHT SIGN .. COPYRIGHT SIGN
Ll, -- (16#000AA#, 16#000AA#) FEMININE ORDINAL INDICATOR .. FEMININE ORDINAL INDICATOR
Pi, -- (16#000AB#, 16#000AB#) LEFT-POINTING DOUBLE ANGLE QUOTATION MARK .. LEFT-POINTING DOUBLE ANGLE QUOTATION MARK
Sm, -- (16#000AC#, 16#000AC#) NOT SIGN .. NOT SIGN
Cf, -- (16#000AD#, 16#000AD#) SOFT HYPHEN .. SOFT HYPHEN
So, -- (16#000AE#, 16#000AE#) REGISTERED SIGN .. REGISTERED SIGN
Sk, -- (16#000AF#, 16#000AF#) MACRON .. MACRON
So, -- (16#000B0#, 16#000B0#) DEGREE SIGN .. DEGREE SIGN
Sm, -- (16#000B1#, 16#000B1#) PLUS-MINUS SIGN .. PLUS-MINUS SIGN
No, -- (16#000B2#, 16#000B3#) SUPERSCRIPT TWO .. SUPERSCRIPT THREE
Sk, -- (16#000B4#, 16#000B4#) ACUTE ACCENT .. ACUTE ACCENT
Ll, -- (16#000B5#, 16#000B5#) MICRO SIGN .. MICRO SIGN
So, -- (16#000B6#, 16#000B6#) PILCROW SIGN .. PILCROW SIGN
Po, -- (16#000B7#, 16#000B7#) MIDDLE DOT .. MIDDLE DOT
Sk, -- (16#000B8#, 16#000B8#) CEDILLA .. CEDILLA
No, -- (16#000B9#, 16#000B9#) SUPERSCRIPT ONE .. SUPERSCRIPT ONE
Ll, -- (16#000BA#, 16#000BA#) MASCULINE ORDINAL INDICATOR .. MASCULINE ORDINAL INDICATOR
Pf, -- (16#000BB#, 16#000BB#) RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK .. RIGHT-POINTING DOUBLE ANGLE QUOTATION MARK
No, -- (16#000BC#, 16#000BE#) VULGAR FRACTION ONE QUARTER .. VULGAR FRACTION THREE QUARTERS
Po, -- (16#000BF#, 16#000BF#) INVERTED QUESTION MARK .. INVERTED QUESTION MARK
Lu, -- (16#000C0#, 16#000D6#) LATIN CAPITAL LETTER A WITH GRAVE .. LATIN CAPITAL LETTER O WITH DIAERESIS
Sm, -- (16#000D7#, 16#000D7#) MULTIPLICATION SIGN .. MULTIPLICATION SIGN
Lu, -- (16#000D8#, 16#000DE#) LATIN CAPITAL LETTER O WITH STROKE .. LATIN CAPITAL LETTER THORN
Ll, -- (16#000DF#, 16#000F6#) LATIN SMALL LETTER SHARP S .. LATIN SMALL LETTER O WITH DIAERESIS
Sm, -- (16#000F7#, 16#000F7#) DIVISION SIGN .. DIVISION SIGN
Ll, -- (16#000F8#, 16#000FF#) LATIN SMALL LETTER O WITH STROKE .. LATIN SMALL LETTER Y WITH DIAERESIS
Lu, -- (16#00100#, 16#00100#) LATIN CAPITAL LETTER A WITH MACRON .. LATIN CAPITAL LETTER A WITH MACRON
Ll, -- (16#00101#, 16#00101#) LATIN SMALL LETTER A WITH MACRON .. LATIN SMALL LETTER A WITH MACRON
Lu, -- (16#00102#, 16#00102#) LATIN CAPITAL LETTER A WITH BREVE .. LATIN CAPITAL LETTER A WITH BREVE
Ll, -- (16#00103#, 16#00103#) LATIN SMALL LETTER A WITH BREVE .. LATIN SMALL LETTER A WITH BREVE
Lu, -- (16#00104#, 16#00104#) LATIN CAPITAL LETTER A WITH OGONEK .. LATIN CAPITAL LETTER A WITH OGONEK
Ll, -- (16#00105#, 16#00105#) LATIN SMALL LETTER A WITH OGONEK .. LATIN SMALL LETTER A WITH OGONEK
Lu, -- (16#00106#, 16#00106#) LATIN CAPITAL LETTER C WITH ACUTE .. LATIN CAPITAL LETTER C WITH ACUTE
Ll, -- (16#00107#, 16#00107#) LATIN SMALL LETTER C WITH ACUTE .. LATIN SMALL LETTER C WITH ACUTE
Lu, -- (16#00108#, 16#00108#) LATIN CAPITAL LETTER C WITH CIRCUMFLEX .. LATIN CAPITAL LETTER C WITH CIRCUMFLEX
Ll, -- (16#00109#, 16#00109#) LATIN SMALL LETTER C WITH CIRCUMFLEX .. LATIN SMALL LETTER C WITH CIRCUMFLEX
Lu, -- (16#0010A#, 16#0010A#) LATIN CAPITAL LETTER C WITH DOT ABOVE .. LATIN CAPITAL LETTER C WITH DOT ABOVE
Ll, -- (16#0010B#, 16#0010B#) LATIN SMALL LETTER C WITH DOT ABOVE .. LATIN SMALL LETTER C WITH DOT ABOVE
Lu, -- (16#0010C#, 16#0010C#) LATIN CAPITAL LETTER C WITH CARON .. LATIN CAPITAL LETTER C WITH CARON
Ll, -- (16#0010D#, 16#0010D#) LATIN SMALL LETTER C WITH CARON .. LATIN SMALL LETTER C WITH CARON
Lu, -- (16#0010E#, 16#0010E#) LATIN CAPITAL LETTER D WITH CARON .. LATIN CAPITAL LETTER D WITH CARON
Ll, -- (16#0010F#, 16#0010F#) LATIN SMALL LETTER D WITH CARON .. LATIN SMALL LETTER D WITH CARON
Lu, -- (16#00110#, 16#00110#) LATIN CAPITAL LETTER D WITH STROKE .. LATIN CAPITAL LETTER D WITH STROKE
Ll, -- (16#00111#, 16#00111#) LATIN SMALL LETTER D WITH STROKE .. LATIN SMALL LETTER D WITH STROKE
Lu, -- (16#00112#, 16#00112#) LATIN CAPITAL LETTER E WITH MACRON .. LATIN CAPITAL LETTER E WITH MACRON
Ll, -- (16#00113#, 16#00113#) LATIN SMALL LETTER E WITH MACRON .. LATIN SMALL LETTER E WITH MACRON
Lu, -- (16#00114#, 16#00114#) LATIN CAPITAL LETTER E WITH BREVE .. LATIN CAPITAL LETTER E WITH BREVE
Ll, -- (16#00115#, 16#00115#) LATIN SMALL LETTER E WITH BREVE .. LATIN SMALL LETTER E WITH BREVE
Lu, -- (16#00116#, 16#00116#) LATIN CAPITAL LETTER E WITH DOT ABOVE .. LATIN CAPITAL LETTER E WITH DOT ABOVE
Ll, -- (16#00117#, 16#00117#) LATIN SMALL LETTER E WITH DOT ABOVE .. LATIN SMALL LETTER E WITH DOT ABOVE
Lu, -- (16#00118#, 16#00118#) LATIN CAPITAL LETTER E WITH OGONEK .. LATIN CAPITAL LETTER E WITH OGONEK
Ll, -- (16#00119#, 16#00119#) LATIN SMALL LETTER E WITH OGONEK .. LATIN SMALL LETTER E WITH OGONEK
Lu, -- (16#0011A#, 16#0011A#) LATIN CAPITAL LETTER E WITH CARON .. LATIN CAPITAL LETTER E WITH CARON
Ll, -- (16#0011B#, 16#0011B#) LATIN SMALL LETTER E WITH CARON .. LATIN SMALL LETTER E WITH CARON
Lu, -- (16#0011C#, 16#0011C#) LATIN CAPITAL LETTER G WITH CIRCUMFLEX .. LATIN CAPITAL LETTER G WITH CIRCUMFLEX
Ll, -- (16#0011D#, 16#0011D#) LATIN SMALL LETTER G WITH CIRCUMFLEX .. LATIN SMALL LETTER G WITH CIRCUMFLEX
Lu, -- (16#0011E#, 16#0011E#) LATIN CAPITAL LETTER G WITH BREVE .. LATIN CAPITAL LETTER G WITH BREVE
Ll, -- (16#0011F#, 16#0011F#) LATIN SMALL LETTER G WITH BREVE .. LATIN SMALL LETTER G WITH BREVE
Lu, -- (16#00120#, 16#00120#) LATIN CAPITAL LETTER G WITH DOT ABOVE .. LATIN CAPITAL LETTER G WITH DOT ABOVE
Ll, -- (16#00121#, 16#00121#) LATIN SMALL LETTER G WITH DOT ABOVE .. LATIN SMALL LETTER G WITH DOT ABOVE
Lu, -- (16#00122#, 16#00122#) LATIN CAPITAL LETTER G WITH CEDILLA .. LATIN CAPITAL LETTER G WITH CEDILLA
Ll, -- (16#00123#, 16#00123#) LATIN SMALL LETTER G WITH CEDILLA .. LATIN SMALL LETTER G WITH CEDILLA
Lu, -- (16#00124#, 16#00124#) LATIN CAPITAL LETTER H WITH CIRCUMFLEX .. LATIN CAPITAL LETTER H WITH CIRCUMFLEX
Ll, -- (16#00125#, 16#00125#) LATIN SMALL LETTER H WITH CIRCUMFLEX .. LATIN SMALL LETTER H WITH CIRCUMFLEX
Lu, -- (16#00126#, 16#00126#) LATIN CAPITAL LETTER H WITH STROKE .. LATIN CAPITAL LETTER H WITH STROKE
Ll, -- (16#00127#, 16#00127#) LATIN SMALL LETTER H WITH STROKE .. LATIN SMALL LETTER H WITH STROKE
Lu, -- (16#00128#, 16#00128#) LATIN CAPITAL LETTER I WITH TILDE .. LATIN CAPITAL LETTER I WITH TILDE
Ll, -- (16#00129#, 16#00129#) LATIN SMALL LETTER I WITH TILDE .. LATIN SMALL LETTER I WITH TILDE
Lu, -- (16#0012A#, 16#0012A#) LATIN CAPITAL LETTER I WITH MACRON .. LATIN CAPITAL LETTER I WITH MACRON
Ll, -- (16#0012B#, 16#0012B#) LATIN SMALL LETTER I WITH MACRON .. LATIN SMALL LETTER I WITH MACRON
Lu, -- (16#0012C#, 16#0012C#) LATIN CAPITAL LETTER I WITH BREVE .. LATIN CAPITAL LETTER I WITH BREVE
Ll, -- (16#0012D#, 16#0012D#) LATIN SMALL LETTER I WITH BREVE .. LATIN SMALL LETTER I WITH BREVE
Lu, -- (16#0012E#, 16#0012E#) LATIN CAPITAL LETTER I WITH OGONEK .. LATIN CAPITAL LETTER I WITH OGONEK
Ll, -- (16#0012F#, 16#0012F#) LATIN SMALL LETTER I WITH OGONEK .. LATIN SMALL LETTER I WITH OGONEK
Lu, -- (16#00130#, 16#00130#) LATIN CAPITAL LETTER I WITH DOT ABOVE .. LATIN CAPITAL LETTER I WITH DOT ABOVE
Ll, -- (16#00131#, 16#00131#) LATIN SMALL LETTER DOTLESS I .. LATIN SMALL LETTER DOTLESS I
Lu, -- (16#00132#, 16#00132#) LATIN CAPITAL LIGATURE IJ .. LATIN CAPITAL LIGATURE IJ
Ll, -- (16#00133#, 16#00133#) LATIN SMALL LIGATURE IJ .. LATIN SMALL LIGATURE IJ
Lu, -- (16#00134#, 16#00134#) LATIN CAPITAL LETTER J WITH CIRCUMFLEX .. LATIN CAPITAL LETTER J WITH CIRCUMFLEX
Ll, -- (16#00135#, 16#00135#) LATIN SMALL LETTER J WITH CIRCUMFLEX .. LATIN SMALL LETTER J WITH CIRCUMFLEX
Lu, -- (16#00136#, 16#00136#) LATIN CAPITAL LETTER K WITH CEDILLA .. LATIN CAPITAL LETTER K WITH CEDILLA
Ll, -- (16#00137#, 16#00138#) LATIN SMALL LETTER K WITH CEDILLA .. LATIN SMALL LETTER KRA
Lu, -- (16#00139#, 16#00139#) LATIN CAPITAL LETTER L WITH ACUTE .. LATIN CAPITAL LETTER L WITH ACUTE
Ll, -- (16#0013A#, 16#0013A#) LATIN SMALL LETTER L WITH ACUTE .. LATIN SMALL LETTER L WITH ACUTE
Lu, -- (16#0013B#, 16#0013B#) LATIN CAPITAL LETTER L WITH CEDILLA .. LATIN CAPITAL LETTER L WITH CEDILLA
Ll, -- (16#0013C#, 16#0013C#) LATIN SMALL LETTER L WITH CEDILLA .. LATIN SMALL LETTER L WITH CEDILLA
Lu, -- (16#0013D#, 16#0013D#) LATIN CAPITAL LETTER L WITH CARON .. LATIN CAPITAL LETTER L WITH CARON
Ll, -- (16#0013E#, 16#0013E#) LATIN SMALL LETTER L WITH CARON .. LATIN SMALL LETTER L WITH CARON
Lu, -- (16#0013F#, 16#0013F#) LATIN CAPITAL LETTER L WITH MIDDLE DOT .. LATIN CAPITAL LETTER L WITH MIDDLE DOT
Ll, -- (16#00140#, 16#00140#) LATIN SMALL LETTER L WITH MIDDLE DOT .. LATIN SMALL LETTER L WITH MIDDLE DOT
Lu, -- (16#00141#, 16#00141#) LATIN CAPITAL LETTER L WITH STROKE .. LATIN CAPITAL LETTER L WITH STROKE
Ll, -- (16#00142#, 16#00142#) LATIN SMALL LETTER L WITH STROKE .. LATIN SMALL LETTER L WITH STROKE
Lu, -- (16#00143#, 16#00143#) LATIN CAPITAL LETTER N WITH ACUTE .. LATIN CAPITAL LETTER N WITH ACUTE
Ll, -- (16#00144#, 16#00144#) LATIN SMALL LETTER N WITH ACUTE .. LATIN SMALL LETTER N WITH ACUTE
Lu, -- (16#00145#, 16#00145#) LATIN CAPITAL LETTER N WITH CEDILLA .. LATIN CAPITAL LETTER N WITH CEDILLA
Ll, -- (16#00146#, 16#00146#) LATIN SMALL LETTER N WITH CEDILLA .. LATIN SMALL LETTER N WITH CEDILLA
Lu, -- (16#00147#, 16#00147#) LATIN CAPITAL LETTER N WITH CARON .. LATIN CAPITAL LETTER N WITH CARON
Ll, -- (16#00148#, 16#00149#) LATIN SMALL LETTER N WITH CARON .. LATIN SMALL LETTER N PRECEDED BY APOSTROPHE
Lu, -- (16#0014A#, 16#0014A#) LATIN CAPITAL LETTER ENG .. LATIN CAPITAL LETTER ENG
Ll, -- (16#0014B#, 16#0014B#) LATIN SMALL LETTER ENG .. LATIN SMALL LETTER ENG
Lu, -- (16#0014C#, 16#0014C#) LATIN CAPITAL LETTER O WITH MACRON .. LATIN CAPITAL LETTER O WITH MACRON
Ll, -- (16#0014D#, 16#0014D#) LATIN SMALL LETTER O WITH MACRON .. LATIN SMALL LETTER O WITH MACRON
Lu, -- (16#0014E#, 16#0014E#) LATIN CAPITAL LETTER O WITH BREVE .. LATIN CAPITAL LETTER O WITH BREVE
Ll, -- (16#0014F#, 16#0014F#) LATIN SMALL LETTER O WITH BREVE .. LATIN SMALL LETTER O WITH BREVE
Lu, -- (16#00150#, 16#00150#) LATIN CAPITAL LETTER O WITH DOUBLE ACUTE .. LATIN CAPITAL LETTER O WITH DOUBLE ACUTE
Ll, -- (16#00151#, 16#00151#) LATIN SMALL LETTER O WITH DOUBLE ACUTE .. LATIN SMALL LETTER O WITH DOUBLE ACUTE
Lu, -- (16#00152#, 16#00152#) LATIN CAPITAL LIGATURE OE .. LATIN CAPITAL LIGATURE OE
Ll, -- (16#00153#, 16#00153#) LATIN SMALL LIGATURE OE .. LATIN SMALL LIGATURE OE
Lu, -- (16#00154#, 16#00154#) LATIN CAPITAL LETTER R WITH ACUTE .. LATIN CAPITAL LETTER R WITH ACUTE
Ll, -- (16#00155#, 16#00155#) LATIN SMALL LETTER R WITH ACUTE .. LATIN SMALL LETTER R WITH ACUTE
Lu, -- (16#00156#, 16#00156#) LATIN CAPITAL LETTER R WITH CEDILLA .. LATIN CAPITAL LETTER R WITH CEDILLA
Ll, -- (16#00157#, 16#00157#) LATIN SMALL LETTER R WITH CEDILLA .. LATIN SMALL LETTER R WITH CEDILLA
Lu, -- (16#00158#, 16#00158#) LATIN CAPITAL LETTER R WITH CARON .. LATIN CAPITAL LETTER R WITH CARON
Ll, -- (16#00159#, 16#00159#) LATIN SMALL LETTER R WITH CARON .. LATIN SMALL LETTER R WITH CARON
Lu, -- (16#0015A#, 16#0015A#) LATIN CAPITAL LETTER S WITH ACUTE .. LATIN CAPITAL LETTER S WITH ACUTE
Ll, -- (16#0015B#, 16#0015B#) LATIN SMALL LETTER S WITH ACUTE .. LATIN SMALL LETTER S WITH ACUTE
Lu, -- (16#0015C#, 16#0015C#) LATIN CAPITAL LETTER S WITH CIRCUMFLEX .. LATIN CAPITAL LETTER S WITH CIRCUMFLEX
Ll, -- (16#0015D#, 16#0015D#) LATIN SMALL LETTER S WITH CIRCUMFLEX .. LATIN SMALL LETTER S WITH CIRCUMFLEX
Lu, -- (16#0015E#, 16#0015E#) LATIN CAPITAL LETTER S WITH CEDILLA .. LATIN CAPITAL LETTER S WITH CEDILLA
Ll, -- (16#0015F#, 16#0015F#) LATIN SMALL LETTER S WITH CEDILLA .. LATIN SMALL LETTER S WITH CEDILLA
Lu, -- (16#00160#, 16#00160#) LATIN CAPITAL LETTER S WITH CARON .. LATIN CAPITAL LETTER S WITH CARON
Ll, -- (16#00161#, 16#00161#) LATIN SMALL LETTER S WITH CARON .. LATIN SMALL LETTER S WITH CARON
Lu, -- (16#00162#, 16#00162#) LATIN CAPITAL LETTER T WITH CEDILLA .. LATIN CAPITAL LETTER T WITH CEDILLA
Ll, -- (16#00163#, 16#00163#) LATIN SMALL LETTER T WITH CEDILLA .. LATIN SMALL LETTER T WITH CEDILLA
Lu, -- (16#00164#, 16#00164#) LATIN CAPITAL LETTER T WITH CARON .. LATIN CAPITAL LETTER T WITH CARON
Ll, -- (16#00165#, 16#00165#) LATIN SMALL LETTER T WITH CARON .. LATIN SMALL LETTER T WITH CARON
Lu, -- (16#00166#, 16#00166#) LATIN CAPITAL LETTER T WITH STROKE .. LATIN CAPITAL LETTER T WITH STROKE
Ll, -- (16#00167#, 16#00167#) LATIN SMALL LETTER T WITH STROKE .. LATIN SMALL LETTER T WITH STROKE
Lu, -- (16#00168#, 16#00168#) LATIN CAPITAL LETTER U WITH TILDE .. LATIN CAPITAL LETTER U WITH TILDE
Ll, -- (16#00169#, 16#00169#) LATIN SMALL LETTER U WITH TILDE .. LATIN SMALL LETTER U WITH TILDE
Lu, -- (16#0016A#, 16#0016A#) LATIN CAPITAL LETTER U WITH MACRON .. LATIN CAPITAL LETTER U WITH MACRON
Ll, -- (16#0016B#, 16#0016B#) LATIN SMALL LETTER U WITH MACRON .. LATIN SMALL LETTER U WITH MACRON
Lu, -- (16#0016C#, 16#0016C#) LATIN CAPITAL LETTER U WITH BREVE .. LATIN CAPITAL LETTER U WITH BREVE
Ll, -- (16#0016D#, 16#0016D#) LATIN SMALL LETTER U WITH BREVE .. LATIN SMALL LETTER U WITH BREVE
Lu, -- (16#0016E#, 16#0016E#) LATIN CAPITAL LETTER U WITH RING ABOVE .. LATIN CAPITAL LETTER U WITH RING ABOVE
Ll, -- (16#0016F#, 16#0016F#) LATIN SMALL LETTER U WITH RING ABOVE .. LATIN SMALL LETTER U WITH RING ABOVE
Lu, -- (16#00170#, 16#00170#) LATIN CAPITAL LETTER U WITH DOUBLE ACUTE .. LATIN CAPITAL LETTER U WITH DOUBLE ACUTE
Ll, -- (16#00171#, 16#00171#) LATIN SMALL LETTER U WITH DOUBLE ACUTE .. LATIN SMALL LETTER U WITH DOUBLE ACUTE
Lu, -- (16#00172#, 16#00172#) LATIN CAPITAL LETTER U WITH OGONEK .. LATIN CAPITAL LETTER U WITH OGONEK
Ll, -- (16#00173#, 16#00173#) LATIN SMALL LETTER U WITH OGONEK .. LATIN SMALL LETTER U WITH OGONEK
Lu, -- (16#00174#, 16#00174#) LATIN CAPITAL LETTER W WITH CIRCUMFLEX .. LATIN CAPITAL LETTER W WITH CIRCUMFLEX
Ll, -- (16#00175#, 16#00175#) LATIN SMALL LETTER W WITH CIRCUMFLEX .. LATIN SMALL LETTER W WITH CIRCUMFLEX
Lu, -- (16#00176#, 16#00176#) LATIN CAPITAL LETTER Y WITH CIRCUMFLEX .. LATIN CAPITAL LETTER Y WITH CIRCUMFLEX
Ll, -- (16#00177#, 16#00177#) LATIN SMALL LETTER Y WITH CIRCUMFLEX .. LATIN SMALL LETTER Y WITH CIRCUMFLEX
Lu, -- (16#00178#, 16#00179#) LATIN CAPITAL LETTER Y WITH DIAERESIS .. LATIN CAPITAL LETTER Z WITH ACUTE
Ll, -- (16#0017A#, 16#0017A#) LATIN SMALL LETTER Z WITH ACUTE .. LATIN SMALL LETTER Z WITH ACUTE
Lu, -- (16#0017B#, 16#0017B#) LATIN CAPITAL LETTER Z WITH DOT ABOVE .. LATIN CAPITAL LETTER Z WITH DOT ABOVE
Ll, -- (16#0017C#, 16#0017C#) LATIN SMALL LETTER Z WITH DOT ABOVE .. LATIN SMALL LETTER Z WITH DOT ABOVE
Lu, -- (16#0017D#, 16#0017D#) LATIN CAPITAL LETTER Z WITH CARON .. LATIN CAPITAL LETTER Z WITH CARON
Ll, -- (16#0017E#, 16#00180#) LATIN SMALL LETTER Z WITH CARON .. LATIN SMALL LETTER B WITH STROKE
Lu, -- (16#00181#, 16#00182#) LATIN CAPITAL LETTER B WITH HOOK .. LATIN CAPITAL LETTER B WITH TOPBAR
Ll, -- (16#00183#, 16#00183#) LATIN SMALL LETTER B WITH TOPBAR .. LATIN SMALL LETTER B WITH TOPBAR
Lu, -- (16#00184#, 16#00184#) LATIN CAPITAL LETTER TONE SIX .. LATIN CAPITAL LETTER TONE SIX
Ll, -- (16#00185#, 16#00185#) LATIN SMALL LETTER TONE SIX .. LATIN SMALL LETTER TONE SIX
Lu, -- (16#00186#, 16#00187#) LATIN CAPITAL LETTER OPEN O .. LATIN CAPITAL LETTER C WITH HOOK
Ll, -- (16#00188#, 16#00188#) LATIN SMALL LETTER C WITH HOOK .. LATIN SMALL LETTER C WITH HOOK
Lu, -- (16#00189#, 16#0018B#) LATIN CAPITAL LETTER AFRICAN D .. LATIN CAPITAL LETTER D WITH TOPBAR
Ll, -- (16#0018C#, 16#0018D#) LATIN SMALL LETTER D WITH TOPBAR .. LATIN SMALL LETTER TURNED DELTA
Lu, -- (16#0018E#, 16#00191#) LATIN CAPITAL LETTER REVERSED E .. LATIN CAPITAL LETTER F WITH HOOK
Ll, -- (16#00192#, 16#00192#) LATIN SMALL LETTER F WITH HOOK .. LATIN SMALL LETTER F WITH HOOK
Lu, -- (16#00193#, 16#00194#) LATIN CAPITAL LETTER G WITH HOOK .. LATIN CAPITAL LETTER GAMMA
Ll, -- (16#00195#, 16#00195#) LATIN SMALL LETTER HV .. LATIN SMALL LETTER HV
Lu, -- (16#00196#, 16#00198#) LATIN CAPITAL LETTER IOTA .. LATIN CAPITAL LETTER K WITH HOOK
Ll, -- (16#00199#, 16#0019B#) LATIN SMALL LETTER K WITH HOOK .. LATIN SMALL LETTER LAMBDA WITH STROKE
Lu, -- (16#0019C#, 16#0019D#) LATIN CAPITAL LETTER TURNED M .. LATIN CAPITAL LETTER N WITH LEFT HOOK
Ll, -- (16#0019E#, 16#0019E#) LATIN SMALL LETTER N WITH LONG RIGHT LEG .. LATIN SMALL LETTER N WITH LONG RIGHT LEG
Lu, -- (16#0019F#, 16#001A0#) LATIN CAPITAL LETTER O WITH MIDDLE TILDE .. LATIN CAPITAL LETTER O WITH HORN
Ll, -- (16#001A1#, 16#001A1#) LATIN SMALL LETTER O WITH HORN .. LATIN SMALL LETTER O WITH HORN
Lu, -- (16#001A2#, 16#001A2#) LATIN CAPITAL LETTER OI .. LATIN CAPITAL LETTER OI
Ll, -- (16#001A3#, 16#001A3#) LATIN SMALL LETTER OI .. LATIN SMALL LETTER OI
Lu, -- (16#001A4#, 16#001A4#) LATIN CAPITAL LETTER P WITH HOOK .. LATIN CAPITAL LETTER P WITH HOOK
Ll, -- (16#001A5#, 16#001A5#) LATIN SMALL LETTER P WITH HOOK .. LATIN SMALL LETTER P WITH HOOK
Lu, -- (16#001A6#, 16#001A7#) LATIN LETTER YR .. LATIN CAPITAL LETTER TONE TWO
Ll, -- (16#001A8#, 16#001A8#) LATIN SMALL LETTER TONE TWO .. LATIN SMALL LETTER TONE TWO
Lu, -- (16#001A9#, 16#001A9#) LATIN CAPITAL LETTER ESH .. LATIN CAPITAL LETTER ESH
Ll, -- (16#001AA#, 16#001AB#) LATIN LETTER REVERSED ESH LOOP .. LATIN SMALL LETTER T WITH PALATAL HOOK
Lu, -- (16#001AC#, 16#001AC#) LATIN CAPITAL LETTER T WITH HOOK .. LATIN CAPITAL LETTER T WITH HOOK
Ll, -- (16#001AD#, 16#001AD#) LATIN SMALL LETTER T WITH HOOK .. LATIN SMALL LETTER T WITH HOOK
Lu, -- (16#001AE#, 16#001AF#) LATIN CAPITAL LETTER T WITH RETROFLEX HOOK .. LATIN CAPITAL LETTER U WITH HORN
Ll, -- (16#001B0#, 16#001B0#) LATIN SMALL LETTER U WITH HORN .. LATIN SMALL LETTER U WITH HORN
Lu, -- (16#001B1#, 16#001B3#) LATIN CAPITAL LETTER UPSILON .. LATIN CAPITAL LETTER Y WITH HOOK
Ll, -- (16#001B4#, 16#001B4#) LATIN SMALL LETTER Y WITH HOOK .. LATIN SMALL LETTER Y WITH HOOK
Lu, -- (16#001B5#, 16#001B5#) LATIN CAPITAL LETTER Z WITH STROKE .. LATIN CAPITAL LETTER Z WITH STROKE
Ll, -- (16#001B6#, 16#001B6#) LATIN SMALL LETTER Z WITH STROKE .. LATIN SMALL LETTER Z WITH STROKE
Lu, -- (16#001B7#, 16#001B8#) LATIN CAPITAL LETTER EZH .. LATIN CAPITAL LETTER EZH REVERSED
Ll, -- (16#001B9#, 16#001BA#) LATIN SMALL LETTER EZH REVERSED .. LATIN SMALL LETTER EZH WITH TAIL
Lo, -- (16#001BB#, 16#001BB#) LATIN LETTER TWO WITH STROKE .. LATIN LETTER TWO WITH STROKE
Lu, -- (16#001BC#, 16#001BC#) LATIN CAPITAL LETTER TONE FIVE .. LATIN CAPITAL LETTER TONE FIVE
Ll, -- (16#001BD#, 16#001BF#) LATIN SMALL LETTER TONE FIVE .. LATIN LETTER WYNN
Lo, -- (16#001C0#, 16#001C3#) LATIN LETTER DENTAL CLICK .. LATIN LETTER RETROFLEX CLICK
Lu, -- (16#001C4#, 16#001C4#) LATIN CAPITAL LETTER DZ WITH CARON .. LATIN CAPITAL LETTER DZ WITH CARON
Lt, -- (16#001C5#, 16#001C5#) LATIN CAPITAL LETTER D WITH SMALL LETTER Z WITH CARON .. LATIN CAPITAL LETTER D WITH SMALL LETTER Z WITH CARON
Ll, -- (16#001C6#, 16#001C6#) LATIN SMALL LETTER DZ WITH CARON .. LATIN SMALL LETTER DZ WITH CARON
Lu, -- (16#001C7#, 16#001C7#) LATIN CAPITAL LETTER LJ .. LATIN CAPITAL LETTER LJ
Lt, -- (16#001C8#, 16#001C8#) LATIN CAPITAL LETTER L WITH SMALL LETTER J .. LATIN CAPITAL LETTER L WITH SMALL LETTER J
Ll, -- (16#001C9#, 16#001C9#) LATIN SMALL LETTER LJ .. LATIN SMALL LETTER LJ
Lu, -- (16#001CA#, 16#001CA#) LATIN CAPITAL LETTER NJ .. LATIN CAPITAL LETTER NJ
Lt, -- (16#001CB#, 16#001CB#) LATIN CAPITAL LETTER N WITH SMALL LETTER J .. LATIN CAPITAL LETTER N WITH SMALL LETTER J
Ll, -- (16#001CC#, 16#001CC#) LATIN SMALL LETTER NJ .. LATIN SMALL LETTER NJ
Lu, -- (16#001CD#, 16#001CD#) LATIN CAPITAL LETTER A WITH CARON .. LATIN CAPITAL LETTER A WITH CARON
Ll, -- (16#001CE#, 16#001CE#) LATIN SMALL LETTER A WITH CARON .. LATIN SMALL LETTER A WITH CARON
Lu, -- (16#001CF#, 16#001CF#) LATIN CAPITAL LETTER I WITH CARON .. LATIN CAPITAL LETTER I WITH CARON
Ll, -- (16#001D0#, 16#001D0#) LATIN SMALL LETTER I WITH CARON .. LATIN SMALL LETTER I WITH CARON
Lu, -- (16#001D1#, 16#001D1#) LATIN CAPITAL LETTER O WITH CARON .. LATIN CAPITAL LETTER O WITH CARON
Ll, -- (16#001D2#, 16#001D2#) LATIN SMALL LETTER O WITH CARON .. LATIN SMALL LETTER O WITH CARON
Lu, -- (16#001D3#, 16#001D3#) LATIN CAPITAL LETTER U WITH CARON .. LATIN CAPITAL LETTER U WITH CARON
Ll, -- (16#001D4#, 16#001D4#) LATIN SMALL LETTER U WITH CARON .. LATIN SMALL LETTER U WITH CARON
Lu, -- (16#001D5#, 16#001D5#) LATIN CAPITAL LETTER U WITH DIAERESIS AND MACRON .. LATIN CAPITAL LETTER U WITH DIAERESIS AND MACRON
Ll, -- (16#001D6#, 16#001D6#) LATIN SMALL LETTER U WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER U WITH DIAERESIS AND MACRON
Lu, -- (16#001D7#, 16#001D7#) LATIN CAPITAL LETTER U WITH DIAERESIS AND ACUTE .. LATIN CAPITAL LETTER U WITH DIAERESIS AND ACUTE
Ll, -- (16#001D8#, 16#001D8#) LATIN SMALL LETTER U WITH DIAERESIS AND ACUTE .. LATIN SMALL LETTER U WITH DIAERESIS AND ACUTE
Lu, -- (16#001D9#, 16#001D9#) LATIN CAPITAL LETTER U WITH DIAERESIS AND CARON .. LATIN CAPITAL LETTER U WITH DIAERESIS AND CARON
Ll, -- (16#001DA#, 16#001DA#) LATIN SMALL LETTER U WITH DIAERESIS AND CARON .. LATIN SMALL LETTER U WITH DIAERESIS AND CARON
Lu, -- (16#001DB#, 16#001DB#) LATIN CAPITAL LETTER U WITH DIAERESIS AND GRAVE .. LATIN CAPITAL LETTER U WITH DIAERESIS AND GRAVE
Ll, -- (16#001DC#, 16#001DD#) LATIN SMALL LETTER U WITH DIAERESIS AND GRAVE .. LATIN SMALL LETTER TURNED E
Lu, -- (16#001DE#, 16#001DE#) LATIN CAPITAL LETTER A WITH DIAERESIS AND MACRON .. LATIN CAPITAL LETTER A WITH DIAERESIS AND MACRON
Ll, -- (16#001DF#, 16#001DF#) LATIN SMALL LETTER A WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER A WITH DIAERESIS AND MACRON
Lu, -- (16#001E0#, 16#001E0#) LATIN CAPITAL LETTER A WITH DOT ABOVE AND MACRON .. LATIN CAPITAL LETTER A WITH DOT ABOVE AND MACRON
Ll, -- (16#001E1#, 16#001E1#) LATIN SMALL LETTER A WITH DOT ABOVE AND MACRON .. LATIN SMALL LETTER A WITH DOT ABOVE AND MACRON
Lu, -- (16#001E2#, 16#001E2#) LATIN CAPITAL LETTER AE WITH MACRON .. LATIN CAPITAL LETTER AE WITH MACRON
Ll, -- (16#001E3#, 16#001E3#) LATIN SMALL LETTER AE WITH MACRON .. LATIN SMALL LETTER AE WITH MACRON
Lu, -- (16#001E4#, 16#001E4#) LATIN CAPITAL LETTER G WITH STROKE .. LATIN CAPITAL LETTER G WITH STROKE
Ll, -- (16#001E5#, 16#001E5#) LATIN SMALL LETTER G WITH STROKE .. LATIN SMALL LETTER G WITH STROKE
Lu, -- (16#001E6#, 16#001E6#) LATIN CAPITAL LETTER G WITH CARON .. LATIN CAPITAL LETTER G WITH CARON
Ll, -- (16#001E7#, 16#001E7#) LATIN SMALL LETTER G WITH CARON .. LATIN SMALL LETTER G WITH CARON
Lu, -- (16#001E8#, 16#001E8#) LATIN CAPITAL LETTER K WITH CARON .. LATIN CAPITAL LETTER K WITH CARON
Ll, -- (16#001E9#, 16#001E9#) LATIN SMALL LETTER K WITH CARON .. LATIN SMALL LETTER K WITH CARON
Lu, -- (16#001EA#, 16#001EA#) LATIN CAPITAL LETTER O WITH OGONEK .. LATIN CAPITAL LETTER O WITH OGONEK
Ll, -- (16#001EB#, 16#001EB#) LATIN SMALL LETTER O WITH OGONEK .. LATIN SMALL LETTER O WITH OGONEK
Lu, -- (16#001EC#, 16#001EC#) LATIN CAPITAL LETTER O WITH OGONEK AND MACRON .. LATIN CAPITAL LETTER O WITH OGONEK AND MACRON
Ll, -- (16#001ED#, 16#001ED#) LATIN SMALL LETTER O WITH OGONEK AND MACRON .. LATIN SMALL LETTER O WITH OGONEK AND MACRON
Lu, -- (16#001EE#, 16#001EE#) LATIN CAPITAL LETTER EZH WITH CARON .. LATIN CAPITAL LETTER EZH WITH CARON
Ll, -- (16#001EF#, 16#001F0#) LATIN SMALL LETTER EZH WITH CARON .. LATIN SMALL LETTER J WITH CARON
Lu, -- (16#001F1#, 16#001F1#) LATIN CAPITAL LETTER DZ .. LATIN CAPITAL LETTER DZ
Lt, -- (16#001F2#, 16#001F2#) LATIN CAPITAL LETTER D WITH SMALL LETTER Z .. LATIN CAPITAL LETTER D WITH SMALL LETTER Z
Ll, -- (16#001F3#, 16#001F3#) LATIN SMALL LETTER DZ .. LATIN SMALL LETTER DZ
Lu, -- (16#001F4#, 16#001F4#) LATIN CAPITAL LETTER G WITH ACUTE .. LATIN CAPITAL LETTER G WITH ACUTE
Ll, -- (16#001F5#, 16#001F5#) LATIN SMALL LETTER G WITH ACUTE .. LATIN SMALL LETTER G WITH ACUTE
Lu, -- (16#001F6#, 16#001F8#) LATIN CAPITAL LETTER HWAIR .. LATIN CAPITAL LETTER N WITH GRAVE
Ll, -- (16#001F9#, 16#001F9#) LATIN SMALL LETTER N WITH GRAVE .. LATIN SMALL LETTER N WITH GRAVE
Lu, -- (16#001FA#, 16#001FA#) LATIN CAPITAL LETTER A WITH RING ABOVE AND ACUTE .. LATIN CAPITAL LETTER A WITH RING ABOVE AND ACUTE
Ll, -- (16#001FB#, 16#001FB#) LATIN SMALL LETTER A WITH RING ABOVE AND ACUTE .. LATIN SMALL LETTER A WITH RING ABOVE AND ACUTE
Lu, -- (16#001FC#, 16#001FC#) LATIN CAPITAL LETTER AE WITH ACUTE .. LATIN CAPITAL LETTER AE WITH ACUTE
Ll, -- (16#001FD#, 16#001FD#) LATIN SMALL LETTER AE WITH ACUTE .. LATIN SMALL LETTER AE WITH ACUTE
Lu, -- (16#001FE#, 16#001FE#) LATIN CAPITAL LETTER O WITH STROKE AND ACUTE .. LATIN CAPITAL LETTER O WITH STROKE AND ACUTE
Ll, -- (16#001FF#, 16#001FF#) LATIN SMALL LETTER O WITH STROKE AND ACUTE .. LATIN SMALL LETTER O WITH STROKE AND ACUTE
Lu, -- (16#00200#, 16#00200#) LATIN CAPITAL LETTER A WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER A WITH DOUBLE GRAVE
Ll, -- (16#00201#, 16#00201#) LATIN SMALL LETTER A WITH DOUBLE GRAVE .. LATIN SMALL LETTER A WITH DOUBLE GRAVE
Lu, -- (16#00202#, 16#00202#) LATIN CAPITAL LETTER A WITH INVERTED BREVE .. LATIN CAPITAL LETTER A WITH INVERTED BREVE
Ll, -- (16#00203#, 16#00203#) LATIN SMALL LETTER A WITH INVERTED BREVE .. LATIN SMALL LETTER A WITH INVERTED BREVE
Lu, -- (16#00204#, 16#00204#) LATIN CAPITAL LETTER E WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER E WITH DOUBLE GRAVE
Ll, -- (16#00205#, 16#00205#) LATIN SMALL LETTER E WITH DOUBLE GRAVE .. LATIN SMALL LETTER E WITH DOUBLE GRAVE
Lu, -- (16#00206#, 16#00206#) LATIN CAPITAL LETTER E WITH INVERTED BREVE .. LATIN CAPITAL LETTER E WITH INVERTED BREVE
Ll, -- (16#00207#, 16#00207#) LATIN SMALL LETTER E WITH INVERTED BREVE .. LATIN SMALL LETTER E WITH INVERTED BREVE
Lu, -- (16#00208#, 16#00208#) LATIN CAPITAL LETTER I WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER I WITH DOUBLE GRAVE
Ll, -- (16#00209#, 16#00209#) LATIN SMALL LETTER I WITH DOUBLE GRAVE .. LATIN SMALL LETTER I WITH DOUBLE GRAVE
Lu, -- (16#0020A#, 16#0020A#) LATIN CAPITAL LETTER I WITH INVERTED BREVE .. LATIN CAPITAL LETTER I WITH INVERTED BREVE
Ll, -- (16#0020B#, 16#0020B#) LATIN SMALL LETTER I WITH INVERTED BREVE .. LATIN SMALL LETTER I WITH INVERTED BREVE
Lu, -- (16#0020C#, 16#0020C#) LATIN CAPITAL LETTER O WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER O WITH DOUBLE GRAVE
Ll, -- (16#0020D#, 16#0020D#) LATIN SMALL LETTER O WITH DOUBLE GRAVE .. LATIN SMALL LETTER O WITH DOUBLE GRAVE
Lu, -- (16#0020E#, 16#0020E#) LATIN CAPITAL LETTER O WITH INVERTED BREVE .. LATIN CAPITAL LETTER O WITH INVERTED BREVE
Ll, -- (16#0020F#, 16#0020F#) LATIN SMALL LETTER O WITH INVERTED BREVE .. LATIN SMALL LETTER O WITH INVERTED BREVE
Lu, -- (16#00210#, 16#00210#) LATIN CAPITAL LETTER R WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER R WITH DOUBLE GRAVE
Ll, -- (16#00211#, 16#00211#) LATIN SMALL LETTER R WITH DOUBLE GRAVE .. LATIN SMALL LETTER R WITH DOUBLE GRAVE
Lu, -- (16#00212#, 16#00212#) LATIN CAPITAL LETTER R WITH INVERTED BREVE .. LATIN CAPITAL LETTER R WITH INVERTED BREVE
Ll, -- (16#00213#, 16#00213#) LATIN SMALL LETTER R WITH INVERTED BREVE .. LATIN SMALL LETTER R WITH INVERTED BREVE
Lu, -- (16#00214#, 16#00214#) LATIN CAPITAL LETTER U WITH DOUBLE GRAVE .. LATIN CAPITAL LETTER U WITH DOUBLE GRAVE
Ll, -- (16#00215#, 16#00215#) LATIN SMALL LETTER U WITH DOUBLE GRAVE .. LATIN SMALL LETTER U WITH DOUBLE GRAVE
Lu, -- (16#00216#, 16#00216#) LATIN CAPITAL LETTER U WITH INVERTED BREVE .. LATIN CAPITAL LETTER U WITH INVERTED BREVE
Ll, -- (16#00217#, 16#00217#) LATIN SMALL LETTER U WITH INVERTED BREVE .. LATIN SMALL LETTER U WITH INVERTED BREVE
Lu, -- (16#00218#, 16#00218#) LATIN CAPITAL LETTER S WITH COMMA BELOW .. LATIN CAPITAL LETTER S WITH COMMA BELOW
Ll, -- (16#00219#, 16#00219#) LATIN SMALL LETTER S WITH COMMA BELOW .. LATIN SMALL LETTER S WITH COMMA BELOW
Lu, -- (16#0021A#, 16#0021A#) LATIN CAPITAL LETTER T WITH COMMA BELOW .. LATIN CAPITAL LETTER T WITH COMMA BELOW
Ll, -- (16#0021B#, 16#0021B#) LATIN SMALL LETTER T WITH COMMA BELOW .. LATIN SMALL LETTER T WITH COMMA BELOW
Lu, -- (16#0021C#, 16#0021C#) LATIN CAPITAL LETTER YOGH .. LATIN CAPITAL LETTER YOGH
Ll, -- (16#0021D#, 16#0021D#) LATIN SMALL LETTER YOGH .. LATIN SMALL LETTER YOGH
Lu, -- (16#0021E#, 16#0021E#) LATIN CAPITAL LETTER H WITH CARON .. LATIN CAPITAL LETTER H WITH CARON
Ll, -- (16#0021F#, 16#0021F#) LATIN SMALL LETTER H WITH CARON .. LATIN SMALL LETTER H WITH CARON
Lu, -- (16#00220#, 16#00220#) LATIN CAPITAL LETTER N WITH LONG RIGHT LEG .. LATIN CAPITAL LETTER N WITH LONG RIGHT LEG
Ll, -- (16#00221#, 16#00221#) LATIN SMALL LETTER D WITH CURL .. LATIN SMALL LETTER D WITH CURL
Lu, -- (16#00222#, 16#00222#) LATIN CAPITAL LETTER OU .. LATIN CAPITAL LETTER OU
Ll, -- (16#00223#, 16#00223#) LATIN SMALL LETTER OU .. LATIN SMALL LETTER OU
Lu, -- (16#00224#, 16#00224#) LATIN CAPITAL LETTER Z WITH HOOK .. LATIN CAPITAL LETTER Z WITH HOOK
Ll, -- (16#00225#, 16#00225#) LATIN SMALL LETTER Z WITH HOOK .. LATIN SMALL LETTER Z WITH HOOK
Lu, -- (16#00226#, 16#00226#) LATIN CAPITAL LETTER A WITH DOT ABOVE .. LATIN CAPITAL LETTER A WITH DOT ABOVE
Ll, -- (16#00227#, 16#00227#) LATIN SMALL LETTER A WITH DOT ABOVE .. LATIN SMALL LETTER A WITH DOT ABOVE
Lu, -- (16#00228#, 16#00228#) LATIN CAPITAL LETTER E WITH CEDILLA .. LATIN CAPITAL LETTER E WITH CEDILLA
Ll, -- (16#00229#, 16#00229#) LATIN SMALL LETTER E WITH CEDILLA .. LATIN SMALL LETTER E WITH CEDILLA
Lu, -- (16#0022A#, 16#0022A#) LATIN CAPITAL LETTER O WITH DIAERESIS AND MACRON .. LATIN CAPITAL LETTER O WITH DIAERESIS AND MACRON
Ll, -- (16#0022B#, 16#0022B#) LATIN SMALL LETTER O WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER O WITH DIAERESIS AND MACRON
Lu, -- (16#0022C#, 16#0022C#) LATIN CAPITAL LETTER O WITH TILDE AND MACRON .. LATIN CAPITAL LETTER O WITH TILDE AND MACRON
Ll, -- (16#0022D#, 16#0022D#) LATIN SMALL LETTER O WITH TILDE AND MACRON .. LATIN SMALL LETTER O WITH TILDE AND MACRON
Lu, -- (16#0022E#, 16#0022E#) LATIN CAPITAL LETTER O WITH DOT ABOVE .. LATIN CAPITAL LETTER O WITH DOT ABOVE
Ll, -- (16#0022F#, 16#0022F#) LATIN SMALL LETTER O WITH DOT ABOVE .. LATIN SMALL LETTER O WITH DOT ABOVE
Lu, -- (16#00230#, 16#00230#) LATIN CAPITAL LETTER O WITH DOT ABOVE AND MACRON .. LATIN CAPITAL LETTER O WITH DOT ABOVE AND MACRON
Ll, -- (16#00231#, 16#00231#) LATIN SMALL LETTER O WITH DOT ABOVE AND MACRON .. LATIN SMALL LETTER O WITH DOT ABOVE AND MACRON
Lu, -- (16#00232#, 16#00232#) LATIN CAPITAL LETTER Y WITH MACRON .. LATIN CAPITAL LETTER Y WITH MACRON
Ll, -- (16#00233#, 16#00236#) LATIN SMALL LETTER Y WITH MACRON .. LATIN SMALL LETTER T WITH CURL
Ll, -- (16#00250#, 16#002AF#) LATIN SMALL LETTER TURNED A .. LATIN SMALL LETTER TURNED H WITH FISHHOOK AND TAIL
Lm, -- (16#002B0#, 16#002C1#) MODIFIER LETTER SMALL H .. MODIFIER LETTER REVERSED GLOTTAL STOP
Sk, -- (16#002C2#, 16#002C5#) MODIFIER LETTER LEFT ARROWHEAD .. MODIFIER LETTER DOWN ARROWHEAD
Lm, -- (16#002C6#, 16#002D1#) MODIFIER LETTER CIRCUMFLEX ACCENT .. MODIFIER LETTER HALF TRIANGULAR COLON
Sk, -- (16#002D2#, 16#002DF#) MODIFIER LETTER CENTRED RIGHT HALF RING .. MODIFIER LETTER CROSS ACCENT
Lm, -- (16#002E0#, 16#002E4#) MODIFIER LETTER SMALL GAMMA .. MODIFIER LETTER SMALL REVERSED GLOTTAL STOP
Sk, -- (16#002E5#, 16#002ED#) MODIFIER LETTER EXTRA-HIGH TONE BAR .. MODIFIER LETTER UNASPIRATED
Lm, -- (16#002EE#, 16#002EE#) MODIFIER LETTER DOUBLE APOSTROPHE .. MODIFIER LETTER DOUBLE APOSTROPHE
Sk, -- (16#002EF#, 16#002FF#) MODIFIER LETTER LOW DOWN ARROWHEAD .. MODIFIER LETTER LOW LEFT ARROW
Mn, -- (16#00300#, 16#00357#) COMBINING GRAVE ACCENT .. COMBINING RIGHT HALF RING ABOVE
Mn, -- (16#0035D#, 16#0036F#) COMBINING DOUBLE BREVE .. COMBINING LATIN SMALL LETTER X
Sk, -- (16#00374#, 16#00375#) GREEK NUMERAL SIGN .. GREEK LOWER NUMERAL SIGN
Lm, -- (16#0037A#, 16#0037A#) GREEK YPOGEGRAMMENI .. GREEK YPOGEGRAMMENI
Po, -- (16#0037E#, 16#0037E#) GREEK QUESTION MARK .. GREEK QUESTION MARK
Sk, -- (16#00384#, 16#00385#) GREEK TONOS .. GREEK DIALYTIKA TONOS
Lu, -- (16#00386#, 16#00386#) GREEK CAPITAL LETTER ALPHA WITH TONOS .. GREEK CAPITAL LETTER ALPHA WITH TONOS
Po, -- (16#00387#, 16#00387#) GREEK ANO TELEIA .. GREEK ANO TELEIA
Lu, -- (16#00388#, 16#0038A#) GREEK CAPITAL LETTER EPSILON WITH TONOS .. GREEK CAPITAL LETTER IOTA WITH TONOS
Lu, -- (16#0038C#, 16#0038C#) GREEK CAPITAL LETTER OMICRON WITH TONOS .. GREEK CAPITAL LETTER OMICRON WITH TONOS
Lu, -- (16#0038E#, 16#0038F#) GREEK CAPITAL LETTER UPSILON WITH TONOS .. GREEK CAPITAL LETTER OMEGA WITH TONOS
Ll, -- (16#00390#, 16#00390#) GREEK SMALL LETTER IOTA WITH DIALYTIKA AND TONOS .. GREEK SMALL LETTER IOTA WITH DIALYTIKA AND TONOS
Lu, -- (16#00391#, 16#003A1#) GREEK CAPITAL LETTER ALPHA .. GREEK CAPITAL LETTER RHO
Lu, -- (16#003A3#, 16#003AB#) GREEK CAPITAL LETTER SIGMA .. GREEK CAPITAL LETTER UPSILON WITH DIALYTIKA
Ll, -- (16#003AC#, 16#003CE#) GREEK SMALL LETTER ALPHA WITH TONOS .. GREEK SMALL LETTER OMEGA WITH TONOS
Ll, -- (16#003D0#, 16#003D1#) GREEK BETA SYMBOL .. GREEK THETA SYMBOL
Lu, -- (16#003D2#, 16#003D4#) GREEK UPSILON WITH HOOK SYMBOL .. GREEK UPSILON WITH DIAERESIS AND HOOK SYMBOL
Ll, -- (16#003D5#, 16#003D7#) GREEK PHI SYMBOL .. GREEK KAI SYMBOL
Lu, -- (16#003D8#, 16#003D8#) GREEK LETTER ARCHAIC KOPPA .. GREEK LETTER ARCHAIC KOPPA
Ll, -- (16#003D9#, 16#003D9#) GREEK SMALL LETTER ARCHAIC KOPPA .. GREEK SMALL LETTER ARCHAIC KOPPA
Lu, -- (16#003DA#, 16#003DA#) GREEK LETTER STIGMA .. GREEK LETTER STIGMA
Ll, -- (16#003DB#, 16#003DB#) GREEK SMALL LETTER STIGMA .. GREEK SMALL LETTER STIGMA
Lu, -- (16#003DC#, 16#003DC#) GREEK LETTER DIGAMMA .. GREEK LETTER DIGAMMA
Ll, -- (16#003DD#, 16#003DD#) GREEK SMALL LETTER DIGAMMA .. GREEK SMALL LETTER DIGAMMA
Lu, -- (16#003DE#, 16#003DE#) GREEK LETTER KOPPA .. GREEK LETTER KOPPA
Ll, -- (16#003DF#, 16#003DF#) GREEK SMALL LETTER KOPPA .. GREEK SMALL LETTER KOPPA
Lu, -- (16#003E0#, 16#003E0#) GREEK LETTER SAMPI .. GREEK LETTER SAMPI
Ll, -- (16#003E1#, 16#003E1#) GREEK SMALL LETTER SAMPI .. GREEK SMALL LETTER SAMPI
Lu, -- (16#003E2#, 16#003E2#) COPTIC CAPITAL LETTER SHEI .. COPTIC CAPITAL LETTER SHEI
Ll, -- (16#003E3#, 16#003E3#) COPTIC SMALL LETTER SHEI .. COPTIC SMALL LETTER SHEI
Lu, -- (16#003E4#, 16#003E4#) COPTIC CAPITAL LETTER FEI .. COPTIC CAPITAL LETTER FEI
Ll, -- (16#003E5#, 16#003E5#) COPTIC SMALL LETTER FEI .. COPTIC SMALL LETTER FEI
Lu, -- (16#003E6#, 16#003E6#) COPTIC CAPITAL LETTER KHEI .. COPTIC CAPITAL LETTER KHEI
Ll, -- (16#003E7#, 16#003E7#) COPTIC SMALL LETTER KHEI .. COPTIC SMALL LETTER KHEI
Lu, -- (16#003E8#, 16#003E8#) COPTIC CAPITAL LETTER HORI .. COPTIC CAPITAL LETTER HORI
Ll, -- (16#003E9#, 16#003E9#) COPTIC SMALL LETTER HORI .. COPTIC SMALL LETTER HORI
Lu, -- (16#003EA#, 16#003EA#) COPTIC CAPITAL LETTER GANGIA .. COPTIC CAPITAL LETTER GANGIA
Ll, -- (16#003EB#, 16#003EB#) COPTIC SMALL LETTER GANGIA .. COPTIC SMALL LETTER GANGIA
Lu, -- (16#003EC#, 16#003EC#) COPTIC CAPITAL LETTER SHIMA .. COPTIC CAPITAL LETTER SHIMA
Ll, -- (16#003ED#, 16#003ED#) COPTIC SMALL LETTER SHIMA .. COPTIC SMALL LETTER SHIMA
Lu, -- (16#003EE#, 16#003EE#) COPTIC CAPITAL LETTER DEI .. COPTIC CAPITAL LETTER DEI
Ll, -- (16#003EF#, 16#003F3#) COPTIC SMALL LETTER DEI .. GREEK LETTER YOT
Lu, -- (16#003F4#, 16#003F4#) GREEK CAPITAL THETA SYMBOL .. GREEK CAPITAL THETA SYMBOL
Ll, -- (16#003F5#, 16#003F5#) GREEK LUNATE EPSILON SYMBOL .. GREEK LUNATE EPSILON SYMBOL
Sm, -- (16#003F6#, 16#003F6#) GREEK REVERSED LUNATE EPSILON SYMBOL .. GREEK REVERSED LUNATE EPSILON SYMBOL
Lu, -- (16#003F7#, 16#003F7#) GREEK CAPITAL LETTER SHO .. GREEK CAPITAL LETTER SHO
Ll, -- (16#003F8#, 16#003F8#) GREEK SMALL LETTER SHO .. GREEK SMALL LETTER SHO
Lu, -- (16#003F9#, 16#003FA#) GREEK CAPITAL LUNATE SIGMA SYMBOL .. GREEK CAPITAL LETTER SAN
Ll, -- (16#003FB#, 16#003FB#) GREEK SMALL LETTER SAN .. GREEK SMALL LETTER SAN
Lu, -- (16#00400#, 16#0042F#) CYRILLIC CAPITAL LETTER IE WITH GRAVE .. CYRILLIC CAPITAL LETTER YA
Ll, -- (16#00430#, 16#0045F#) CYRILLIC SMALL LETTER A .. CYRILLIC SMALL LETTER DZHE
Lu, -- (16#00460#, 16#00460#) CYRILLIC CAPITAL LETTER OMEGA .. CYRILLIC CAPITAL LETTER OMEGA
Ll, -- (16#00461#, 16#00461#) CYRILLIC SMALL LETTER OMEGA .. CYRILLIC SMALL LETTER OMEGA
Lu, -- (16#00462#, 16#00462#) CYRILLIC CAPITAL LETTER YAT .. CYRILLIC CAPITAL LETTER YAT
Ll, -- (16#00463#, 16#00463#) CYRILLIC SMALL LETTER YAT .. CYRILLIC SMALL LETTER YAT
Lu, -- (16#00464#, 16#00464#) CYRILLIC CAPITAL LETTER IOTIFIED E .. CYRILLIC CAPITAL LETTER IOTIFIED E
Ll, -- (16#00465#, 16#00465#) CYRILLIC SMALL LETTER IOTIFIED E .. CYRILLIC SMALL LETTER IOTIFIED E
Lu, -- (16#00466#, 16#00466#) CYRILLIC CAPITAL LETTER LITTLE YUS .. CYRILLIC CAPITAL LETTER LITTLE YUS
Ll, -- (16#00467#, 16#00467#) CYRILLIC SMALL LETTER LITTLE YUS .. CYRILLIC SMALL LETTER LITTLE YUS
Lu, -- (16#00468#, 16#00468#) CYRILLIC CAPITAL LETTER IOTIFIED LITTLE YUS .. CYRILLIC CAPITAL LETTER IOTIFIED LITTLE YUS
Ll, -- (16#00469#, 16#00469#) CYRILLIC SMALL LETTER IOTIFIED LITTLE YUS .. CYRILLIC SMALL LETTER IOTIFIED LITTLE YUS
Lu, -- (16#0046A#, 16#0046A#) CYRILLIC CAPITAL LETTER BIG YUS .. CYRILLIC CAPITAL LETTER BIG YUS
Ll, -- (16#0046B#, 16#0046B#) CYRILLIC SMALL LETTER BIG YUS .. CYRILLIC SMALL LETTER BIG YUS
Lu, -- (16#0046C#, 16#0046C#) CYRILLIC CAPITAL LETTER IOTIFIED BIG YUS .. CYRILLIC CAPITAL LETTER IOTIFIED BIG YUS
Ll, -- (16#0046D#, 16#0046D#) CYRILLIC SMALL LETTER IOTIFIED BIG YUS .. CYRILLIC SMALL LETTER IOTIFIED BIG YUS
Lu, -- (16#0046E#, 16#0046E#) CYRILLIC CAPITAL LETTER KSI .. CYRILLIC CAPITAL LETTER KSI
Ll, -- (16#0046F#, 16#0046F#) CYRILLIC SMALL LETTER KSI .. CYRILLIC SMALL LETTER KSI
Lu, -- (16#00470#, 16#00470#) CYRILLIC CAPITAL LETTER PSI .. CYRILLIC CAPITAL LETTER PSI
Ll, -- (16#00471#, 16#00471#) CYRILLIC SMALL LETTER PSI .. CYRILLIC SMALL LETTER PSI
Lu, -- (16#00472#, 16#00472#) CYRILLIC CAPITAL LETTER FITA .. CYRILLIC CAPITAL LETTER FITA
Ll, -- (16#00473#, 16#00473#) CYRILLIC SMALL LETTER FITA .. CYRILLIC SMALL LETTER FITA
Lu, -- (16#00474#, 16#00474#) CYRILLIC CAPITAL LETTER IZHITSA .. CYRILLIC CAPITAL LETTER IZHITSA
Ll, -- (16#00475#, 16#00475#) CYRILLIC SMALL LETTER IZHITSA .. CYRILLIC SMALL LETTER IZHITSA
Lu, -- (16#00476#, 16#00476#) CYRILLIC CAPITAL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT .. CYRILLIC CAPITAL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT
Ll, -- (16#00477#, 16#00477#) CYRILLIC SMALL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT .. CYRILLIC SMALL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT
Lu, -- (16#00478#, 16#00478#) CYRILLIC CAPITAL LETTER UK .. CYRILLIC CAPITAL LETTER UK
Ll, -- (16#00479#, 16#00479#) CYRILLIC SMALL LETTER UK .. CYRILLIC SMALL LETTER UK
Lu, -- (16#0047A#, 16#0047A#) CYRILLIC CAPITAL LETTER ROUND OMEGA .. CYRILLIC CAPITAL LETTER ROUND OMEGA
Ll, -- (16#0047B#, 16#0047B#) CYRILLIC SMALL LETTER ROUND OMEGA .. CYRILLIC SMALL LETTER ROUND OMEGA
Lu, -- (16#0047C#, 16#0047C#) CYRILLIC CAPITAL LETTER OMEGA WITH TITLO .. CYRILLIC CAPITAL LETTER OMEGA WITH TITLO
Ll, -- (16#0047D#, 16#0047D#) CYRILLIC SMALL LETTER OMEGA WITH TITLO .. CYRILLIC SMALL LETTER OMEGA WITH TITLO
Lu, -- (16#0047E#, 16#0047E#) CYRILLIC CAPITAL LETTER OT .. CYRILLIC CAPITAL LETTER OT
Ll, -- (16#0047F#, 16#0047F#) CYRILLIC SMALL LETTER OT .. CYRILLIC SMALL LETTER OT
Lu, -- (16#00480#, 16#00480#) CYRILLIC CAPITAL LETTER KOPPA .. CYRILLIC CAPITAL LETTER KOPPA
Ll, -- (16#00481#, 16#00481#) CYRILLIC SMALL LETTER KOPPA .. CYRILLIC SMALL LETTER KOPPA
So, -- (16#00482#, 16#00482#) CYRILLIC THOUSANDS SIGN .. CYRILLIC THOUSANDS SIGN
Mn, -- (16#00483#, 16#00486#) COMBINING CYRILLIC TITLO .. COMBINING CYRILLIC PSILI PNEUMATA
Me, -- (16#00488#, 16#00489#) COMBINING CYRILLIC HUNDRED THOUSANDS SIGN .. COMBINING CYRILLIC MILLIONS SIGN
Lu, -- (16#0048A#, 16#0048A#) CYRILLIC CAPITAL LETTER SHORT I WITH TAIL .. CYRILLIC CAPITAL LETTER SHORT I WITH TAIL
Ll, -- (16#0048B#, 16#0048B#) CYRILLIC SMALL LETTER SHORT I WITH TAIL .. CYRILLIC SMALL LETTER SHORT I WITH TAIL
Lu, -- (16#0048C#, 16#0048C#) CYRILLIC CAPITAL LETTER SEMISOFT SIGN .. CYRILLIC CAPITAL LETTER SEMISOFT SIGN
Ll, -- (16#0048D#, 16#0048D#) CYRILLIC SMALL LETTER SEMISOFT SIGN .. CYRILLIC SMALL LETTER SEMISOFT SIGN
Lu, -- (16#0048E#, 16#0048E#) CYRILLIC CAPITAL LETTER ER WITH TICK .. CYRILLIC CAPITAL LETTER ER WITH TICK
Ll, -- (16#0048F#, 16#0048F#) CYRILLIC SMALL LETTER ER WITH TICK .. CYRILLIC SMALL LETTER ER WITH TICK
Lu, -- (16#00490#, 16#00490#) CYRILLIC CAPITAL LETTER GHE WITH UPTURN .. CYRILLIC CAPITAL LETTER GHE WITH UPTURN
Ll, -- (16#00491#, 16#00491#) CYRILLIC SMALL LETTER GHE WITH UPTURN .. CYRILLIC SMALL LETTER GHE WITH UPTURN
Lu, -- (16#00492#, 16#00492#) CYRILLIC CAPITAL LETTER GHE WITH STROKE .. CYRILLIC CAPITAL LETTER GHE WITH STROKE
Ll, -- (16#00493#, 16#00493#) CYRILLIC SMALL LETTER GHE WITH STROKE .. CYRILLIC SMALL LETTER GHE WITH STROKE
Lu, -- (16#00494#, 16#00494#) CYRILLIC CAPITAL LETTER GHE WITH MIDDLE HOOK .. CYRILLIC CAPITAL LETTER GHE WITH MIDDLE HOOK
Ll, -- (16#00495#, 16#00495#) CYRILLIC SMALL LETTER GHE WITH MIDDLE HOOK .. CYRILLIC SMALL LETTER GHE WITH MIDDLE HOOK
Lu, -- (16#00496#, 16#00496#) CYRILLIC CAPITAL LETTER ZHE WITH DESCENDER .. CYRILLIC CAPITAL LETTER ZHE WITH DESCENDER
Ll, -- (16#00497#, 16#00497#) CYRILLIC SMALL LETTER ZHE WITH DESCENDER .. CYRILLIC SMALL LETTER ZHE WITH DESCENDER
Lu, -- (16#00498#, 16#00498#) CYRILLIC CAPITAL LETTER ZE WITH DESCENDER .. CYRILLIC CAPITAL LETTER ZE WITH DESCENDER
Ll, -- (16#00499#, 16#00499#) CYRILLIC SMALL LETTER ZE WITH DESCENDER .. CYRILLIC SMALL LETTER ZE WITH DESCENDER
Lu, -- (16#0049A#, 16#0049A#) CYRILLIC CAPITAL LETTER KA WITH DESCENDER .. CYRILLIC CAPITAL LETTER KA WITH DESCENDER
Ll, -- (16#0049B#, 16#0049B#) CYRILLIC SMALL LETTER KA WITH DESCENDER .. CYRILLIC SMALL LETTER KA WITH DESCENDER
Lu, -- (16#0049C#, 16#0049C#) CYRILLIC CAPITAL LETTER KA WITH VERTICAL STROKE .. CYRILLIC CAPITAL LETTER KA WITH VERTICAL STROKE
Ll, -- (16#0049D#, 16#0049D#) CYRILLIC SMALL LETTER KA WITH VERTICAL STROKE .. CYRILLIC SMALL LETTER KA WITH VERTICAL STROKE
Lu, -- (16#0049E#, 16#0049E#) CYRILLIC CAPITAL LETTER KA WITH STROKE .. CYRILLIC CAPITAL LETTER KA WITH STROKE
Ll, -- (16#0049F#, 16#0049F#) CYRILLIC SMALL LETTER KA WITH STROKE .. CYRILLIC SMALL LETTER KA WITH STROKE
Lu, -- (16#004A0#, 16#004A0#) CYRILLIC CAPITAL LETTER BASHKIR KA .. CYRILLIC CAPITAL LETTER BASHKIR KA
Ll, -- (16#004A1#, 16#004A1#) CYRILLIC SMALL LETTER BASHKIR KA .. CYRILLIC SMALL LETTER BASHKIR KA
Lu, -- (16#004A2#, 16#004A2#) CYRILLIC CAPITAL LETTER EN WITH DESCENDER .. CYRILLIC CAPITAL LETTER EN WITH DESCENDER
Ll, -- (16#004A3#, 16#004A3#) CYRILLIC SMALL LETTER EN WITH DESCENDER .. CYRILLIC SMALL LETTER EN WITH DESCENDER
Lu, -- (16#004A4#, 16#004A4#) CYRILLIC CAPITAL LIGATURE EN GHE .. CYRILLIC CAPITAL LIGATURE EN GHE
Ll, -- (16#004A5#, 16#004A5#) CYRILLIC SMALL LIGATURE EN GHE .. CYRILLIC SMALL LIGATURE EN GHE
Lu, -- (16#004A6#, 16#004A6#) CYRILLIC CAPITAL LETTER PE WITH MIDDLE HOOK .. CYRILLIC CAPITAL LETTER PE WITH MIDDLE HOOK
Ll, -- (16#004A7#, 16#004A7#) CYRILLIC SMALL LETTER PE WITH MIDDLE HOOK .. CYRILLIC SMALL LETTER PE WITH MIDDLE HOOK
Lu, -- (16#004A8#, 16#004A8#) CYRILLIC CAPITAL LETTER ABKHASIAN HA .. CYRILLIC CAPITAL LETTER ABKHASIAN HA
Ll, -- (16#004A9#, 16#004A9#) CYRILLIC SMALL LETTER ABKHASIAN HA .. CYRILLIC SMALL LETTER ABKHASIAN HA
Lu, -- (16#004AA#, 16#004AA#) CYRILLIC CAPITAL LETTER ES WITH DESCENDER .. CYRILLIC CAPITAL LETTER ES WITH DESCENDER
Ll, -- (16#004AB#, 16#004AB#) CYRILLIC SMALL LETTER ES WITH DESCENDER .. CYRILLIC SMALL LETTER ES WITH DESCENDER
Lu, -- (16#004AC#, 16#004AC#) CYRILLIC CAPITAL LETTER TE WITH DESCENDER .. CYRILLIC CAPITAL LETTER TE WITH DESCENDER
Ll, -- (16#004AD#, 16#004AD#) CYRILLIC SMALL LETTER TE WITH DESCENDER .. CYRILLIC SMALL LETTER TE WITH DESCENDER
Lu, -- (16#004AE#, 16#004AE#) CYRILLIC CAPITAL LETTER STRAIGHT U .. CYRILLIC CAPITAL LETTER STRAIGHT U
Ll, -- (16#004AF#, 16#004AF#) CYRILLIC SMALL LETTER STRAIGHT U .. CYRILLIC SMALL LETTER STRAIGHT U
Lu, -- (16#004B0#, 16#004B0#) CYRILLIC CAPITAL LETTER STRAIGHT U WITH STROKE .. CYRILLIC CAPITAL LETTER STRAIGHT U WITH STROKE
Ll, -- (16#004B1#, 16#004B1#) CYRILLIC SMALL LETTER STRAIGHT U WITH STROKE .. CYRILLIC SMALL LETTER STRAIGHT U WITH STROKE
Lu, -- (16#004B2#, 16#004B2#) CYRILLIC CAPITAL LETTER HA WITH DESCENDER .. CYRILLIC CAPITAL LETTER HA WITH DESCENDER
Ll, -- (16#004B3#, 16#004B3#) CYRILLIC SMALL LETTER HA WITH DESCENDER .. CYRILLIC SMALL LETTER HA WITH DESCENDER
Lu, -- (16#004B4#, 16#004B4#) CYRILLIC CAPITAL LIGATURE TE TSE .. CYRILLIC CAPITAL LIGATURE TE TSE
Ll, -- (16#004B5#, 16#004B5#) CYRILLIC SMALL LIGATURE TE TSE .. CYRILLIC SMALL LIGATURE TE TSE
Lu, -- (16#004B6#, 16#004B6#) CYRILLIC CAPITAL LETTER CHE WITH DESCENDER .. CYRILLIC CAPITAL LETTER CHE WITH DESCENDER
Ll, -- (16#004B7#, 16#004B7#) CYRILLIC SMALL LETTER CHE WITH DESCENDER .. CYRILLIC SMALL LETTER CHE WITH DESCENDER
Lu, -- (16#004B8#, 16#004B8#) CYRILLIC CAPITAL LETTER CHE WITH VERTICAL STROKE .. CYRILLIC CAPITAL LETTER CHE WITH VERTICAL STROKE
Ll, -- (16#004B9#, 16#004B9#) CYRILLIC SMALL LETTER CHE WITH VERTICAL STROKE .. CYRILLIC SMALL LETTER CHE WITH VERTICAL STROKE
Lu, -- (16#004BA#, 16#004BA#) CYRILLIC CAPITAL LETTER SHHA .. CYRILLIC CAPITAL LETTER SHHA
Ll, -- (16#004BB#, 16#004BB#) CYRILLIC SMALL LETTER SHHA .. CYRILLIC SMALL LETTER SHHA
Lu, -- (16#004BC#, 16#004BC#) CYRILLIC CAPITAL LETTER ABKHASIAN CHE .. CYRILLIC CAPITAL LETTER ABKHASIAN CHE
Ll, -- (16#004BD#, 16#004BD#) CYRILLIC SMALL LETTER ABKHASIAN CHE .. CYRILLIC SMALL LETTER ABKHASIAN CHE
Lu, -- (16#004BE#, 16#004BE#) CYRILLIC CAPITAL LETTER ABKHASIAN CHE WITH DESCENDER .. CYRILLIC CAPITAL LETTER ABKHASIAN CHE WITH DESCENDER
Ll, -- (16#004BF#, 16#004BF#) CYRILLIC SMALL LETTER ABKHASIAN CHE WITH DESCENDER .. CYRILLIC SMALL LETTER ABKHASIAN CHE WITH DESCENDER
Lu, -- (16#004C0#, 16#004C1#) CYRILLIC LETTER PALOCHKA .. CYRILLIC CAPITAL LETTER ZHE WITH BREVE
Ll, -- (16#004C2#, 16#004C2#) CYRILLIC SMALL LETTER ZHE WITH BREVE .. CYRILLIC SMALL LETTER ZHE WITH BREVE
Lu, -- (16#004C3#, 16#004C3#) CYRILLIC CAPITAL LETTER KA WITH HOOK .. CYRILLIC CAPITAL LETTER KA WITH HOOK
Ll, -- (16#004C4#, 16#004C4#) CYRILLIC SMALL LETTER KA WITH HOOK .. CYRILLIC SMALL LETTER KA WITH HOOK
Lu, -- (16#004C5#, 16#004C5#) CYRILLIC CAPITAL LETTER EL WITH TAIL .. CYRILLIC CAPITAL LETTER EL WITH TAIL
Ll, -- (16#004C6#, 16#004C6#) CYRILLIC SMALL LETTER EL WITH TAIL .. CYRILLIC SMALL LETTER EL WITH TAIL
Lu, -- (16#004C7#, 16#004C7#) CYRILLIC CAPITAL LETTER EN WITH HOOK .. CYRILLIC CAPITAL LETTER EN WITH HOOK
Ll, -- (16#004C8#, 16#004C8#) CYRILLIC SMALL LETTER EN WITH HOOK .. CYRILLIC SMALL LETTER EN WITH HOOK
Lu, -- (16#004C9#, 16#004C9#) CYRILLIC CAPITAL LETTER EN WITH TAIL .. CYRILLIC CAPITAL LETTER EN WITH TAIL
Ll, -- (16#004CA#, 16#004CA#) CYRILLIC SMALL LETTER EN WITH TAIL .. CYRILLIC SMALL LETTER EN WITH TAIL
Lu, -- (16#004CB#, 16#004CB#) CYRILLIC CAPITAL LETTER KHAKASSIAN CHE .. CYRILLIC CAPITAL LETTER KHAKASSIAN CHE
Ll, -- (16#004CC#, 16#004CC#) CYRILLIC SMALL LETTER KHAKASSIAN CHE .. CYRILLIC SMALL LETTER KHAKASSIAN CHE
Lu, -- (16#004CD#, 16#004CD#) CYRILLIC CAPITAL LETTER EM WITH TAIL .. CYRILLIC CAPITAL LETTER EM WITH TAIL
Ll, -- (16#004CE#, 16#004CE#) CYRILLIC SMALL LETTER EM WITH TAIL .. CYRILLIC SMALL LETTER EM WITH TAIL
Lu, -- (16#004D0#, 16#004D0#) CYRILLIC CAPITAL LETTER A WITH BREVE .. CYRILLIC CAPITAL LETTER A WITH BREVE
Ll, -- (16#004D1#, 16#004D1#) CYRILLIC SMALL LETTER A WITH BREVE .. CYRILLIC SMALL LETTER A WITH BREVE
Lu, -- (16#004D2#, 16#004D2#) CYRILLIC CAPITAL LETTER A WITH DIAERESIS .. CYRILLIC CAPITAL LETTER A WITH DIAERESIS
Ll, -- (16#004D3#, 16#004D3#) CYRILLIC SMALL LETTER A WITH DIAERESIS .. CYRILLIC SMALL LETTER A WITH DIAERESIS
Lu, -- (16#004D4#, 16#004D4#) CYRILLIC CAPITAL LIGATURE A IE .. CYRILLIC CAPITAL LIGATURE A IE
Ll, -- (16#004D5#, 16#004D5#) CYRILLIC SMALL LIGATURE A IE .. CYRILLIC SMALL LIGATURE A IE
Lu, -- (16#004D6#, 16#004D6#) CYRILLIC CAPITAL LETTER IE WITH BREVE .. CYRILLIC CAPITAL LETTER IE WITH BREVE
Ll, -- (16#004D7#, 16#004D7#) CYRILLIC SMALL LETTER IE WITH BREVE .. CYRILLIC SMALL LETTER IE WITH BREVE
Lu, -- (16#004D8#, 16#004D8#) CYRILLIC CAPITAL LETTER SCHWA .. CYRILLIC CAPITAL LETTER SCHWA
Ll, -- (16#004D9#, 16#004D9#) CYRILLIC SMALL LETTER SCHWA .. CYRILLIC SMALL LETTER SCHWA
Lu, -- (16#004DA#, 16#004DA#) CYRILLIC CAPITAL LETTER SCHWA WITH DIAERESIS .. CYRILLIC CAPITAL LETTER SCHWA WITH DIAERESIS
Ll, -- (16#004DB#, 16#004DB#) CYRILLIC SMALL LETTER SCHWA WITH DIAERESIS .. CYRILLIC SMALL LETTER SCHWA WITH DIAERESIS
Lu, -- (16#004DC#, 16#004DC#) CYRILLIC CAPITAL LETTER ZHE WITH DIAERESIS .. CYRILLIC CAPITAL LETTER ZHE WITH DIAERESIS
Ll, -- (16#004DD#, 16#004DD#) CYRILLIC SMALL LETTER ZHE WITH DIAERESIS .. CYRILLIC SMALL LETTER ZHE WITH DIAERESIS
Lu, -- (16#004DE#, 16#004DE#) CYRILLIC CAPITAL LETTER ZE WITH DIAERESIS .. CYRILLIC CAPITAL LETTER ZE WITH DIAERESIS
Ll, -- (16#004DF#, 16#004DF#) CYRILLIC SMALL LETTER ZE WITH DIAERESIS .. CYRILLIC SMALL LETTER ZE WITH DIAERESIS
Lu, -- (16#004E0#, 16#004E0#) CYRILLIC CAPITAL LETTER ABKHASIAN DZE .. CYRILLIC CAPITAL LETTER ABKHASIAN DZE
Ll, -- (16#004E1#, 16#004E1#) CYRILLIC SMALL LETTER ABKHASIAN DZE .. CYRILLIC SMALL LETTER ABKHASIAN DZE
Lu, -- (16#004E2#, 16#004E2#) CYRILLIC CAPITAL LETTER I WITH MACRON .. CYRILLIC CAPITAL LETTER I WITH MACRON
Ll, -- (16#004E3#, 16#004E3#) CYRILLIC SMALL LETTER I WITH MACRON .. CYRILLIC SMALL LETTER I WITH MACRON
Lu, -- (16#004E4#, 16#004E4#) CYRILLIC CAPITAL LETTER I WITH DIAERESIS .. CYRILLIC CAPITAL LETTER I WITH DIAERESIS
Ll, -- (16#004E5#, 16#004E5#) CYRILLIC SMALL LETTER I WITH DIAERESIS .. CYRILLIC SMALL LETTER I WITH DIAERESIS
Lu, -- (16#004E6#, 16#004E6#) CYRILLIC CAPITAL LETTER O WITH DIAERESIS .. CYRILLIC CAPITAL LETTER O WITH DIAERESIS
Ll, -- (16#004E7#, 16#004E7#) CYRILLIC SMALL LETTER O WITH DIAERESIS .. CYRILLIC SMALL LETTER O WITH DIAERESIS
Lu, -- (16#004E8#, 16#004E8#) CYRILLIC CAPITAL LETTER BARRED O .. CYRILLIC CAPITAL LETTER BARRED O
Ll, -- (16#004E9#, 16#004E9#) CYRILLIC SMALL LETTER BARRED O .. CYRILLIC SMALL LETTER BARRED O
Lu, -- (16#004EA#, 16#004EA#) CYRILLIC CAPITAL LETTER BARRED O WITH DIAERESIS .. CYRILLIC CAPITAL LETTER BARRED O WITH DIAERESIS
Ll, -- (16#004EB#, 16#004EB#) CYRILLIC SMALL LETTER BARRED O WITH DIAERESIS .. CYRILLIC SMALL LETTER BARRED O WITH DIAERESIS
Lu, -- (16#004EC#, 16#004EC#) CYRILLIC CAPITAL LETTER E WITH DIAERESIS .. CYRILLIC CAPITAL LETTER E WITH DIAERESIS
Ll, -- (16#004ED#, 16#004ED#) CYRILLIC SMALL LETTER E WITH DIAERESIS .. CYRILLIC SMALL LETTER E WITH DIAERESIS
Lu, -- (16#004EE#, 16#004EE#) CYRILLIC CAPITAL LETTER U WITH MACRON .. CYRILLIC CAPITAL LETTER U WITH MACRON
Ll, -- (16#004EF#, 16#004EF#) CYRILLIC SMALL LETTER U WITH MACRON .. CYRILLIC SMALL LETTER U WITH MACRON
Lu, -- (16#004F0#, 16#004F0#) CYRILLIC CAPITAL LETTER U WITH DIAERESIS .. CYRILLIC CAPITAL LETTER U WITH DIAERESIS
Ll, -- (16#004F1#, 16#004F1#) CYRILLIC SMALL LETTER U WITH DIAERESIS .. CYRILLIC SMALL LETTER U WITH DIAERESIS
Lu, -- (16#004F2#, 16#004F2#) CYRILLIC CAPITAL LETTER U WITH DOUBLE ACUTE .. CYRILLIC CAPITAL LETTER U WITH DOUBLE ACUTE
Ll, -- (16#004F3#, 16#004F3#) CYRILLIC SMALL LETTER U WITH DOUBLE ACUTE .. CYRILLIC SMALL LETTER U WITH DOUBLE ACUTE
Lu, -- (16#004F4#, 16#004F4#) CYRILLIC CAPITAL LETTER CHE WITH DIAERESIS .. CYRILLIC CAPITAL LETTER CHE WITH DIAERESIS
Ll, -- (16#004F5#, 16#004F5#) CYRILLIC SMALL LETTER CHE WITH DIAERESIS .. CYRILLIC SMALL LETTER CHE WITH DIAERESIS
Lu, -- (16#004F8#, 16#004F8#) CYRILLIC CAPITAL LETTER YERU WITH DIAERESIS .. CYRILLIC CAPITAL LETTER YERU WITH DIAERESIS
Ll, -- (16#004F9#, 16#004F9#) CYRILLIC SMALL LETTER YERU WITH DIAERESIS .. CYRILLIC SMALL LETTER YERU WITH DIAERESIS
Lu, -- (16#00500#, 16#00500#) CYRILLIC CAPITAL LETTER KOMI DE .. CYRILLIC CAPITAL LETTER KOMI DE
Ll, -- (16#00501#, 16#00501#) CYRILLIC SMALL LETTER KOMI DE .. CYRILLIC SMALL LETTER KOMI DE
Lu, -- (16#00502#, 16#00502#) CYRILLIC CAPITAL LETTER KOMI DJE .. CYRILLIC CAPITAL LETTER KOMI DJE
Ll, -- (16#00503#, 16#00503#) CYRILLIC SMALL LETTER KOMI DJE .. CYRILLIC SMALL LETTER KOMI DJE
Lu, -- (16#00504#, 16#00504#) CYRILLIC CAPITAL LETTER KOMI ZJE .. CYRILLIC CAPITAL LETTER KOMI ZJE
Ll, -- (16#00505#, 16#00505#) CYRILLIC SMALL LETTER KOMI ZJE .. CYRILLIC SMALL LETTER KOMI ZJE
Lu, -- (16#00506#, 16#00506#) CYRILLIC CAPITAL LETTER KOMI DZJE .. CYRILLIC CAPITAL LETTER KOMI DZJE
Ll, -- (16#00507#, 16#00507#) CYRILLIC SMALL LETTER KOMI DZJE .. CYRILLIC SMALL LETTER KOMI DZJE
Lu, -- (16#00508#, 16#00508#) CYRILLIC CAPITAL LETTER KOMI LJE .. CYRILLIC CAPITAL LETTER KOMI LJE
Ll, -- (16#00509#, 16#00509#) CYRILLIC SMALL LETTER KOMI LJE .. CYRILLIC SMALL LETTER KOMI LJE
Lu, -- (16#0050A#, 16#0050A#) CYRILLIC CAPITAL LETTER KOMI NJE .. CYRILLIC CAPITAL LETTER KOMI NJE
Ll, -- (16#0050B#, 16#0050B#) CYRILLIC SMALL LETTER KOMI NJE .. CYRILLIC SMALL LETTER KOMI NJE
Lu, -- (16#0050C#, 16#0050C#) CYRILLIC CAPITAL LETTER KOMI SJE .. CYRILLIC CAPITAL LETTER KOMI SJE
Ll, -- (16#0050D#, 16#0050D#) CYRILLIC SMALL LETTER KOMI SJE .. CYRILLIC SMALL LETTER KOMI SJE
Lu, -- (16#0050E#, 16#0050E#) CYRILLIC CAPITAL LETTER KOMI TJE .. CYRILLIC CAPITAL LETTER KOMI TJE
Ll, -- (16#0050F#, 16#0050F#) CYRILLIC SMALL LETTER KOMI TJE .. CYRILLIC SMALL LETTER KOMI TJE
Lu, -- (16#00531#, 16#00556#) ARMENIAN CAPITAL LETTER AYB .. ARMENIAN CAPITAL LETTER FEH
Lm, -- (16#00559#, 16#00559#) ARMENIAN MODIFIER LETTER LEFT HALF RING .. ARMENIAN MODIFIER LETTER LEFT HALF RING
Po, -- (16#0055A#, 16#0055F#) ARMENIAN APOSTROPHE .. ARMENIAN ABBREVIATION MARK
Ll, -- (16#00561#, 16#00587#) ARMENIAN SMALL LETTER AYB .. ARMENIAN SMALL LIGATURE ECH YIWN
Po, -- (16#00589#, 16#00589#) ARMENIAN FULL STOP .. ARMENIAN FULL STOP
Pd, -- (16#0058A#, 16#0058A#) ARMENIAN HYPHEN .. ARMENIAN HYPHEN
Mn, -- (16#00591#, 16#005A1#) HEBREW ACCENT ETNAHTA .. HEBREW ACCENT PAZER
Mn, -- (16#005A3#, 16#005B9#) HEBREW ACCENT MUNAH .. HEBREW POINT HOLAM
Mn, -- (16#005BB#, 16#005BD#) HEBREW POINT QUBUTS .. HEBREW POINT METEG
Po, -- (16#005BE#, 16#005BE#) HEBREW PUNCTUATION MAQAF .. HEBREW PUNCTUATION MAQAF
Mn, -- (16#005BF#, 16#005BF#) HEBREW POINT RAFE .. HEBREW POINT RAFE
Po, -- (16#005C0#, 16#005C0#) HEBREW PUNCTUATION PASEQ .. HEBREW PUNCTUATION PASEQ
Mn, -- (16#005C1#, 16#005C2#) HEBREW POINT SHIN DOT .. HEBREW POINT SIN DOT
Po, -- (16#005C3#, 16#005C3#) HEBREW PUNCTUATION SOF PASUQ .. HEBREW PUNCTUATION SOF PASUQ
Mn, -- (16#005C4#, 16#005C4#) HEBREW MARK UPPER DOT .. HEBREW MARK UPPER DOT
Lo, -- (16#005D0#, 16#005EA#) HEBREW LETTER ALEF .. HEBREW LETTER TAV
Lo, -- (16#005F0#, 16#005F2#) HEBREW LIGATURE YIDDISH DOUBLE VAV .. HEBREW LIGATURE YIDDISH DOUBLE YOD
Po, -- (16#005F3#, 16#005F4#) HEBREW PUNCTUATION GERESH .. HEBREW PUNCTUATION GERSHAYIM
Cf, -- (16#00600#, 16#00603#) ARABIC NUMBER SIGN .. ARABIC SIGN SAFHA
Po, -- (16#0060C#, 16#0060D#) ARABIC COMMA .. ARABIC DATE SEPARATOR
So, -- (16#0060E#, 16#0060F#) ARABIC POETIC VERSE SIGN .. ARABIC SIGN MISRA
Mn, -- (16#00610#, 16#00615#) ARABIC SIGN SALLALLAHOU ALAYHE WASSALLAM .. ARABIC SMALL HIGH TAH
Po, -- (16#0061B#, 16#0061B#) ARABIC SEMICOLON .. ARABIC SEMICOLON
Po, -- (16#0061F#, 16#0061F#) ARABIC QUESTION MARK .. ARABIC QUESTION MARK
Lo, -- (16#00621#, 16#0063A#) ARABIC LETTER HAMZA .. ARABIC LETTER GHAIN
Lm, -- (16#00640#, 16#00640#) ARABIC TATWEEL .. ARABIC TATWEEL
Lo, -- (16#00641#, 16#0064A#) ARABIC LETTER FEH .. ARABIC LETTER YEH
Mn, -- (16#0064B#, 16#00658#) ARABIC FATHATAN .. ARABIC MARK NOON GHUNNA
Nd, -- (16#00660#, 16#00669#) ARABIC-INDIC DIGIT ZERO .. ARABIC-INDIC DIGIT NINE
Po, -- (16#0066A#, 16#0066D#) ARABIC PERCENT SIGN .. ARABIC FIVE POINTED STAR
Lo, -- (16#0066E#, 16#0066F#) ARABIC LETTER DOTLESS BEH .. ARABIC LETTER DOTLESS QAF
Mn, -- (16#00670#, 16#00670#) ARABIC LETTER SUPERSCRIPT ALEF .. ARABIC LETTER SUPERSCRIPT ALEF
Lo, -- (16#00671#, 16#006D3#) ARABIC LETTER ALEF WASLA .. ARABIC LETTER YEH BARREE WITH HAMZA ABOVE
Po, -- (16#006D4#, 16#006D4#) ARABIC FULL STOP .. ARABIC FULL STOP
Lo, -- (16#006D5#, 16#006D5#) ARABIC LETTER AE .. ARABIC LETTER AE
Mn, -- (16#006D6#, 16#006DC#) ARABIC SMALL HIGH LIGATURE SAD WITH LAM WITH ALEF MAKSURA .. ARABIC SMALL HIGH SEEN
Cf, -- (16#006DD#, 16#006DD#) ARABIC END OF AYAH .. ARABIC END OF AYAH
Me, -- (16#006DE#, 16#006DE#) ARABIC START OF RUB EL HIZB .. ARABIC START OF RUB EL HIZB
Mn, -- (16#006DF#, 16#006E4#) ARABIC SMALL HIGH ROUNDED ZERO .. ARABIC SMALL HIGH MADDA
Lm, -- (16#006E5#, 16#006E6#) ARABIC SMALL WAW .. ARABIC SMALL YEH
Mn, -- (16#006E7#, 16#006E8#) ARABIC SMALL HIGH YEH .. ARABIC SMALL HIGH NOON
So, -- (16#006E9#, 16#006E9#) ARABIC PLACE OF SAJDAH .. ARABIC PLACE OF SAJDAH
Mn, -- (16#006EA#, 16#006ED#) ARABIC EMPTY CENTRE LOW STOP .. ARABIC SMALL LOW MEEM
Lo, -- (16#006EE#, 16#006EF#) ARABIC LETTER DAL WITH INVERTED V .. ARABIC LETTER REH WITH INVERTED V
Nd, -- (16#006F0#, 16#006F9#) EXTENDED ARABIC-INDIC DIGIT ZERO .. EXTENDED ARABIC-INDIC DIGIT NINE
Lo, -- (16#006FA#, 16#006FC#) ARABIC LETTER SHEEN WITH DOT BELOW .. ARABIC LETTER GHAIN WITH DOT BELOW
So, -- (16#006FD#, 16#006FE#) ARABIC SIGN SINDHI AMPERSAND .. ARABIC SIGN SINDHI POSTPOSITION MEN
Lo, -- (16#006FF#, 16#006FF#) ARABIC LETTER HEH WITH INVERTED V .. ARABIC LETTER HEH WITH INVERTED V
Po, -- (16#00700#, 16#0070D#) SYRIAC END OF PARAGRAPH .. SYRIAC HARKLEAN ASTERISCUS
Cf, -- (16#0070F#, 16#0070F#) SYRIAC ABBREVIATION MARK .. SYRIAC ABBREVIATION MARK
Lo, -- (16#00710#, 16#00710#) SYRIAC LETTER ALAPH .. SYRIAC LETTER ALAPH
Mn, -- (16#00711#, 16#00711#) SYRIAC LETTER SUPERSCRIPT ALAPH .. SYRIAC LETTER SUPERSCRIPT ALAPH
Lo, -- (16#00712#, 16#0072F#) SYRIAC LETTER BETH .. SYRIAC LETTER PERSIAN DHALATH
Mn, -- (16#00730#, 16#0074A#) SYRIAC PTHAHA ABOVE .. SYRIAC BARREKH
Lo, -- (16#0074D#, 16#0074F#) SYRIAC LETTER SOGDIAN ZHAIN .. SYRIAC LETTER SOGDIAN FE
Lo, -- (16#00780#, 16#007A5#) THAANA LETTER HAA .. THAANA LETTER WAAVU
Mn, -- (16#007A6#, 16#007B0#) THAANA ABAFILI .. THAANA SUKUN
Lo, -- (16#007B1#, 16#007B1#) THAANA LETTER NAA .. THAANA LETTER NAA
Mn, -- (16#00901#, 16#00902#) DEVANAGARI SIGN CANDRABINDU .. DEVANAGARI SIGN ANUSVARA
Mc, -- (16#00903#, 16#00903#) DEVANAGARI SIGN VISARGA .. DEVANAGARI SIGN VISARGA
Lo, -- (16#00904#, 16#00939#) DEVANAGARI LETTER SHORT A .. DEVANAGARI LETTER HA
Mn, -- (16#0093C#, 16#0093C#) DEVANAGARI SIGN NUKTA .. DEVANAGARI SIGN NUKTA
Lo, -- (16#0093D#, 16#0093D#) DEVANAGARI SIGN AVAGRAHA .. DEVANAGARI SIGN AVAGRAHA
Mc, -- (16#0093E#, 16#00940#) DEVANAGARI VOWEL SIGN AA .. DEVANAGARI VOWEL SIGN II
Mn, -- (16#00941#, 16#00948#) DEVANAGARI VOWEL SIGN U .. DEVANAGARI VOWEL SIGN AI
Mc, -- (16#00949#, 16#0094C#) DEVANAGARI VOWEL SIGN CANDRA O .. DEVANAGARI VOWEL SIGN AU
Mn, -- (16#0094D#, 16#0094D#) DEVANAGARI SIGN VIRAMA .. DEVANAGARI SIGN VIRAMA
Lo, -- (16#00950#, 16#00950#) DEVANAGARI OM .. DEVANAGARI OM
Mn, -- (16#00951#, 16#00954#) DEVANAGARI STRESS SIGN UDATTA .. DEVANAGARI ACUTE ACCENT
Lo, -- (16#00958#, 16#00961#) DEVANAGARI LETTER QA .. DEVANAGARI LETTER VOCALIC LL
Mn, -- (16#00962#, 16#00963#) DEVANAGARI VOWEL SIGN VOCALIC L .. DEVANAGARI VOWEL SIGN VOCALIC LL
Po, -- (16#00964#, 16#00965#) DEVANAGARI DANDA .. DEVANAGARI DOUBLE DANDA
Nd, -- (16#00966#, 16#0096F#) DEVANAGARI DIGIT ZERO .. DEVANAGARI DIGIT NINE
Po, -- (16#00970#, 16#00970#) DEVANAGARI ABBREVIATION SIGN .. DEVANAGARI ABBREVIATION SIGN
Mn, -- (16#00981#, 16#00981#) BENGALI SIGN CANDRABINDU .. BENGALI SIGN CANDRABINDU
Mc, -- (16#00982#, 16#00983#) BENGALI SIGN ANUSVARA .. BENGALI SIGN VISARGA
Lo, -- (16#00985#, 16#0098C#) BENGALI LETTER A .. BENGALI LETTER VOCALIC L
Lo, -- (16#0098F#, 16#00990#) BENGALI LETTER E .. BENGALI LETTER AI
Lo, -- (16#00993#, 16#009A8#) BENGALI LETTER O .. BENGALI LETTER NA
Lo, -- (16#009AA#, 16#009B0#) BENGALI LETTER PA .. BENGALI LETTER RA
Lo, -- (16#009B2#, 16#009B2#) BENGALI LETTER LA .. BENGALI LETTER LA
Lo, -- (16#009B6#, 16#009B9#) BENGALI LETTER SHA .. BENGALI LETTER HA
Mn, -- (16#009BC#, 16#009BC#) BENGALI SIGN NUKTA .. BENGALI SIGN NUKTA
Lo, -- (16#009BD#, 16#009BD#) BENGALI SIGN AVAGRAHA .. BENGALI SIGN AVAGRAHA
Mc, -- (16#009BE#, 16#009C0#) BENGALI VOWEL SIGN AA .. BENGALI VOWEL SIGN II
Mn, -- (16#009C1#, 16#009C4#) BENGALI VOWEL SIGN U .. BENGALI VOWEL SIGN VOCALIC RR
Mc, -- (16#009C7#, 16#009C8#) BENGALI VOWEL SIGN E .. BENGALI VOWEL SIGN AI
Mc, -- (16#009CB#, 16#009CC#) BENGALI VOWEL SIGN O .. BENGALI VOWEL SIGN AU
Mn, -- (16#009CD#, 16#009CD#) BENGALI SIGN VIRAMA .. BENGALI SIGN VIRAMA
Mc, -- (16#009D7#, 16#009D7#) BENGALI AU LENGTH MARK .. BENGALI AU LENGTH MARK
Lo, -- (16#009DC#, 16#009DD#) BENGALI LETTER RRA .. BENGALI LETTER RHA
Lo, -- (16#009DF#, 16#009E1#) BENGALI LETTER YYA .. BENGALI LETTER VOCALIC LL
Mn, -- (16#009E2#, 16#009E3#) BENGALI VOWEL SIGN VOCALIC L .. BENGALI VOWEL SIGN VOCALIC LL
Nd, -- (16#009E6#, 16#009EF#) BENGALI DIGIT ZERO .. BENGALI DIGIT NINE
Lo, -- (16#009F0#, 16#009F1#) BENGALI LETTER RA WITH MIDDLE DIAGONAL .. BENGALI LETTER RA WITH LOWER DIAGONAL
Sc, -- (16#009F2#, 16#009F3#) BENGALI RUPEE MARK .. BENGALI RUPEE SIGN
No, -- (16#009F4#, 16#009F9#) BENGALI CURRENCY NUMERATOR ONE .. BENGALI CURRENCY DENOMINATOR SIXTEEN
So, -- (16#009FA#, 16#009FA#) BENGALI ISSHAR .. BENGALI ISSHAR
Mn, -- (16#00A01#, 16#00A02#) GURMUKHI SIGN ADAK BINDI .. GURMUKHI SIGN BINDI
Mc, -- (16#00A03#, 16#00A03#) GURMUKHI SIGN VISARGA .. GURMUKHI SIGN VISARGA
Lo, -- (16#00A05#, 16#00A0A#) GURMUKHI LETTER A .. GURMUKHI LETTER UU
Lo, -- (16#00A0F#, 16#00A10#) GURMUKHI LETTER EE .. GURMUKHI LETTER AI
Lo, -- (16#00A13#, 16#00A28#) GURMUKHI LETTER OO .. GURMUKHI LETTER NA
Lo, -- (16#00A2A#, 16#00A30#) GURMUKHI LETTER PA .. GURMUKHI LETTER RA
Lo, -- (16#00A32#, 16#00A33#) GURMUKHI LETTER LA .. GURMUKHI LETTER LLA
Lo, -- (16#00A35#, 16#00A36#) GURMUKHI LETTER VA .. GURMUKHI LETTER SHA
Lo, -- (16#00A38#, 16#00A39#) GURMUKHI LETTER SA .. GURMUKHI LETTER HA
Mn, -- (16#00A3C#, 16#00A3C#) GURMUKHI SIGN NUKTA .. GURMUKHI SIGN NUKTA
Mc, -- (16#00A3E#, 16#00A40#) GURMUKHI VOWEL SIGN AA .. GURMUKHI VOWEL SIGN II
Mn, -- (16#00A41#, 16#00A42#) GURMUKHI VOWEL SIGN U .. GURMUKHI VOWEL SIGN UU
Mn, -- (16#00A47#, 16#00A48#) GURMUKHI VOWEL SIGN EE .. GURMUKHI VOWEL SIGN AI
Mn, -- (16#00A4B#, 16#00A4D#) GURMUKHI VOWEL SIGN OO .. GURMUKHI SIGN VIRAMA
Lo, -- (16#00A59#, 16#00A5C#) GURMUKHI LETTER KHHA .. GURMUKHI LETTER RRA
Lo, -- (16#00A5E#, 16#00A5E#) GURMUKHI LETTER FA .. GURMUKHI LETTER FA
Nd, -- (16#00A66#, 16#00A6F#) GURMUKHI DIGIT ZERO .. GURMUKHI DIGIT NINE
Mn, -- (16#00A70#, 16#00A71#) GURMUKHI TIPPI .. GURMUKHI ADDAK
Lo, -- (16#00A72#, 16#00A74#) GURMUKHI IRI .. GURMUKHI EK ONKAR
Mn, -- (16#00A81#, 16#00A82#) GUJARATI SIGN CANDRABINDU .. GUJARATI SIGN ANUSVARA
Mc, -- (16#00A83#, 16#00A83#) GUJARATI SIGN VISARGA .. GUJARATI SIGN VISARGA
Lo, -- (16#00A85#, 16#00A8D#) GUJARATI LETTER A .. GUJARATI VOWEL CANDRA E
Lo, -- (16#00A8F#, 16#00A91#) GUJARATI LETTER E .. GUJARATI VOWEL CANDRA O
Lo, -- (16#00A93#, 16#00AA8#) GUJARATI LETTER O .. GUJARATI LETTER NA
Lo, -- (16#00AAA#, 16#00AB0#) GUJARATI LETTER PA .. GUJARATI LETTER RA
Lo, -- (16#00AB2#, 16#00AB3#) GUJARATI LETTER LA .. GUJARATI LETTER LLA
Lo, -- (16#00AB5#, 16#00AB9#) GUJARATI LETTER VA .. GUJARATI LETTER HA
Mn, -- (16#00ABC#, 16#00ABC#) GUJARATI SIGN NUKTA .. GUJARATI SIGN NUKTA
Lo, -- (16#00ABD#, 16#00ABD#) GUJARATI SIGN AVAGRAHA .. GUJARATI SIGN AVAGRAHA
Mc, -- (16#00ABE#, 16#00AC0#) GUJARATI VOWEL SIGN AA .. GUJARATI VOWEL SIGN II
Mn, -- (16#00AC1#, 16#00AC5#) GUJARATI VOWEL SIGN U .. GUJARATI VOWEL SIGN CANDRA E
Mn, -- (16#00AC7#, 16#00AC8#) GUJARATI VOWEL SIGN E .. GUJARATI VOWEL SIGN AI
Mc, -- (16#00AC9#, 16#00AC9#) GUJARATI VOWEL SIGN CANDRA O .. GUJARATI VOWEL SIGN CANDRA O
Mc, -- (16#00ACB#, 16#00ACC#) GUJARATI VOWEL SIGN O .. GUJARATI VOWEL SIGN AU
Mn, -- (16#00ACD#, 16#00ACD#) GUJARATI SIGN VIRAMA .. GUJARATI SIGN VIRAMA
Lo, -- (16#00AD0#, 16#00AD0#) GUJARATI OM .. GUJARATI OM
Lo, -- (16#00AE0#, 16#00AE1#) GUJARATI LETTER VOCALIC RR .. GUJARATI LETTER VOCALIC LL
Mn, -- (16#00AE2#, 16#00AE3#) GUJARATI VOWEL SIGN VOCALIC L .. GUJARATI VOWEL SIGN VOCALIC LL
Nd, -- (16#00AE6#, 16#00AEF#) GUJARATI DIGIT ZERO .. GUJARATI DIGIT NINE
Sc, -- (16#00AF1#, 16#00AF1#) GUJARATI RUPEE SIGN .. GUJARATI RUPEE SIGN
Mn, -- (16#00B01#, 16#00B01#) ORIYA SIGN CANDRABINDU .. ORIYA SIGN CANDRABINDU
Mc, -- (16#00B02#, 16#00B03#) ORIYA SIGN ANUSVARA .. ORIYA SIGN VISARGA
Lo, -- (16#00B05#, 16#00B0C#) ORIYA LETTER A .. ORIYA LETTER VOCALIC L
Lo, -- (16#00B0F#, 16#00B10#) ORIYA LETTER E .. ORIYA LETTER AI
Lo, -- (16#00B13#, 16#00B28#) ORIYA LETTER O .. ORIYA LETTER NA
Lo, -- (16#00B2A#, 16#00B30#) ORIYA LETTER PA .. ORIYA LETTER RA
Lo, -- (16#00B32#, 16#00B33#) ORIYA LETTER LA .. ORIYA LETTER LLA
Lo, -- (16#00B35#, 16#00B39#) ORIYA LETTER VA .. ORIYA LETTER HA
Mn, -- (16#00B3C#, 16#00B3C#) ORIYA SIGN NUKTA .. ORIYA SIGN NUKTA
Lo, -- (16#00B3D#, 16#00B3D#) ORIYA SIGN AVAGRAHA .. ORIYA SIGN AVAGRAHA
Mc, -- (16#00B3E#, 16#00B3E#) ORIYA VOWEL SIGN AA .. ORIYA VOWEL SIGN AA
Mn, -- (16#00B3F#, 16#00B3F#) ORIYA VOWEL SIGN I .. ORIYA VOWEL SIGN I
Mc, -- (16#00B40#, 16#00B40#) ORIYA VOWEL SIGN II .. ORIYA VOWEL SIGN II
Mn, -- (16#00B41#, 16#00B43#) ORIYA VOWEL SIGN U .. ORIYA VOWEL SIGN VOCALIC R
Mc, -- (16#00B47#, 16#00B48#) ORIYA VOWEL SIGN E .. ORIYA VOWEL SIGN AI
Mc, -- (16#00B4B#, 16#00B4C#) ORIYA VOWEL SIGN O .. ORIYA VOWEL SIGN AU
Mn, -- (16#00B4D#, 16#00B4D#) ORIYA SIGN VIRAMA .. ORIYA SIGN VIRAMA
Mn, -- (16#00B56#, 16#00B56#) ORIYA AI LENGTH MARK .. ORIYA AI LENGTH MARK
Mc, -- (16#00B57#, 16#00B57#) ORIYA AU LENGTH MARK .. ORIYA AU LENGTH MARK
Lo, -- (16#00B5C#, 16#00B5D#) ORIYA LETTER RRA .. ORIYA LETTER RHA
Lo, -- (16#00B5F#, 16#00B61#) ORIYA LETTER YYA .. ORIYA LETTER VOCALIC LL
Nd, -- (16#00B66#, 16#00B6F#) ORIYA DIGIT ZERO .. ORIYA DIGIT NINE
So, -- (16#00B70#, 16#00B70#) ORIYA ISSHAR .. ORIYA ISSHAR
Lo, -- (16#00B71#, 16#00B71#) ORIYA LETTER WA .. ORIYA LETTER WA
Mn, -- (16#00B82#, 16#00B82#) TAMIL SIGN ANUSVARA .. TAMIL SIGN ANUSVARA
Lo, -- (16#00B83#, 16#00B83#) TAMIL SIGN VISARGA .. TAMIL SIGN VISARGA
Lo, -- (16#00B85#, 16#00B8A#) TAMIL LETTER A .. TAMIL LETTER UU
Lo, -- (16#00B8E#, 16#00B90#) TAMIL LETTER E .. TAMIL LETTER AI
Lo, -- (16#00B92#, 16#00B95#) TAMIL LETTER O .. TAMIL LETTER KA
Lo, -- (16#00B99#, 16#00B9A#) TAMIL LETTER NGA .. TAMIL LETTER CA
Lo, -- (16#00B9C#, 16#00B9C#) TAMIL LETTER JA .. TAMIL LETTER JA
Lo, -- (16#00B9E#, 16#00B9F#) TAMIL LETTER NYA .. TAMIL LETTER TTA
Lo, -- (16#00BA3#, 16#00BA4#) TAMIL LETTER NNA .. TAMIL LETTER TA
Lo, -- (16#00BA8#, 16#00BAA#) TAMIL LETTER NA .. TAMIL LETTER PA
Lo, -- (16#00BAE#, 16#00BB5#) TAMIL LETTER MA .. TAMIL LETTER VA
Lo, -- (16#00BB7#, 16#00BB9#) TAMIL LETTER SSA .. TAMIL LETTER HA
Mc, -- (16#00BBE#, 16#00BBF#) TAMIL VOWEL SIGN AA .. TAMIL VOWEL SIGN I
Mn, -- (16#00BC0#, 16#00BC0#) TAMIL VOWEL SIGN II .. TAMIL VOWEL SIGN II
Mc, -- (16#00BC1#, 16#00BC2#) TAMIL VOWEL SIGN U .. TAMIL VOWEL SIGN UU
Mc, -- (16#00BC6#, 16#00BC8#) TAMIL VOWEL SIGN E .. TAMIL VOWEL SIGN AI
Mc, -- (16#00BCA#, 16#00BCC#) TAMIL VOWEL SIGN O .. TAMIL VOWEL SIGN AU
Mn, -- (16#00BCD#, 16#00BCD#) TAMIL SIGN VIRAMA .. TAMIL SIGN VIRAMA
Mc, -- (16#00BD7#, 16#00BD7#) TAMIL AU LENGTH MARK .. TAMIL AU LENGTH MARK
Nd, -- (16#00BE7#, 16#00BEF#) TAMIL DIGIT ONE .. TAMIL DIGIT NINE
No, -- (16#00BF0#, 16#00BF2#) TAMIL NUMBER TEN .. TAMIL NUMBER ONE THOUSAND
So, -- (16#00BF3#, 16#00BF8#) TAMIL DAY SIGN .. TAMIL AS ABOVE SIGN
Sc, -- (16#00BF9#, 16#00BF9#) TAMIL RUPEE SIGN .. TAMIL RUPEE SIGN
So, -- (16#00BFA#, 16#00BFA#) TAMIL NUMBER SIGN .. TAMIL NUMBER SIGN
Mc, -- (16#00C01#, 16#00C03#) TELUGU SIGN CANDRABINDU .. TELUGU SIGN VISARGA
Lo, -- (16#00C05#, 16#00C0C#) TELUGU LETTER A .. TELUGU LETTER VOCALIC L
Lo, -- (16#00C0E#, 16#00C10#) TELUGU LETTER E .. TELUGU LETTER AI
Lo, -- (16#00C12#, 16#00C28#) TELUGU LETTER O .. TELUGU LETTER NA
Lo, -- (16#00C2A#, 16#00C33#) TELUGU LETTER PA .. TELUGU LETTER LLA
Lo, -- (16#00C35#, 16#00C39#) TELUGU LETTER VA .. TELUGU LETTER HA
Mn, -- (16#00C3E#, 16#00C40#) TELUGU VOWEL SIGN AA .. TELUGU VOWEL SIGN II
Mc, -- (16#00C41#, 16#00C44#) TELUGU VOWEL SIGN U .. TELUGU VOWEL SIGN VOCALIC RR
Mn, -- (16#00C46#, 16#00C48#) TELUGU VOWEL SIGN E .. TELUGU VOWEL SIGN AI
Mn, -- (16#00C4A#, 16#00C4D#) TELUGU VOWEL SIGN O .. TELUGU SIGN VIRAMA
Mn, -- (16#00C55#, 16#00C56#) TELUGU LENGTH MARK .. TELUGU AI LENGTH MARK
Lo, -- (16#00C60#, 16#00C61#) TELUGU LETTER VOCALIC RR .. TELUGU LETTER VOCALIC LL
Nd, -- (16#00C66#, 16#00C6F#) TELUGU DIGIT ZERO .. TELUGU DIGIT NINE
Mc, -- (16#00C82#, 16#00C83#) KANNADA SIGN ANUSVARA .. KANNADA SIGN VISARGA
Lo, -- (16#00C85#, 16#00C8C#) KANNADA LETTER A .. KANNADA LETTER VOCALIC L
Lo, -- (16#00C8E#, 16#00C90#) KANNADA LETTER E .. KANNADA LETTER AI
Lo, -- (16#00C92#, 16#00CA8#) KANNADA LETTER O .. KANNADA LETTER NA
Lo, -- (16#00CAA#, 16#00CB3#) KANNADA LETTER PA .. KANNADA LETTER LLA
Lo, -- (16#00CB5#, 16#00CB9#) KANNADA LETTER VA .. KANNADA LETTER HA
Mn, -- (16#00CBC#, 16#00CBC#) KANNADA SIGN NUKTA .. KANNADA SIGN NUKTA
Lo, -- (16#00CBD#, 16#00CBD#) KANNADA SIGN AVAGRAHA .. KANNADA SIGN AVAGRAHA
Mc, -- (16#00CBE#, 16#00CBE#) KANNADA VOWEL SIGN AA .. KANNADA VOWEL SIGN AA
Mn, -- (16#00CBF#, 16#00CBF#) KANNADA VOWEL SIGN I .. KANNADA VOWEL SIGN I
Mc, -- (16#00CC0#, 16#00CC4#) KANNADA VOWEL SIGN II .. KANNADA VOWEL SIGN VOCALIC RR
Mn, -- (16#00CC6#, 16#00CC6#) KANNADA VOWEL SIGN E .. KANNADA VOWEL SIGN E
Mc, -- (16#00CC7#, 16#00CC8#) KANNADA VOWEL SIGN EE .. KANNADA VOWEL SIGN AI
Mc, -- (16#00CCA#, 16#00CCB#) KANNADA VOWEL SIGN O .. KANNADA VOWEL SIGN OO
Mn, -- (16#00CCC#, 16#00CCD#) KANNADA VOWEL SIGN AU .. KANNADA SIGN VIRAMA
Mc, -- (16#00CD5#, 16#00CD6#) KANNADA LENGTH MARK .. KANNADA AI LENGTH MARK
Lo, -- (16#00CDE#, 16#00CDE#) KANNADA LETTER FA .. KANNADA LETTER FA
Lo, -- (16#00CE0#, 16#00CE1#) KANNADA LETTER VOCALIC RR .. KANNADA LETTER VOCALIC LL
Nd, -- (16#00CE6#, 16#00CEF#) KANNADA DIGIT ZERO .. KANNADA DIGIT NINE
Mc, -- (16#00D02#, 16#00D03#) MALAYALAM SIGN ANUSVARA .. MALAYALAM SIGN VISARGA
Lo, -- (16#00D05#, 16#00D0C#) MALAYALAM LETTER A .. MALAYALAM LETTER VOCALIC L
Lo, -- (16#00D0E#, 16#00D10#) MALAYALAM LETTER E .. MALAYALAM LETTER AI
Lo, -- (16#00D12#, 16#00D28#) MALAYALAM LETTER O .. MALAYALAM LETTER NA
Lo, -- (16#00D2A#, 16#00D39#) MALAYALAM LETTER PA .. MALAYALAM LETTER HA
Mc, -- (16#00D3E#, 16#00D40#) MALAYALAM VOWEL SIGN AA .. MALAYALAM VOWEL SIGN II
Mn, -- (16#00D41#, 16#00D43#) MALAYALAM VOWEL SIGN U .. MALAYALAM VOWEL SIGN VOCALIC R
Mc, -- (16#00D46#, 16#00D48#) MALAYALAM VOWEL SIGN E .. MALAYALAM VOWEL SIGN AI
Mc, -- (16#00D4A#, 16#00D4C#) MALAYALAM VOWEL SIGN O .. MALAYALAM VOWEL SIGN AU
Mn, -- (16#00D4D#, 16#00D4D#) MALAYALAM SIGN VIRAMA .. MALAYALAM SIGN VIRAMA
Mc, -- (16#00D57#, 16#00D57#) MALAYALAM AU LENGTH MARK .. MALAYALAM AU LENGTH MARK
Lo, -- (16#00D60#, 16#00D61#) MALAYALAM LETTER VOCALIC RR .. MALAYALAM LETTER VOCALIC LL
Nd, -- (16#00D66#, 16#00D6F#) MALAYALAM DIGIT ZERO .. MALAYALAM DIGIT NINE
Mc, -- (16#00D82#, 16#00D83#) SINHALA SIGN ANUSVARAYA .. SINHALA SIGN VISARGAYA
Lo, -- (16#00D85#, 16#00D96#) SINHALA LETTER AYANNA .. SINHALA LETTER AUYANNA
Lo, -- (16#00D9A#, 16#00DB1#) SINHALA LETTER ALPAPRAANA KAYANNA .. SINHALA LETTER DANTAJA NAYANNA
Lo, -- (16#00DB3#, 16#00DBB#) SINHALA LETTER SANYAKA DAYANNA .. SINHALA LETTER RAYANNA
Lo, -- (16#00DBD#, 16#00DBD#) SINHALA LETTER DANTAJA LAYANNA .. SINHALA LETTER DANTAJA LAYANNA
Lo, -- (16#00DC0#, 16#00DC6#) SINHALA LETTER VAYANNA .. SINHALA LETTER FAYANNA
Mn, -- (16#00DCA#, 16#00DCA#) SINHALA SIGN AL-LAKUNA .. SINHALA SIGN AL-LAKUNA
Mc, -- (16#00DCF#, 16#00DD1#) SINHALA VOWEL SIGN AELA-PILLA .. SINHALA VOWEL SIGN DIGA AEDA-PILLA
Mn, -- (16#00DD2#, 16#00DD4#) SINHALA VOWEL SIGN KETTI IS-PILLA .. SINHALA VOWEL SIGN KETTI PAA-PILLA
Mn, -- (16#00DD6#, 16#00DD6#) SINHALA VOWEL SIGN DIGA PAA-PILLA .. SINHALA VOWEL SIGN DIGA PAA-PILLA
Mc, -- (16#00DD8#, 16#00DDF#) SINHALA VOWEL SIGN GAETTA-PILLA .. SINHALA VOWEL SIGN GAYANUKITTA
Mc, -- (16#00DF2#, 16#00DF3#) SINHALA VOWEL SIGN DIGA GAETTA-PILLA .. SINHALA VOWEL SIGN DIGA GAYANUKITTA
Po, -- (16#00DF4#, 16#00DF4#) SINHALA PUNCTUATION KUNDDALIYA .. SINHALA PUNCTUATION KUNDDALIYA
Lo, -- (16#00E01#, 16#00E30#) THAI CHARACTER KO KAI .. THAI CHARACTER SARA A
Mn, -- (16#00E31#, 16#00E31#) THAI CHARACTER MAI HAN-AKAT .. THAI CHARACTER MAI HAN-AKAT
Lo, -- (16#00E32#, 16#00E33#) THAI CHARACTER SARA AA .. THAI CHARACTER SARA AM
Mn, -- (16#00E34#, 16#00E3A#) THAI CHARACTER SARA I .. THAI CHARACTER PHINTHU
Sc, -- (16#00E3F#, 16#00E3F#) THAI CURRENCY SYMBOL BAHT .. THAI CURRENCY SYMBOL BAHT
Lo, -- (16#00E40#, 16#00E45#) THAI CHARACTER SARA E .. THAI CHARACTER LAKKHANGYAO
Lm, -- (16#00E46#, 16#00E46#) THAI CHARACTER MAIYAMOK .. THAI CHARACTER MAIYAMOK
Mn, -- (16#00E47#, 16#00E4E#) THAI CHARACTER MAITAIKHU .. THAI CHARACTER YAMAKKAN
Po, -- (16#00E4F#, 16#00E4F#) THAI CHARACTER FONGMAN .. THAI CHARACTER FONGMAN
Nd, -- (16#00E50#, 16#00E59#) THAI DIGIT ZERO .. THAI DIGIT NINE
Po, -- (16#00E5A#, 16#00E5B#) THAI CHARACTER ANGKHANKHU .. THAI CHARACTER KHOMUT
Lo, -- (16#00E81#, 16#00E82#) LAO LETTER KO .. LAO LETTER KHO SUNG
Lo, -- (16#00E84#, 16#00E84#) LAO LETTER KHO TAM .. LAO LETTER KHO TAM
Lo, -- (16#00E87#, 16#00E88#) LAO LETTER NGO .. LAO LETTER CO
Lo, -- (16#00E8A#, 16#00E8A#) LAO LETTER SO TAM .. LAO LETTER SO TAM
Lo, -- (16#00E8D#, 16#00E8D#) LAO LETTER NYO .. LAO LETTER NYO
Lo, -- (16#00E94#, 16#00E97#) LAO LETTER DO .. LAO LETTER THO TAM
Lo, -- (16#00E99#, 16#00E9F#) LAO LETTER NO .. LAO LETTER FO SUNG
Lo, -- (16#00EA1#, 16#00EA3#) LAO LETTER MO .. LAO LETTER LO LING
Lo, -- (16#00EA5#, 16#00EA5#) LAO LETTER LO LOOT .. LAO LETTER LO LOOT
Lo, -- (16#00EA7#, 16#00EA7#) LAO LETTER WO .. LAO LETTER WO
Lo, -- (16#00EAA#, 16#00EAB#) LAO LETTER SO SUNG .. LAO LETTER HO SUNG
Lo, -- (16#00EAD#, 16#00EB0#) LAO LETTER O .. LAO VOWEL SIGN A
Mn, -- (16#00EB1#, 16#00EB1#) LAO VOWEL SIGN MAI KAN .. LAO VOWEL SIGN MAI KAN
Lo, -- (16#00EB2#, 16#00EB3#) LAO VOWEL SIGN AA .. LAO VOWEL SIGN AM
Mn, -- (16#00EB4#, 16#00EB9#) LAO VOWEL SIGN I .. LAO VOWEL SIGN UU
Mn, -- (16#00EBB#, 16#00EBC#) LAO VOWEL SIGN MAI KON .. LAO SEMIVOWEL SIGN LO
Lo, -- (16#00EBD#, 16#00EBD#) LAO SEMIVOWEL SIGN NYO .. LAO SEMIVOWEL SIGN NYO
Lo, -- (16#00EC0#, 16#00EC4#) LAO VOWEL SIGN E .. LAO VOWEL SIGN AI
Lm, -- (16#00EC6#, 16#00EC6#) LAO KO LA .. LAO KO LA
Mn, -- (16#00EC8#, 16#00ECD#) LAO TONE MAI EK .. LAO NIGGAHITA
Nd, -- (16#00ED0#, 16#00ED9#) LAO DIGIT ZERO .. LAO DIGIT NINE
Lo, -- (16#00EDC#, 16#00EDD#) LAO HO NO .. LAO HO MO
Lo, -- (16#00F00#, 16#00F00#) TIBETAN SYLLABLE OM .. TIBETAN SYLLABLE OM
So, -- (16#00F01#, 16#00F03#) TIBETAN MARK GTER YIG MGO TRUNCATED A .. TIBETAN MARK GTER YIG MGO -UM GTER TSHEG MA
Po, -- (16#00F04#, 16#00F12#) TIBETAN MARK INITIAL YIG MGO MDUN MA .. TIBETAN MARK RGYA GRAM SHAD
So, -- (16#00F13#, 16#00F17#) TIBETAN MARK CARET -DZUD RTAGS ME LONG CAN .. TIBETAN ASTROLOGICAL SIGN SGRA GCAN -CHAR RTAGS
Mn, -- (16#00F18#, 16#00F19#) TIBETAN ASTROLOGICAL SIGN -KHYUD PA .. TIBETAN ASTROLOGICAL SIGN SDONG TSHUGS
So, -- (16#00F1A#, 16#00F1F#) TIBETAN SIGN RDEL DKAR GCIG .. TIBETAN SIGN RDEL DKAR RDEL NAG
Nd, -- (16#00F20#, 16#00F29#) TIBETAN DIGIT ZERO .. TIBETAN DIGIT NINE
No, -- (16#00F2A#, 16#00F33#) TIBETAN DIGIT HALF ONE .. TIBETAN DIGIT HALF ZERO
So, -- (16#00F34#, 16#00F34#) TIBETAN MARK BSDUS RTAGS .. TIBETAN MARK BSDUS RTAGS
Mn, -- (16#00F35#, 16#00F35#) TIBETAN MARK NGAS BZUNG NYI ZLA .. TIBETAN MARK NGAS BZUNG NYI ZLA
So, -- (16#00F36#, 16#00F36#) TIBETAN MARK CARET -DZUD RTAGS BZHI MIG CAN .. TIBETAN MARK CARET -DZUD RTAGS BZHI MIG CAN
Mn, -- (16#00F37#, 16#00F37#) TIBETAN MARK NGAS BZUNG SGOR RTAGS .. TIBETAN MARK NGAS BZUNG SGOR RTAGS
So, -- (16#00F38#, 16#00F38#) TIBETAN MARK CHE MGO .. TIBETAN MARK CHE MGO
Mn, -- (16#00F39#, 16#00F39#) TIBETAN MARK TSA -PHRU .. TIBETAN MARK TSA -PHRU
Ps, -- (16#00F3A#, 16#00F3A#) TIBETAN MARK GUG RTAGS GYON .. TIBETAN MARK GUG RTAGS GYON
Pe, -- (16#00F3B#, 16#00F3B#) TIBETAN MARK GUG RTAGS GYAS .. TIBETAN MARK GUG RTAGS GYAS
Ps, -- (16#00F3C#, 16#00F3C#) TIBETAN MARK ANG KHANG GYON .. TIBETAN MARK ANG KHANG GYON
Pe, -- (16#00F3D#, 16#00F3D#) TIBETAN MARK ANG KHANG GYAS .. TIBETAN MARK ANG KHANG GYAS
Mc, -- (16#00F3E#, 16#00F3F#) TIBETAN SIGN YAR TSHES .. TIBETAN SIGN MAR TSHES
Lo, -- (16#00F40#, 16#00F47#) TIBETAN LETTER KA .. TIBETAN LETTER JA
Lo, -- (16#00F49#, 16#00F6A#) TIBETAN LETTER NYA .. TIBETAN LETTER FIXED-FORM RA
Mn, -- (16#00F71#, 16#00F7E#) TIBETAN VOWEL SIGN AA .. TIBETAN SIGN RJES SU NGA RO
Mc, -- (16#00F7F#, 16#00F7F#) TIBETAN SIGN RNAM BCAD .. TIBETAN SIGN RNAM BCAD
Mn, -- (16#00F80#, 16#00F84#) TIBETAN VOWEL SIGN REVERSED I .. TIBETAN MARK HALANTA
Po, -- (16#00F85#, 16#00F85#) TIBETAN MARK PALUTA .. TIBETAN MARK PALUTA
Mn, -- (16#00F86#, 16#00F87#) TIBETAN SIGN LCI RTAGS .. TIBETAN SIGN YANG RTAGS
Lo, -- (16#00F88#, 16#00F8B#) TIBETAN SIGN LCE TSA CAN .. TIBETAN SIGN GRU MED RGYINGS
Mn, -- (16#00F90#, 16#00F97#) TIBETAN SUBJOINED LETTER KA .. TIBETAN SUBJOINED LETTER JA
Mn, -- (16#00F99#, 16#00FBC#) TIBETAN SUBJOINED LETTER NYA .. TIBETAN SUBJOINED LETTER FIXED-FORM RA
So, -- (16#00FBE#, 16#00FC5#) TIBETAN KU RU KHA .. TIBETAN SYMBOL RDO RJE
Mn, -- (16#00FC6#, 16#00FC6#) TIBETAN SYMBOL PADMA GDAN .. TIBETAN SYMBOL PADMA GDAN
So, -- (16#00FC7#, 16#00FCC#) TIBETAN SYMBOL RDO RJE RGYA GRAM .. TIBETAN SYMBOL NOR BU BZHI -KHYIL
So, -- (16#00FCF#, 16#00FCF#) TIBETAN SIGN RDEL NAG GSUM .. TIBETAN SIGN RDEL NAG GSUM
Lo, -- (16#01000#, 16#01021#) MYANMAR LETTER KA .. MYANMAR LETTER A
Lo, -- (16#01023#, 16#01027#) MYANMAR LETTER I .. MYANMAR LETTER E
Lo, -- (16#01029#, 16#0102A#) MYANMAR LETTER O .. MYANMAR LETTER AU
Mc, -- (16#0102C#, 16#0102C#) MYANMAR VOWEL SIGN AA .. MYANMAR VOWEL SIGN AA
Mn, -- (16#0102D#, 16#01030#) MYANMAR VOWEL SIGN I .. MYANMAR VOWEL SIGN UU
Mc, -- (16#01031#, 16#01031#) MYANMAR VOWEL SIGN E .. MYANMAR VOWEL SIGN E
Mn, -- (16#01032#, 16#01032#) MYANMAR VOWEL SIGN AI .. MYANMAR VOWEL SIGN AI
Mn, -- (16#01036#, 16#01037#) MYANMAR SIGN ANUSVARA .. MYANMAR SIGN DOT BELOW
Mc, -- (16#01038#, 16#01038#) MYANMAR SIGN VISARGA .. MYANMAR SIGN VISARGA
Mn, -- (16#01039#, 16#01039#) MYANMAR SIGN VIRAMA .. MYANMAR SIGN VIRAMA
Nd, -- (16#01040#, 16#01049#) MYANMAR DIGIT ZERO .. MYANMAR DIGIT NINE
Po, -- (16#0104A#, 16#0104F#) MYANMAR SIGN LITTLE SECTION .. MYANMAR SYMBOL GENITIVE
Lo, -- (16#01050#, 16#01055#) MYANMAR LETTER SHA .. MYANMAR LETTER VOCALIC LL
Mc, -- (16#01056#, 16#01057#) MYANMAR VOWEL SIGN VOCALIC R .. MYANMAR VOWEL SIGN VOCALIC RR
Mn, -- (16#01058#, 16#01059#) MYANMAR VOWEL SIGN VOCALIC L .. MYANMAR VOWEL SIGN VOCALIC LL
Lu, -- (16#010A0#, 16#010C5#) GEORGIAN CAPITAL LETTER AN .. GEORGIAN CAPITAL LETTER HOE
Lo, -- (16#010D0#, 16#010F8#) GEORGIAN LETTER AN .. GEORGIAN LETTER ELIFI
Po, -- (16#010FB#, 16#010FB#) GEORGIAN PARAGRAPH SEPARATOR .. GEORGIAN PARAGRAPH SEPARATOR
Lo, -- (16#01100#, 16#01159#) HANGUL CHOSEONG KIYEOK .. HANGUL CHOSEONG YEORINHIEUH
Lo, -- (16#0115F#, 16#011A2#) HANGUL CHOSEONG FILLER .. HANGUL JUNGSEONG SSANGARAEA
Lo, -- (16#011A8#, 16#011F9#) HANGUL JONGSEONG KIYEOK .. HANGUL JONGSEONG YEORINHIEUH
Lo, -- (16#01200#, 16#01206#) ETHIOPIC SYLLABLE HA .. ETHIOPIC SYLLABLE HO
Lo, -- (16#01208#, 16#01246#) ETHIOPIC SYLLABLE LA .. ETHIOPIC SYLLABLE QO
Lo, -- (16#01248#, 16#01248#) ETHIOPIC SYLLABLE QWA .. ETHIOPIC SYLLABLE QWA
Lo, -- (16#0124A#, 16#0124D#) ETHIOPIC SYLLABLE QWI .. ETHIOPIC SYLLABLE QWE
Lo, -- (16#01250#, 16#01256#) ETHIOPIC SYLLABLE QHA .. ETHIOPIC SYLLABLE QHO
Lo, -- (16#01258#, 16#01258#) ETHIOPIC SYLLABLE QHWA .. ETHIOPIC SYLLABLE QHWA
Lo, -- (16#0125A#, 16#0125D#) ETHIOPIC SYLLABLE QHWI .. ETHIOPIC SYLLABLE QHWE
Lo, -- (16#01260#, 16#01286#) ETHIOPIC SYLLABLE BA .. ETHIOPIC SYLLABLE XO
Lo, -- (16#01288#, 16#01288#) ETHIOPIC SYLLABLE XWA .. ETHIOPIC SYLLABLE XWA
Lo, -- (16#0128A#, 16#0128D#) ETHIOPIC SYLLABLE XWI .. ETHIOPIC SYLLABLE XWE
Lo, -- (16#01290#, 16#012AE#) ETHIOPIC SYLLABLE NA .. ETHIOPIC SYLLABLE KO
Lo, -- (16#012B0#, 16#012B0#) ETHIOPIC SYLLABLE KWA .. ETHIOPIC SYLLABLE KWA
Lo, -- (16#012B2#, 16#012B5#) ETHIOPIC SYLLABLE KWI .. ETHIOPIC SYLLABLE KWE
Lo, -- (16#012B8#, 16#012BE#) ETHIOPIC SYLLABLE KXA .. ETHIOPIC SYLLABLE KXO
Lo, -- (16#012C0#, 16#012C0#) ETHIOPIC SYLLABLE KXWA .. ETHIOPIC SYLLABLE KXWA
Lo, -- (16#012C2#, 16#012C5#) ETHIOPIC SYLLABLE KXWI .. ETHIOPIC SYLLABLE KXWE
Lo, -- (16#012C8#, 16#012CE#) ETHIOPIC SYLLABLE WA .. ETHIOPIC SYLLABLE WO
Lo, -- (16#012D0#, 16#012D6#) ETHIOPIC SYLLABLE PHARYNGEAL A .. ETHIOPIC SYLLABLE PHARYNGEAL O
Lo, -- (16#012D8#, 16#012EE#) ETHIOPIC SYLLABLE ZA .. ETHIOPIC SYLLABLE YO
Lo, -- (16#012F0#, 16#0130E#) ETHIOPIC SYLLABLE DA .. ETHIOPIC SYLLABLE GO
Lo, -- (16#01310#, 16#01310#) ETHIOPIC SYLLABLE GWA .. ETHIOPIC SYLLABLE GWA
Lo, -- (16#01312#, 16#01315#) ETHIOPIC SYLLABLE GWI .. ETHIOPIC SYLLABLE GWE
Lo, -- (16#01318#, 16#0131E#) ETHIOPIC SYLLABLE GGA .. ETHIOPIC SYLLABLE GGO
Lo, -- (16#01320#, 16#01346#) ETHIOPIC SYLLABLE THA .. ETHIOPIC SYLLABLE TZO
Lo, -- (16#01348#, 16#0135A#) ETHIOPIC SYLLABLE FA .. ETHIOPIC SYLLABLE FYA
Po, -- (16#01361#, 16#01368#) ETHIOPIC WORDSPACE .. ETHIOPIC PARAGRAPH SEPARATOR
Nd, -- (16#01369#, 16#01371#) ETHIOPIC DIGIT ONE .. ETHIOPIC DIGIT NINE
No, -- (16#01372#, 16#0137C#) ETHIOPIC NUMBER TEN .. ETHIOPIC NUMBER TEN THOUSAND
Lo, -- (16#013A0#, 16#013F4#) CHEROKEE LETTER A .. CHEROKEE LETTER YV
Lo, -- (16#01401#, 16#0166C#) CANADIAN SYLLABICS E .. CANADIAN SYLLABICS CARRIER TTSA
Po, -- (16#0166D#, 16#0166E#) CANADIAN SYLLABICS CHI SIGN .. CANADIAN SYLLABICS FULL STOP
Lo, -- (16#0166F#, 16#01676#) CANADIAN SYLLABICS QAI .. CANADIAN SYLLABICS NNGAA
Zs, -- (16#01680#, 16#01680#) OGHAM SPACE MARK .. OGHAM SPACE MARK
Lo, -- (16#01681#, 16#0169A#) OGHAM LETTER BEITH .. OGHAM LETTER PEITH
Ps, -- (16#0169B#, 16#0169B#) OGHAM FEATHER MARK .. OGHAM FEATHER MARK
Pe, -- (16#0169C#, 16#0169C#) OGHAM REVERSED FEATHER MARK .. OGHAM REVERSED FEATHER MARK
Lo, -- (16#016A0#, 16#016EA#) RUNIC LETTER FEHU FEOH FE F .. RUNIC LETTER X
Po, -- (16#016EB#, 16#016ED#) RUNIC SINGLE PUNCTUATION .. RUNIC CROSS PUNCTUATION
Nl, -- (16#016EE#, 16#016F0#) RUNIC ARLAUG SYMBOL .. RUNIC BELGTHOR SYMBOL
Lo, -- (16#01700#, 16#0170C#) TAGALOG LETTER A .. TAGALOG LETTER YA
Lo, -- (16#0170E#, 16#01711#) TAGALOG LETTER LA .. TAGALOG LETTER HA
Mn, -- (16#01712#, 16#01714#) TAGALOG VOWEL SIGN I .. TAGALOG SIGN VIRAMA
Lo, -- (16#01720#, 16#01731#) HANUNOO LETTER A .. HANUNOO LETTER HA
Mn, -- (16#01732#, 16#01734#) HANUNOO VOWEL SIGN I .. HANUNOO SIGN PAMUDPOD
Po, -- (16#01735#, 16#01736#) PHILIPPINE SINGLE PUNCTUATION .. PHILIPPINE DOUBLE PUNCTUATION
Lo, -- (16#01740#, 16#01751#) BUHID LETTER A .. BUHID LETTER HA
Mn, -- (16#01752#, 16#01753#) BUHID VOWEL SIGN I .. BUHID VOWEL SIGN U
Lo, -- (16#01760#, 16#0176C#) TAGBANWA LETTER A .. TAGBANWA LETTER YA
Lo, -- (16#0176E#, 16#01770#) TAGBANWA LETTER LA .. TAGBANWA LETTER SA
Mn, -- (16#01772#, 16#01773#) TAGBANWA VOWEL SIGN I .. TAGBANWA VOWEL SIGN U
Lo, -- (16#01780#, 16#017B3#) KHMER LETTER KA .. KHMER INDEPENDENT VOWEL QAU
Cf, -- (16#017B4#, 16#017B5#) KHMER VOWEL INHERENT AQ .. KHMER VOWEL INHERENT AA
Mc, -- (16#017B6#, 16#017B6#) KHMER VOWEL SIGN AA .. KHMER VOWEL SIGN AA
Mn, -- (16#017B7#, 16#017BD#) KHMER VOWEL SIGN I .. KHMER VOWEL SIGN UA
Mc, -- (16#017BE#, 16#017C5#) KHMER VOWEL SIGN OE .. KHMER VOWEL SIGN AU
Mn, -- (16#017C6#, 16#017C6#) KHMER SIGN NIKAHIT .. KHMER SIGN NIKAHIT
Mc, -- (16#017C7#, 16#017C8#) KHMER SIGN REAHMUK .. KHMER SIGN YUUKALEAPINTU
Mn, -- (16#017C9#, 16#017D3#) KHMER SIGN MUUSIKATOAN .. KHMER SIGN BATHAMASAT
Po, -- (16#017D4#, 16#017D6#) KHMER SIGN KHAN .. KHMER SIGN CAMNUC PII KUUH
Lm, -- (16#017D7#, 16#017D7#) KHMER SIGN LEK TOO .. KHMER SIGN LEK TOO
Po, -- (16#017D8#, 16#017DA#) KHMER SIGN BEYYAL .. KHMER SIGN KOOMUUT
Sc, -- (16#017DB#, 16#017DB#) KHMER CURRENCY SYMBOL RIEL .. KHMER CURRENCY SYMBOL RIEL
Lo, -- (16#017DC#, 16#017DC#) KHMER SIGN AVAKRAHASANYA .. KHMER SIGN AVAKRAHASANYA
Mn, -- (16#017DD#, 16#017DD#) KHMER SIGN ATTHACAN .. KHMER SIGN ATTHACAN
Nd, -- (16#017E0#, 16#017E9#) KHMER DIGIT ZERO .. KHMER DIGIT NINE
No, -- (16#017F0#, 16#017F9#) KHMER SYMBOL LEK ATTAK SON .. KHMER SYMBOL LEK ATTAK PRAM-BUON
Po, -- (16#01800#, 16#01805#) MONGOLIAN BIRGA .. MONGOLIAN FOUR DOTS
Pd, -- (16#01806#, 16#01806#) MONGOLIAN TODO SOFT HYPHEN .. MONGOLIAN TODO SOFT HYPHEN
Po, -- (16#01807#, 16#0180A#) MONGOLIAN SIBE SYLLABLE BOUNDARY MARKER .. MONGOLIAN NIRUGU
Mn, -- (16#0180B#, 16#0180D#) MONGOLIAN FREE VARIATION SELECTOR ONE .. MONGOLIAN FREE VARIATION SELECTOR THREE
Zs, -- (16#0180E#, 16#0180E#) MONGOLIAN VOWEL SEPARATOR .. MONGOLIAN VOWEL SEPARATOR
Nd, -- (16#01810#, 16#01819#) MONGOLIAN DIGIT ZERO .. MONGOLIAN DIGIT NINE
Lo, -- (16#01820#, 16#01842#) MONGOLIAN LETTER A .. MONGOLIAN LETTER CHI
Lm, -- (16#01843#, 16#01843#) MONGOLIAN LETTER TODO LONG VOWEL SIGN .. MONGOLIAN LETTER TODO LONG VOWEL SIGN
Lo, -- (16#01844#, 16#01877#) MONGOLIAN LETTER TODO E .. MONGOLIAN LETTER MANCHU ZHA
Lo, -- (16#01880#, 16#018A8#) MONGOLIAN LETTER ALI GALI ANUSVARA ONE .. MONGOLIAN LETTER MANCHU ALI GALI BHA
Mn, -- (16#018A9#, 16#018A9#) MONGOLIAN LETTER ALI GALI DAGALGA .. MONGOLIAN LETTER ALI GALI DAGALGA
Lo, -- (16#01900#, 16#0191C#) LIMBU VOWEL-CARRIER LETTER .. LIMBU LETTER HA
Mn, -- (16#01920#, 16#01922#) LIMBU VOWEL SIGN A .. LIMBU VOWEL SIGN U
Mc, -- (16#01923#, 16#01926#) LIMBU VOWEL SIGN EE .. LIMBU VOWEL SIGN AU
Mn, -- (16#01927#, 16#01928#) LIMBU VOWEL SIGN E .. LIMBU VOWEL SIGN O
Mc, -- (16#01929#, 16#0192B#) LIMBU SUBJOINED LETTER YA .. LIMBU SUBJOINED LETTER WA
Mc, -- (16#01930#, 16#01931#) LIMBU SMALL LETTER KA .. LIMBU SMALL LETTER NGA
Mn, -- (16#01932#, 16#01932#) LIMBU SMALL LETTER ANUSVARA .. LIMBU SMALL LETTER ANUSVARA
Mc, -- (16#01933#, 16#01938#) LIMBU SMALL LETTER TA .. LIMBU SMALL LETTER LA
Mn, -- (16#01939#, 16#0193B#) LIMBU SIGN MUKPHRENG .. LIMBU SIGN SA-I
So, -- (16#01940#, 16#01940#) LIMBU SIGN LOO .. LIMBU SIGN LOO
Po, -- (16#01944#, 16#01945#) LIMBU EXCLAMATION MARK .. LIMBU QUESTION MARK
Nd, -- (16#01946#, 16#0194F#) LIMBU DIGIT ZERO .. LIMBU DIGIT NINE
Lo, -- (16#01950#, 16#0196D#) TAI LE LETTER KA .. TAI LE LETTER AI
Lo, -- (16#01970#, 16#01974#) TAI LE LETTER TONE-2 .. TAI LE LETTER TONE-6
So, -- (16#019E0#, 16#019FF#) KHMER SYMBOL PATHAMASAT .. KHMER SYMBOL DAP-PRAM ROC
Ll, -- (16#01D00#, 16#01D2B#) LATIN LETTER SMALL CAPITAL A .. CYRILLIC LETTER SMALL CAPITAL EL
Lm, -- (16#01D2C#, 16#01D61#) MODIFIER LETTER CAPITAL A .. MODIFIER LETTER SMALL CHI
Ll, -- (16#01D62#, 16#01D6B#) LATIN SUBSCRIPT SMALL LETTER I .. LATIN SMALL LETTER UE
Lu, -- (16#01E00#, 16#01E00#) LATIN CAPITAL LETTER A WITH RING BELOW .. LATIN CAPITAL LETTER A WITH RING BELOW
Ll, -- (16#01E01#, 16#01E01#) LATIN SMALL LETTER A WITH RING BELOW .. LATIN SMALL LETTER A WITH RING BELOW
Lu, -- (16#01E02#, 16#01E02#) LATIN CAPITAL LETTER B WITH DOT ABOVE .. LATIN CAPITAL LETTER B WITH DOT ABOVE
Ll, -- (16#01E03#, 16#01E03#) LATIN SMALL LETTER B WITH DOT ABOVE .. LATIN SMALL LETTER B WITH DOT ABOVE
Lu, -- (16#01E04#, 16#01E04#) LATIN CAPITAL LETTER B WITH DOT BELOW .. LATIN CAPITAL LETTER B WITH DOT BELOW
Ll, -- (16#01E05#, 16#01E05#) LATIN SMALL LETTER B WITH DOT BELOW .. LATIN SMALL LETTER B WITH DOT BELOW
Lu, -- (16#01E06#, 16#01E06#) LATIN CAPITAL LETTER B WITH LINE BELOW .. LATIN CAPITAL LETTER B WITH LINE BELOW
Ll, -- (16#01E07#, 16#01E07#) LATIN SMALL LETTER B WITH LINE BELOW .. LATIN SMALL LETTER B WITH LINE BELOW
Lu, -- (16#01E08#, 16#01E08#) LATIN CAPITAL LETTER C WITH CEDILLA AND ACUTE .. LATIN CAPITAL LETTER C WITH CEDILLA AND ACUTE
Ll, -- (16#01E09#, 16#01E09#) LATIN SMALL LETTER C WITH CEDILLA AND ACUTE .. LATIN SMALL LETTER C WITH CEDILLA AND ACUTE
Lu, -- (16#01E0A#, 16#01E0A#) LATIN CAPITAL LETTER D WITH DOT ABOVE .. LATIN CAPITAL LETTER D WITH DOT ABOVE
Ll, -- (16#01E0B#, 16#01E0B#) LATIN SMALL LETTER D WITH DOT ABOVE .. LATIN SMALL LETTER D WITH DOT ABOVE
Lu, -- (16#01E0C#, 16#01E0C#) LATIN CAPITAL LETTER D WITH DOT BELOW .. LATIN CAPITAL LETTER D WITH DOT BELOW
Ll, -- (16#01E0D#, 16#01E0D#) LATIN SMALL LETTER D WITH DOT BELOW .. LATIN SMALL LETTER D WITH DOT BELOW
Lu, -- (16#01E0E#, 16#01E0E#) LATIN CAPITAL LETTER D WITH LINE BELOW .. LATIN CAPITAL LETTER D WITH LINE BELOW
Ll, -- (16#01E0F#, 16#01E0F#) LATIN SMALL LETTER D WITH LINE BELOW .. LATIN SMALL LETTER D WITH LINE BELOW
Lu, -- (16#01E10#, 16#01E10#) LATIN CAPITAL LETTER D WITH CEDILLA .. LATIN CAPITAL LETTER D WITH CEDILLA
Ll, -- (16#01E11#, 16#01E11#) LATIN SMALL LETTER D WITH CEDILLA .. LATIN SMALL LETTER D WITH CEDILLA
Lu, -- (16#01E12#, 16#01E12#) LATIN CAPITAL LETTER D WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER D WITH CIRCUMFLEX BELOW
Ll, -- (16#01E13#, 16#01E13#) LATIN SMALL LETTER D WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER D WITH CIRCUMFLEX BELOW
Lu, -- (16#01E14#, 16#01E14#) LATIN CAPITAL LETTER E WITH MACRON AND GRAVE .. LATIN CAPITAL LETTER E WITH MACRON AND GRAVE
Ll, -- (16#01E15#, 16#01E15#) LATIN SMALL LETTER E WITH MACRON AND GRAVE .. LATIN SMALL LETTER E WITH MACRON AND GRAVE
Lu, -- (16#01E16#, 16#01E16#) LATIN CAPITAL LETTER E WITH MACRON AND ACUTE .. LATIN CAPITAL LETTER E WITH MACRON AND ACUTE
Ll, -- (16#01E17#, 16#01E17#) LATIN SMALL LETTER E WITH MACRON AND ACUTE .. LATIN SMALL LETTER E WITH MACRON AND ACUTE
Lu, -- (16#01E18#, 16#01E18#) LATIN CAPITAL LETTER E WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX BELOW
Ll, -- (16#01E19#, 16#01E19#) LATIN SMALL LETTER E WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER E WITH CIRCUMFLEX BELOW
Lu, -- (16#01E1A#, 16#01E1A#) LATIN CAPITAL LETTER E WITH TILDE BELOW .. LATIN CAPITAL LETTER E WITH TILDE BELOW
Ll, -- (16#01E1B#, 16#01E1B#) LATIN SMALL LETTER E WITH TILDE BELOW .. LATIN SMALL LETTER E WITH TILDE BELOW
Lu, -- (16#01E1C#, 16#01E1C#) LATIN CAPITAL LETTER E WITH CEDILLA AND BREVE .. LATIN CAPITAL LETTER E WITH CEDILLA AND BREVE
Ll, -- (16#01E1D#, 16#01E1D#) LATIN SMALL LETTER E WITH CEDILLA AND BREVE .. LATIN SMALL LETTER E WITH CEDILLA AND BREVE
Lu, -- (16#01E1E#, 16#01E1E#) LATIN CAPITAL LETTER F WITH DOT ABOVE .. LATIN CAPITAL LETTER F WITH DOT ABOVE
Ll, -- (16#01E1F#, 16#01E1F#) LATIN SMALL LETTER F WITH DOT ABOVE .. LATIN SMALL LETTER F WITH DOT ABOVE
Lu, -- (16#01E20#, 16#01E20#) LATIN CAPITAL LETTER G WITH MACRON .. LATIN CAPITAL LETTER G WITH MACRON
Ll, -- (16#01E21#, 16#01E21#) LATIN SMALL LETTER G WITH MACRON .. LATIN SMALL LETTER G WITH MACRON
Lu, -- (16#01E22#, 16#01E22#) LATIN CAPITAL LETTER H WITH DOT ABOVE .. LATIN CAPITAL LETTER H WITH DOT ABOVE
Ll, -- (16#01E23#, 16#01E23#) LATIN SMALL LETTER H WITH DOT ABOVE .. LATIN SMALL LETTER H WITH DOT ABOVE
Lu, -- (16#01E24#, 16#01E24#) LATIN CAPITAL LETTER H WITH DOT BELOW .. LATIN CAPITAL LETTER H WITH DOT BELOW
Ll, -- (16#01E25#, 16#01E25#) LATIN SMALL LETTER H WITH DOT BELOW .. LATIN SMALL LETTER H WITH DOT BELOW
Lu, -- (16#01E26#, 16#01E26#) LATIN CAPITAL LETTER H WITH DIAERESIS .. LATIN CAPITAL LETTER H WITH DIAERESIS
Ll, -- (16#01E27#, 16#01E27#) LATIN SMALL LETTER H WITH DIAERESIS .. LATIN SMALL LETTER H WITH DIAERESIS
Lu, -- (16#01E28#, 16#01E28#) LATIN CAPITAL LETTER H WITH CEDILLA .. LATIN CAPITAL LETTER H WITH CEDILLA
Ll, -- (16#01E29#, 16#01E29#) LATIN SMALL LETTER H WITH CEDILLA .. LATIN SMALL LETTER H WITH CEDILLA
Lu, -- (16#01E2A#, 16#01E2A#) LATIN CAPITAL LETTER H WITH BREVE BELOW .. LATIN CAPITAL LETTER H WITH BREVE BELOW
Ll, -- (16#01E2B#, 16#01E2B#) LATIN SMALL LETTER H WITH BREVE BELOW .. LATIN SMALL LETTER H WITH BREVE BELOW
Lu, -- (16#01E2C#, 16#01E2C#) LATIN CAPITAL LETTER I WITH TILDE BELOW .. LATIN CAPITAL LETTER I WITH TILDE BELOW
Ll, -- (16#01E2D#, 16#01E2D#) LATIN SMALL LETTER I WITH TILDE BELOW .. LATIN SMALL LETTER I WITH TILDE BELOW
Lu, -- (16#01E2E#, 16#01E2E#) LATIN CAPITAL LETTER I WITH DIAERESIS AND ACUTE .. LATIN CAPITAL LETTER I WITH DIAERESIS AND ACUTE
Ll, -- (16#01E2F#, 16#01E2F#) LATIN SMALL LETTER I WITH DIAERESIS AND ACUTE .. LATIN SMALL LETTER I WITH DIAERESIS AND ACUTE
Lu, -- (16#01E30#, 16#01E30#) LATIN CAPITAL LETTER K WITH ACUTE .. LATIN CAPITAL LETTER K WITH ACUTE
Ll, -- (16#01E31#, 16#01E31#) LATIN SMALL LETTER K WITH ACUTE .. LATIN SMALL LETTER K WITH ACUTE
Lu, -- (16#01E32#, 16#01E32#) LATIN CAPITAL LETTER K WITH DOT BELOW .. LATIN CAPITAL LETTER K WITH DOT BELOW
Ll, -- (16#01E33#, 16#01E33#) LATIN SMALL LETTER K WITH DOT BELOW .. LATIN SMALL LETTER K WITH DOT BELOW
Lu, -- (16#01E34#, 16#01E34#) LATIN CAPITAL LETTER K WITH LINE BELOW .. LATIN CAPITAL LETTER K WITH LINE BELOW
Ll, -- (16#01E35#, 16#01E35#) LATIN SMALL LETTER K WITH LINE BELOW .. LATIN SMALL LETTER K WITH LINE BELOW
Lu, -- (16#01E36#, 16#01E36#) LATIN CAPITAL LETTER L WITH DOT BELOW .. LATIN CAPITAL LETTER L WITH DOT BELOW
Ll, -- (16#01E37#, 16#01E37#) LATIN SMALL LETTER L WITH DOT BELOW .. LATIN SMALL LETTER L WITH DOT BELOW
Lu, -- (16#01E38#, 16#01E38#) LATIN CAPITAL LETTER L WITH DOT BELOW AND MACRON .. LATIN CAPITAL LETTER L WITH DOT BELOW AND MACRON
Ll, -- (16#01E39#, 16#01E39#) LATIN SMALL LETTER L WITH DOT BELOW AND MACRON .. LATIN SMALL LETTER L WITH DOT BELOW AND MACRON
Lu, -- (16#01E3A#, 16#01E3A#) LATIN CAPITAL LETTER L WITH LINE BELOW .. LATIN CAPITAL LETTER L WITH LINE BELOW
Ll, -- (16#01E3B#, 16#01E3B#) LATIN SMALL LETTER L WITH LINE BELOW .. LATIN SMALL LETTER L WITH LINE BELOW
Lu, -- (16#01E3C#, 16#01E3C#) LATIN CAPITAL LETTER L WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER L WITH CIRCUMFLEX BELOW
Ll, -- (16#01E3D#, 16#01E3D#) LATIN SMALL LETTER L WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER L WITH CIRCUMFLEX BELOW
Lu, -- (16#01E3E#, 16#01E3E#) LATIN CAPITAL LETTER M WITH ACUTE .. LATIN CAPITAL LETTER M WITH ACUTE
Ll, -- (16#01E3F#, 16#01E3F#) LATIN SMALL LETTER M WITH ACUTE .. LATIN SMALL LETTER M WITH ACUTE
Lu, -- (16#01E40#, 16#01E40#) LATIN CAPITAL LETTER M WITH DOT ABOVE .. LATIN CAPITAL LETTER M WITH DOT ABOVE
Ll, -- (16#01E41#, 16#01E41#) LATIN SMALL LETTER M WITH DOT ABOVE .. LATIN SMALL LETTER M WITH DOT ABOVE
Lu, -- (16#01E42#, 16#01E42#) LATIN CAPITAL LETTER M WITH DOT BELOW .. LATIN CAPITAL LETTER M WITH DOT BELOW
Ll, -- (16#01E43#, 16#01E43#) LATIN SMALL LETTER M WITH DOT BELOW .. LATIN SMALL LETTER M WITH DOT BELOW
Lu, -- (16#01E44#, 16#01E44#) LATIN CAPITAL LETTER N WITH DOT ABOVE .. LATIN CAPITAL LETTER N WITH DOT ABOVE
Ll, -- (16#01E45#, 16#01E45#) LATIN SMALL LETTER N WITH DOT ABOVE .. LATIN SMALL LETTER N WITH DOT ABOVE
Lu, -- (16#01E46#, 16#01E46#) LATIN CAPITAL LETTER N WITH DOT BELOW .. LATIN CAPITAL LETTER N WITH DOT BELOW
Ll, -- (16#01E47#, 16#01E47#) LATIN SMALL LETTER N WITH DOT BELOW .. LATIN SMALL LETTER N WITH DOT BELOW
Lu, -- (16#01E48#, 16#01E48#) LATIN CAPITAL LETTER N WITH LINE BELOW .. LATIN CAPITAL LETTER N WITH LINE BELOW
Ll, -- (16#01E49#, 16#01E49#) LATIN SMALL LETTER N WITH LINE BELOW .. LATIN SMALL LETTER N WITH LINE BELOW
Lu, -- (16#01E4A#, 16#01E4A#) LATIN CAPITAL LETTER N WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER N WITH CIRCUMFLEX BELOW
Ll, -- (16#01E4B#, 16#01E4B#) LATIN SMALL LETTER N WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER N WITH CIRCUMFLEX BELOW
Lu, -- (16#01E4C#, 16#01E4C#) LATIN CAPITAL LETTER O WITH TILDE AND ACUTE .. LATIN CAPITAL LETTER O WITH TILDE AND ACUTE
Ll, -- (16#01E4D#, 16#01E4D#) LATIN SMALL LETTER O WITH TILDE AND ACUTE .. LATIN SMALL LETTER O WITH TILDE AND ACUTE
Lu, -- (16#01E4E#, 16#01E4E#) LATIN CAPITAL LETTER O WITH TILDE AND DIAERESIS .. LATIN CAPITAL LETTER O WITH TILDE AND DIAERESIS
Ll, -- (16#01E4F#, 16#01E4F#) LATIN SMALL LETTER O WITH TILDE AND DIAERESIS .. LATIN SMALL LETTER O WITH TILDE AND DIAERESIS
Lu, -- (16#01E50#, 16#01E50#) LATIN CAPITAL LETTER O WITH MACRON AND GRAVE .. LATIN CAPITAL LETTER O WITH MACRON AND GRAVE
Ll, -- (16#01E51#, 16#01E51#) LATIN SMALL LETTER O WITH MACRON AND GRAVE .. LATIN SMALL LETTER O WITH MACRON AND GRAVE
Lu, -- (16#01E52#, 16#01E52#) LATIN CAPITAL LETTER O WITH MACRON AND ACUTE .. LATIN CAPITAL LETTER O WITH MACRON AND ACUTE
Ll, -- (16#01E53#, 16#01E53#) LATIN SMALL LETTER O WITH MACRON AND ACUTE .. LATIN SMALL LETTER O WITH MACRON AND ACUTE
Lu, -- (16#01E54#, 16#01E54#) LATIN CAPITAL LETTER P WITH ACUTE .. LATIN CAPITAL LETTER P WITH ACUTE
Ll, -- (16#01E55#, 16#01E55#) LATIN SMALL LETTER P WITH ACUTE .. LATIN SMALL LETTER P WITH ACUTE
Lu, -- (16#01E56#, 16#01E56#) LATIN CAPITAL LETTER P WITH DOT ABOVE .. LATIN CAPITAL LETTER P WITH DOT ABOVE
Ll, -- (16#01E57#, 16#01E57#) LATIN SMALL LETTER P WITH DOT ABOVE .. LATIN SMALL LETTER P WITH DOT ABOVE
Lu, -- (16#01E58#, 16#01E58#) LATIN CAPITAL LETTER R WITH DOT ABOVE .. LATIN CAPITAL LETTER R WITH DOT ABOVE
Ll, -- (16#01E59#, 16#01E59#) LATIN SMALL LETTER R WITH DOT ABOVE .. LATIN SMALL LETTER R WITH DOT ABOVE
Lu, -- (16#01E5A#, 16#01E5A#) LATIN CAPITAL LETTER R WITH DOT BELOW .. LATIN CAPITAL LETTER R WITH DOT BELOW
Ll, -- (16#01E5B#, 16#01E5B#) LATIN SMALL LETTER R WITH DOT BELOW .. LATIN SMALL LETTER R WITH DOT BELOW
Lu, -- (16#01E5C#, 16#01E5C#) LATIN CAPITAL LETTER R WITH DOT BELOW AND MACRON .. LATIN CAPITAL LETTER R WITH DOT BELOW AND MACRON
Ll, -- (16#01E5D#, 16#01E5D#) LATIN SMALL LETTER R WITH DOT BELOW AND MACRON .. LATIN SMALL LETTER R WITH DOT BELOW AND MACRON
Lu, -- (16#01E5E#, 16#01E5E#) LATIN CAPITAL LETTER R WITH LINE BELOW .. LATIN CAPITAL LETTER R WITH LINE BELOW
Ll, -- (16#01E5F#, 16#01E5F#) LATIN SMALL LETTER R WITH LINE BELOW .. LATIN SMALL LETTER R WITH LINE BELOW
Lu, -- (16#01E60#, 16#01E60#) LATIN CAPITAL LETTER S WITH DOT ABOVE .. LATIN CAPITAL LETTER S WITH DOT ABOVE
Ll, -- (16#01E61#, 16#01E61#) LATIN SMALL LETTER S WITH DOT ABOVE .. LATIN SMALL LETTER S WITH DOT ABOVE
Lu, -- (16#01E62#, 16#01E62#) LATIN CAPITAL LETTER S WITH DOT BELOW .. LATIN CAPITAL LETTER S WITH DOT BELOW
Ll, -- (16#01E63#, 16#01E63#) LATIN SMALL LETTER S WITH DOT BELOW .. LATIN SMALL LETTER S WITH DOT BELOW
Lu, -- (16#01E64#, 16#01E64#) LATIN CAPITAL LETTER S WITH ACUTE AND DOT ABOVE .. LATIN CAPITAL LETTER S WITH ACUTE AND DOT ABOVE
Ll, -- (16#01E65#, 16#01E65#) LATIN SMALL LETTER S WITH ACUTE AND DOT ABOVE .. LATIN SMALL LETTER S WITH ACUTE AND DOT ABOVE
Lu, -- (16#01E66#, 16#01E66#) LATIN CAPITAL LETTER S WITH CARON AND DOT ABOVE .. LATIN CAPITAL LETTER S WITH CARON AND DOT ABOVE
Ll, -- (16#01E67#, 16#01E67#) LATIN SMALL LETTER S WITH CARON AND DOT ABOVE .. LATIN SMALL LETTER S WITH CARON AND DOT ABOVE
Lu, -- (16#01E68#, 16#01E68#) LATIN CAPITAL LETTER S WITH DOT BELOW AND DOT ABOVE .. LATIN CAPITAL LETTER S WITH DOT BELOW AND DOT ABOVE
Ll, -- (16#01E69#, 16#01E69#) LATIN SMALL LETTER S WITH DOT BELOW AND DOT ABOVE .. LATIN SMALL LETTER S WITH DOT BELOW AND DOT ABOVE
Lu, -- (16#01E6A#, 16#01E6A#) LATIN CAPITAL LETTER T WITH DOT ABOVE .. LATIN CAPITAL LETTER T WITH DOT ABOVE
Ll, -- (16#01E6B#, 16#01E6B#) LATIN SMALL LETTER T WITH DOT ABOVE .. LATIN SMALL LETTER T WITH DOT ABOVE
Lu, -- (16#01E6C#, 16#01E6C#) LATIN CAPITAL LETTER T WITH DOT BELOW .. LATIN CAPITAL LETTER T WITH DOT BELOW
Ll, -- (16#01E6D#, 16#01E6D#) LATIN SMALL LETTER T WITH DOT BELOW .. LATIN SMALL LETTER T WITH DOT BELOW
Lu, -- (16#01E6E#, 16#01E6E#) LATIN CAPITAL LETTER T WITH LINE BELOW .. LATIN CAPITAL LETTER T WITH LINE BELOW
Ll, -- (16#01E6F#, 16#01E6F#) LATIN SMALL LETTER T WITH LINE BELOW .. LATIN SMALL LETTER T WITH LINE BELOW
Lu, -- (16#01E70#, 16#01E70#) LATIN CAPITAL LETTER T WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER T WITH CIRCUMFLEX BELOW
Ll, -- (16#01E71#, 16#01E71#) LATIN SMALL LETTER T WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER T WITH CIRCUMFLEX BELOW
Lu, -- (16#01E72#, 16#01E72#) LATIN CAPITAL LETTER U WITH DIAERESIS BELOW .. LATIN CAPITAL LETTER U WITH DIAERESIS BELOW
Ll, -- (16#01E73#, 16#01E73#) LATIN SMALL LETTER U WITH DIAERESIS BELOW .. LATIN SMALL LETTER U WITH DIAERESIS BELOW
Lu, -- (16#01E74#, 16#01E74#) LATIN CAPITAL LETTER U WITH TILDE BELOW .. LATIN CAPITAL LETTER U WITH TILDE BELOW
Ll, -- (16#01E75#, 16#01E75#) LATIN SMALL LETTER U WITH TILDE BELOW .. LATIN SMALL LETTER U WITH TILDE BELOW
Lu, -- (16#01E76#, 16#01E76#) LATIN CAPITAL LETTER U WITH CIRCUMFLEX BELOW .. LATIN CAPITAL LETTER U WITH CIRCUMFLEX BELOW
Ll, -- (16#01E77#, 16#01E77#) LATIN SMALL LETTER U WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER U WITH CIRCUMFLEX BELOW
Lu, -- (16#01E78#, 16#01E78#) LATIN CAPITAL LETTER U WITH TILDE AND ACUTE .. LATIN CAPITAL LETTER U WITH TILDE AND ACUTE
Ll, -- (16#01E79#, 16#01E79#) LATIN SMALL LETTER U WITH TILDE AND ACUTE .. LATIN SMALL LETTER U WITH TILDE AND ACUTE
Lu, -- (16#01E7A#, 16#01E7A#) LATIN CAPITAL LETTER U WITH MACRON AND DIAERESIS .. LATIN CAPITAL LETTER U WITH MACRON AND DIAERESIS
Ll, -- (16#01E7B#, 16#01E7B#) LATIN SMALL LETTER U WITH MACRON AND DIAERESIS .. LATIN SMALL LETTER U WITH MACRON AND DIAERESIS
Lu, -- (16#01E7C#, 16#01E7C#) LATIN CAPITAL LETTER V WITH TILDE .. LATIN CAPITAL LETTER V WITH TILDE
Ll, -- (16#01E7D#, 16#01E7D#) LATIN SMALL LETTER V WITH TILDE .. LATIN SMALL LETTER V WITH TILDE
Lu, -- (16#01E7E#, 16#01E7E#) LATIN CAPITAL LETTER V WITH DOT BELOW .. LATIN CAPITAL LETTER V WITH DOT BELOW
Ll, -- (16#01E7F#, 16#01E7F#) LATIN SMALL LETTER V WITH DOT BELOW .. LATIN SMALL LETTER V WITH DOT BELOW
Lu, -- (16#01E80#, 16#01E80#) LATIN CAPITAL LETTER W WITH GRAVE .. LATIN CAPITAL LETTER W WITH GRAVE
Ll, -- (16#01E81#, 16#01E81#) LATIN SMALL LETTER W WITH GRAVE .. LATIN SMALL LETTER W WITH GRAVE
Lu, -- (16#01E82#, 16#01E82#) LATIN CAPITAL LETTER W WITH ACUTE .. LATIN CAPITAL LETTER W WITH ACUTE
Ll, -- (16#01E83#, 16#01E83#) LATIN SMALL LETTER W WITH ACUTE .. LATIN SMALL LETTER W WITH ACUTE
Lu, -- (16#01E84#, 16#01E84#) LATIN CAPITAL LETTER W WITH DIAERESIS .. LATIN CAPITAL LETTER W WITH DIAERESIS
Ll, -- (16#01E85#, 16#01E85#) LATIN SMALL LETTER W WITH DIAERESIS .. LATIN SMALL LETTER W WITH DIAERESIS
Lu, -- (16#01E86#, 16#01E86#) LATIN CAPITAL LETTER W WITH DOT ABOVE .. LATIN CAPITAL LETTER W WITH DOT ABOVE
Ll, -- (16#01E87#, 16#01E87#) LATIN SMALL LETTER W WITH DOT ABOVE .. LATIN SMALL LETTER W WITH DOT ABOVE
Lu, -- (16#01E88#, 16#01E88#) LATIN CAPITAL LETTER W WITH DOT BELOW .. LATIN CAPITAL LETTER W WITH DOT BELOW
Ll, -- (16#01E89#, 16#01E89#) LATIN SMALL LETTER W WITH DOT BELOW .. LATIN SMALL LETTER W WITH DOT BELOW
Lu, -- (16#01E8A#, 16#01E8A#) LATIN CAPITAL LETTER X WITH DOT ABOVE .. LATIN CAPITAL LETTER X WITH DOT ABOVE
Ll, -- (16#01E8B#, 16#01E8B#) LATIN SMALL LETTER X WITH DOT ABOVE .. LATIN SMALL LETTER X WITH DOT ABOVE
Lu, -- (16#01E8C#, 16#01E8C#) LATIN CAPITAL LETTER X WITH DIAERESIS .. LATIN CAPITAL LETTER X WITH DIAERESIS
Ll, -- (16#01E8D#, 16#01E8D#) LATIN SMALL LETTER X WITH DIAERESIS .. LATIN SMALL LETTER X WITH DIAERESIS
Lu, -- (16#01E8E#, 16#01E8E#) LATIN CAPITAL LETTER Y WITH DOT ABOVE .. LATIN CAPITAL LETTER Y WITH DOT ABOVE
Ll, -- (16#01E8F#, 16#01E8F#) LATIN SMALL LETTER Y WITH DOT ABOVE .. LATIN SMALL LETTER Y WITH DOT ABOVE
Lu, -- (16#01E90#, 16#01E90#) LATIN CAPITAL LETTER Z WITH CIRCUMFLEX .. LATIN CAPITAL LETTER Z WITH CIRCUMFLEX
Ll, -- (16#01E91#, 16#01E91#) LATIN SMALL LETTER Z WITH CIRCUMFLEX .. LATIN SMALL LETTER Z WITH CIRCUMFLEX
Lu, -- (16#01E92#, 16#01E92#) LATIN CAPITAL LETTER Z WITH DOT BELOW .. LATIN CAPITAL LETTER Z WITH DOT BELOW
Ll, -- (16#01E93#, 16#01E93#) LATIN SMALL LETTER Z WITH DOT BELOW .. LATIN SMALL LETTER Z WITH DOT BELOW
Lu, -- (16#01E94#, 16#01E94#) LATIN CAPITAL LETTER Z WITH LINE BELOW .. LATIN CAPITAL LETTER Z WITH LINE BELOW
Ll, -- (16#01E95#, 16#01E9B#) LATIN SMALL LETTER Z WITH LINE BELOW .. LATIN SMALL LETTER LONG S WITH DOT ABOVE
Lu, -- (16#01EA0#, 16#01EA0#) LATIN CAPITAL LETTER A WITH DOT BELOW .. LATIN CAPITAL LETTER A WITH DOT BELOW
Ll, -- (16#01EA1#, 16#01EA1#) LATIN SMALL LETTER A WITH DOT BELOW .. LATIN SMALL LETTER A WITH DOT BELOW
Lu, -- (16#01EA2#, 16#01EA2#) LATIN CAPITAL LETTER A WITH HOOK ABOVE .. LATIN CAPITAL LETTER A WITH HOOK ABOVE
Ll, -- (16#01EA3#, 16#01EA3#) LATIN SMALL LETTER A WITH HOOK ABOVE .. LATIN SMALL LETTER A WITH HOOK ABOVE
Lu, -- (16#01EA4#, 16#01EA4#) LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND ACUTE .. LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND ACUTE
Ll, -- (16#01EA5#, 16#01EA5#) LATIN SMALL LETTER A WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND ACUTE
Lu, -- (16#01EA6#, 16#01EA6#) LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND GRAVE .. LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND GRAVE
Ll, -- (16#01EA7#, 16#01EA7#) LATIN SMALL LETTER A WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND GRAVE
Lu, -- (16#01EA8#, 16#01EA8#) LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE
Ll, -- (16#01EA9#, 16#01EA9#) LATIN SMALL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE
Lu, -- (16#01EAA#, 16#01EAA#) LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND TILDE .. LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND TILDE
Ll, -- (16#01EAB#, 16#01EAB#) LATIN SMALL LETTER A WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND TILDE
Lu, -- (16#01EAC#, 16#01EAC#) LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND DOT BELOW .. LATIN CAPITAL LETTER A WITH CIRCUMFLEX AND DOT BELOW
Ll, -- (16#01EAD#, 16#01EAD#) LATIN SMALL LETTER A WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND DOT BELOW
Lu, -- (16#01EAE#, 16#01EAE#) LATIN CAPITAL LETTER A WITH BREVE AND ACUTE .. LATIN CAPITAL LETTER A WITH BREVE AND ACUTE
Ll, -- (16#01EAF#, 16#01EAF#) LATIN SMALL LETTER A WITH BREVE AND ACUTE .. LATIN SMALL LETTER A WITH BREVE AND ACUTE
Lu, -- (16#01EB0#, 16#01EB0#) LATIN CAPITAL LETTER A WITH BREVE AND GRAVE .. LATIN CAPITAL LETTER A WITH BREVE AND GRAVE
Ll, -- (16#01EB1#, 16#01EB1#) LATIN SMALL LETTER A WITH BREVE AND GRAVE .. LATIN SMALL LETTER A WITH BREVE AND GRAVE
Lu, -- (16#01EB2#, 16#01EB2#) LATIN CAPITAL LETTER A WITH BREVE AND HOOK ABOVE .. LATIN CAPITAL LETTER A WITH BREVE AND HOOK ABOVE
Ll, -- (16#01EB3#, 16#01EB3#) LATIN SMALL LETTER A WITH BREVE AND HOOK ABOVE .. LATIN SMALL LETTER A WITH BREVE AND HOOK ABOVE
Lu, -- (16#01EB4#, 16#01EB4#) LATIN CAPITAL LETTER A WITH BREVE AND TILDE .. LATIN CAPITAL LETTER A WITH BREVE AND TILDE
Ll, -- (16#01EB5#, 16#01EB5#) LATIN SMALL LETTER A WITH BREVE AND TILDE .. LATIN SMALL LETTER A WITH BREVE AND TILDE
Lu, -- (16#01EB6#, 16#01EB6#) LATIN CAPITAL LETTER A WITH BREVE AND DOT BELOW .. LATIN CAPITAL LETTER A WITH BREVE AND DOT BELOW
Ll, -- (16#01EB7#, 16#01EB7#) LATIN SMALL LETTER A WITH BREVE AND DOT BELOW .. LATIN SMALL LETTER A WITH BREVE AND DOT BELOW
Lu, -- (16#01EB8#, 16#01EB8#) LATIN CAPITAL LETTER E WITH DOT BELOW .. LATIN CAPITAL LETTER E WITH DOT BELOW
Ll, -- (16#01EB9#, 16#01EB9#) LATIN SMALL LETTER E WITH DOT BELOW .. LATIN SMALL LETTER E WITH DOT BELOW
Lu, -- (16#01EBA#, 16#01EBA#) LATIN CAPITAL LETTER E WITH HOOK ABOVE .. LATIN CAPITAL LETTER E WITH HOOK ABOVE
Ll, -- (16#01EBB#, 16#01EBB#) LATIN SMALL LETTER E WITH HOOK ABOVE .. LATIN SMALL LETTER E WITH HOOK ABOVE
Lu, -- (16#01EBC#, 16#01EBC#) LATIN CAPITAL LETTER E WITH TILDE .. LATIN CAPITAL LETTER E WITH TILDE
Ll, -- (16#01EBD#, 16#01EBD#) LATIN SMALL LETTER E WITH TILDE .. LATIN SMALL LETTER E WITH TILDE
Lu, -- (16#01EBE#, 16#01EBE#) LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND ACUTE .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND ACUTE
Ll, -- (16#01EBF#, 16#01EBF#) LATIN SMALL LETTER E WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND ACUTE
Lu, -- (16#01EC0#, 16#01EC0#) LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND GRAVE .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND GRAVE
Ll, -- (16#01EC1#, 16#01EC1#) LATIN SMALL LETTER E WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND GRAVE
Lu, -- (16#01EC2#, 16#01EC2#) LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE
Ll, -- (16#01EC3#, 16#01EC3#) LATIN SMALL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE
Lu, -- (16#01EC4#, 16#01EC4#) LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND TILDE .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND TILDE
Ll, -- (16#01EC5#, 16#01EC5#) LATIN SMALL LETTER E WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND TILDE
Lu, -- (16#01EC6#, 16#01EC6#) LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND DOT BELOW .. LATIN CAPITAL LETTER E WITH CIRCUMFLEX AND DOT BELOW
Ll, -- (16#01EC7#, 16#01EC7#) LATIN SMALL LETTER E WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND DOT BELOW
Lu, -- (16#01EC8#, 16#01EC8#) LATIN CAPITAL LETTER I WITH HOOK ABOVE .. LATIN CAPITAL LETTER I WITH HOOK ABOVE
Ll, -- (16#01EC9#, 16#01EC9#) LATIN SMALL LETTER I WITH HOOK ABOVE .. LATIN SMALL LETTER I WITH HOOK ABOVE
Lu, -- (16#01ECA#, 16#01ECA#) LATIN CAPITAL LETTER I WITH DOT BELOW .. LATIN CAPITAL LETTER I WITH DOT BELOW
Ll, -- (16#01ECB#, 16#01ECB#) LATIN SMALL LETTER I WITH DOT BELOW .. LATIN SMALL LETTER I WITH DOT BELOW
Lu, -- (16#01ECC#, 16#01ECC#) LATIN CAPITAL LETTER O WITH DOT BELOW .. LATIN CAPITAL LETTER O WITH DOT BELOW
Ll, -- (16#01ECD#, 16#01ECD#) LATIN SMALL LETTER O WITH DOT BELOW .. LATIN SMALL LETTER O WITH DOT BELOW
Lu, -- (16#01ECE#, 16#01ECE#) LATIN CAPITAL LETTER O WITH HOOK ABOVE .. LATIN CAPITAL LETTER O WITH HOOK ABOVE
Ll, -- (16#01ECF#, 16#01ECF#) LATIN SMALL LETTER O WITH HOOK ABOVE .. LATIN SMALL LETTER O WITH HOOK ABOVE
Lu, -- (16#01ED0#, 16#01ED0#) LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND ACUTE .. LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND ACUTE
Ll, -- (16#01ED1#, 16#01ED1#) LATIN SMALL LETTER O WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND ACUTE
Lu, -- (16#01ED2#, 16#01ED2#) LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND GRAVE .. LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND GRAVE
Ll, -- (16#01ED3#, 16#01ED3#) LATIN SMALL LETTER O WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND GRAVE
Lu, -- (16#01ED4#, 16#01ED4#) LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE
Ll, -- (16#01ED5#, 16#01ED5#) LATIN SMALL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE
Lu, -- (16#01ED6#, 16#01ED6#) LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND TILDE .. LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND TILDE
Ll, -- (16#01ED7#, 16#01ED7#) LATIN SMALL LETTER O WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND TILDE
Lu, -- (16#01ED8#, 16#01ED8#) LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND DOT BELOW .. LATIN CAPITAL LETTER O WITH CIRCUMFLEX AND DOT BELOW
Ll, -- (16#01ED9#, 16#01ED9#) LATIN SMALL LETTER O WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND DOT BELOW
Lu, -- (16#01EDA#, 16#01EDA#) LATIN CAPITAL LETTER O WITH HORN AND ACUTE .. LATIN CAPITAL LETTER O WITH HORN AND ACUTE
Ll, -- (16#01EDB#, 16#01EDB#) LATIN SMALL LETTER O WITH HORN AND ACUTE .. LATIN SMALL LETTER O WITH HORN AND ACUTE
Lu, -- (16#01EDC#, 16#01EDC#) LATIN CAPITAL LETTER O WITH HORN AND GRAVE .. LATIN CAPITAL LETTER O WITH HORN AND GRAVE
Ll, -- (16#01EDD#, 16#01EDD#) LATIN SMALL LETTER O WITH HORN AND GRAVE .. LATIN SMALL LETTER O WITH HORN AND GRAVE
Lu, -- (16#01EDE#, 16#01EDE#) LATIN CAPITAL LETTER O WITH HORN AND HOOK ABOVE .. LATIN CAPITAL LETTER O WITH HORN AND HOOK ABOVE
Ll, -- (16#01EDF#, 16#01EDF#) LATIN SMALL LETTER O WITH HORN AND HOOK ABOVE .. LATIN SMALL LETTER O WITH HORN AND HOOK ABOVE
Lu, -- (16#01EE0#, 16#01EE0#) LATIN CAPITAL LETTER O WITH HORN AND TILDE .. LATIN CAPITAL LETTER O WITH HORN AND TILDE
Ll, -- (16#01EE1#, 16#01EE1#) LATIN SMALL LETTER O WITH HORN AND TILDE .. LATIN SMALL LETTER O WITH HORN AND TILDE
Lu, -- (16#01EE2#, 16#01EE2#) LATIN CAPITAL LETTER O WITH HORN AND DOT BELOW .. LATIN CAPITAL LETTER O WITH HORN AND DOT BELOW
Ll, -- (16#01EE3#, 16#01EE3#) LATIN SMALL LETTER O WITH HORN AND DOT BELOW .. LATIN SMALL LETTER O WITH HORN AND DOT BELOW
Lu, -- (16#01EE4#, 16#01EE4#) LATIN CAPITAL LETTER U WITH DOT BELOW .. LATIN CAPITAL LETTER U WITH DOT BELOW
Ll, -- (16#01EE5#, 16#01EE5#) LATIN SMALL LETTER U WITH DOT BELOW .. LATIN SMALL LETTER U WITH DOT BELOW
Lu, -- (16#01EE6#, 16#01EE6#) LATIN CAPITAL LETTER U WITH HOOK ABOVE .. LATIN CAPITAL LETTER U WITH HOOK ABOVE
Ll, -- (16#01EE7#, 16#01EE7#) LATIN SMALL LETTER U WITH HOOK ABOVE .. LATIN SMALL LETTER U WITH HOOK ABOVE
Lu, -- (16#01EE8#, 16#01EE8#) LATIN CAPITAL LETTER U WITH HORN AND ACUTE .. LATIN CAPITAL LETTER U WITH HORN AND ACUTE
Ll, -- (16#01EE9#, 16#01EE9#) LATIN SMALL LETTER U WITH HORN AND ACUTE .. LATIN SMALL LETTER U WITH HORN AND ACUTE
Lu, -- (16#01EEA#, 16#01EEA#) LATIN CAPITAL LETTER U WITH HORN AND GRAVE .. LATIN CAPITAL LETTER U WITH HORN AND GRAVE
Ll, -- (16#01EEB#, 16#01EEB#) LATIN SMALL LETTER U WITH HORN AND GRAVE .. LATIN SMALL LETTER U WITH HORN AND GRAVE
Lu, -- (16#01EEC#, 16#01EEC#) LATIN CAPITAL LETTER U WITH HORN AND HOOK ABOVE .. LATIN CAPITAL LETTER U WITH HORN AND HOOK ABOVE
Ll, -- (16#01EED#, 16#01EED#) LATIN SMALL LETTER U WITH HORN AND HOOK ABOVE .. LATIN SMALL LETTER U WITH HORN AND HOOK ABOVE
Lu, -- (16#01EEE#, 16#01EEE#) LATIN CAPITAL LETTER U WITH HORN AND TILDE .. LATIN CAPITAL LETTER U WITH HORN AND TILDE
Ll, -- (16#01EEF#, 16#01EEF#) LATIN SMALL LETTER U WITH HORN AND TILDE .. LATIN SMALL LETTER U WITH HORN AND TILDE
Lu, -- (16#01EF0#, 16#01EF0#) LATIN CAPITAL LETTER U WITH HORN AND DOT BELOW .. LATIN CAPITAL LETTER U WITH HORN AND DOT BELOW
Ll, -- (16#01EF1#, 16#01EF1#) LATIN SMALL LETTER U WITH HORN AND DOT BELOW .. LATIN SMALL LETTER U WITH HORN AND DOT BELOW
Lu, -- (16#01EF2#, 16#01EF2#) LATIN CAPITAL LETTER Y WITH GRAVE .. LATIN CAPITAL LETTER Y WITH GRAVE
Ll, -- (16#01EF3#, 16#01EF3#) LATIN SMALL LETTER Y WITH GRAVE .. LATIN SMALL LETTER Y WITH GRAVE
Lu, -- (16#01EF4#, 16#01EF4#) LATIN CAPITAL LETTER Y WITH DOT BELOW .. LATIN CAPITAL LETTER Y WITH DOT BELOW
Ll, -- (16#01EF5#, 16#01EF5#) LATIN SMALL LETTER Y WITH DOT BELOW .. LATIN SMALL LETTER Y WITH DOT BELOW
Lu, -- (16#01EF6#, 16#01EF6#) LATIN CAPITAL LETTER Y WITH HOOK ABOVE .. LATIN CAPITAL LETTER Y WITH HOOK ABOVE
Ll, -- (16#01EF7#, 16#01EF7#) LATIN SMALL LETTER Y WITH HOOK ABOVE .. LATIN SMALL LETTER Y WITH HOOK ABOVE
Lu, -- (16#01EF8#, 16#01EF8#) LATIN CAPITAL LETTER Y WITH TILDE .. LATIN CAPITAL LETTER Y WITH TILDE
Ll, -- (16#01EF9#, 16#01EF9#) LATIN SMALL LETTER Y WITH TILDE .. LATIN SMALL LETTER Y WITH TILDE
Ll, -- (16#01F00#, 16#01F07#) GREEK SMALL LETTER ALPHA WITH PSILI .. GREEK SMALL LETTER ALPHA WITH DASIA AND PERISPOMENI
Lu, -- (16#01F08#, 16#01F0F#) GREEK CAPITAL LETTER ALPHA WITH PSILI .. GREEK CAPITAL LETTER ALPHA WITH DASIA AND PERISPOMENI
Ll, -- (16#01F10#, 16#01F15#) GREEK SMALL LETTER EPSILON WITH PSILI .. GREEK SMALL LETTER EPSILON WITH DASIA AND OXIA
Lu, -- (16#01F18#, 16#01F1D#) GREEK CAPITAL LETTER EPSILON WITH PSILI .. GREEK CAPITAL LETTER EPSILON WITH DASIA AND OXIA
Ll, -- (16#01F20#, 16#01F27#) GREEK SMALL LETTER ETA WITH PSILI .. GREEK SMALL LETTER ETA WITH DASIA AND PERISPOMENI
Lu, -- (16#01F28#, 16#01F2F#) GREEK CAPITAL LETTER ETA WITH PSILI .. GREEK CAPITAL LETTER ETA WITH DASIA AND PERISPOMENI
Ll, -- (16#01F30#, 16#01F37#) GREEK SMALL LETTER IOTA WITH PSILI .. GREEK SMALL LETTER IOTA WITH DASIA AND PERISPOMENI
Lu, -- (16#01F38#, 16#01F3F#) GREEK CAPITAL LETTER IOTA WITH PSILI .. GREEK CAPITAL LETTER IOTA WITH DASIA AND PERISPOMENI
Ll, -- (16#01F40#, 16#01F45#) GREEK SMALL LETTER OMICRON WITH PSILI .. GREEK SMALL LETTER OMICRON WITH DASIA AND OXIA
Lu, -- (16#01F48#, 16#01F4D#) GREEK CAPITAL LETTER OMICRON WITH PSILI .. GREEK CAPITAL LETTER OMICRON WITH DASIA AND OXIA
Ll, -- (16#01F50#, 16#01F57#) GREEK SMALL LETTER UPSILON WITH PSILI .. GREEK SMALL LETTER UPSILON WITH DASIA AND PERISPOMENI
Lu, -- (16#01F59#, 16#01F59#) GREEK CAPITAL LETTER UPSILON WITH DASIA .. GREEK CAPITAL LETTER UPSILON WITH DASIA
Lu, -- (16#01F5B#, 16#01F5B#) GREEK CAPITAL LETTER UPSILON WITH DASIA AND VARIA .. GREEK CAPITAL LETTER UPSILON WITH DASIA AND VARIA
Lu, -- (16#01F5D#, 16#01F5D#) GREEK CAPITAL LETTER UPSILON WITH DASIA AND OXIA .. GREEK CAPITAL LETTER UPSILON WITH DASIA AND OXIA
Lu, -- (16#01F5F#, 16#01F5F#) GREEK CAPITAL LETTER UPSILON WITH DASIA AND PERISPOMENI .. GREEK CAPITAL LETTER UPSILON WITH DASIA AND PERISPOMENI
Ll, -- (16#01F60#, 16#01F67#) GREEK SMALL LETTER OMEGA WITH PSILI .. GREEK SMALL LETTER OMEGA WITH DASIA AND PERISPOMENI
Lu, -- (16#01F68#, 16#01F6F#) GREEK CAPITAL LETTER OMEGA WITH PSILI .. GREEK CAPITAL LETTER OMEGA WITH DASIA AND PERISPOMENI
Ll, -- (16#01F70#, 16#01F7D#) GREEK SMALL LETTER ALPHA WITH VARIA .. GREEK SMALL LETTER OMEGA WITH OXIA
Ll, -- (16#01F80#, 16#01F87#) GREEK SMALL LETTER ALPHA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER ALPHA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
Lt, -- (16#01F88#, 16#01F8F#) GREEK CAPITAL LETTER ALPHA WITH PSILI AND PROSGEGRAMMENI .. GREEK CAPITAL LETTER ALPHA WITH DASIA AND PERISPOMENI AND PROSGEGRAMMENI
Ll, -- (16#01F90#, 16#01F97#) GREEK SMALL LETTER ETA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER ETA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
Lt, -- (16#01F98#, 16#01F9F#) GREEK CAPITAL LETTER ETA WITH PSILI AND PROSGEGRAMMENI .. GREEK CAPITAL LETTER ETA WITH DASIA AND PERISPOMENI AND PROSGEGRAMMENI
Ll, -- (16#01FA0#, 16#01FA7#) GREEK SMALL LETTER OMEGA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER OMEGA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
Lt, -- (16#01FA8#, 16#01FAF#) GREEK CAPITAL LETTER OMEGA WITH PSILI AND PROSGEGRAMMENI .. GREEK CAPITAL LETTER OMEGA WITH DASIA AND PERISPOMENI AND PROSGEGRAMMENI
Ll, -- (16#01FB0#, 16#01FB4#) GREEK SMALL LETTER ALPHA WITH VRACHY .. GREEK SMALL LETTER ALPHA WITH OXIA AND YPOGEGRAMMENI
Ll, -- (16#01FB6#, 16#01FB7#) GREEK SMALL LETTER ALPHA WITH PERISPOMENI .. GREEK SMALL LETTER ALPHA WITH PERISPOMENI AND YPOGEGRAMMENI
Lu, -- (16#01FB8#, 16#01FBB#) GREEK CAPITAL LETTER ALPHA WITH VRACHY .. GREEK CAPITAL LETTER ALPHA WITH OXIA
Lt, -- (16#01FBC#, 16#01FBC#) GREEK CAPITAL LETTER ALPHA WITH PROSGEGRAMMENI .. GREEK CAPITAL LETTER ALPHA WITH PROSGEGRAMMENI
Sk, -- (16#01FBD#, 16#01FBD#) GREEK KORONIS .. GREEK KORONIS
Ll, -- (16#01FBE#, 16#01FBE#) GREEK PROSGEGRAMMENI .. GREEK PROSGEGRAMMENI
Sk, -- (16#01FBF#, 16#01FC1#) GREEK PSILI .. GREEK DIALYTIKA AND PERISPOMENI
Ll, -- (16#01FC2#, 16#01FC4#) GREEK SMALL LETTER ETA WITH VARIA AND YPOGEGRAMMENI .. GREEK SMALL LETTER ETA WITH OXIA AND YPOGEGRAMMENI
Ll, -- (16#01FC6#, 16#01FC7#) GREEK SMALL LETTER ETA WITH PERISPOMENI .. GREEK SMALL LETTER ETA WITH PERISPOMENI AND YPOGEGRAMMENI
Lu, -- (16#01FC8#, 16#01FCB#) GREEK CAPITAL LETTER EPSILON WITH VARIA .. GREEK CAPITAL LETTER ETA WITH OXIA
Lt, -- (16#01FCC#, 16#01FCC#) GREEK CAPITAL LETTER ETA WITH PROSGEGRAMMENI .. GREEK CAPITAL LETTER ETA WITH PROSGEGRAMMENI
Sk, -- (16#01FCD#, 16#01FCF#) GREEK PSILI AND VARIA .. GREEK PSILI AND PERISPOMENI
Ll, -- (16#01FD0#, 16#01FD3#) GREEK SMALL LETTER IOTA WITH VRACHY .. GREEK SMALL LETTER IOTA WITH DIALYTIKA AND OXIA
Ll, -- (16#01FD6#, 16#01FD7#) GREEK SMALL LETTER IOTA WITH PERISPOMENI .. GREEK SMALL LETTER IOTA WITH DIALYTIKA AND PERISPOMENI
Lu, -- (16#01FD8#, 16#01FDB#) GREEK CAPITAL LETTER IOTA WITH VRACHY .. GREEK CAPITAL LETTER IOTA WITH OXIA
Sk, -- (16#01FDD#, 16#01FDF#) GREEK DASIA AND VARIA .. GREEK DASIA AND PERISPOMENI
Ll, -- (16#01FE0#, 16#01FE7#) GREEK SMALL LETTER UPSILON WITH VRACHY .. GREEK SMALL LETTER UPSILON WITH DIALYTIKA AND PERISPOMENI
Lu, -- (16#01FE8#, 16#01FEC#) GREEK CAPITAL LETTER UPSILON WITH VRACHY .. GREEK CAPITAL LETTER RHO WITH DASIA
Sk, -- (16#01FED#, 16#01FEF#) GREEK DIALYTIKA AND VARIA .. GREEK VARIA
Ll, -- (16#01FF2#, 16#01FF4#) GREEK SMALL LETTER OMEGA WITH VARIA AND YPOGEGRAMMENI .. GREEK SMALL LETTER OMEGA WITH OXIA AND YPOGEGRAMMENI
Ll, -- (16#01FF6#, 16#01FF7#) GREEK SMALL LETTER OMEGA WITH PERISPOMENI .. GREEK SMALL LETTER OMEGA WITH PERISPOMENI AND YPOGEGRAMMENI
Lu, -- (16#01FF8#, 16#01FFB#) GREEK CAPITAL LETTER OMICRON WITH VARIA .. GREEK CAPITAL LETTER OMEGA WITH OXIA
Lt, -- (16#01FFC#, 16#01FFC#) GREEK CAPITAL LETTER OMEGA WITH PROSGEGRAMMENI .. GREEK CAPITAL LETTER OMEGA WITH PROSGEGRAMMENI
Sk, -- (16#01FFD#, 16#01FFE#) GREEK OXIA .. GREEK DASIA
Zs, -- (16#02000#, 16#0200B#) EN QUAD .. ZERO WIDTH SPACE
Cf, -- (16#0200C#, 16#0200F#) ZERO WIDTH NON-JOINER .. RIGHT-TO-LEFT MARK
Pd, -- (16#02010#, 16#02015#) HYPHEN .. HORIZONTAL BAR
Po, -- (16#02016#, 16#02017#) DOUBLE VERTICAL LINE .. DOUBLE LOW LINE
Pi, -- (16#02018#, 16#02018#) LEFT SINGLE QUOTATION MARK .. LEFT SINGLE QUOTATION MARK
Pf, -- (16#02019#, 16#02019#) RIGHT SINGLE QUOTATION MARK .. RIGHT SINGLE QUOTATION MARK
Ps, -- (16#0201A#, 16#0201A#) SINGLE LOW-9 QUOTATION MARK .. SINGLE LOW-9 QUOTATION MARK
Pi, -- (16#0201B#, 16#0201C#) SINGLE HIGH-REVERSED-9 QUOTATION MARK .. LEFT DOUBLE QUOTATION MARK
Pf, -- (16#0201D#, 16#0201D#) RIGHT DOUBLE QUOTATION MARK .. RIGHT DOUBLE QUOTATION MARK
Ps, -- (16#0201E#, 16#0201E#) DOUBLE LOW-9 QUOTATION MARK .. DOUBLE LOW-9 QUOTATION MARK
Pi, -- (16#0201F#, 16#0201F#) DOUBLE HIGH-REVERSED-9 QUOTATION MARK .. DOUBLE HIGH-REVERSED-9 QUOTATION MARK
Po, -- (16#02020#, 16#02027#) DAGGER .. HYPHENATION POINT
Zl, -- (16#02028#, 16#02028#) LINE SEPARATOR .. LINE SEPARATOR
Zp, -- (16#02029#, 16#02029#) PARAGRAPH SEPARATOR .. PARAGRAPH SEPARATOR
Cf, -- (16#0202A#, 16#0202E#) LEFT-TO-RIGHT EMBEDDING .. RIGHT-TO-LEFT OVERRIDE
Zs, -- (16#0202F#, 16#0202F#) NARROW NO-BREAK SPACE .. NARROW NO-BREAK SPACE
Po, -- (16#02030#, 16#02038#) PER MILLE SIGN .. CARET
Pi, -- (16#02039#, 16#02039#) SINGLE LEFT-POINTING ANGLE QUOTATION MARK .. SINGLE LEFT-POINTING ANGLE QUOTATION MARK
Pf, -- (16#0203A#, 16#0203A#) SINGLE RIGHT-POINTING ANGLE QUOTATION MARK .. SINGLE RIGHT-POINTING ANGLE QUOTATION MARK
Po, -- (16#0203B#, 16#0203E#) REFERENCE MARK .. OVERLINE
Pc, -- (16#0203F#, 16#02040#) UNDERTIE .. CHARACTER TIE
Po, -- (16#02041#, 16#02043#) CARET INSERTION POINT .. HYPHEN BULLET
Sm, -- (16#02044#, 16#02044#) FRACTION SLASH .. FRACTION SLASH
Ps, -- (16#02045#, 16#02045#) LEFT SQUARE BRACKET WITH QUILL .. LEFT SQUARE BRACKET WITH QUILL
Pe, -- (16#02046#, 16#02046#) RIGHT SQUARE BRACKET WITH QUILL .. RIGHT SQUARE BRACKET WITH QUILL
Po, -- (16#02047#, 16#02051#) DOUBLE QUESTION MARK .. TWO ASTERISKS ALIGNED VERTICALLY
Sm, -- (16#02052#, 16#02052#) COMMERCIAL MINUS SIGN .. COMMERCIAL MINUS SIGN
Po, -- (16#02053#, 16#02053#) SWUNG DASH .. SWUNG DASH
Pc, -- (16#02054#, 16#02054#) INVERTED UNDERTIE .. INVERTED UNDERTIE
Po, -- (16#02057#, 16#02057#) QUADRUPLE PRIME .. QUADRUPLE PRIME
Zs, -- (16#0205F#, 16#0205F#) MEDIUM MATHEMATICAL SPACE .. MEDIUM MATHEMATICAL SPACE
Cf, -- (16#02060#, 16#02063#) WORD JOINER .. INVISIBLE SEPARATOR
Cf, -- (16#0206A#, 16#0206F#) INHIBIT SYMMETRIC SWAPPING .. NOMINAL DIGIT SHAPES
No, -- (16#02070#, 16#02070#) SUPERSCRIPT ZERO .. SUPERSCRIPT ZERO
Ll, -- (16#02071#, 16#02071#) SUPERSCRIPT LATIN SMALL LETTER I .. SUPERSCRIPT LATIN SMALL LETTER I
No, -- (16#02074#, 16#02079#) SUPERSCRIPT FOUR .. SUPERSCRIPT NINE
Sm, -- (16#0207A#, 16#0207C#) SUPERSCRIPT PLUS SIGN .. SUPERSCRIPT EQUALS SIGN
Ps, -- (16#0207D#, 16#0207D#) SUPERSCRIPT LEFT PARENTHESIS .. SUPERSCRIPT LEFT PARENTHESIS
Pe, -- (16#0207E#, 16#0207E#) SUPERSCRIPT RIGHT PARENTHESIS .. SUPERSCRIPT RIGHT PARENTHESIS
Ll, -- (16#0207F#, 16#0207F#) SUPERSCRIPT LATIN SMALL LETTER N .. SUPERSCRIPT LATIN SMALL LETTER N
No, -- (16#02080#, 16#02089#) SUBSCRIPT ZERO .. SUBSCRIPT NINE
Sm, -- (16#0208A#, 16#0208C#) SUBSCRIPT PLUS SIGN .. SUBSCRIPT EQUALS SIGN
Ps, -- (16#0208D#, 16#0208D#) SUBSCRIPT LEFT PARENTHESIS .. SUBSCRIPT LEFT PARENTHESIS
Pe, -- (16#0208E#, 16#0208E#) SUBSCRIPT RIGHT PARENTHESIS .. SUBSCRIPT RIGHT PARENTHESIS
Sc, -- (16#020A0#, 16#020B1#) EURO-CURRENCY SIGN .. PESO SIGN
Mn, -- (16#020D0#, 16#020DC#) COMBINING LEFT HARPOON ABOVE .. COMBINING FOUR DOTS ABOVE
Me, -- (16#020DD#, 16#020E0#) COMBINING ENCLOSING CIRCLE .. COMBINING ENCLOSING CIRCLE BACKSLASH
Mn, -- (16#020E1#, 16#020E1#) COMBINING LEFT RIGHT ARROW ABOVE .. COMBINING LEFT RIGHT ARROW ABOVE
Me, -- (16#020E2#, 16#020E4#) COMBINING ENCLOSING SCREEN .. COMBINING ENCLOSING UPWARD POINTING TRIANGLE
Mn, -- (16#020E5#, 16#020EA#) COMBINING REVERSE SOLIDUS OVERLAY .. COMBINING LEFTWARDS ARROW OVERLAY
So, -- (16#02100#, 16#02101#) ACCOUNT OF .. ADDRESSED TO THE SUBJECT
Lu, -- (16#02102#, 16#02102#) DOUBLE-STRUCK CAPITAL C .. DOUBLE-STRUCK CAPITAL C
So, -- (16#02103#, 16#02106#) DEGREE CELSIUS .. CADA UNA
Lu, -- (16#02107#, 16#02107#) EULER CONSTANT .. EULER CONSTANT
So, -- (16#02108#, 16#02109#) SCRUPLE .. DEGREE FAHRENHEIT
Ll, -- (16#0210A#, 16#0210A#) SCRIPT SMALL G .. SCRIPT SMALL G
Lu, -- (16#0210B#, 16#0210D#) SCRIPT CAPITAL H .. DOUBLE-STRUCK CAPITAL H
Ll, -- (16#0210E#, 16#0210F#) PLANCK CONSTANT .. PLANCK CONSTANT OVER TWO PI
Lu, -- (16#02110#, 16#02112#) SCRIPT CAPITAL I .. SCRIPT CAPITAL L
Ll, -- (16#02113#, 16#02113#) SCRIPT SMALL L .. SCRIPT SMALL L
So, -- (16#02114#, 16#02114#) L B BAR SYMBOL .. L B BAR SYMBOL
Lu, -- (16#02115#, 16#02115#) DOUBLE-STRUCK CAPITAL N .. DOUBLE-STRUCK CAPITAL N
So, -- (16#02116#, 16#02118#) NUMERO SIGN .. SCRIPT CAPITAL P
Lu, -- (16#02119#, 16#0211D#) DOUBLE-STRUCK CAPITAL P .. DOUBLE-STRUCK CAPITAL R
So, -- (16#0211E#, 16#02123#) PRESCRIPTION TAKE .. VERSICLE
Lu, -- (16#02124#, 16#02124#) DOUBLE-STRUCK CAPITAL Z .. DOUBLE-STRUCK CAPITAL Z
So, -- (16#02125#, 16#02125#) OUNCE SIGN .. OUNCE SIGN
Lu, -- (16#02126#, 16#02126#) OHM SIGN .. OHM SIGN
So, -- (16#02127#, 16#02127#) INVERTED OHM SIGN .. INVERTED OHM SIGN
Lu, -- (16#02128#, 16#02128#) BLACK-LETTER CAPITAL Z .. BLACK-LETTER CAPITAL Z
So, -- (16#02129#, 16#02129#) TURNED GREEK SMALL LETTER IOTA .. TURNED GREEK SMALL LETTER IOTA
Lu, -- (16#0212A#, 16#0212D#) KELVIN SIGN .. BLACK-LETTER CAPITAL C
So, -- (16#0212E#, 16#0212E#) ESTIMATED SYMBOL .. ESTIMATED SYMBOL
Ll, -- (16#0212F#, 16#0212F#) SCRIPT SMALL E .. SCRIPT SMALL E
Lu, -- (16#02130#, 16#02131#) SCRIPT CAPITAL E .. SCRIPT CAPITAL F
So, -- (16#02132#, 16#02132#) TURNED CAPITAL F .. TURNED CAPITAL F
Lu, -- (16#02133#, 16#02133#) SCRIPT CAPITAL M .. SCRIPT CAPITAL M
Ll, -- (16#02134#, 16#02134#) SCRIPT SMALL O .. SCRIPT SMALL O
Lo, -- (16#02135#, 16#02138#) ALEF SYMBOL .. DALET SYMBOL
Ll, -- (16#02139#, 16#02139#) INFORMATION SOURCE .. INFORMATION SOURCE
So, -- (16#0213A#, 16#0213B#) ROTATED CAPITAL Q .. FACSIMILE SIGN
Ll, -- (16#0213D#, 16#0213D#) DOUBLE-STRUCK SMALL GAMMA .. DOUBLE-STRUCK SMALL GAMMA
Lu, -- (16#0213E#, 16#0213F#) DOUBLE-STRUCK CAPITAL GAMMA .. DOUBLE-STRUCK CAPITAL PI
Sm, -- (16#02140#, 16#02144#) DOUBLE-STRUCK N-ARY SUMMATION .. TURNED SANS-SERIF CAPITAL Y
Lu, -- (16#02145#, 16#02145#) DOUBLE-STRUCK ITALIC CAPITAL D .. DOUBLE-STRUCK ITALIC CAPITAL D
Ll, -- (16#02146#, 16#02149#) DOUBLE-STRUCK ITALIC SMALL D .. DOUBLE-STRUCK ITALIC SMALL J
So, -- (16#0214A#, 16#0214A#) PROPERTY LINE .. PROPERTY LINE
Sm, -- (16#0214B#, 16#0214B#) TURNED AMPERSAND .. TURNED AMPERSAND
No, -- (16#02153#, 16#0215F#) VULGAR FRACTION ONE THIRD .. FRACTION NUMERATOR ONE
Nl, -- (16#02160#, 16#02183#) ROMAN NUMERAL ONE .. ROMAN NUMERAL REVERSED ONE HUNDRED
Sm, -- (16#02190#, 16#02194#) LEFTWARDS ARROW .. LEFT RIGHT ARROW
So, -- (16#02195#, 16#02199#) UP DOWN ARROW .. SOUTH WEST ARROW
Sm, -- (16#0219A#, 16#0219B#) LEFTWARDS ARROW WITH STROKE .. RIGHTWARDS ARROW WITH STROKE
So, -- (16#0219C#, 16#0219F#) LEFTWARDS WAVE ARROW .. UPWARDS TWO HEADED ARROW
Sm, -- (16#021A0#, 16#021A0#) RIGHTWARDS TWO HEADED ARROW .. RIGHTWARDS TWO HEADED ARROW
So, -- (16#021A1#, 16#021A2#) DOWNWARDS TWO HEADED ARROW .. LEFTWARDS ARROW WITH TAIL
Sm, -- (16#021A3#, 16#021A3#) RIGHTWARDS ARROW WITH TAIL .. RIGHTWARDS ARROW WITH TAIL
So, -- (16#021A4#, 16#021A5#) LEFTWARDS ARROW FROM BAR .. UPWARDS ARROW FROM BAR
Sm, -- (16#021A6#, 16#021A6#) RIGHTWARDS ARROW FROM BAR .. RIGHTWARDS ARROW FROM BAR
So, -- (16#021A7#, 16#021AD#) DOWNWARDS ARROW FROM BAR .. LEFT RIGHT WAVE ARROW
Sm, -- (16#021AE#, 16#021AE#) LEFT RIGHT ARROW WITH STROKE .. LEFT RIGHT ARROW WITH STROKE
So, -- (16#021AF#, 16#021CD#) DOWNWARDS ZIGZAG ARROW .. LEFTWARDS DOUBLE ARROW WITH STROKE
Sm, -- (16#021CE#, 16#021CF#) LEFT RIGHT DOUBLE ARROW WITH STROKE .. RIGHTWARDS DOUBLE ARROW WITH STROKE
So, -- (16#021D0#, 16#021D1#) LEFTWARDS DOUBLE ARROW .. UPWARDS DOUBLE ARROW
Sm, -- (16#021D2#, 16#021D2#) RIGHTWARDS DOUBLE ARROW .. RIGHTWARDS DOUBLE ARROW
So, -- (16#021D3#, 16#021D3#) DOWNWARDS DOUBLE ARROW .. DOWNWARDS DOUBLE ARROW
Sm, -- (16#021D4#, 16#021D4#) LEFT RIGHT DOUBLE ARROW .. LEFT RIGHT DOUBLE ARROW
So, -- (16#021D5#, 16#021F3#) UP DOWN DOUBLE ARROW .. UP DOWN WHITE ARROW
Sm, -- (16#021F4#, 16#022FF#) RIGHT ARROW WITH SMALL CIRCLE .. Z NOTATION BAG MEMBERSHIP
So, -- (16#02300#, 16#02307#) DIAMETER SIGN .. WAVY LINE
Sm, -- (16#02308#, 16#0230B#) LEFT CEILING .. RIGHT FLOOR
So, -- (16#0230C#, 16#0231F#) BOTTOM RIGHT CROP .. BOTTOM RIGHT CORNER
Sm, -- (16#02320#, 16#02321#) TOP HALF INTEGRAL .. BOTTOM HALF INTEGRAL
So, -- (16#02322#, 16#02328#) FROWN .. KEYBOARD
Ps, -- (16#02329#, 16#02329#) LEFT-POINTING ANGLE BRACKET .. LEFT-POINTING ANGLE BRACKET
Pe, -- (16#0232A#, 16#0232A#) RIGHT-POINTING ANGLE BRACKET .. RIGHT-POINTING ANGLE BRACKET
So, -- (16#0232B#, 16#0237B#) ERASE TO THE LEFT .. NOT CHECK MARK
Sm, -- (16#0237C#, 16#0237C#) RIGHT ANGLE WITH DOWNWARDS ZIGZAG ARROW .. RIGHT ANGLE WITH DOWNWARDS ZIGZAG ARROW
So, -- (16#0237D#, 16#0239A#) SHOULDERED OPEN BOX .. CLEAR SCREEN SYMBOL
Sm, -- (16#0239B#, 16#023B3#) LEFT PARENTHESIS UPPER HOOK .. SUMMATION BOTTOM
Ps, -- (16#023B4#, 16#023B4#) TOP SQUARE BRACKET .. TOP SQUARE BRACKET
Pe, -- (16#023B5#, 16#023B5#) BOTTOM SQUARE BRACKET .. BOTTOM SQUARE BRACKET
Po, -- (16#023B6#, 16#023B6#) BOTTOM SQUARE BRACKET OVER TOP SQUARE BRACKET .. BOTTOM SQUARE BRACKET OVER TOP SQUARE BRACKET
So, -- (16#023B7#, 16#023D0#) RADICAL SYMBOL BOTTOM .. VERTICAL LINE EXTENSION
So, -- (16#02400#, 16#02426#) SYMBOL FOR NULL .. SYMBOL FOR SUBSTITUTE FORM TWO
So, -- (16#02440#, 16#0244A#) OCR HOOK .. OCR DOUBLE BACKSLASH
No, -- (16#02460#, 16#0249B#) CIRCLED DIGIT ONE .. NUMBER TWENTY FULL STOP
So, -- (16#0249C#, 16#024E9#) PARENTHESIZED LATIN SMALL LETTER A .. CIRCLED LATIN SMALL LETTER Z
No, -- (16#024EA#, 16#024FF#) CIRCLED DIGIT ZERO .. NEGATIVE CIRCLED DIGIT ZERO
So, -- (16#02500#, 16#025B6#) BOX DRAWINGS LIGHT HORIZONTAL .. BLACK RIGHT-POINTING TRIANGLE
Sm, -- (16#025B7#, 16#025B7#) WHITE RIGHT-POINTING TRIANGLE .. WHITE RIGHT-POINTING TRIANGLE
So, -- (16#025B8#, 16#025C0#) BLACK RIGHT-POINTING SMALL TRIANGLE .. BLACK LEFT-POINTING TRIANGLE
Sm, -- (16#025C1#, 16#025C1#) WHITE LEFT-POINTING TRIANGLE .. WHITE LEFT-POINTING TRIANGLE
So, -- (16#025C2#, 16#025F7#) BLACK LEFT-POINTING SMALL TRIANGLE .. WHITE CIRCLE WITH UPPER RIGHT QUADRANT
Sm, -- (16#025F8#, 16#025FF#) UPPER LEFT TRIANGLE .. LOWER RIGHT TRIANGLE
So, -- (16#02600#, 16#02617#) BLACK SUN WITH RAYS .. BLACK SHOGI PIECE
So, -- (16#02619#, 16#0266E#) REVERSED ROTATED FLORAL HEART BULLET .. MUSIC NATURAL SIGN
Sm, -- (16#0266F#, 16#0266F#) MUSIC SHARP SIGN .. MUSIC SHARP SIGN
So, -- (16#02670#, 16#0267D#) WEST SYRIAC CROSS .. PARTIALLY-RECYCLED PAPER SYMBOL
So, -- (16#02680#, 16#02691#) DIE FACE-1 .. BLACK FLAG
So, -- (16#026A0#, 16#026A1#) WARNING SIGN .. HIGH VOLTAGE SIGN
So, -- (16#02701#, 16#02704#) UPPER BLADE SCISSORS .. WHITE SCISSORS
So, -- (16#02706#, 16#02709#) TELEPHONE LOCATION SIGN .. ENVELOPE
So, -- (16#0270C#, 16#02727#) VICTORY HAND .. WHITE FOUR POINTED STAR
So, -- (16#02729#, 16#0274B#) STRESS OUTLINED WHITE STAR .. HEAVY EIGHT TEARDROP-SPOKED PROPELLER ASTERISK
So, -- (16#0274D#, 16#0274D#) SHADOWED WHITE CIRCLE .. SHADOWED WHITE CIRCLE
So, -- (16#0274F#, 16#02752#) LOWER RIGHT DROP-SHADOWED WHITE SQUARE .. UPPER RIGHT SHADOWED WHITE SQUARE
So, -- (16#02756#, 16#02756#) BLACK DIAMOND MINUS WHITE X .. BLACK DIAMOND MINUS WHITE X
So, -- (16#02758#, 16#0275E#) LIGHT VERTICAL BAR .. HEAVY DOUBLE COMMA QUOTATION MARK ORNAMENT
So, -- (16#02761#, 16#02767#) CURVED STEM PARAGRAPH SIGN ORNAMENT .. ROTATED FLORAL HEART BULLET
Ps, -- (16#02768#, 16#02768#) MEDIUM LEFT PARENTHESIS ORNAMENT .. MEDIUM LEFT PARENTHESIS ORNAMENT
Pe, -- (16#02769#, 16#02769#) MEDIUM RIGHT PARENTHESIS ORNAMENT .. MEDIUM RIGHT PARENTHESIS ORNAMENT
Ps, -- (16#0276A#, 16#0276A#) MEDIUM FLATTENED LEFT PARENTHESIS ORNAMENT .. MEDIUM FLATTENED LEFT PARENTHESIS ORNAMENT
Pe, -- (16#0276B#, 16#0276B#) MEDIUM FLATTENED RIGHT PARENTHESIS ORNAMENT .. MEDIUM FLATTENED RIGHT PARENTHESIS ORNAMENT
Ps, -- (16#0276C#, 16#0276C#) MEDIUM LEFT-POINTING ANGLE BRACKET ORNAMENT .. MEDIUM LEFT-POINTING ANGLE BRACKET ORNAMENT
Pe, -- (16#0276D#, 16#0276D#) MEDIUM RIGHT-POINTING ANGLE BRACKET ORNAMENT .. MEDIUM RIGHT-POINTING ANGLE BRACKET ORNAMENT
Ps, -- (16#0276E#, 16#0276E#) HEAVY LEFT-POINTING ANGLE QUOTATION MARK ORNAMENT .. HEAVY LEFT-POINTING ANGLE QUOTATION MARK ORNAMENT
Pe, -- (16#0276F#, 16#0276F#) HEAVY RIGHT-POINTING ANGLE QUOTATION MARK ORNAMENT .. HEAVY RIGHT-POINTING ANGLE QUOTATION MARK ORNAMENT
Ps, -- (16#02770#, 16#02770#) HEAVY LEFT-POINTING ANGLE BRACKET ORNAMENT .. HEAVY LEFT-POINTING ANGLE BRACKET ORNAMENT
Pe, -- (16#02771#, 16#02771#) HEAVY RIGHT-POINTING ANGLE BRACKET ORNAMENT .. HEAVY RIGHT-POINTING ANGLE BRACKET ORNAMENT
Ps, -- (16#02772#, 16#02772#) LIGHT LEFT TORTOISE SHELL BRACKET ORNAMENT .. LIGHT LEFT TORTOISE SHELL BRACKET ORNAMENT
Pe, -- (16#02773#, 16#02773#) LIGHT RIGHT TORTOISE SHELL BRACKET ORNAMENT .. LIGHT RIGHT TORTOISE SHELL BRACKET ORNAMENT
Ps, -- (16#02774#, 16#02774#) MEDIUM LEFT CURLY BRACKET ORNAMENT .. MEDIUM LEFT CURLY BRACKET ORNAMENT
Pe, -- (16#02775#, 16#02775#) MEDIUM RIGHT CURLY BRACKET ORNAMENT .. MEDIUM RIGHT CURLY BRACKET ORNAMENT
No, -- (16#02776#, 16#02793#) DINGBAT NEGATIVE CIRCLED DIGIT ONE .. DINGBAT NEGATIVE CIRCLED SANS-SERIF NUMBER TEN
So, -- (16#02794#, 16#02794#) HEAVY WIDE-HEADED RIGHTWARDS ARROW .. HEAVY WIDE-HEADED RIGHTWARDS ARROW
So, -- (16#02798#, 16#027AF#) HEAVY SOUTH EAST ARROW .. NOTCHED LOWER RIGHT-SHADOWED WHITE RIGHTWARDS ARROW
So, -- (16#027B1#, 16#027BE#) NOTCHED UPPER RIGHT-SHADOWED WHITE RIGHTWARDS ARROW .. OPEN-OUTLINED RIGHTWARDS ARROW
Sm, -- (16#027D0#, 16#027E5#) WHITE DIAMOND WITH CENTRED DOT .. WHITE SQUARE WITH RIGHTWARDS TICK
Ps, -- (16#027E6#, 16#027E6#) MATHEMATICAL LEFT WHITE SQUARE BRACKET .. MATHEMATICAL LEFT WHITE SQUARE BRACKET
Pe, -- (16#027E7#, 16#027E7#) MATHEMATICAL RIGHT WHITE SQUARE BRACKET .. MATHEMATICAL RIGHT WHITE SQUARE BRACKET
Ps, -- (16#027E8#, 16#027E8#) MATHEMATICAL LEFT ANGLE BRACKET .. MATHEMATICAL LEFT ANGLE BRACKET
Pe, -- (16#027E9#, 16#027E9#) MATHEMATICAL RIGHT ANGLE BRACKET .. MATHEMATICAL RIGHT ANGLE BRACKET
Ps, -- (16#027EA#, 16#027EA#) MATHEMATICAL LEFT DOUBLE ANGLE BRACKET .. MATHEMATICAL LEFT DOUBLE ANGLE BRACKET
Pe, -- (16#027EB#, 16#027EB#) MATHEMATICAL RIGHT DOUBLE ANGLE BRACKET .. MATHEMATICAL RIGHT DOUBLE ANGLE BRACKET
Sm, -- (16#027F0#, 16#027FF#) UPWARDS QUADRUPLE ARROW .. LONG RIGHTWARDS SQUIGGLE ARROW
So, -- (16#02800#, 16#028FF#) BRAILLE PATTERN BLANK .. BRAILLE PATTERN DOTS-12345678
Sm, -- (16#02900#, 16#02982#) RIGHTWARDS TWO-HEADED ARROW WITH VERTICAL STROKE .. Z NOTATION TYPE COLON
Ps, -- (16#02983#, 16#02983#) LEFT WHITE CURLY BRACKET .. LEFT WHITE CURLY BRACKET
Pe, -- (16#02984#, 16#02984#) RIGHT WHITE CURLY BRACKET .. RIGHT WHITE CURLY BRACKET
Ps, -- (16#02985#, 16#02985#) LEFT WHITE PARENTHESIS .. LEFT WHITE PARENTHESIS
Pe, -- (16#02986#, 16#02986#) RIGHT WHITE PARENTHESIS .. RIGHT WHITE PARENTHESIS
Ps, -- (16#02987#, 16#02987#) Z NOTATION LEFT IMAGE BRACKET .. Z NOTATION LEFT IMAGE BRACKET
Pe, -- (16#02988#, 16#02988#) Z NOTATION RIGHT IMAGE BRACKET .. Z NOTATION RIGHT IMAGE BRACKET
Ps, -- (16#02989#, 16#02989#) Z NOTATION LEFT BINDING BRACKET .. Z NOTATION LEFT BINDING BRACKET
Pe, -- (16#0298A#, 16#0298A#) Z NOTATION RIGHT BINDING BRACKET .. Z NOTATION RIGHT BINDING BRACKET
Ps, -- (16#0298B#, 16#0298B#) LEFT SQUARE BRACKET WITH UNDERBAR .. LEFT SQUARE BRACKET WITH UNDERBAR
Pe, -- (16#0298C#, 16#0298C#) RIGHT SQUARE BRACKET WITH UNDERBAR .. RIGHT SQUARE BRACKET WITH UNDERBAR
Ps, -- (16#0298D#, 16#0298D#) LEFT SQUARE BRACKET WITH TICK IN TOP CORNER .. LEFT SQUARE BRACKET WITH TICK IN TOP CORNER
Pe, -- (16#0298E#, 16#0298E#) RIGHT SQUARE BRACKET WITH TICK IN BOTTOM CORNER .. RIGHT SQUARE BRACKET WITH TICK IN BOTTOM CORNER
Ps, -- (16#0298F#, 16#0298F#) LEFT SQUARE BRACKET WITH TICK IN BOTTOM CORNER .. LEFT SQUARE BRACKET WITH TICK IN BOTTOM CORNER
Pe, -- (16#02990#, 16#02990#) RIGHT SQUARE BRACKET WITH TICK IN TOP CORNER .. RIGHT SQUARE BRACKET WITH TICK IN TOP CORNER
Ps, -- (16#02991#, 16#02991#) LEFT ANGLE BRACKET WITH DOT .. LEFT ANGLE BRACKET WITH DOT
Pe, -- (16#02992#, 16#02992#) RIGHT ANGLE BRACKET WITH DOT .. RIGHT ANGLE BRACKET WITH DOT
Ps, -- (16#02993#, 16#02993#) LEFT ARC LESS-THAN BRACKET .. LEFT ARC LESS-THAN BRACKET
Pe, -- (16#02994#, 16#02994#) RIGHT ARC GREATER-THAN BRACKET .. RIGHT ARC GREATER-THAN BRACKET
Ps, -- (16#02995#, 16#02995#) DOUBLE LEFT ARC GREATER-THAN BRACKET .. DOUBLE LEFT ARC GREATER-THAN BRACKET
Pe, -- (16#02996#, 16#02996#) DOUBLE RIGHT ARC LESS-THAN BRACKET .. DOUBLE RIGHT ARC LESS-THAN BRACKET
Ps, -- (16#02997#, 16#02997#) LEFT BLACK TORTOISE SHELL BRACKET .. LEFT BLACK TORTOISE SHELL BRACKET
Pe, -- (16#02998#, 16#02998#) RIGHT BLACK TORTOISE SHELL BRACKET .. RIGHT BLACK TORTOISE SHELL BRACKET
Sm, -- (16#02999#, 16#029D7#) DOTTED FENCE .. BLACK HOURGLASS
Ps, -- (16#029D8#, 16#029D8#) LEFT WIGGLY FENCE .. LEFT WIGGLY FENCE
Pe, -- (16#029D9#, 16#029D9#) RIGHT WIGGLY FENCE .. RIGHT WIGGLY FENCE
Ps, -- (16#029DA#, 16#029DA#) LEFT DOUBLE WIGGLY FENCE .. LEFT DOUBLE WIGGLY FENCE
Pe, -- (16#029DB#, 16#029DB#) RIGHT DOUBLE WIGGLY FENCE .. RIGHT DOUBLE WIGGLY FENCE
Sm, -- (16#029DC#, 16#029FB#) INCOMPLETE INFINITY .. TRIPLE PLUS
Ps, -- (16#029FC#, 16#029FC#) LEFT-POINTING CURVED ANGLE BRACKET .. LEFT-POINTING CURVED ANGLE BRACKET
Pe, -- (16#029FD#, 16#029FD#) RIGHT-POINTING CURVED ANGLE BRACKET .. RIGHT-POINTING CURVED ANGLE BRACKET
Sm, -- (16#029FE#, 16#02AFF#) TINY .. N-ARY WHITE VERTICAL BAR
So, -- (16#02B00#, 16#02B0D#) NORTH EAST WHITE ARROW .. UP DOWN BLACK ARROW
So, -- (16#02E80#, 16#02E99#) CJK RADICAL REPEAT .. CJK RADICAL RAP
So, -- (16#02E9B#, 16#02EF3#) CJK RADICAL CHOKE .. CJK RADICAL C-SIMPLIFIED TURTLE
So, -- (16#02F00#, 16#02FD5#) KANGXI RADICAL ONE .. KANGXI RADICAL FLUTE
So, -- (16#02FF0#, 16#02FFB#) IDEOGRAPHIC DESCRIPTION CHARACTER LEFT TO RIGHT .. IDEOGRAPHIC DESCRIPTION CHARACTER OVERLAID
Zs, -- (16#03000#, 16#03000#) IDEOGRAPHIC SPACE .. IDEOGRAPHIC SPACE
Po, -- (16#03001#, 16#03003#) IDEOGRAPHIC COMMA .. DITTO MARK
So, -- (16#03004#, 16#03004#) JAPANESE INDUSTRIAL STANDARD SYMBOL .. JAPANESE INDUSTRIAL STANDARD SYMBOL
Lm, -- (16#03005#, 16#03005#) IDEOGRAPHIC ITERATION MARK .. IDEOGRAPHIC ITERATION MARK
Lo, -- (16#03006#, 16#03006#) IDEOGRAPHIC CLOSING MARK .. IDEOGRAPHIC CLOSING MARK
Nl, -- (16#03007#, 16#03007#) IDEOGRAPHIC NUMBER ZERO .. IDEOGRAPHIC NUMBER ZERO
Ps, -- (16#03008#, 16#03008#) LEFT ANGLE BRACKET .. LEFT ANGLE BRACKET
Pe, -- (16#03009#, 16#03009#) RIGHT ANGLE BRACKET .. RIGHT ANGLE BRACKET
Ps, -- (16#0300A#, 16#0300A#) LEFT DOUBLE ANGLE BRACKET .. LEFT DOUBLE ANGLE BRACKET
Pe, -- (16#0300B#, 16#0300B#) RIGHT DOUBLE ANGLE BRACKET .. RIGHT DOUBLE ANGLE BRACKET
Ps, -- (16#0300C#, 16#0300C#) LEFT CORNER BRACKET .. LEFT CORNER BRACKET
Pe, -- (16#0300D#, 16#0300D#) RIGHT CORNER BRACKET .. RIGHT CORNER BRACKET
Ps, -- (16#0300E#, 16#0300E#) LEFT WHITE CORNER BRACKET .. LEFT WHITE CORNER BRACKET
Pe, -- (16#0300F#, 16#0300F#) RIGHT WHITE CORNER BRACKET .. RIGHT WHITE CORNER BRACKET
Ps, -- (16#03010#, 16#03010#) LEFT BLACK LENTICULAR BRACKET .. LEFT BLACK LENTICULAR BRACKET
Pe, -- (16#03011#, 16#03011#) RIGHT BLACK LENTICULAR BRACKET .. RIGHT BLACK LENTICULAR BRACKET
So, -- (16#03012#, 16#03013#) POSTAL MARK .. GETA MARK
Ps, -- (16#03014#, 16#03014#) LEFT TORTOISE SHELL BRACKET .. LEFT TORTOISE SHELL BRACKET
Pe, -- (16#03015#, 16#03015#) RIGHT TORTOISE SHELL BRACKET .. RIGHT TORTOISE SHELL BRACKET
Ps, -- (16#03016#, 16#03016#) LEFT WHITE LENTICULAR BRACKET .. LEFT WHITE LENTICULAR BRACKET
Pe, -- (16#03017#, 16#03017#) RIGHT WHITE LENTICULAR BRACKET .. RIGHT WHITE LENTICULAR BRACKET
Ps, -- (16#03018#, 16#03018#) LEFT WHITE TORTOISE SHELL BRACKET .. LEFT WHITE TORTOISE SHELL BRACKET
Pe, -- (16#03019#, 16#03019#) RIGHT WHITE TORTOISE SHELL BRACKET .. RIGHT WHITE TORTOISE SHELL BRACKET
Ps, -- (16#0301A#, 16#0301A#) LEFT WHITE SQUARE BRACKET .. LEFT WHITE SQUARE BRACKET
Pe, -- (16#0301B#, 16#0301B#) RIGHT WHITE SQUARE BRACKET .. RIGHT WHITE SQUARE BRACKET
Pd, -- (16#0301C#, 16#0301C#) WAVE DASH .. WAVE DASH
Ps, -- (16#0301D#, 16#0301D#) REVERSED DOUBLE PRIME QUOTATION MARK .. REVERSED DOUBLE PRIME QUOTATION MARK
Pe, -- (16#0301E#, 16#0301F#) DOUBLE PRIME QUOTATION MARK .. LOW DOUBLE PRIME QUOTATION MARK
So, -- (16#03020#, 16#03020#) POSTAL MARK FACE .. POSTAL MARK FACE
Nl, -- (16#03021#, 16#03029#) HANGZHOU NUMERAL ONE .. HANGZHOU NUMERAL NINE
Mn, -- (16#0302A#, 16#0302F#) IDEOGRAPHIC LEVEL TONE MARK .. HANGUL DOUBLE DOT TONE MARK
Pd, -- (16#03030#, 16#03030#) WAVY DASH .. WAVY DASH
Lm, -- (16#03031#, 16#03035#) VERTICAL KANA REPEAT MARK .. VERTICAL KANA REPEAT MARK LOWER HALF
So, -- (16#03036#, 16#03037#) CIRCLED POSTAL MARK .. IDEOGRAPHIC TELEGRAPH LINE FEED SEPARATOR SYMBOL
Nl, -- (16#03038#, 16#0303A#) HANGZHOU NUMERAL TEN .. HANGZHOU NUMERAL THIRTY
Lm, -- (16#0303B#, 16#0303B#) VERTICAL IDEOGRAPHIC ITERATION MARK .. VERTICAL IDEOGRAPHIC ITERATION MARK
Lo, -- (16#0303C#, 16#0303C#) MASU MARK .. MASU MARK
Po, -- (16#0303D#, 16#0303D#) PART ALTERNATION MARK .. PART ALTERNATION MARK
So, -- (16#0303E#, 16#0303F#) IDEOGRAPHIC VARIATION INDICATOR .. IDEOGRAPHIC HALF FILL SPACE
Lo, -- (16#03041#, 16#03096#) HIRAGANA LETTER SMALL A .. HIRAGANA LETTER SMALL KE
Mn, -- (16#03099#, 16#0309A#) COMBINING KATAKANA-HIRAGANA VOICED SOUND MARK .. COMBINING KATAKANA-HIRAGANA SEMI-VOICED SOUND MARK
Sk, -- (16#0309B#, 16#0309C#) KATAKANA-HIRAGANA VOICED SOUND MARK .. KATAKANA-HIRAGANA SEMI-VOICED SOUND MARK
Lm, -- (16#0309D#, 16#0309E#) HIRAGANA ITERATION MARK .. HIRAGANA VOICED ITERATION MARK
Lo, -- (16#0309F#, 16#0309F#) HIRAGANA DIGRAPH YORI .. HIRAGANA DIGRAPH YORI
Pd, -- (16#030A0#, 16#030A0#) KATAKANA-HIRAGANA DOUBLE HYPHEN .. KATAKANA-HIRAGANA DOUBLE HYPHEN
Lo, -- (16#030A1#, 16#030FA#) KATAKANA LETTER SMALL A .. KATAKANA LETTER VO
Pc, -- (16#030FB#, 16#030FB#) KATAKANA MIDDLE DOT .. KATAKANA MIDDLE DOT
Lm, -- (16#030FC#, 16#030FE#) KATAKANA-HIRAGANA PROLONGED SOUND MARK .. KATAKANA VOICED ITERATION MARK
Lo, -- (16#030FF#, 16#030FF#) KATAKANA DIGRAPH KOTO .. KATAKANA DIGRAPH KOTO
Lo, -- (16#03105#, 16#0312C#) BOPOMOFO LETTER B .. BOPOMOFO LETTER GN
Lo, -- (16#03131#, 16#0318E#) HANGUL LETTER KIYEOK .. HANGUL LETTER ARAEAE
So, -- (16#03190#, 16#03191#) IDEOGRAPHIC ANNOTATION LINKING MARK .. IDEOGRAPHIC ANNOTATION REVERSE MARK
No, -- (16#03192#, 16#03195#) IDEOGRAPHIC ANNOTATION ONE MARK .. IDEOGRAPHIC ANNOTATION FOUR MARK
So, -- (16#03196#, 16#0319F#) IDEOGRAPHIC ANNOTATION TOP MARK .. IDEOGRAPHIC ANNOTATION MAN MARK
Lo, -- (16#031A0#, 16#031B7#) BOPOMOFO LETTER BU .. BOPOMOFO FINAL LETTER H
Lo, -- (16#031F0#, 16#031FF#) KATAKANA LETTER SMALL KU .. KATAKANA LETTER SMALL RO
So, -- (16#03200#, 16#0321E#) PARENTHESIZED HANGUL KIYEOK .. PARENTHESIZED KOREAN CHARACTER O HU
No, -- (16#03220#, 16#03229#) PARENTHESIZED IDEOGRAPH ONE .. PARENTHESIZED IDEOGRAPH TEN
So, -- (16#0322A#, 16#03243#) PARENTHESIZED IDEOGRAPH MOON .. PARENTHESIZED IDEOGRAPH REACH
So, -- (16#03250#, 16#03250#) PARTNERSHIP SIGN .. PARTNERSHIP SIGN
No, -- (16#03251#, 16#0325F#) CIRCLED NUMBER TWENTY ONE .. CIRCLED NUMBER THIRTY FIVE
So, -- (16#03260#, 16#0327D#) CIRCLED HANGUL KIYEOK .. CIRCLED KOREAN CHARACTER JUEUI
So, -- (16#0327F#, 16#0327F#) KOREAN STANDARD SYMBOL .. KOREAN STANDARD SYMBOL
No, -- (16#03280#, 16#03289#) CIRCLED IDEOGRAPH ONE .. CIRCLED IDEOGRAPH TEN
So, -- (16#0328A#, 16#032B0#) CIRCLED IDEOGRAPH MOON .. CIRCLED IDEOGRAPH NIGHT
No, -- (16#032B1#, 16#032BF#) CIRCLED NUMBER THIRTY SIX .. CIRCLED NUMBER FIFTY
So, -- (16#032C0#, 16#032FE#) IDEOGRAPHIC TELEGRAPH SYMBOL FOR JANUARY .. CIRCLED KATAKANA WO
So, -- (16#03300#, 16#033FF#) SQUARE APAATO .. SQUARE GAL
Lo, -- (16#03400#, 16#04DB5#) <CJK Ideograph Extension A, First> .. <CJK Ideograph Extension A, Last>
So, -- (16#04DC0#, 16#04DFF#) HEXAGRAM FOR THE CREATIVE HEAVEN .. HEXAGRAM FOR BEFORE COMPLETION
Lo, -- (16#04E00#, 16#09FA5#) <CJK Ideograph, First> .. <CJK Ideograph, Last>
Lo, -- (16#0A000#, 16#0A48C#) YI SYLLABLE IT .. YI SYLLABLE YYR
So, -- (16#0A490#, 16#0A4C6#) YI RADICAL QOT .. YI RADICAL KE
Lo, -- (16#0AC00#, 16#0D7A3#) <Hangul Syllable, First> .. <Hangul Syllable, Last>
Cs, -- (16#0D800#, 16#0F8FF#) <Non Private Use High Surrogate, First> .. <Private Use, Last>
Lo, -- (16#0F900#, 16#0FA2D#) CJK COMPATIBILITY IDEOGRAPH-F900 .. CJK COMPATIBILITY IDEOGRAPH-FA2D
Lo, -- (16#0FA30#, 16#0FA6A#) CJK COMPATIBILITY IDEOGRAPH-FA30 .. CJK COMPATIBILITY IDEOGRAPH-FA6A
Ll, -- (16#0FB00#, 16#0FB06#) LATIN SMALL LIGATURE FF .. LATIN SMALL LIGATURE ST
Ll, -- (16#0FB13#, 16#0FB17#) ARMENIAN SMALL LIGATURE MEN NOW .. ARMENIAN SMALL LIGATURE MEN XEH
Lo, -- (16#0FB1D#, 16#0FB1D#) HEBREW LETTER YOD WITH HIRIQ .. HEBREW LETTER YOD WITH HIRIQ
Mn, -- (16#0FB1E#, 16#0FB1E#) HEBREW POINT JUDEO-SPANISH VARIKA .. HEBREW POINT JUDEO-SPANISH VARIKA
Lo, -- (16#0FB1F#, 16#0FB28#) HEBREW LIGATURE YIDDISH YOD YOD PATAH .. HEBREW LETTER WIDE TAV
Sm, -- (16#0FB29#, 16#0FB29#) HEBREW LETTER ALTERNATIVE PLUS SIGN .. HEBREW LETTER ALTERNATIVE PLUS SIGN
Lo, -- (16#0FB2A#, 16#0FB36#) HEBREW LETTER SHIN WITH SHIN DOT .. HEBREW LETTER ZAYIN WITH DAGESH
Lo, -- (16#0FB38#, 16#0FB3C#) HEBREW LETTER TET WITH DAGESH .. HEBREW LETTER LAMED WITH DAGESH
Lo, -- (16#0FB3E#, 16#0FB3E#) HEBREW LETTER MEM WITH DAGESH .. HEBREW LETTER MEM WITH DAGESH
Lo, -- (16#0FB40#, 16#0FB41#) HEBREW LETTER NUN WITH DAGESH .. HEBREW LETTER SAMEKH WITH DAGESH
Lo, -- (16#0FB43#, 16#0FB44#) HEBREW LETTER FINAL PE WITH DAGESH .. HEBREW LETTER PE WITH DAGESH
Lo, -- (16#0FB46#, 16#0FBB1#) HEBREW LETTER TSADI WITH DAGESH .. ARABIC LETTER YEH BARREE WITH HAMZA ABOVE FINAL FORM
Lo, -- (16#0FBD3#, 16#0FD3D#) ARABIC LETTER NG ISOLATED FORM .. ARABIC LIGATURE ALEF WITH FATHATAN ISOLATED FORM
Ps, -- (16#0FD3E#, 16#0FD3E#) ORNATE LEFT PARENTHESIS .. ORNATE LEFT PARENTHESIS
Pe, -- (16#0FD3F#, 16#0FD3F#) ORNATE RIGHT PARENTHESIS .. ORNATE RIGHT PARENTHESIS
Lo, -- (16#0FD50#, 16#0FD8F#) ARABIC LIGATURE TEH WITH JEEM WITH MEEM INITIAL FORM .. ARABIC LIGATURE MEEM WITH KHAH WITH MEEM INITIAL FORM
Lo, -- (16#0FD92#, 16#0FDC7#) ARABIC LIGATURE MEEM WITH JEEM WITH KHAH INITIAL FORM .. ARABIC LIGATURE NOON WITH JEEM WITH YEH FINAL FORM
Lo, -- (16#0FDF0#, 16#0FDFB#) ARABIC LIGATURE SALLA USED AS KORANIC STOP SIGN ISOLATED FORM .. ARABIC LIGATURE JALLAJALALOUHOU
Sc, -- (16#0FDFC#, 16#0FDFC#) RIAL SIGN .. RIAL SIGN
So, -- (16#0FDFD#, 16#0FDFD#) ARABIC LIGATURE BISMILLAH AR-RAHMAN AR-RAHEEM .. ARABIC LIGATURE BISMILLAH AR-RAHMAN AR-RAHEEM
Mn, -- (16#0FE00#, 16#0FE0F#) VARIATION SELECTOR-1 .. VARIATION SELECTOR-16
Mn, -- (16#0FE20#, 16#0FE23#) COMBINING LIGATURE LEFT HALF .. COMBINING DOUBLE TILDE RIGHT HALF
Po, -- (16#0FE30#, 16#0FE30#) PRESENTATION FORM FOR VERTICAL TWO DOT LEADER .. PRESENTATION FORM FOR VERTICAL TWO DOT LEADER
Pd, -- (16#0FE31#, 16#0FE32#) PRESENTATION FORM FOR VERTICAL EM DASH .. PRESENTATION FORM FOR VERTICAL EN DASH
Pc, -- (16#0FE33#, 16#0FE34#) PRESENTATION FORM FOR VERTICAL LOW LINE .. PRESENTATION FORM FOR VERTICAL WAVY LOW LINE
Ps, -- (16#0FE35#, 16#0FE35#) PRESENTATION FORM FOR VERTICAL LEFT PARENTHESIS .. PRESENTATION FORM FOR VERTICAL LEFT PARENTHESIS
Pe, -- (16#0FE36#, 16#0FE36#) PRESENTATION FORM FOR VERTICAL RIGHT PARENTHESIS .. PRESENTATION FORM FOR VERTICAL RIGHT PARENTHESIS
Ps, -- (16#0FE37#, 16#0FE37#) PRESENTATION FORM FOR VERTICAL LEFT CURLY BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT CURLY BRACKET
Pe, -- (16#0FE38#, 16#0FE38#) PRESENTATION FORM FOR VERTICAL RIGHT CURLY BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT CURLY BRACKET
Ps, -- (16#0FE39#, 16#0FE39#) PRESENTATION FORM FOR VERTICAL LEFT TORTOISE SHELL BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT TORTOISE SHELL BRACKET
Pe, -- (16#0FE3A#, 16#0FE3A#) PRESENTATION FORM FOR VERTICAL RIGHT TORTOISE SHELL BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT TORTOISE SHELL BRACKET
Ps, -- (16#0FE3B#, 16#0FE3B#) PRESENTATION FORM FOR VERTICAL LEFT BLACK LENTICULAR BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT BLACK LENTICULAR BRACKET
Pe, -- (16#0FE3C#, 16#0FE3C#) PRESENTATION FORM FOR VERTICAL RIGHT BLACK LENTICULAR BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT BLACK LENTICULAR BRACKET
Ps, -- (16#0FE3D#, 16#0FE3D#) PRESENTATION FORM FOR VERTICAL LEFT DOUBLE ANGLE BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT DOUBLE ANGLE BRACKET
Pe, -- (16#0FE3E#, 16#0FE3E#) PRESENTATION FORM FOR VERTICAL RIGHT DOUBLE ANGLE BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT DOUBLE ANGLE BRACKET
Ps, -- (16#0FE3F#, 16#0FE3F#) PRESENTATION FORM FOR VERTICAL LEFT ANGLE BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT ANGLE BRACKET
Pe, -- (16#0FE40#, 16#0FE40#) PRESENTATION FORM FOR VERTICAL RIGHT ANGLE BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT ANGLE BRACKET
Ps, -- (16#0FE41#, 16#0FE41#) PRESENTATION FORM FOR VERTICAL LEFT CORNER BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT CORNER BRACKET
Pe, -- (16#0FE42#, 16#0FE42#) PRESENTATION FORM FOR VERTICAL RIGHT CORNER BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT CORNER BRACKET
Ps, -- (16#0FE43#, 16#0FE43#) PRESENTATION FORM FOR VERTICAL LEFT WHITE CORNER BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT WHITE CORNER BRACKET
Pe, -- (16#0FE44#, 16#0FE44#) PRESENTATION FORM FOR VERTICAL RIGHT WHITE CORNER BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT WHITE CORNER BRACKET
Po, -- (16#0FE45#, 16#0FE46#) SESAME DOT .. WHITE SESAME DOT
Ps, -- (16#0FE47#, 16#0FE47#) PRESENTATION FORM FOR VERTICAL LEFT SQUARE BRACKET .. PRESENTATION FORM FOR VERTICAL LEFT SQUARE BRACKET
Pe, -- (16#0FE48#, 16#0FE48#) PRESENTATION FORM FOR VERTICAL RIGHT SQUARE BRACKET .. PRESENTATION FORM FOR VERTICAL RIGHT SQUARE BRACKET
Po, -- (16#0FE49#, 16#0FE4C#) DASHED OVERLINE .. DOUBLE WAVY OVERLINE
Pc, -- (16#0FE4D#, 16#0FE4F#) DASHED LOW LINE .. WAVY LOW LINE
Po, -- (16#0FE50#, 16#0FE52#) SMALL COMMA .. SMALL FULL STOP
Po, -- (16#0FE54#, 16#0FE57#) SMALL SEMICOLON .. SMALL EXCLAMATION MARK
Pd, -- (16#0FE58#, 16#0FE58#) SMALL EM DASH .. SMALL EM DASH
Ps, -- (16#0FE59#, 16#0FE59#) SMALL LEFT PARENTHESIS .. SMALL LEFT PARENTHESIS
Pe, -- (16#0FE5A#, 16#0FE5A#) SMALL RIGHT PARENTHESIS .. SMALL RIGHT PARENTHESIS
Ps, -- (16#0FE5B#, 16#0FE5B#) SMALL LEFT CURLY BRACKET .. SMALL LEFT CURLY BRACKET
Pe, -- (16#0FE5C#, 16#0FE5C#) SMALL RIGHT CURLY BRACKET .. SMALL RIGHT CURLY BRACKET
Ps, -- (16#0FE5D#, 16#0FE5D#) SMALL LEFT TORTOISE SHELL BRACKET .. SMALL LEFT TORTOISE SHELL BRACKET
Pe, -- (16#0FE5E#, 16#0FE5E#) SMALL RIGHT TORTOISE SHELL BRACKET .. SMALL RIGHT TORTOISE SHELL BRACKET
Po, -- (16#0FE5F#, 16#0FE61#) SMALL NUMBER SIGN .. SMALL ASTERISK
Sm, -- (16#0FE62#, 16#0FE62#) SMALL PLUS SIGN .. SMALL PLUS SIGN
Pd, -- (16#0FE63#, 16#0FE63#) SMALL HYPHEN-MINUS .. SMALL HYPHEN-MINUS
Sm, -- (16#0FE64#, 16#0FE66#) SMALL LESS-THAN SIGN .. SMALL EQUALS SIGN
Po, -- (16#0FE68#, 16#0FE68#) SMALL REVERSE SOLIDUS .. SMALL REVERSE SOLIDUS
Sc, -- (16#0FE69#, 16#0FE69#) SMALL DOLLAR SIGN .. SMALL DOLLAR SIGN
Po, -- (16#0FE6A#, 16#0FE6B#) SMALL PERCENT SIGN .. SMALL COMMERCIAL AT
Lo, -- (16#0FE70#, 16#0FE74#) ARABIC FATHATAN ISOLATED FORM .. ARABIC KASRATAN ISOLATED FORM
Lo, -- (16#0FE76#, 16#0FEFC#) ARABIC FATHA ISOLATED FORM .. ARABIC LIGATURE LAM WITH ALEF FINAL FORM
Cf, -- (16#0FEFF#, 16#0FEFF#) ZERO WIDTH NO-BREAK SPACE .. ZERO WIDTH NO-BREAK SPACE
Po, -- (16#0FF01#, 16#0FF03#) FULLWIDTH EXCLAMATION MARK .. FULLWIDTH NUMBER SIGN
Sc, -- (16#0FF04#, 16#0FF04#) FULLWIDTH DOLLAR SIGN .. FULLWIDTH DOLLAR SIGN
Po, -- (16#0FF05#, 16#0FF07#) FULLWIDTH PERCENT SIGN .. FULLWIDTH APOSTROPHE
Ps, -- (16#0FF08#, 16#0FF08#) FULLWIDTH LEFT PARENTHESIS .. FULLWIDTH LEFT PARENTHESIS
Pe, -- (16#0FF09#, 16#0FF09#) FULLWIDTH RIGHT PARENTHESIS .. FULLWIDTH RIGHT PARENTHESIS
Po, -- (16#0FF0A#, 16#0FF0A#) FULLWIDTH ASTERISK .. FULLWIDTH ASTERISK
Sm, -- (16#0FF0B#, 16#0FF0B#) FULLWIDTH PLUS SIGN .. FULLWIDTH PLUS SIGN
Po, -- (16#0FF0C#, 16#0FF0C#) FULLWIDTH COMMA .. FULLWIDTH COMMA
Pd, -- (16#0FF0D#, 16#0FF0D#) FULLWIDTH HYPHEN-MINUS .. FULLWIDTH HYPHEN-MINUS
Po, -- (16#0FF0E#, 16#0FF0F#) FULLWIDTH FULL STOP .. FULLWIDTH SOLIDUS
Nd, -- (16#0FF10#, 16#0FF19#) FULLWIDTH DIGIT ZERO .. FULLWIDTH DIGIT NINE
Po, -- (16#0FF1A#, 16#0FF1B#) FULLWIDTH COLON .. FULLWIDTH SEMICOLON
Sm, -- (16#0FF1C#, 16#0FF1E#) FULLWIDTH LESS-THAN SIGN .. FULLWIDTH GREATER-THAN SIGN
Po, -- (16#0FF1F#, 16#0FF20#) FULLWIDTH QUESTION MARK .. FULLWIDTH COMMERCIAL AT
Lu, -- (16#0FF21#, 16#0FF3A#) FULLWIDTH LATIN CAPITAL LETTER A .. FULLWIDTH LATIN CAPITAL LETTER Z
Ps, -- (16#0FF3B#, 16#0FF3B#) FULLWIDTH LEFT SQUARE BRACKET .. FULLWIDTH LEFT SQUARE BRACKET
Po, -- (16#0FF3C#, 16#0FF3C#) FULLWIDTH REVERSE SOLIDUS .. FULLWIDTH REVERSE SOLIDUS
Pe, -- (16#0FF3D#, 16#0FF3D#) FULLWIDTH RIGHT SQUARE BRACKET .. FULLWIDTH RIGHT SQUARE BRACKET
Sk, -- (16#0FF3E#, 16#0FF3E#) FULLWIDTH CIRCUMFLEX ACCENT .. FULLWIDTH CIRCUMFLEX ACCENT
Pc, -- (16#0FF3F#, 16#0FF3F#) FULLWIDTH LOW LINE .. FULLWIDTH LOW LINE
Sk, -- (16#0FF40#, 16#0FF40#) FULLWIDTH GRAVE ACCENT .. FULLWIDTH GRAVE ACCENT
Ll, -- (16#0FF41#, 16#0FF5A#) FULLWIDTH LATIN SMALL LETTER A .. FULLWIDTH LATIN SMALL LETTER Z
Ps, -- (16#0FF5B#, 16#0FF5B#) FULLWIDTH LEFT CURLY BRACKET .. FULLWIDTH LEFT CURLY BRACKET
Sm, -- (16#0FF5C#, 16#0FF5C#) FULLWIDTH VERTICAL LINE .. FULLWIDTH VERTICAL LINE
Pe, -- (16#0FF5D#, 16#0FF5D#) FULLWIDTH RIGHT CURLY BRACKET .. FULLWIDTH RIGHT CURLY BRACKET
Sm, -- (16#0FF5E#, 16#0FF5E#) FULLWIDTH TILDE .. FULLWIDTH TILDE
Ps, -- (16#0FF5F#, 16#0FF5F#) FULLWIDTH LEFT WHITE PARENTHESIS .. FULLWIDTH LEFT WHITE PARENTHESIS
Pe, -- (16#0FF60#, 16#0FF60#) FULLWIDTH RIGHT WHITE PARENTHESIS .. FULLWIDTH RIGHT WHITE PARENTHESIS
Po, -- (16#0FF61#, 16#0FF61#) HALFWIDTH IDEOGRAPHIC FULL STOP .. HALFWIDTH IDEOGRAPHIC FULL STOP
Ps, -- (16#0FF62#, 16#0FF62#) HALFWIDTH LEFT CORNER BRACKET .. HALFWIDTH LEFT CORNER BRACKET
Pe, -- (16#0FF63#, 16#0FF63#) HALFWIDTH RIGHT CORNER BRACKET .. HALFWIDTH RIGHT CORNER BRACKET
Po, -- (16#0FF64#, 16#0FF64#) HALFWIDTH IDEOGRAPHIC COMMA .. HALFWIDTH IDEOGRAPHIC COMMA
Pc, -- (16#0FF65#, 16#0FF65#) HALFWIDTH KATAKANA MIDDLE DOT .. HALFWIDTH KATAKANA MIDDLE DOT
Lo, -- (16#0FF66#, 16#0FF6F#) HALFWIDTH KATAKANA LETTER WO .. HALFWIDTH KATAKANA LETTER SMALL TU
Lm, -- (16#0FF70#, 16#0FF70#) HALFWIDTH KATAKANA-HIRAGANA PROLONGED SOUND MARK .. HALFWIDTH KATAKANA-HIRAGANA PROLONGED SOUND MARK
Lo, -- (16#0FF71#, 16#0FF9D#) HALFWIDTH KATAKANA LETTER A .. HALFWIDTH KATAKANA LETTER N
Lm, -- (16#0FF9E#, 16#0FF9F#) HALFWIDTH KATAKANA VOICED SOUND MARK .. HALFWIDTH KATAKANA SEMI-VOICED SOUND MARK
Lo, -- (16#0FFA0#, 16#0FFBE#) HALFWIDTH HANGUL FILLER .. HALFWIDTH HANGUL LETTER HIEUH
Lo, -- (16#0FFC2#, 16#0FFC7#) HALFWIDTH HANGUL LETTER A .. HALFWIDTH HANGUL LETTER E
Lo, -- (16#0FFCA#, 16#0FFCF#) HALFWIDTH HANGUL LETTER YEO .. HALFWIDTH HANGUL LETTER OE
Lo, -- (16#0FFD2#, 16#0FFD7#) HALFWIDTH HANGUL LETTER YO .. HALFWIDTH HANGUL LETTER YU
Lo, -- (16#0FFDA#, 16#0FFDC#) HALFWIDTH HANGUL LETTER EU .. HALFWIDTH HANGUL LETTER I
Sc, -- (16#0FFE0#, 16#0FFE1#) FULLWIDTH CENT SIGN .. FULLWIDTH POUND SIGN
Sm, -- (16#0FFE2#, 16#0FFE2#) FULLWIDTH NOT SIGN .. FULLWIDTH NOT SIGN
Sk, -- (16#0FFE3#, 16#0FFE3#) FULLWIDTH MACRON .. FULLWIDTH MACRON
So, -- (16#0FFE4#, 16#0FFE4#) FULLWIDTH BROKEN BAR .. FULLWIDTH BROKEN BAR
Sc, -- (16#0FFE5#, 16#0FFE6#) FULLWIDTH YEN SIGN .. FULLWIDTH WON SIGN
So, -- (16#0FFE8#, 16#0FFE8#) HALFWIDTH FORMS LIGHT VERTICAL .. HALFWIDTH FORMS LIGHT VERTICAL
Sm, -- (16#0FFE9#, 16#0FFEC#) HALFWIDTH LEFTWARDS ARROW .. HALFWIDTH DOWNWARDS ARROW
So, -- (16#0FFED#, 16#0FFEE#) HALFWIDTH BLACK SQUARE .. HALFWIDTH WHITE CIRCLE
Cf, -- (16#0FFF9#, 16#0FFFB#) INTERLINEAR ANNOTATION ANCHOR .. INTERLINEAR ANNOTATION TERMINATOR
So, -- (16#0FFFC#, 16#0FFFD#) OBJECT REPLACEMENT CHARACTER .. REPLACEMENT CHARACTER
Lo, -- (16#10000#, 16#1000B#) LINEAR B SYLLABLE B008 A .. LINEAR B SYLLABLE B046 JE
Lo, -- (16#1000D#, 16#10026#) LINEAR B SYLLABLE B036 JO .. LINEAR B SYLLABLE B032 QO
Lo, -- (16#10028#, 16#1003A#) LINEAR B SYLLABLE B060 RA .. LINEAR B SYLLABLE B042 WO
Lo, -- (16#1003C#, 16#1003D#) LINEAR B SYLLABLE B017 ZA .. LINEAR B SYLLABLE B074 ZE
Lo, -- (16#1003F#, 16#1004D#) LINEAR B SYLLABLE B020 ZO .. LINEAR B SYLLABLE B091 TWO
Lo, -- (16#10050#, 16#1005D#) LINEAR B SYMBOL B018 .. LINEAR B SYMBOL B089
Lo, -- (16#10080#, 16#100FA#) LINEAR B IDEOGRAM B100 MAN .. LINEAR B IDEOGRAM VESSEL B305
Po, -- (16#10100#, 16#10101#) AEGEAN WORD SEPARATOR LINE .. AEGEAN WORD SEPARATOR DOT
So, -- (16#10102#, 16#10102#) AEGEAN CHECK MARK .. AEGEAN CHECK MARK
No, -- (16#10107#, 16#10133#) AEGEAN NUMBER ONE .. AEGEAN NUMBER NINETY THOUSAND
So, -- (16#10137#, 16#1013F#) AEGEAN WEIGHT BASE UNIT .. AEGEAN MEASURE THIRD SUBUNIT
Lo, -- (16#10300#, 16#1031E#) OLD ITALIC LETTER A .. OLD ITALIC LETTER UU
No, -- (16#10320#, 16#10323#) OLD ITALIC NUMERAL ONE .. OLD ITALIC NUMERAL FIFTY
Lo, -- (16#10330#, 16#10349#) GOTHIC LETTER AHSA .. GOTHIC LETTER OTHAL
Nl, -- (16#1034A#, 16#1034A#) GOTHIC LETTER NINE HUNDRED .. GOTHIC LETTER NINE HUNDRED
Lo, -- (16#10380#, 16#1039D#) UGARITIC LETTER ALPA .. UGARITIC LETTER SSU
Po, -- (16#1039F#, 16#1039F#) UGARITIC WORD DIVIDER .. UGARITIC WORD DIVIDER
Lu, -- (16#10400#, 16#10427#) DESERET CAPITAL LETTER LONG I .. DESERET CAPITAL LETTER EW
Ll, -- (16#10428#, 16#1044F#) DESERET SMALL LETTER LONG I .. DESERET SMALL LETTER EW
Lo, -- (16#10450#, 16#1049D#) SHAVIAN LETTER PEEP .. OSMANYA LETTER OO
Nd, -- (16#104A0#, 16#104A9#) OSMANYA DIGIT ZERO .. OSMANYA DIGIT NINE
Lo, -- (16#10800#, 16#10805#) CYPRIOT SYLLABLE A .. CYPRIOT SYLLABLE JA
Lo, -- (16#10808#, 16#10808#) CYPRIOT SYLLABLE JO .. CYPRIOT SYLLABLE JO
Lo, -- (16#1080A#, 16#10835#) CYPRIOT SYLLABLE KA .. CYPRIOT SYLLABLE WO
Lo, -- (16#10837#, 16#10838#) CYPRIOT SYLLABLE XA .. CYPRIOT SYLLABLE XE
Lo, -- (16#1083C#, 16#1083C#) CYPRIOT SYLLABLE ZA .. CYPRIOT SYLLABLE ZA
Lo, -- (16#1083F#, 16#1083F#) CYPRIOT SYLLABLE ZO .. CYPRIOT SYLLABLE ZO
So, -- (16#1D000#, 16#1D0F5#) BYZANTINE MUSICAL SYMBOL PSILI .. BYZANTINE MUSICAL SYMBOL GORGON NEO KATO
So, -- (16#1D100#, 16#1D126#) MUSICAL SYMBOL SINGLE BARLINE .. MUSICAL SYMBOL DRUM CLEF-2
So, -- (16#1D12A#, 16#1D164#) MUSICAL SYMBOL DOUBLE SHARP .. MUSICAL SYMBOL ONE HUNDRED TWENTY-EIGHTH NOTE
Mc, -- (16#1D165#, 16#1D166#) MUSICAL SYMBOL COMBINING STEM .. MUSICAL SYMBOL COMBINING SPRECHGESANG STEM
Mn, -- (16#1D167#, 16#1D169#) MUSICAL SYMBOL COMBINING TREMOLO-1 .. MUSICAL SYMBOL COMBINING TREMOLO-3
So, -- (16#1D16A#, 16#1D16C#) MUSICAL SYMBOL FINGERED TREMOLO-1 .. MUSICAL SYMBOL FINGERED TREMOLO-3
Mc, -- (16#1D16D#, 16#1D172#) MUSICAL SYMBOL COMBINING AUGMENTATION DOT .. MUSICAL SYMBOL COMBINING FLAG-5
Cf, -- (16#1D173#, 16#1D17A#) MUSICAL SYMBOL BEGIN BEAM .. MUSICAL SYMBOL END PHRASE
Mn, -- (16#1D17B#, 16#1D182#) MUSICAL SYMBOL COMBINING ACCENT .. MUSICAL SYMBOL COMBINING LOURE
So, -- (16#1D183#, 16#1D184#) MUSICAL SYMBOL ARPEGGIATO UP .. MUSICAL SYMBOL ARPEGGIATO DOWN
Mn, -- (16#1D185#, 16#1D18B#) MUSICAL SYMBOL COMBINING DOIT .. MUSICAL SYMBOL COMBINING TRIPLE TONGUE
So, -- (16#1D18C#, 16#1D1A9#) MUSICAL SYMBOL RINFORZANDO .. MUSICAL SYMBOL DEGREE SLASH
Mn, -- (16#1D1AA#, 16#1D1AD#) MUSICAL SYMBOL COMBINING DOWN BOW .. MUSICAL SYMBOL COMBINING SNAP PIZZICATO
So, -- (16#1D1AE#, 16#1D1DD#) MUSICAL SYMBOL PEDAL MARK .. MUSICAL SYMBOL PES SUBPUNCTIS
So, -- (16#1D300#, 16#1D356#) MONOGRAM FOR EARTH .. TETRAGRAM FOR FOSTERING
Lu, -- (16#1D400#, 16#1D419#) MATHEMATICAL BOLD CAPITAL A .. MATHEMATICAL BOLD CAPITAL Z
Ll, -- (16#1D41A#, 16#1D433#) MATHEMATICAL BOLD SMALL A .. MATHEMATICAL BOLD SMALL Z
Lu, -- (16#1D434#, 16#1D44D#) MATHEMATICAL ITALIC CAPITAL A .. MATHEMATICAL ITALIC CAPITAL Z
Ll, -- (16#1D44E#, 16#1D454#) MATHEMATICAL ITALIC SMALL A .. MATHEMATICAL ITALIC SMALL G
Ll, -- (16#1D456#, 16#1D467#) MATHEMATICAL ITALIC SMALL I .. MATHEMATICAL ITALIC SMALL Z
Lu, -- (16#1D468#, 16#1D481#) MATHEMATICAL BOLD ITALIC CAPITAL A .. MATHEMATICAL BOLD ITALIC CAPITAL Z
Ll, -- (16#1D482#, 16#1D49B#) MATHEMATICAL BOLD ITALIC SMALL A .. MATHEMATICAL BOLD ITALIC SMALL Z
Lu, -- (16#1D49C#, 16#1D49C#) MATHEMATICAL SCRIPT CAPITAL A .. MATHEMATICAL SCRIPT CAPITAL A
Lu, -- (16#1D49E#, 16#1D49F#) MATHEMATICAL SCRIPT CAPITAL C .. MATHEMATICAL SCRIPT CAPITAL D
Lu, -- (16#1D4A2#, 16#1D4A2#) MATHEMATICAL SCRIPT CAPITAL G .. MATHEMATICAL SCRIPT CAPITAL G
Lu, -- (16#1D4A5#, 16#1D4A6#) MATHEMATICAL SCRIPT CAPITAL J .. MATHEMATICAL SCRIPT CAPITAL K
Lu, -- (16#1D4A9#, 16#1D4AC#) MATHEMATICAL SCRIPT CAPITAL N .. MATHEMATICAL SCRIPT CAPITAL Q
Lu, -- (16#1D4AE#, 16#1D4B5#) MATHEMATICAL SCRIPT CAPITAL S .. MATHEMATICAL SCRIPT CAPITAL Z
Ll, -- (16#1D4B6#, 16#1D4B9#) MATHEMATICAL SCRIPT SMALL A .. MATHEMATICAL SCRIPT SMALL D
Ll, -- (16#1D4BB#, 16#1D4BB#) MATHEMATICAL SCRIPT SMALL F .. MATHEMATICAL SCRIPT SMALL F
Ll, -- (16#1D4BD#, 16#1D4C3#) MATHEMATICAL SCRIPT SMALL H .. MATHEMATICAL SCRIPT SMALL N
Ll, -- (16#1D4C5#, 16#1D4CF#) MATHEMATICAL SCRIPT SMALL P .. MATHEMATICAL SCRIPT SMALL Z
Lu, -- (16#1D4D0#, 16#1D4E9#) MATHEMATICAL BOLD SCRIPT CAPITAL A .. MATHEMATICAL BOLD SCRIPT CAPITAL Z
Ll, -- (16#1D4EA#, 16#1D503#) MATHEMATICAL BOLD SCRIPT SMALL A .. MATHEMATICAL BOLD SCRIPT SMALL Z
Lu, -- (16#1D504#, 16#1D505#) MATHEMATICAL FRAKTUR CAPITAL A .. MATHEMATICAL FRAKTUR CAPITAL B
Lu, -- (16#1D507#, 16#1D50A#) MATHEMATICAL FRAKTUR CAPITAL D .. MATHEMATICAL FRAKTUR CAPITAL G
Lu, -- (16#1D50D#, 16#1D514#) MATHEMATICAL FRAKTUR CAPITAL J .. MATHEMATICAL FRAKTUR CAPITAL Q
Lu, -- (16#1D516#, 16#1D51C#) MATHEMATICAL FRAKTUR CAPITAL S .. MATHEMATICAL FRAKTUR CAPITAL Y
Ll, -- (16#1D51E#, 16#1D537#) MATHEMATICAL FRAKTUR SMALL A .. MATHEMATICAL FRAKTUR SMALL Z
Lu, -- (16#1D538#, 16#1D539#) MATHEMATICAL DOUBLE-STRUCK CAPITAL A .. MATHEMATICAL DOUBLE-STRUCK CAPITAL B
Lu, -- (16#1D53B#, 16#1D53E#) MATHEMATICAL DOUBLE-STRUCK CAPITAL D .. MATHEMATICAL DOUBLE-STRUCK CAPITAL G
Lu, -- (16#1D540#, 16#1D544#) MATHEMATICAL DOUBLE-STRUCK CAPITAL I .. MATHEMATICAL DOUBLE-STRUCK CAPITAL M
Lu, -- (16#1D546#, 16#1D546#) MATHEMATICAL DOUBLE-STRUCK CAPITAL O .. MATHEMATICAL DOUBLE-STRUCK CAPITAL O
Lu, -- (16#1D54A#, 16#1D550#) MATHEMATICAL DOUBLE-STRUCK CAPITAL S .. MATHEMATICAL DOUBLE-STRUCK CAPITAL Y
Ll, -- (16#1D552#, 16#1D56B#) MATHEMATICAL DOUBLE-STRUCK SMALL A .. MATHEMATICAL DOUBLE-STRUCK SMALL Z
Lu, -- (16#1D56C#, 16#1D585#) MATHEMATICAL BOLD FRAKTUR CAPITAL A .. MATHEMATICAL BOLD FRAKTUR CAPITAL Z
Ll, -- (16#1D586#, 16#1D59F#) MATHEMATICAL BOLD FRAKTUR SMALL A .. MATHEMATICAL BOLD FRAKTUR SMALL Z
Lu, -- (16#1D5A0#, 16#1D5B9#) MATHEMATICAL SANS-SERIF CAPITAL A .. MATHEMATICAL SANS-SERIF CAPITAL Z
Ll, -- (16#1D5BA#, 16#1D5D3#) MATHEMATICAL SANS-SERIF SMALL A .. MATHEMATICAL SANS-SERIF SMALL Z
Lu, -- (16#1D5D4#, 16#1D5ED#) MATHEMATICAL SANS-SERIF BOLD CAPITAL A .. MATHEMATICAL SANS-SERIF BOLD CAPITAL Z
Ll, -- (16#1D5EE#, 16#1D607#) MATHEMATICAL SANS-SERIF BOLD SMALL A .. MATHEMATICAL SANS-SERIF BOLD SMALL Z
Lu, -- (16#1D608#, 16#1D621#) MATHEMATICAL SANS-SERIF ITALIC CAPITAL A .. MATHEMATICAL SANS-SERIF ITALIC CAPITAL Z
Ll, -- (16#1D622#, 16#1D63B#) MATHEMATICAL SANS-SERIF ITALIC SMALL A .. MATHEMATICAL SANS-SERIF ITALIC SMALL Z
Lu, -- (16#1D63C#, 16#1D655#) MATHEMATICAL SANS-SERIF BOLD ITALIC CAPITAL A .. MATHEMATICAL SANS-SERIF BOLD ITALIC CAPITAL Z
Ll, -- (16#1D656#, 16#1D66F#) MATHEMATICAL SANS-SERIF BOLD ITALIC SMALL A .. MATHEMATICAL SANS-SERIF BOLD ITALIC SMALL Z
Lu, -- (16#1D670#, 16#1D689#) MATHEMATICAL MONOSPACE CAPITAL A .. MATHEMATICAL MONOSPACE CAPITAL Z
Ll, -- (16#1D68A#, 16#1D6A3#) MATHEMATICAL MONOSPACE SMALL A .. MATHEMATICAL MONOSPACE SMALL Z
Lu, -- (16#1D6A8#, 16#1D6C0#) MATHEMATICAL BOLD CAPITAL ALPHA .. MATHEMATICAL BOLD CAPITAL OMEGA
Sm, -- (16#1D6C1#, 16#1D6C1#) MATHEMATICAL BOLD NABLA .. MATHEMATICAL BOLD NABLA
Ll, -- (16#1D6C2#, 16#1D6DA#) MATHEMATICAL BOLD SMALL ALPHA .. MATHEMATICAL BOLD SMALL OMEGA
Sm, -- (16#1D6DB#, 16#1D6DB#) MATHEMATICAL BOLD PARTIAL DIFFERENTIAL .. MATHEMATICAL BOLD PARTIAL DIFFERENTIAL
Ll, -- (16#1D6DC#, 16#1D6E1#) MATHEMATICAL BOLD EPSILON SYMBOL .. MATHEMATICAL BOLD PI SYMBOL
Lu, -- (16#1D6E2#, 16#1D6FA#) MATHEMATICAL ITALIC CAPITAL ALPHA .. MATHEMATICAL ITALIC CAPITAL OMEGA
Sm, -- (16#1D6FB#, 16#1D6FB#) MATHEMATICAL ITALIC NABLA .. MATHEMATICAL ITALIC NABLA
Ll, -- (16#1D6FC#, 16#1D714#) MATHEMATICAL ITALIC SMALL ALPHA .. MATHEMATICAL ITALIC SMALL OMEGA
Sm, -- (16#1D715#, 16#1D715#) MATHEMATICAL ITALIC PARTIAL DIFFERENTIAL .. MATHEMATICAL ITALIC PARTIAL DIFFERENTIAL
Ll, -- (16#1D716#, 16#1D71B#) MATHEMATICAL ITALIC EPSILON SYMBOL .. MATHEMATICAL ITALIC PI SYMBOL
Lu, -- (16#1D71C#, 16#1D734#) MATHEMATICAL BOLD ITALIC CAPITAL ALPHA .. MATHEMATICAL BOLD ITALIC CAPITAL OMEGA
Sm, -- (16#1D735#, 16#1D735#) MATHEMATICAL BOLD ITALIC NABLA .. MATHEMATICAL BOLD ITALIC NABLA
Ll, -- (16#1D736#, 16#1D74E#) MATHEMATICAL BOLD ITALIC SMALL ALPHA .. MATHEMATICAL BOLD ITALIC SMALL OMEGA
Sm, -- (16#1D74F#, 16#1D74F#) MATHEMATICAL BOLD ITALIC PARTIAL DIFFERENTIAL .. MATHEMATICAL BOLD ITALIC PARTIAL DIFFERENTIAL
Ll, -- (16#1D750#, 16#1D755#) MATHEMATICAL BOLD ITALIC EPSILON SYMBOL .. MATHEMATICAL BOLD ITALIC PI SYMBOL
Lu, -- (16#1D756#, 16#1D76E#) MATHEMATICAL SANS-SERIF BOLD CAPITAL ALPHA .. MATHEMATICAL SANS-SERIF BOLD CAPITAL OMEGA
Sm, -- (16#1D76F#, 16#1D76F#) MATHEMATICAL SANS-SERIF BOLD NABLA .. MATHEMATICAL SANS-SERIF BOLD NABLA
Ll, -- (16#1D770#, 16#1D788#) MATHEMATICAL SANS-SERIF BOLD SMALL ALPHA .. MATHEMATICAL SANS-SERIF BOLD SMALL OMEGA
Sm, -- (16#1D789#, 16#1D789#) MATHEMATICAL SANS-SERIF BOLD PARTIAL DIFFERENTIAL .. MATHEMATICAL SANS-SERIF BOLD PARTIAL DIFFERENTIAL
Ll, -- (16#1D78A#, 16#1D78F#) MATHEMATICAL SANS-SERIF BOLD EPSILON SYMBOL .. MATHEMATICAL SANS-SERIF BOLD PI SYMBOL
Lu, -- (16#1D790#, 16#1D7A8#) MATHEMATICAL SANS-SERIF BOLD ITALIC CAPITAL ALPHA .. MATHEMATICAL SANS-SERIF BOLD ITALIC CAPITAL OMEGA
Sm, -- (16#1D7A9#, 16#1D7A9#) MATHEMATICAL SANS-SERIF BOLD ITALIC NABLA .. MATHEMATICAL SANS-SERIF BOLD ITALIC NABLA
Ll, -- (16#1D7AA#, 16#1D7C2#) MATHEMATICAL SANS-SERIF BOLD ITALIC SMALL ALPHA .. MATHEMATICAL SANS-SERIF BOLD ITALIC SMALL OMEGA
Sm, -- (16#1D7C3#, 16#1D7C3#) MATHEMATICAL SANS-SERIF BOLD ITALIC PARTIAL DIFFERENTIAL .. MATHEMATICAL SANS-SERIF BOLD ITALIC PARTIAL DIFFERENTIAL
Ll, -- (16#1D7C4#, 16#1D7C9#) MATHEMATICAL SANS-SERIF BOLD ITALIC EPSILON SYMBOL .. MATHEMATICAL SANS-SERIF BOLD ITALIC PI SYMBOL
Nd, -- (16#1D7CE#, 16#1D7FF#) MATHEMATICAL BOLD DIGIT ZERO .. MATHEMATICAL MONOSPACE DIGIT NINE
Lo, -- (16#20000#, 16#2A6D6#) <CJK Ideograph Extension B, First> .. <CJK Ideograph Extension B, Last>
Lo, -- (16#2F800#, 16#2FA1D#) CJK COMPATIBILITY IDEOGRAPH-2F800 .. CJK COMPATIBILITY IDEOGRAPH-2FA1D
Cf, -- (16#E0001#, 16#E0001#) LANGUAGE TAG .. LANGUAGE TAG
Cf, -- (16#E0020#, 16#E007F#) TAG SPACE .. CANCEL TAG
Mn, -- (16#E0100#, 16#E01EF#) VARIATION SELECTOR-17 .. VARIATION SELECTOR-256
Co, -- (16#F0000#, 16#FFFFD#) <Plane 15 Private Use, First> .. <Plane 15 Private Use, Last>
Co); -- (16#100000#, 16#10FFFD#) <Plane 16 Private Use, First> .. <Plane 16 Private Use, Last>
-- The following array includes all characters considered digits, i.e.
-- all characters from the Unicode table with categories:
-- Number, Decimal Digit (Nd)
UTF_32_Digits : constant UTF_32_Ranges := (
(16#00030#, 16#00039#), -- DIGIT ZERO .. DIGIT NINE
(16#00660#, 16#00669#), -- ARABIC-INDIC DIGIT ZERO .. ARABIC-INDIC DIGIT NINE
(16#006F0#, 16#006F9#), -- EXTENDED ARABIC-INDIC DIGIT ZERO .. EXTENDED ARABIC-INDIC DIGIT NINE
(16#00966#, 16#0096F#), -- DEVANAGARI DIGIT ZERO .. DEVANAGARI DIGIT NINE
(16#009E6#, 16#009EF#), -- BENGALI DIGIT ZERO .. BENGALI DIGIT NINE
(16#00A66#, 16#00A6F#), -- GURMUKHI DIGIT ZERO .. GURMUKHI DIGIT NINE
(16#00AE6#, 16#00AEF#), -- GUJARATI DIGIT ZERO .. GUJARATI DIGIT NINE
(16#00B66#, 16#00B6F#), -- ORIYA DIGIT ZERO .. ORIYA DIGIT NINE
(16#00BE7#, 16#00BEF#), -- TAMIL DIGIT ONE .. TAMIL DIGIT NINE
(16#00C66#, 16#00C6F#), -- TELUGU DIGIT ZERO .. TELUGU DIGIT NINE
(16#00CE6#, 16#00CEF#), -- KANNADA DIGIT ZERO .. KANNADA DIGIT NINE
(16#00D66#, 16#00D6F#), -- MALAYALAM DIGIT ZERO .. MALAYALAM DIGIT NINE
(16#00E50#, 16#00E59#), -- THAI DIGIT ZERO .. THAI DIGIT NINE
(16#00ED0#, 16#00ED9#), -- LAO DIGIT ZERO .. LAO DIGIT NINE
(16#00F20#, 16#00F29#), -- TIBETAN DIGIT ZERO .. TIBETAN DIGIT NINE
(16#01040#, 16#01049#), -- MYANMAR DIGIT ZERO .. MYANMAR DIGIT NINE
(16#01369#, 16#01371#), -- ETHIOPIC DIGIT ONE .. ETHIOPIC DIGIT NINE
(16#017E0#, 16#017E9#), -- KHMER DIGIT ZERO .. KHMER DIGIT NINE
(16#01810#, 16#01819#), -- MONGOLIAN DIGIT ZERO .. MONGOLIAN DIGIT NINE
(16#01946#, 16#0194F#), -- LIMBU DIGIT ZERO .. LIMBU DIGIT NINE
(16#0FF10#, 16#0FF19#), -- FULLWIDTH DIGIT ZERO .. FULLWIDTH DIGIT NINE
(16#104A0#, 16#104A9#), -- OSMANYA DIGIT ZERO .. OSMANYA DIGIT NINE
(16#1D7CE#, 16#1D7FF#)); -- MATHEMATICAL BOLD DIGIT ZERO .. MATHEMATICAL MONOSPACE DIGIT NINE
-- The following table includes all characters considered letters, i.e.
-- all characters from the Unicode table with categories:
-- Letter, Uppercase (Lu)
-- Letter, Lowercase (Ll)
-- Letter, Titlecase (Lt)
-- Letter, Modifier (Lm)
-- Letter, Other (Lo)
-- Number, Letter (Nl)
UTF_32_Letters : constant UTF_32_Ranges := (
(16#00041#, 16#0005A#), -- LATIN CAPITAL LETTER A .. LATIN CAPITAL LETTER Z
(16#00061#, 16#0007A#), -- LATIN SMALL LETTER A .. LATIN SMALL LETTER Z
(16#000AA#, 16#000AA#), -- FEMININE ORDINAL INDICATOR .. FEMININE ORDINAL INDICATOR
(16#000B5#, 16#000B5#), -- MICRO SIGN .. MICRO SIGN
(16#000BA#, 16#000BA#), -- MASCULINE ORDINAL INDICATOR .. MASCULINE ORDINAL INDICATOR
(16#000C0#, 16#000D6#), -- LATIN CAPITAL LETTER A WITH GRAVE .. LATIN CAPITAL LETTER O WITH DIAERESIS
(16#000D8#, 16#000F6#), -- LATIN CAPITAL LETTER O WITH STROKE .. LATIN SMALL LETTER O WITH DIAERESIS
(16#000F8#, 16#00236#), -- LATIN SMALL LETTER O WITH STROKE .. LATIN SMALL LETTER T WITH CURL
(16#00250#, 16#002C1#), -- LATIN SMALL LETTER TURNED A .. MODIFIER LETTER REVERSED GLOTTAL STOP
(16#002C6#, 16#002D1#), -- MODIFIER LETTER CIRCUMFLEX ACCENT .. MODIFIER LETTER HALF TRIANGULAR COLON
(16#002E0#, 16#002E4#), -- MODIFIER LETTER SMALL GAMMA .. MODIFIER LETTER SMALL REVERSED GLOTTAL STOP
(16#002EE#, 16#002EE#), -- MODIFIER LETTER DOUBLE APOSTROPHE .. MODIFIER LETTER DOUBLE APOSTROPHE
(16#0037A#, 16#0037A#), -- GREEK YPOGEGRAMMENI .. GREEK YPOGEGRAMMENI
(16#00386#, 16#00386#), -- GREEK CAPITAL LETTER ALPHA WITH TONOS .. GREEK CAPITAL LETTER ALPHA WITH TONOS
(16#00388#, 16#0038A#), -- GREEK CAPITAL LETTER EPSILON WITH TONOS .. GREEK CAPITAL LETTER IOTA WITH TONOS
(16#0038C#, 16#0038C#), -- GREEK CAPITAL LETTER OMICRON WITH TONOS .. GREEK CAPITAL LETTER OMICRON WITH TONOS
(16#0038E#, 16#003A1#), -- GREEK CAPITAL LETTER UPSILON WITH TONOS .. GREEK CAPITAL LETTER RHO
(16#003A3#, 16#003CE#), -- GREEK CAPITAL LETTER SIGMA .. GREEK SMALL LETTER OMEGA WITH TONOS
(16#003D0#, 16#003F5#), -- GREEK BETA SYMBOL .. GREEK LUNATE EPSILON SYMBOL
(16#003F7#, 16#003FB#), -- GREEK CAPITAL LETTER SHO .. GREEK SMALL LETTER SAN
(16#00400#, 16#00481#), -- CYRILLIC CAPITAL LETTER IE WITH GRAVE .. CYRILLIC SMALL LETTER KOPPA
(16#0048A#, 16#004CE#), -- CYRILLIC CAPITAL LETTER SHORT I WITH TAIL .. CYRILLIC SMALL LETTER EM WITH TAIL
(16#004D0#, 16#004F5#), -- CYRILLIC CAPITAL LETTER A WITH BREVE .. CYRILLIC SMALL LETTER CHE WITH DIAERESIS
(16#004F8#, 16#004F9#), -- CYRILLIC CAPITAL LETTER YERU WITH DIAERESIS .. CYRILLIC SMALL LETTER YERU WITH DIAERESIS
(16#00500#, 16#0050F#), -- CYRILLIC CAPITAL LETTER KOMI DE .. CYRILLIC SMALL LETTER KOMI TJE
(16#00531#, 16#00556#), -- ARMENIAN CAPITAL LETTER AYB .. ARMENIAN CAPITAL LETTER FEH
(16#00559#, 16#00559#), -- ARMENIAN MODIFIER LETTER LEFT HALF RING .. ARMENIAN MODIFIER LETTER LEFT HALF RING
(16#00561#, 16#00587#), -- ARMENIAN SMALL LETTER AYB .. ARMENIAN SMALL LIGATURE ECH YIWN
(16#005D0#, 16#005EA#), -- HEBREW LETTER ALEF .. HEBREW LETTER TAV
(16#005F0#, 16#005F2#), -- HEBREW LIGATURE YIDDISH DOUBLE VAV .. HEBREW LIGATURE YIDDISH DOUBLE YOD
(16#00621#, 16#0063A#), -- ARABIC LETTER HAMZA .. ARABIC LETTER GHAIN
(16#00640#, 16#0064A#), -- ARABIC TATWEEL .. ARABIC LETTER YEH
(16#0066E#, 16#0066F#), -- ARABIC LETTER DOTLESS BEH .. ARABIC LETTER DOTLESS QAF
(16#00671#, 16#006D3#), -- ARABIC LETTER ALEF WASLA .. ARABIC LETTER YEH BARREE WITH HAMZA ABOVE
(16#006D5#, 16#006D5#), -- ARABIC LETTER AE .. ARABIC LETTER AE
(16#006E5#, 16#006E6#), -- ARABIC SMALL WAW .. ARABIC SMALL YEH
(16#006EE#, 16#006EF#), -- ARABIC LETTER DAL WITH INVERTED V .. ARABIC LETTER REH WITH INVERTED V
(16#006FA#, 16#006FC#), -- ARABIC LETTER SHEEN WITH DOT BELOW .. ARABIC LETTER GHAIN WITH DOT BELOW
(16#006FF#, 16#006FF#), -- ARABIC LETTER HEH WITH INVERTED V .. ARABIC LETTER HEH WITH INVERTED V
(16#00710#, 16#00710#), -- SYRIAC LETTER ALAPH .. SYRIAC LETTER ALAPH
(16#00712#, 16#0072F#), -- SYRIAC LETTER BETH .. SYRIAC LETTER PERSIAN DHALATH
(16#0074D#, 16#0074F#), -- SYRIAC LETTER SOGDIAN ZHAIN .. SYRIAC LETTER SOGDIAN FE
(16#00780#, 16#007A5#), -- THAANA LETTER HAA .. THAANA LETTER WAAVU
(16#007B1#, 16#007B1#), -- THAANA LETTER NAA .. THAANA LETTER NAA
(16#00904#, 16#00939#), -- DEVANAGARI LETTER SHORT A .. DEVANAGARI LETTER HA
(16#0093D#, 16#0093D#), -- DEVANAGARI SIGN AVAGRAHA .. DEVANAGARI SIGN AVAGRAHA
(16#00950#, 16#00950#), -- DEVANAGARI OM .. DEVANAGARI OM
(16#00958#, 16#00961#), -- DEVANAGARI LETTER QA .. DEVANAGARI LETTER VOCALIC LL
(16#00985#, 16#0098C#), -- BENGALI LETTER A .. BENGALI LETTER VOCALIC L
(16#0098F#, 16#00990#), -- BENGALI LETTER E .. BENGALI LETTER AI
(16#00993#, 16#009A8#), -- BENGALI LETTER O .. BENGALI LETTER NA
(16#009AA#, 16#009B0#), -- BENGALI LETTER PA .. BENGALI LETTER RA
(16#009B2#, 16#009B2#), -- BENGALI LETTER LA .. BENGALI LETTER LA
(16#009B6#, 16#009B9#), -- BENGALI LETTER SHA .. BENGALI LETTER HA
(16#009BD#, 16#009BD#), -- BENGALI SIGN AVAGRAHA .. BENGALI SIGN AVAGRAHA
(16#009DC#, 16#009DD#), -- BENGALI LETTER RRA .. BENGALI LETTER RHA
(16#009DF#, 16#009E1#), -- BENGALI LETTER YYA .. BENGALI LETTER VOCALIC LL
(16#009F0#, 16#009F1#), -- BENGALI LETTER RA WITH MIDDLE DIAGONAL .. BENGALI LETTER RA WITH LOWER DIAGONAL
(16#00A05#, 16#00A0A#), -- GURMUKHI LETTER A .. GURMUKHI LETTER UU
(16#00A0F#, 16#00A10#), -- GURMUKHI LETTER EE .. GURMUKHI LETTER AI
(16#00A13#, 16#00A28#), -- GURMUKHI LETTER OO .. GURMUKHI LETTER NA
(16#00A2A#, 16#00A30#), -- GURMUKHI LETTER PA .. GURMUKHI LETTER RA
(16#00A32#, 16#00A33#), -- GURMUKHI LETTER LA .. GURMUKHI LETTER LLA
(16#00A35#, 16#00A36#), -- GURMUKHI LETTER VA .. GURMUKHI LETTER SHA
(16#00A38#, 16#00A39#), -- GURMUKHI LETTER SA .. GURMUKHI LETTER HA
(16#00A59#, 16#00A5C#), -- GURMUKHI LETTER KHHA .. GURMUKHI LETTER RRA
(16#00A5E#, 16#00A5E#), -- GURMUKHI LETTER FA .. GURMUKHI LETTER FA
(16#00A72#, 16#00A74#), -- GURMUKHI IRI .. GURMUKHI EK ONKAR
(16#00A85#, 16#00A8D#), -- GUJARATI LETTER A .. GUJARATI VOWEL CANDRA E
(16#00A8F#, 16#00A91#), -- GUJARATI LETTER E .. GUJARATI VOWEL CANDRA O
(16#00A93#, 16#00AA8#), -- GUJARATI LETTER O .. GUJARATI LETTER NA
(16#00AAA#, 16#00AB0#), -- GUJARATI LETTER PA .. GUJARATI LETTER RA
(16#00AB2#, 16#00AB3#), -- GUJARATI LETTER LA .. GUJARATI LETTER LLA
(16#00AB5#, 16#00AB9#), -- GUJARATI LETTER VA .. GUJARATI LETTER HA
(16#00ABD#, 16#00ABD#), -- GUJARATI SIGN AVAGRAHA .. GUJARATI SIGN AVAGRAHA
(16#00AD0#, 16#00AD0#), -- GUJARATI OM .. GUJARATI OM
(16#00AE0#, 16#00AE1#), -- GUJARATI LETTER VOCALIC RR .. GUJARATI LETTER VOCALIC LL
(16#00B05#, 16#00B0C#), -- ORIYA LETTER A .. ORIYA LETTER VOCALIC L
(16#00B0F#, 16#00B10#), -- ORIYA LETTER E .. ORIYA LETTER AI
(16#00B13#, 16#00B28#), -- ORIYA LETTER O .. ORIYA LETTER NA
(16#00B2A#, 16#00B30#), -- ORIYA LETTER PA .. ORIYA LETTER RA
(16#00B32#, 16#00B33#), -- ORIYA LETTER LA .. ORIYA LETTER LLA
(16#00B35#, 16#00B39#), -- ORIYA LETTER VA .. ORIYA LETTER HA
(16#00B3D#, 16#00B3D#), -- ORIYA SIGN AVAGRAHA .. ORIYA SIGN AVAGRAHA
(16#00B5C#, 16#00B5D#), -- ORIYA LETTER RRA .. ORIYA LETTER RHA
(16#00B5F#, 16#00B61#), -- ORIYA LETTER YYA .. ORIYA LETTER VOCALIC LL
(16#00B71#, 16#00B71#), -- ORIYA LETTER WA .. ORIYA LETTER WA
(16#00B83#, 16#00B83#), -- TAMIL SIGN VISARGA .. TAMIL SIGN VISARGA
(16#00B85#, 16#00B8A#), -- TAMIL LETTER A .. TAMIL LETTER UU
(16#00B8E#, 16#00B90#), -- TAMIL LETTER E .. TAMIL LETTER AI
(16#00B92#, 16#00B95#), -- TAMIL LETTER O .. TAMIL LETTER KA
(16#00B99#, 16#00B9A#), -- TAMIL LETTER NGA .. TAMIL LETTER CA
(16#00B9C#, 16#00B9C#), -- TAMIL LETTER JA .. TAMIL LETTER JA
(16#00B9E#, 16#00B9F#), -- TAMIL LETTER NYA .. TAMIL LETTER TTA
(16#00BA3#, 16#00BA4#), -- TAMIL LETTER NNA .. TAMIL LETTER TA
(16#00BA8#, 16#00BAA#), -- TAMIL LETTER NA .. TAMIL LETTER PA
(16#00BAE#, 16#00BB5#), -- TAMIL LETTER MA .. TAMIL LETTER VA
(16#00BB7#, 16#00BB9#), -- TAMIL LETTER SSA .. TAMIL LETTER HA
(16#00C05#, 16#00C0C#), -- TELUGU LETTER A .. TELUGU LETTER VOCALIC L
(16#00C0E#, 16#00C10#), -- TELUGU LETTER E .. TELUGU LETTER AI
(16#00C12#, 16#00C28#), -- TELUGU LETTER O .. TELUGU LETTER NA
(16#00C2A#, 16#00C33#), -- TELUGU LETTER PA .. TELUGU LETTER LLA
(16#00C35#, 16#00C39#), -- TELUGU LETTER VA .. TELUGU LETTER HA
(16#00C60#, 16#00C61#), -- TELUGU LETTER VOCALIC RR .. TELUGU LETTER VOCALIC LL
(16#00C85#, 16#00C8C#), -- KANNADA LETTER A .. KANNADA LETTER VOCALIC L
(16#00C8E#, 16#00C90#), -- KANNADA LETTER E .. KANNADA LETTER AI
(16#00C92#, 16#00CA8#), -- KANNADA LETTER O .. KANNADA LETTER NA
(16#00CAA#, 16#00CB3#), -- KANNADA LETTER PA .. KANNADA LETTER LLA
(16#00CB5#, 16#00CB9#), -- KANNADA LETTER VA .. KANNADA LETTER HA
(16#00CBD#, 16#00CBD#), -- KANNADA SIGN AVAGRAHA .. KANNADA SIGN AVAGRAHA
(16#00CDE#, 16#00CDE#), -- KANNADA LETTER FA .. KANNADA LETTER FA
(16#00CE0#, 16#00CE1#), -- KANNADA LETTER VOCALIC RR .. KANNADA LETTER VOCALIC LL
(16#00D05#, 16#00D0C#), -- MALAYALAM LETTER A .. MALAYALAM LETTER VOCALIC L
(16#00D0E#, 16#00D10#), -- MALAYALAM LETTER E .. MALAYALAM LETTER AI
(16#00D12#, 16#00D28#), -- MALAYALAM LETTER O .. MALAYALAM LETTER NA
(16#00D2A#, 16#00D39#), -- MALAYALAM LETTER PA .. MALAYALAM LETTER HA
(16#00D60#, 16#00D61#), -- MALAYALAM LETTER VOCALIC RR .. MALAYALAM LETTER VOCALIC LL
(16#00D85#, 16#00D96#), -- SINHALA LETTER AYANNA .. SINHALA LETTER AUYANNA
(16#00D9A#, 16#00DB1#), -- SINHALA LETTER ALPAPRAANA KAYANNA .. SINHALA LETTER DANTAJA NAYANNA
(16#00DB3#, 16#00DBB#), -- SINHALA LETTER SANYAKA DAYANNA .. SINHALA LETTER RAYANNA
(16#00DBD#, 16#00DBD#), -- SINHALA LETTER DANTAJA LAYANNA .. SINHALA LETTER DANTAJA LAYANNA
(16#00DC0#, 16#00DC6#), -- SINHALA LETTER VAYANNA .. SINHALA LETTER FAYANNA
(16#00E01#, 16#00E30#), -- THAI CHARACTER KO KAI .. THAI CHARACTER SARA A
(16#00E32#, 16#00E33#), -- THAI CHARACTER SARA AA .. THAI CHARACTER SARA AM
(16#00E40#, 16#00E46#), -- THAI CHARACTER SARA E .. THAI CHARACTER MAIYAMOK
(16#00E81#, 16#00E82#), -- LAO LETTER KO .. LAO LETTER KHO SUNG
(16#00E84#, 16#00E84#), -- LAO LETTER KHO TAM .. LAO LETTER KHO TAM
(16#00E87#, 16#00E88#), -- LAO LETTER NGO .. LAO LETTER CO
(16#00E8A#, 16#00E8A#), -- LAO LETTER SO TAM .. LAO LETTER SO TAM
(16#00E8D#, 16#00E8D#), -- LAO LETTER NYO .. LAO LETTER NYO
(16#00E94#, 16#00E97#), -- LAO LETTER DO .. LAO LETTER THO TAM
(16#00E99#, 16#00E9F#), -- LAO LETTER NO .. LAO LETTER FO SUNG
(16#00EA1#, 16#00EA3#), -- LAO LETTER MO .. LAO LETTER LO LING
(16#00EA5#, 16#00EA5#), -- LAO LETTER LO LOOT .. LAO LETTER LO LOOT
(16#00EA7#, 16#00EA7#), -- LAO LETTER WO .. LAO LETTER WO
(16#00EAA#, 16#00EAB#), -- LAO LETTER SO SUNG .. LAO LETTER HO SUNG
(16#00EAD#, 16#00EB0#), -- LAO LETTER O .. LAO VOWEL SIGN A
(16#00EB2#, 16#00EB3#), -- LAO VOWEL SIGN AA .. LAO VOWEL SIGN AM
(16#00EBD#, 16#00EBD#), -- LAO SEMIVOWEL SIGN NYO .. LAO SEMIVOWEL SIGN NYO
(16#00EC0#, 16#00EC4#), -- LAO VOWEL SIGN E .. LAO VOWEL SIGN AI
(16#00EC6#, 16#00EC6#), -- LAO KO LA .. LAO KO LA
(16#00EDC#, 16#00EDD#), -- LAO HO NO .. LAO HO MO
(16#00F00#, 16#00F00#), -- TIBETAN SYLLABLE OM .. TIBETAN SYLLABLE OM
(16#00F40#, 16#00F47#), -- TIBETAN LETTER KA .. TIBETAN LETTER JA
(16#00F49#, 16#00F6A#), -- TIBETAN LETTER NYA .. TIBETAN LETTER FIXED-FORM RA
(16#00F88#, 16#00F8B#), -- TIBETAN SIGN LCE TSA CAN .. TIBETAN SIGN GRU MED RGYINGS
(16#01000#, 16#01021#), -- MYANMAR LETTER KA .. MYANMAR LETTER A
(16#01023#, 16#01027#), -- MYANMAR LETTER I .. MYANMAR LETTER E
(16#01029#, 16#0102A#), -- MYANMAR LETTER O .. MYANMAR LETTER AU
(16#01050#, 16#01055#), -- MYANMAR LETTER SHA .. MYANMAR LETTER VOCALIC LL
(16#010A0#, 16#010C5#), -- GEORGIAN CAPITAL LETTER AN .. GEORGIAN CAPITAL LETTER HOE
(16#010D0#, 16#010F8#), -- GEORGIAN LETTER AN .. GEORGIAN LETTER ELIFI
(16#01100#, 16#01159#), -- HANGUL CHOSEONG KIYEOK .. HANGUL CHOSEONG YEORINHIEUH
(16#0115F#, 16#011A2#), -- HANGUL CHOSEONG FILLER .. HANGUL JUNGSEONG SSANGARAEA
(16#011A8#, 16#011F9#), -- HANGUL JONGSEONG KIYEOK .. HANGUL JONGSEONG YEORINHIEUH
(16#01200#, 16#01206#), -- ETHIOPIC SYLLABLE HA .. ETHIOPIC SYLLABLE HO
(16#01208#, 16#01246#), -- ETHIOPIC SYLLABLE LA .. ETHIOPIC SYLLABLE QO
(16#01248#, 16#01248#), -- ETHIOPIC SYLLABLE QWA .. ETHIOPIC SYLLABLE QWA
(16#0124A#, 16#0124D#), -- ETHIOPIC SYLLABLE QWI .. ETHIOPIC SYLLABLE QWE
(16#01250#, 16#01256#), -- ETHIOPIC SYLLABLE QHA .. ETHIOPIC SYLLABLE QHO
(16#01258#, 16#01258#), -- ETHIOPIC SYLLABLE QHWA .. ETHIOPIC SYLLABLE QHWA
(16#0125A#, 16#0125D#), -- ETHIOPIC SYLLABLE QHWI .. ETHIOPIC SYLLABLE QHWE
(16#01260#, 16#01286#), -- ETHIOPIC SYLLABLE BA .. ETHIOPIC SYLLABLE XO
(16#01288#, 16#01288#), -- ETHIOPIC SYLLABLE XWA .. ETHIOPIC SYLLABLE XWA
(16#0128A#, 16#0128D#), -- ETHIOPIC SYLLABLE XWI .. ETHIOPIC SYLLABLE XWE
(16#01290#, 16#012AE#), -- ETHIOPIC SYLLABLE NA .. ETHIOPIC SYLLABLE KO
(16#012B0#, 16#012B0#), -- ETHIOPIC SYLLABLE KWA .. ETHIOPIC SYLLABLE KWA
(16#012B2#, 16#012B5#), -- ETHIOPIC SYLLABLE KWI .. ETHIOPIC SYLLABLE KWE
(16#012B8#, 16#012BE#), -- ETHIOPIC SYLLABLE KXA .. ETHIOPIC SYLLABLE KXO
(16#012C0#, 16#012C0#), -- ETHIOPIC SYLLABLE KXWA .. ETHIOPIC SYLLABLE KXWA
(16#012C2#, 16#012C5#), -- ETHIOPIC SYLLABLE KXWI .. ETHIOPIC SYLLABLE KXWE
(16#012C8#, 16#012CE#), -- ETHIOPIC SYLLABLE WA .. ETHIOPIC SYLLABLE WO
(16#012D0#, 16#012D6#), -- ETHIOPIC SYLLABLE PHARYNGEAL A .. ETHIOPIC SYLLABLE PHARYNGEAL O
(16#012D8#, 16#012EE#), -- ETHIOPIC SYLLABLE ZA .. ETHIOPIC SYLLABLE YO
(16#012F0#, 16#0130E#), -- ETHIOPIC SYLLABLE DA .. ETHIOPIC SYLLABLE GO
(16#01310#, 16#01310#), -- ETHIOPIC SYLLABLE GWA .. ETHIOPIC SYLLABLE GWA
(16#01312#, 16#01315#), -- ETHIOPIC SYLLABLE GWI .. ETHIOPIC SYLLABLE GWE
(16#01318#, 16#0131E#), -- ETHIOPIC SYLLABLE GGA .. ETHIOPIC SYLLABLE GGO
(16#01320#, 16#01346#), -- ETHIOPIC SYLLABLE THA .. ETHIOPIC SYLLABLE TZO
(16#01348#, 16#0135A#), -- ETHIOPIC SYLLABLE FA .. ETHIOPIC SYLLABLE FYA
(16#013A0#, 16#013F4#), -- CHEROKEE LETTER A .. CHEROKEE LETTER YV
(16#01401#, 16#0166C#), -- CANADIAN SYLLABICS E .. CANADIAN SYLLABICS CARRIER TTSA
(16#0166F#, 16#01676#), -- CANADIAN SYLLABICS QAI .. CANADIAN SYLLABICS NNGAA
(16#01681#, 16#0169A#), -- OGHAM LETTER BEITH .. OGHAM LETTER PEITH
(16#016A0#, 16#016EA#), -- RUNIC LETTER FEHU FEOH FE F .. RUNIC LETTER X
(16#016EE#, 16#016F0#), -- RUNIC ARLAUG SYMBOL .. RUNIC BELGTHOR SYMBOL
(16#01700#, 16#0170C#), -- TAGALOG LETTER A .. TAGALOG LETTER YA
(16#0170E#, 16#01711#), -- TAGALOG LETTER LA .. TAGALOG LETTER HA
(16#01720#, 16#01731#), -- HANUNOO LETTER A .. HANUNOO LETTER HA
(16#01740#, 16#01751#), -- BUHID LETTER A .. BUHID LETTER HA
(16#01760#, 16#0176C#), -- TAGBANWA LETTER A .. TAGBANWA LETTER YA
(16#0176E#, 16#01770#), -- TAGBANWA LETTER LA .. TAGBANWA LETTER SA
(16#01780#, 16#017B3#), -- KHMER LETTER KA .. KHMER INDEPENDENT VOWEL QAU
(16#017D7#, 16#017D7#), -- KHMER SIGN LEK TOO .. KHMER SIGN LEK TOO
(16#017DC#, 16#017DC#), -- KHMER SIGN AVAKRAHASANYA .. KHMER SIGN AVAKRAHASANYA
(16#01820#, 16#01877#), -- MONGOLIAN LETTER A .. MONGOLIAN LETTER MANCHU ZHA
(16#01880#, 16#018A8#), -- MONGOLIAN LETTER ALI GALI ANUSVARA ONE .. MONGOLIAN LETTER MANCHU ALI GALI BHA
(16#01900#, 16#0191C#), -- LIMBU VOWEL-CARRIER LETTER .. LIMBU LETTER HA
(16#01950#, 16#0196D#), -- TAI LE LETTER KA .. TAI LE LETTER AI
(16#01970#, 16#01974#), -- TAI LE LETTER TONE-2 .. TAI LE LETTER TONE-6
(16#01D00#, 16#01D6B#), -- LATIN LETTER SMALL CAPITAL A .. LATIN SMALL LETTER UE
(16#01E00#, 16#01E9B#), -- LATIN CAPITAL LETTER A WITH RING BELOW .. LATIN SMALL LETTER LONG S WITH DOT ABOVE
(16#01EA0#, 16#01EF9#), -- LATIN CAPITAL LETTER A WITH DOT BELOW .. LATIN SMALL LETTER Y WITH TILDE
(16#01F00#, 16#01F15#), -- GREEK SMALL LETTER ALPHA WITH PSILI .. GREEK SMALL LETTER EPSILON WITH DASIA AND OXIA
(16#01F18#, 16#01F1D#), -- GREEK CAPITAL LETTER EPSILON WITH PSILI .. GREEK CAPITAL LETTER EPSILON WITH DASIA AND OXIA
(16#01F20#, 16#01F45#), -- GREEK SMALL LETTER ETA WITH PSILI .. GREEK SMALL LETTER OMICRON WITH DASIA AND OXIA
(16#01F48#, 16#01F4D#), -- GREEK CAPITAL LETTER OMICRON WITH PSILI .. GREEK CAPITAL LETTER OMICRON WITH DASIA AND OXIA
(16#01F50#, 16#01F57#), -- GREEK SMALL LETTER UPSILON WITH PSILI .. GREEK SMALL LETTER UPSILON WITH DASIA AND PERISPOMENI
(16#01F59#, 16#01F59#), -- GREEK CAPITAL LETTER UPSILON WITH DASIA .. GREEK CAPITAL LETTER UPSILON WITH DASIA
(16#01F5B#, 16#01F5B#), -- GREEK CAPITAL LETTER UPSILON WITH DASIA AND VARIA .. GREEK CAPITAL LETTER UPSILON WITH DASIA AND VARIA
(16#01F5D#, 16#01F5D#), -- GREEK CAPITAL LETTER UPSILON WITH DASIA AND OXIA .. GREEK CAPITAL LETTER UPSILON WITH DASIA AND OXIA
(16#01F5F#, 16#01F7D#), -- GREEK CAPITAL LETTER UPSILON WITH DASIA AND PERISPOMENI .. GREEK SMALL LETTER OMEGA WITH OXIA
(16#01F80#, 16#01FB4#), -- GREEK SMALL LETTER ALPHA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER ALPHA WITH OXIA AND YPOGEGRAMMENI
(16#01FB6#, 16#01FBC#), -- GREEK SMALL LETTER ALPHA WITH PERISPOMENI .. GREEK CAPITAL LETTER ALPHA WITH PROSGEGRAMMENI
(16#01FBE#, 16#01FBE#), -- GREEK PROSGEGRAMMENI .. GREEK PROSGEGRAMMENI
(16#01FC2#, 16#01FC4#), -- GREEK SMALL LETTER ETA WITH VARIA AND YPOGEGRAMMENI .. GREEK SMALL LETTER ETA WITH OXIA AND YPOGEGRAMMENI
(16#01FC6#, 16#01FCC#), -- GREEK SMALL LETTER ETA WITH PERISPOMENI .. GREEK CAPITAL LETTER ETA WITH PROSGEGRAMMENI
(16#01FD0#, 16#01FD3#), -- GREEK SMALL LETTER IOTA WITH VRACHY .. GREEK SMALL LETTER IOTA WITH DIALYTIKA AND OXIA
(16#01FD6#, 16#01FDB#), -- GREEK SMALL LETTER IOTA WITH PERISPOMENI .. GREEK CAPITAL LETTER IOTA WITH OXIA
(16#01FE0#, 16#01FEC#), -- GREEK SMALL LETTER UPSILON WITH VRACHY .. GREEK CAPITAL LETTER RHO WITH DASIA
(16#01FF2#, 16#01FF4#), -- GREEK SMALL LETTER OMEGA WITH VARIA AND YPOGEGRAMMENI .. GREEK SMALL LETTER OMEGA WITH OXIA AND YPOGEGRAMMENI
(16#01FF6#, 16#01FFC#), -- GREEK SMALL LETTER OMEGA WITH PERISPOMENI .. GREEK CAPITAL LETTER OMEGA WITH PROSGEGRAMMENI
(16#02071#, 16#02071#), -- SUPERSCRIPT LATIN SMALL LETTER I .. SUPERSCRIPT LATIN SMALL LETTER I
(16#0207F#, 16#0207F#), -- SUPERSCRIPT LATIN SMALL LETTER N .. SUPERSCRIPT LATIN SMALL LETTER N
(16#02102#, 16#02102#), -- DOUBLE-STRUCK CAPITAL C .. DOUBLE-STRUCK CAPITAL C
(16#02107#, 16#02107#), -- EULER CONSTANT .. EULER CONSTANT
(16#0210A#, 16#02113#), -- SCRIPT SMALL G .. SCRIPT SMALL L
(16#02115#, 16#02115#), -- DOUBLE-STRUCK CAPITAL N .. DOUBLE-STRUCK CAPITAL N
(16#02119#, 16#0211D#), -- DOUBLE-STRUCK CAPITAL P .. DOUBLE-STRUCK CAPITAL R
(16#02124#, 16#02124#), -- DOUBLE-STRUCK CAPITAL Z .. DOUBLE-STRUCK CAPITAL Z
(16#02126#, 16#02126#), -- OHM SIGN .. OHM SIGN
(16#02128#, 16#02128#), -- BLACK-LETTER CAPITAL Z .. BLACK-LETTER CAPITAL Z
(16#0212A#, 16#0212D#), -- KELVIN SIGN .. BLACK-LETTER CAPITAL C
(16#0212F#, 16#02131#), -- SCRIPT SMALL E .. SCRIPT CAPITAL F
(16#02133#, 16#02139#), -- SCRIPT CAPITAL M .. INFORMATION SOURCE
(16#0213D#, 16#0213F#), -- DOUBLE-STRUCK SMALL GAMMA .. DOUBLE-STRUCK CAPITAL PI
(16#02145#, 16#02149#), -- DOUBLE-STRUCK ITALIC CAPITAL D .. DOUBLE-STRUCK ITALIC SMALL J
(16#02160#, 16#02183#), -- ROMAN NUMERAL ONE .. ROMAN NUMERAL REVERSED ONE HUNDRED
(16#03005#, 16#03007#), -- IDEOGRAPHIC ITERATION MARK .. IDEOGRAPHIC NUMBER ZERO
(16#03021#, 16#03029#), -- HANGZHOU NUMERAL ONE .. HANGZHOU NUMERAL NINE
(16#03031#, 16#03035#), -- VERTICAL KANA REPEAT MARK .. VERTICAL KANA REPEAT MARK LOWER HALF
(16#03038#, 16#0303C#), -- HANGZHOU NUMERAL TEN .. MASU MARK
(16#03041#, 16#03096#), -- HIRAGANA LETTER SMALL A .. HIRAGANA LETTER SMALL KE
(16#0309D#, 16#0309F#), -- HIRAGANA ITERATION MARK .. HIRAGANA DIGRAPH YORI
(16#030A1#, 16#030FA#), -- KATAKANA LETTER SMALL A .. KATAKANA LETTER VO
(16#030FC#, 16#030FF#), -- KATAKANA-HIRAGANA PROLONGED SOUND MARK .. KATAKANA DIGRAPH KOTO
(16#03105#, 16#0312C#), -- BOPOMOFO LETTER B .. BOPOMOFO LETTER GN
(16#03131#, 16#0318E#), -- HANGUL LETTER KIYEOK .. HANGUL LETTER ARAEAE
(16#031A0#, 16#031B7#), -- BOPOMOFO LETTER BU .. BOPOMOFO FINAL LETTER H
(16#031F0#, 16#031FF#), -- KATAKANA LETTER SMALL KU .. KATAKANA LETTER SMALL RO
(16#03400#, 16#04DB5#), -- <CJK Ideograph Extension A, First> .. <CJK Ideograph Extension A, Last>
(16#04E00#, 16#09FA5#), -- <CJK Ideograph, First> .. <CJK Ideograph, Last>
(16#0A000#, 16#0A48C#), -- YI SYLLABLE IT .. YI SYLLABLE YYR
(16#0AC00#, 16#0D7A3#), -- <Hangul Syllable, First> .. <Hangul Syllable, Last>
(16#0F900#, 16#0FA2D#), -- CJK COMPATIBILITY IDEOGRAPH-F900 .. CJK COMPATIBILITY IDEOGRAPH-FA2D
(16#0FA30#, 16#0FA6A#), -- CJK COMPATIBILITY IDEOGRAPH-FA30 .. CJK COMPATIBILITY IDEOGRAPH-FA6A
(16#0FB00#, 16#0FB06#), -- LATIN SMALL LIGATURE FF .. LATIN SMALL LIGATURE ST
(16#0FB13#, 16#0FB17#), -- ARMENIAN SMALL LIGATURE MEN NOW .. ARMENIAN SMALL LIGATURE MEN XEH
(16#0FB1D#, 16#0FB1D#), -- HEBREW LETTER YOD WITH HIRIQ .. HEBREW LETTER YOD WITH HIRIQ
(16#0FB1F#, 16#0FB28#), -- HEBREW LIGATURE YIDDISH YOD YOD PATAH .. HEBREW LETTER WIDE TAV
(16#0FB2A#, 16#0FB36#), -- HEBREW LETTER SHIN WITH SHIN DOT .. HEBREW LETTER ZAYIN WITH DAGESH
(16#0FB38#, 16#0FB3C#), -- HEBREW LETTER TET WITH DAGESH .. HEBREW LETTER LAMED WITH DAGESH
(16#0FB3E#, 16#0FB3E#), -- HEBREW LETTER MEM WITH DAGESH .. HEBREW LETTER MEM WITH DAGESH
(16#0FB40#, 16#0FB41#), -- HEBREW LETTER NUN WITH DAGESH .. HEBREW LETTER SAMEKH WITH DAGESH
(16#0FB43#, 16#0FB44#), -- HEBREW LETTER FINAL PE WITH DAGESH .. HEBREW LETTER PE WITH DAGESH
(16#0FB46#, 16#0FBB1#), -- HEBREW LETTER TSADI WITH DAGESH .. ARABIC LETTER YEH BARREE WITH HAMZA ABOVE FINAL FORM
(16#0FBD3#, 16#0FD3D#), -- ARABIC LETTER NG ISOLATED FORM .. ARABIC LIGATURE ALEF WITH FATHATAN ISOLATED FORM
(16#0FD50#, 16#0FD8F#), -- ARABIC LIGATURE TEH WITH JEEM WITH MEEM INITIAL FORM .. ARABIC LIGATURE MEEM WITH KHAH WITH MEEM INITIAL FORM
(16#0FD92#, 16#0FDC7#), -- ARABIC LIGATURE MEEM WITH JEEM WITH KHAH INITIAL FORM .. ARABIC LIGATURE NOON WITH JEEM WITH YEH FINAL FORM
(16#0FDF0#, 16#0FDFB#), -- ARABIC LIGATURE SALLA USED AS KORANIC STOP SIGN ISOLATED FORM .. ARABIC LIGATURE JALLAJALALOUHOU
(16#0FE70#, 16#0FE74#), -- ARABIC FATHATAN ISOLATED FORM .. ARABIC KASRATAN ISOLATED FORM
(16#0FE76#, 16#0FEFC#), -- ARABIC FATHA ISOLATED FORM .. ARABIC LIGATURE LAM WITH ALEF FINAL FORM
(16#0FF21#, 16#0FF3A#), -- FULLWIDTH LATIN CAPITAL LETTER A .. FULLWIDTH LATIN CAPITAL LETTER Z
(16#0FF41#, 16#0FF5A#), -- FULLWIDTH LATIN SMALL LETTER A .. FULLWIDTH LATIN SMALL LETTER Z
(16#0FF66#, 16#0FFBE#), -- HALFWIDTH KATAKANA LETTER WO .. HALFWIDTH HANGUL LETTER HIEUH
(16#0FFC2#, 16#0FFC7#), -- HALFWIDTH HANGUL LETTER A .. HALFWIDTH HANGUL LETTER E
(16#0FFCA#, 16#0FFCF#), -- HALFWIDTH HANGUL LETTER YEO .. HALFWIDTH HANGUL LETTER OE
(16#0FFD2#, 16#0FFD7#), -- HALFWIDTH HANGUL LETTER YO .. HALFWIDTH HANGUL LETTER YU
(16#0FFDA#, 16#0FFDC#), -- HALFWIDTH HANGUL LETTER EU .. HALFWIDTH HANGUL LETTER I
(16#10000#, 16#1000B#), -- LINEAR B SYLLABLE B008 A .. LINEAR B SYLLABLE B046 JE
(16#1000D#, 16#10026#), -- LINEAR B SYLLABLE B036 JO .. LINEAR B SYLLABLE B032 QO
(16#10028#, 16#1003A#), -- LINEAR B SYLLABLE B060 RA .. LINEAR B SYLLABLE B042 WO
(16#1003C#, 16#1003D#), -- LINEAR B SYLLABLE B017 ZA .. LINEAR B SYLLABLE B074 ZE
(16#1003F#, 16#1004D#), -- LINEAR B SYLLABLE B020 ZO .. LINEAR B SYLLABLE B091 TWO
(16#10050#, 16#1005D#), -- LINEAR B SYMBOL B018 .. LINEAR B SYMBOL B089
(16#10080#, 16#100FA#), -- LINEAR B IDEOGRAM B100 MAN .. LINEAR B IDEOGRAM VESSEL B305
(16#10300#, 16#1031E#), -- OLD ITALIC LETTER A .. OLD ITALIC LETTER UU
(16#10330#, 16#1034A#), -- GOTHIC LETTER AHSA .. GOTHIC LETTER NINE HUNDRED
(16#10380#, 16#1039D#), -- UGARITIC LETTER ALPA .. UGARITIC LETTER SSU
(16#10400#, 16#1049D#), -- DESERET CAPITAL LETTER LONG I .. OSMANYA LETTER OO
(16#10800#, 16#10805#), -- CYPRIOT SYLLABLE A .. CYPRIOT SYLLABLE JA
(16#10808#, 16#10808#), -- CYPRIOT SYLLABLE JO .. CYPRIOT SYLLABLE JO
(16#1080A#, 16#10835#), -- CYPRIOT SYLLABLE KA .. CYPRIOT SYLLABLE WO
(16#10837#, 16#10838#), -- CYPRIOT SYLLABLE XA .. CYPRIOT SYLLABLE XE
(16#1083C#, 16#1083C#), -- CYPRIOT SYLLABLE ZA .. CYPRIOT SYLLABLE ZA
(16#1083F#, 16#1083F#), -- CYPRIOT SYLLABLE ZO .. CYPRIOT SYLLABLE ZO
(16#1D400#, 16#1D454#), -- MATHEMATICAL BOLD CAPITAL A .. MATHEMATICAL ITALIC SMALL G
(16#1D456#, 16#1D49C#), -- MATHEMATICAL ITALIC SMALL I .. MATHEMATICAL SCRIPT CAPITAL A
(16#1D49E#, 16#1D49F#), -- MATHEMATICAL SCRIPT CAPITAL C .. MATHEMATICAL SCRIPT CAPITAL D
(16#1D4A2#, 16#1D4A2#), -- MATHEMATICAL SCRIPT CAPITAL G .. MATHEMATICAL SCRIPT CAPITAL G
(16#1D4A5#, 16#1D4A6#), -- MATHEMATICAL SCRIPT CAPITAL J .. MATHEMATICAL SCRIPT CAPITAL K
(16#1D4A9#, 16#1D4AC#), -- MATHEMATICAL SCRIPT CAPITAL N .. MATHEMATICAL SCRIPT CAPITAL Q
(16#1D4AE#, 16#1D4B9#), -- MATHEMATICAL SCRIPT CAPITAL S .. MATHEMATICAL SCRIPT SMALL D
(16#1D4BB#, 16#1D4BB#), -- MATHEMATICAL SCRIPT SMALL F .. MATHEMATICAL SCRIPT SMALL F
(16#1D4BD#, 16#1D4C3#), -- MATHEMATICAL SCRIPT SMALL H .. MATHEMATICAL SCRIPT SMALL N
(16#1D4C5#, 16#1D505#), -- MATHEMATICAL SCRIPT SMALL P .. MATHEMATICAL FRAKTUR CAPITAL B
(16#1D507#, 16#1D50A#), -- MATHEMATICAL FRAKTUR CAPITAL D .. MATHEMATICAL FRAKTUR CAPITAL G
(16#1D50D#, 16#1D514#), -- MATHEMATICAL FRAKTUR CAPITAL J .. MATHEMATICAL FRAKTUR CAPITAL Q
(16#1D516#, 16#1D51C#), -- MATHEMATICAL FRAKTUR CAPITAL S .. MATHEMATICAL FRAKTUR CAPITAL Y
(16#1D51E#, 16#1D539#), -- MATHEMATICAL FRAKTUR SMALL A .. MATHEMATICAL DOUBLE-STRUCK CAPITAL B
(16#1D53B#, 16#1D53E#), -- MATHEMATICAL DOUBLE-STRUCK CAPITAL D .. MATHEMATICAL DOUBLE-STRUCK CAPITAL G
(16#1D540#, 16#1D544#), -- MATHEMATICAL DOUBLE-STRUCK CAPITAL I .. MATHEMATICAL DOUBLE-STRUCK CAPITAL M
(16#1D546#, 16#1D546#), -- MATHEMATICAL DOUBLE-STRUCK CAPITAL O .. MATHEMATICAL DOUBLE-STRUCK CAPITAL O
(16#1D54A#, 16#1D550#), -- MATHEMATICAL DOUBLE-STRUCK CAPITAL S .. MATHEMATICAL DOUBLE-STRUCK CAPITAL Y
(16#1D552#, 16#1D6A3#), -- MATHEMATICAL DOUBLE-STRUCK SMALL A .. MATHEMATICAL MONOSPACE SMALL Z
(16#1D6A8#, 16#1D6C0#), -- MATHEMATICAL BOLD CAPITAL ALPHA .. MATHEMATICAL BOLD CAPITAL OMEGA
(16#1D6C2#, 16#1D6DA#), -- MATHEMATICAL BOLD SMALL ALPHA .. MATHEMATICAL BOLD SMALL OMEGA
(16#1D6DC#, 16#1D6FA#), -- MATHEMATICAL BOLD EPSILON SYMBOL .. MATHEMATICAL ITALIC CAPITAL OMEGA
(16#1D6FC#, 16#1D714#), -- MATHEMATICAL ITALIC SMALL ALPHA .. MATHEMATICAL ITALIC SMALL OMEGA
(16#1D716#, 16#1D734#), -- MATHEMATICAL ITALIC EPSILON SYMBOL .. MATHEMATICAL BOLD ITALIC CAPITAL OMEGA
(16#1D736#, 16#1D74E#), -- MATHEMATICAL BOLD ITALIC SMALL ALPHA .. MATHEMATICAL BOLD ITALIC SMALL OMEGA
(16#1D750#, 16#1D76E#), -- MATHEMATICAL BOLD ITALIC EPSILON SYMBOL .. MATHEMATICAL SANS-SERIF BOLD CAPITAL OMEGA
(16#1D770#, 16#1D788#), -- MATHEMATICAL SANS-SERIF BOLD SMALL ALPHA .. MATHEMATICAL SANS-SERIF BOLD SMALL OMEGA
(16#1D78A#, 16#1D7A8#), -- MATHEMATICAL SANS-SERIF BOLD EPSILON SYMBOL .. MATHEMATICAL SANS-SERIF BOLD ITALIC CAPITAL OMEGA
(16#1D7AA#, 16#1D7C2#), -- MATHEMATICAL SANS-SERIF BOLD ITALIC SMALL ALPHA .. MATHEMATICAL SANS-SERIF BOLD ITALIC SMALL OMEGA
(16#1D7C4#, 16#1D7C9#), -- MATHEMATICAL SANS-SERIF BOLD ITALIC EPSILON SYMBOL .. MATHEMATICAL SANS-SERIF BOLD ITALIC PI SYMBOL
(16#20000#, 16#2A6D6#), -- <CJK Ideograph Extension B, First> .. <CJK Ideograph Extension B, Last>
(16#2F800#, 16#2FA1D#)); -- CJK COMPATIBILITY IDEOGRAPH-2F800 .. CJK COMPATIBILITY IDEOGRAPH-2FA1D
-- The following table includes all characters considered spaces, i.e.
-- all characters from the Unicode table with categories:
-- Separator, Space (Zs)
UTF_32_Spaces : constant UTF_32_Ranges := (
(16#00020#, 16#00020#), -- SPACE .. SPACE
(16#000A0#, 16#000A0#), -- NO-BREAK SPACE .. NO-BREAK SPACE
(16#01680#, 16#01680#), -- OGHAM SPACE MARK .. OGHAM SPACE MARK
(16#0180E#, 16#0180E#), -- MONGOLIAN VOWEL SEPARATOR .. MONGOLIAN VOWEL SEPARATOR
(16#02000#, 16#0200B#), -- EN QUAD .. ZERO WIDTH SPACE
(16#0202F#, 16#0202F#), -- NARROW NO-BREAK SPACE .. NARROW NO-BREAK SPACE
(16#0205F#, 16#0205F#), -- MEDIUM MATHEMATICAL SPACE .. MEDIUM MATHEMATICAL SPACE
(16#03000#, 16#03000#)); -- IDEOGRAPHIC SPACE .. IDEOGRAPHIC SPACE
-- The following table includes all characters considered punctuation,
-- i.e. all characters from the Unicode table with categories:
-- Punctuation, Connector (Pc)
UTF_32_Punctuation : constant UTF_32_Ranges := (
(16#0005F#, 16#0005F#), -- LOW LINE .. LOW LINE
(16#0203F#, 16#02040#), -- UNDERTIE .. CHARACTER TIE
(16#02054#, 16#02054#), -- INVERTED UNDERTIE .. INVERTED UNDERTIE
(16#030FB#, 16#030FB#), -- KATAKANA MIDDLE DOT .. KATAKANA MIDDLE DOT
(16#0FE33#, 16#0FE34#), -- PRESENTATION FORM FOR VERTICAL LOW LINE .. PRESENTATION FORM FOR VERTICAL WAVY LOW LINE
(16#0FE4D#, 16#0FE4F#), -- DASHED LOW LINE .. WAVY LOW LINE
(16#0FF3F#, 16#0FF3F#), -- FULLWIDTH LOW LINE .. FULLWIDTH LOW LINE
(16#0FF65#, 16#0FF65#)); -- HALFWIDTH KATAKANA MIDDLE DOT .. HALFWIDTH KATAKANA MIDDLE DOT
-- The following table includes all characters considered as other format,
-- i.e. all characters from the Unicode table with categories:
-- Other, Format (Cf)
UTF_32_Other_Format : constant UTF_32_Ranges := (
(16#000AD#, 16#000AD#), -- SOFT HYPHEN .. SOFT HYPHEN
(16#00600#, 16#00603#), -- ARABIC NUMBER SIGN .. ARABIC SIGN SAFHA
(16#006DD#, 16#006DD#), -- ARABIC END OF AYAH .. ARABIC END OF AYAH
(16#0070F#, 16#0070F#), -- SYRIAC ABBREVIATION MARK .. SYRIAC ABBREVIATION MARK
(16#017B4#, 16#017B5#), -- KHMER VOWEL INHERENT AQ .. KHMER VOWEL INHERENT AA
(16#0200C#, 16#0200F#), -- ZERO WIDTH NON-JOINER .. RIGHT-TO-LEFT MARK
(16#0202A#, 16#0202E#), -- LEFT-TO-RIGHT EMBEDDING .. RIGHT-TO-LEFT OVERRIDE
(16#02060#, 16#02063#), -- WORD JOINER .. INVISIBLE SEPARATOR
(16#0206A#, 16#0206F#), -- INHIBIT SYMMETRIC SWAPPING .. NOMINAL DIGIT SHAPES
(16#0FEFF#, 16#0FEFF#), -- ZERO WIDTH NO-BREAK SPACE .. ZERO WIDTH NO-BREAK SPACE
(16#0FFF9#, 16#0FFFB#), -- INTERLINEAR ANNOTATION ANCHOR .. INTERLINEAR ANNOTATION TERMINATOR
(16#1D173#, 16#1D17A#), -- MUSICAL SYMBOL BEGIN BEAM .. MUSICAL SYMBOL END PHRASE
(16#E0001#, 16#E0001#), -- LANGUAGE TAG .. LANGUAGE TAG
(16#E0020#, 16#E007F#)); -- TAG SPACE .. CANCEL TAG
-- The following table includes all characters considered marks i.e.
-- all characters from the Unicode table with categories:
-- Mark, Nonspacing (Mn)
-- Mark, Spacing Combining (Mc)
UTF_32_Marks : constant UTF_32_Ranges := (
(16#00300#, 16#00357#), -- COMBINING GRAVE ACCENT .. COMBINING RIGHT HALF RING ABOVE
(16#0035D#, 16#0036F#), -- COMBINING DOUBLE BREVE .. COMBINING LATIN SMALL LETTER X
(16#00483#, 16#00486#), -- COMBINING CYRILLIC TITLO .. COMBINING CYRILLIC PSILI PNEUMATA
(16#00591#, 16#005A1#), -- HEBREW ACCENT ETNAHTA .. HEBREW ACCENT PAZER
(16#005A3#, 16#005B9#), -- HEBREW ACCENT MUNAH .. HEBREW POINT HOLAM
(16#005BB#, 16#005BD#), -- HEBREW POINT QUBUTS .. HEBREW POINT METEG
(16#005BF#, 16#005BF#), -- HEBREW POINT RAFE .. HEBREW POINT RAFE
(16#005C1#, 16#005C2#), -- HEBREW POINT SHIN DOT .. HEBREW POINT SIN DOT
(16#005C4#, 16#005C4#), -- HEBREW MARK UPPER DOT .. HEBREW MARK UPPER DOT
(16#00610#, 16#00615#), -- ARABIC SIGN SALLALLAHOU ALAYHE WASSALLAM .. ARABIC SMALL HIGH TAH
(16#0064B#, 16#00658#), -- ARABIC FATHATAN .. ARABIC MARK NOON GHUNNA
(16#00670#, 16#00670#), -- ARABIC LETTER SUPERSCRIPT ALEF .. ARABIC LETTER SUPERSCRIPT ALEF
(16#006D6#, 16#006DC#), -- ARABIC SMALL HIGH LIGATURE SAD WITH LAM WITH ALEF MAKSURA .. ARABIC SMALL HIGH SEEN
(16#006DF#, 16#006E4#), -- ARABIC SMALL HIGH ROUNDED ZERO .. ARABIC SMALL HIGH MADDA
(16#006E7#, 16#006E8#), -- ARABIC SMALL HIGH YEH .. ARABIC SMALL HIGH NOON
(16#006EA#, 16#006ED#), -- ARABIC EMPTY CENTRE LOW STOP .. ARABIC SMALL LOW MEEM
(16#00711#, 16#00711#), -- SYRIAC LETTER SUPERSCRIPT ALAPH .. SYRIAC LETTER SUPERSCRIPT ALAPH
(16#00730#, 16#0074A#), -- SYRIAC PTHAHA ABOVE .. SYRIAC BARREKH
(16#007A6#, 16#007B0#), -- THAANA ABAFILI .. THAANA SUKUN
(16#00901#, 16#00903#), -- DEVANAGARI SIGN CANDRABINDU .. DEVANAGARI SIGN VISARGA
(16#0093C#, 16#0093C#), -- DEVANAGARI SIGN NUKTA .. DEVANAGARI SIGN NUKTA
(16#0093E#, 16#0094D#), -- DEVANAGARI VOWEL SIGN AA .. DEVANAGARI SIGN VIRAMA
(16#00951#, 16#00954#), -- DEVANAGARI STRESS SIGN UDATTA .. DEVANAGARI ACUTE ACCENT
(16#00962#, 16#00963#), -- DEVANAGARI VOWEL SIGN VOCALIC L .. DEVANAGARI VOWEL SIGN VOCALIC LL
(16#00981#, 16#00983#), -- BENGALI SIGN CANDRABINDU .. BENGALI SIGN VISARGA
(16#009BC#, 16#009BC#), -- BENGALI SIGN NUKTA .. BENGALI SIGN NUKTA
(16#009BE#, 16#009C4#), -- BENGALI VOWEL SIGN AA .. BENGALI VOWEL SIGN VOCALIC RR
(16#009C7#, 16#009C8#), -- BENGALI VOWEL SIGN E .. BENGALI VOWEL SIGN AI
(16#009CB#, 16#009CD#), -- BENGALI VOWEL SIGN O .. BENGALI SIGN VIRAMA
(16#009D7#, 16#009D7#), -- BENGALI AU LENGTH MARK .. BENGALI AU LENGTH MARK
(16#009E2#, 16#009E3#), -- BENGALI VOWEL SIGN VOCALIC L .. BENGALI VOWEL SIGN VOCALIC LL
(16#00A01#, 16#00A03#), -- GURMUKHI SIGN ADAK BINDI .. GURMUKHI SIGN VISARGA
(16#00A3C#, 16#00A3C#), -- GURMUKHI SIGN NUKTA .. GURMUKHI SIGN NUKTA
(16#00A3E#, 16#00A42#), -- GURMUKHI VOWEL SIGN AA .. GURMUKHI VOWEL SIGN UU
(16#00A47#, 16#00A48#), -- GURMUKHI VOWEL SIGN EE .. GURMUKHI VOWEL SIGN AI
(16#00A4B#, 16#00A4D#), -- GURMUKHI VOWEL SIGN OO .. GURMUKHI SIGN VIRAMA
(16#00A70#, 16#00A71#), -- GURMUKHI TIPPI .. GURMUKHI ADDAK
(16#00A81#, 16#00A83#), -- GUJARATI SIGN CANDRABINDU .. GUJARATI SIGN VISARGA
(16#00ABC#, 16#00ABC#), -- GUJARATI SIGN NUKTA .. GUJARATI SIGN NUKTA
(16#00ABE#, 16#00AC5#), -- GUJARATI VOWEL SIGN AA .. GUJARATI VOWEL SIGN CANDRA E
(16#00AC7#, 16#00AC9#), -- GUJARATI VOWEL SIGN E .. GUJARATI VOWEL SIGN CANDRA O
(16#00ACB#, 16#00ACD#), -- GUJARATI VOWEL SIGN O .. GUJARATI SIGN VIRAMA
(16#00AE2#, 16#00AE3#), -- GUJARATI VOWEL SIGN VOCALIC L .. GUJARATI VOWEL SIGN VOCALIC LL
(16#00B01#, 16#00B03#), -- ORIYA SIGN CANDRABINDU .. ORIYA SIGN VISARGA
(16#00B3C#, 16#00B3C#), -- ORIYA SIGN NUKTA .. ORIYA SIGN NUKTA
(16#00B3E#, 16#00B43#), -- ORIYA VOWEL SIGN AA .. ORIYA VOWEL SIGN VOCALIC R
(16#00B47#, 16#00B48#), -- ORIYA VOWEL SIGN E .. ORIYA VOWEL SIGN AI
(16#00B4B#, 16#00B4D#), -- ORIYA VOWEL SIGN O .. ORIYA SIGN VIRAMA
(16#00B56#, 16#00B57#), -- ORIYA AI LENGTH MARK .. ORIYA AU LENGTH MARK
(16#00B82#, 16#00B82#), -- TAMIL SIGN ANUSVARA .. TAMIL SIGN ANUSVARA
(16#00BBE#, 16#00BC2#), -- TAMIL VOWEL SIGN AA .. TAMIL VOWEL SIGN UU
(16#00BC6#, 16#00BC8#), -- TAMIL VOWEL SIGN E .. TAMIL VOWEL SIGN AI
(16#00BCA#, 16#00BCD#), -- TAMIL VOWEL SIGN O .. TAMIL SIGN VIRAMA
(16#00BD7#, 16#00BD7#), -- TAMIL AU LENGTH MARK .. TAMIL AU LENGTH MARK
(16#00C01#, 16#00C03#), -- TELUGU SIGN CANDRABINDU .. TELUGU SIGN VISARGA
(16#00C3E#, 16#00C44#), -- TELUGU VOWEL SIGN AA .. TELUGU VOWEL SIGN VOCALIC RR
(16#00C46#, 16#00C48#), -- TELUGU VOWEL SIGN E .. TELUGU VOWEL SIGN AI
(16#00C4A#, 16#00C4D#), -- TELUGU VOWEL SIGN O .. TELUGU SIGN VIRAMA
(16#00C55#, 16#00C56#), -- TELUGU LENGTH MARK .. TELUGU AI LENGTH MARK
(16#00C82#, 16#00C83#), -- KANNADA SIGN ANUSVARA .. KANNADA SIGN VISARGA
(16#00CBC#, 16#00CBC#), -- KANNADA SIGN NUKTA .. KANNADA SIGN NUKTA
(16#00CBE#, 16#00CC4#), -- KANNADA VOWEL SIGN AA .. KANNADA VOWEL SIGN VOCALIC RR
(16#00CC6#, 16#00CC8#), -- KANNADA VOWEL SIGN E .. KANNADA VOWEL SIGN AI
(16#00CCA#, 16#00CCD#), -- KANNADA VOWEL SIGN O .. KANNADA SIGN VIRAMA
(16#00CD5#, 16#00CD6#), -- KANNADA LENGTH MARK .. KANNADA AI LENGTH MARK
(16#00D02#, 16#00D03#), -- MALAYALAM SIGN ANUSVARA .. MALAYALAM SIGN VISARGA
(16#00D3E#, 16#00D43#), -- MALAYALAM VOWEL SIGN AA .. MALAYALAM VOWEL SIGN VOCALIC R
(16#00D46#, 16#00D48#), -- MALAYALAM VOWEL SIGN E .. MALAYALAM VOWEL SIGN AI
(16#00D4A#, 16#00D4D#), -- MALAYALAM VOWEL SIGN O .. MALAYALAM SIGN VIRAMA
(16#00D57#, 16#00D57#), -- MALAYALAM AU LENGTH MARK .. MALAYALAM AU LENGTH MARK
(16#00D82#, 16#00D83#), -- SINHALA SIGN ANUSVARAYA .. SINHALA SIGN VISARGAYA
(16#00DCA#, 16#00DCA#), -- SINHALA SIGN AL-LAKUNA .. SINHALA SIGN AL-LAKUNA
(16#00DCF#, 16#00DD4#), -- SINHALA VOWEL SIGN AELA-PILLA .. SINHALA VOWEL SIGN KETTI PAA-PILLA
(16#00DD6#, 16#00DD6#), -- SINHALA VOWEL SIGN DIGA PAA-PILLA .. SINHALA VOWEL SIGN DIGA PAA-PILLA
(16#00DD8#, 16#00DDF#), -- SINHALA VOWEL SIGN GAETTA-PILLA .. SINHALA VOWEL SIGN GAYANUKITTA
(16#00DF2#, 16#00DF3#), -- SINHALA VOWEL SIGN DIGA GAETTA-PILLA .. SINHALA VOWEL SIGN DIGA GAYANUKITTA
(16#00E31#, 16#00E31#), -- THAI CHARACTER MAI HAN-AKAT .. THAI CHARACTER MAI HAN-AKAT
(16#00E34#, 16#00E3A#), -- THAI CHARACTER SARA I .. THAI CHARACTER PHINTHU
(16#00E47#, 16#00E4E#), -- THAI CHARACTER MAITAIKHU .. THAI CHARACTER YAMAKKAN
(16#00EB1#, 16#00EB1#), -- LAO VOWEL SIGN MAI KAN .. LAO VOWEL SIGN MAI KAN
(16#00EB4#, 16#00EB9#), -- LAO VOWEL SIGN I .. LAO VOWEL SIGN UU
(16#00EBB#, 16#00EBC#), -- LAO VOWEL SIGN MAI KON .. LAO SEMIVOWEL SIGN LO
(16#00EC8#, 16#00ECD#), -- LAO TONE MAI EK .. LAO NIGGAHITA
(16#00F18#, 16#00F19#), -- TIBETAN ASTROLOGICAL SIGN -KHYUD PA .. TIBETAN ASTROLOGICAL SIGN SDONG TSHUGS
(16#00F35#, 16#00F35#), -- TIBETAN MARK NGAS BZUNG NYI ZLA .. TIBETAN MARK NGAS BZUNG NYI ZLA
(16#00F37#, 16#00F37#), -- TIBETAN MARK NGAS BZUNG SGOR RTAGS .. TIBETAN MARK NGAS BZUNG SGOR RTAGS
(16#00F39#, 16#00F39#), -- TIBETAN MARK TSA -PHRU .. TIBETAN MARK TSA -PHRU
(16#00F3E#, 16#00F3F#), -- TIBETAN SIGN YAR TSHES .. TIBETAN SIGN MAR TSHES
(16#00F71#, 16#00F84#), -- TIBETAN VOWEL SIGN AA .. TIBETAN MARK HALANTA
(16#00F86#, 16#00F87#), -- TIBETAN SIGN LCI RTAGS .. TIBETAN SIGN YANG RTAGS
(16#00F90#, 16#00F97#), -- TIBETAN SUBJOINED LETTER KA .. TIBETAN SUBJOINED LETTER JA
(16#00F99#, 16#00FBC#), -- TIBETAN SUBJOINED LETTER NYA .. TIBETAN SUBJOINED LETTER FIXED-FORM RA
(16#00FC6#, 16#00FC6#), -- TIBETAN SYMBOL PADMA GDAN .. TIBETAN SYMBOL PADMA GDAN
(16#0102C#, 16#01032#), -- MYANMAR VOWEL SIGN AA .. MYANMAR VOWEL SIGN AI
(16#01036#, 16#01039#), -- MYANMAR SIGN ANUSVARA .. MYANMAR SIGN VIRAMA
(16#01056#, 16#01059#), -- MYANMAR VOWEL SIGN VOCALIC R .. MYANMAR VOWEL SIGN VOCALIC LL
(16#01712#, 16#01714#), -- TAGALOG VOWEL SIGN I .. TAGALOG SIGN VIRAMA
(16#01732#, 16#01734#), -- HANUNOO VOWEL SIGN I .. HANUNOO SIGN PAMUDPOD
(16#01752#, 16#01753#), -- BUHID VOWEL SIGN I .. BUHID VOWEL SIGN U
(16#01772#, 16#01773#), -- TAGBANWA VOWEL SIGN I .. TAGBANWA VOWEL SIGN U
(16#017B6#, 16#017D3#), -- KHMER VOWEL SIGN AA .. KHMER SIGN BATHAMASAT
(16#017DD#, 16#017DD#), -- KHMER SIGN ATTHACAN .. KHMER SIGN ATTHACAN
(16#0180B#, 16#0180D#), -- MONGOLIAN FREE VARIATION SELECTOR ONE .. MONGOLIAN FREE VARIATION SELECTOR THREE
(16#018A9#, 16#018A9#), -- MONGOLIAN LETTER ALI GALI DAGALGA .. MONGOLIAN LETTER ALI GALI DAGALGA
(16#01920#, 16#0192B#), -- LIMBU VOWEL SIGN A .. LIMBU SUBJOINED LETTER WA
(16#01930#, 16#0193B#), -- LIMBU SMALL LETTER KA .. LIMBU SIGN SA-I
(16#020D0#, 16#020DC#), -- COMBINING LEFT HARPOON ABOVE .. COMBINING FOUR DOTS ABOVE
(16#020E1#, 16#020E1#), -- COMBINING LEFT RIGHT ARROW ABOVE .. COMBINING LEFT RIGHT ARROW ABOVE
(16#020E5#, 16#020EA#), -- COMBINING REVERSE SOLIDUS OVERLAY .. COMBINING LEFTWARDS ARROW OVERLAY
(16#0302A#, 16#0302F#), -- IDEOGRAPHIC LEVEL TONE MARK .. HANGUL DOUBLE DOT TONE MARK
(16#03099#, 16#0309A#), -- COMBINING KATAKANA-HIRAGANA VOICED SOUND MARK .. COMBINING KATAKANA-HIRAGANA SEMI-VOICED SOUND MARK
(16#0FB1E#, 16#0FB1E#), -- HEBREW POINT JUDEO-SPANISH VARIKA .. HEBREW POINT JUDEO-SPANISH VARIKA
(16#0FE00#, 16#0FE0F#), -- VARIATION SELECTOR-1 .. VARIATION SELECTOR-16
(16#0FE20#, 16#0FE23#), -- COMBINING LIGATURE LEFT HALF .. COMBINING DOUBLE TILDE RIGHT HALF
(16#1D165#, 16#1D169#), -- MUSICAL SYMBOL COMBINING STEM .. MUSICAL SYMBOL COMBINING TREMOLO-3
(16#1D16D#, 16#1D172#), -- MUSICAL SYMBOL COMBINING AUGMENTATION DOT .. MUSICAL SYMBOL COMBINING FLAG-5
(16#1D17B#, 16#1D182#), -- MUSICAL SYMBOL COMBINING ACCENT .. MUSICAL SYMBOL COMBINING LOURE
(16#1D185#, 16#1D18B#), -- MUSICAL SYMBOL COMBINING DOIT .. MUSICAL SYMBOL COMBINING TRIPLE TONGUE
(16#1D1AA#, 16#1D1AD#), -- MUSICAL SYMBOL COMBINING DOWN BOW .. MUSICAL SYMBOL COMBINING SNAP PIZZICATO
(16#E0100#, 16#E01EF#)); -- VARIATION SELECTOR-17 .. VARIATION SELECTOR-256
-- The following table includes all characters considered non-graphic,
-- i.e. all characters from the Unicode table with categories:
-- Other, Control (Cc)
-- Other, Private Use (Co)
-- Other, Surrogate (Cs)
-- Separator, Line (Zl)
-- Separator, Paragraph (Zp)
-- Note that characters with relative positions FFFE and FFFF in their
-- planes are not included in this table (we really don't want to add
-- 32K entries for this purpose). Instead we handle these positions in
-- a completely different manner.
-- Note: unassigned characters (category Cn) are deliberately NOT included
-- in the set of non-graphics, since the idea is that if any of these are
-- defined in the future, we don't want to have to modify the standard.
-- Note that Other, Format (Cf) is also quite deliberately not included
-- in the list of categories above. This means that these characters can
-- be included in character and string literals.
UTF_32_Non_Graphic : constant UTF_32_Ranges := (
(16#00000#, 16#0001F#), -- <control> .. <control>
(16#0007F#, 16#0009F#), -- <control> .. <control>
(16#02028#, 16#02029#), -- LINE SEPARATOR .. PARAGRAPH SEPARATOR
(16#0D800#, 16#0DB7F#), -- <Non Private Use High Surrogate, First> .. <Non Private Use High Surrogate, Last>
(16#0DB80#, 16#0DBFF#), -- <Private Use High Surrogate, First> .. <Private Use High Surrogate, Last>
(16#0DC00#, 16#0DFFF#), -- <Low_Surrogate, First> .. <Low Surrogate, Last>
(16#0E000#, 16#0F8FF#), -- <Private Use, First> .. <Private Use, Last>
(16#F0000#, 16#FFFFD#), -- <Plane 15 Private Use, First> .. <Plane 15 Private Use, Last>
(16#100000#, 16#10FFFD#)); -- <Plane 16 Private Use, First> .. <Plane 16 Private Use, Last>
-- The following two tables define the mapping to upper case. The first
-- table gives the ranges of lower case letters. The corresponding entry
-- in Uppercase_Adjust shows the amount to be added (or subtracted) from
-- the code value to get the corresponding upper case letter.
-- Note that this folding is not reversible, for example lower case
-- dotless i folds to normal upper case I, and that cannot be reversed.
Lower_Case_Letters : constant UTF_32_Ranges := (
(16#00061#, 16#0007A#), -- LATIN SMALL LETTER A .. LATIN SMALL LETTER Z
(16#000B5#, 16#000B5#), -- MICRO SIGN .. MICRO SIGN
(16#000E0#, 16#000F6#), -- LATIN SMALL LETTER A WITH GRAVE .. LATIN SMALL LETTER O WITH DIAERESIS
(16#000F8#, 16#000FE#), -- LATIN SMALL LETTER O WITH STROKE .. LATIN SMALL LETTER THORN
(16#000FF#, 16#000FF#), -- LATIN SMALL LETTER Y WITH DIAERESIS .. LATIN SMALL LETTER Y WITH DIAERESIS
(16#00101#, 16#00101#), -- LATIN SMALL LETTER A WITH MACRON .. LATIN SMALL LETTER A WITH MACRON
(16#00103#, 16#00103#), -- LATIN SMALL LETTER A WITH BREVE .. LATIN SMALL LETTER A WITH BREVE
(16#00105#, 16#00105#), -- LATIN SMALL LETTER A WITH OGONEK .. LATIN SMALL LETTER A WITH OGONEK
(16#00107#, 16#00107#), -- LATIN SMALL LETTER C WITH ACUTE .. LATIN SMALL LETTER C WITH ACUTE
(16#00109#, 16#00109#), -- LATIN SMALL LETTER C WITH CIRCUMFLEX .. LATIN SMALL LETTER C WITH CIRCUMFLEX
(16#0010B#, 16#0010B#), -- LATIN SMALL LETTER C WITH DOT ABOVE .. LATIN SMALL LETTER C WITH DOT ABOVE
(16#0010D#, 16#0010D#), -- LATIN SMALL LETTER C WITH CARON .. LATIN SMALL LETTER C WITH CARON
(16#0010F#, 16#0010F#), -- LATIN SMALL LETTER D WITH CARON .. LATIN SMALL LETTER D WITH CARON
(16#00111#, 16#00111#), -- LATIN SMALL LETTER D WITH STROKE .. LATIN SMALL LETTER D WITH STROKE
(16#00113#, 16#00113#), -- LATIN SMALL LETTER E WITH MACRON .. LATIN SMALL LETTER E WITH MACRON
(16#00115#, 16#00115#), -- LATIN SMALL LETTER E WITH BREVE .. LATIN SMALL LETTER E WITH BREVE
(16#00117#, 16#00117#), -- LATIN SMALL LETTER E WITH DOT ABOVE .. LATIN SMALL LETTER E WITH DOT ABOVE
(16#00119#, 16#00119#), -- LATIN SMALL LETTER E WITH OGONEK .. LATIN SMALL LETTER E WITH OGONEK
(16#0011B#, 16#0011B#), -- LATIN SMALL LETTER E WITH CARON .. LATIN SMALL LETTER E WITH CARON
(16#0011D#, 16#0011D#), -- LATIN SMALL LETTER G WITH CIRCUMFLEX .. LATIN SMALL LETTER G WITH CIRCUMFLEX
(16#0011F#, 16#0011F#), -- LATIN SMALL LETTER G WITH BREVE .. LATIN SMALL LETTER G WITH BREVE
(16#00121#, 16#00121#), -- LATIN SMALL LETTER G WITH DOT ABOVE .. LATIN SMALL LETTER G WITH DOT ABOVE
(16#00123#, 16#00123#), -- LATIN SMALL LETTER G WITH CEDILLA .. LATIN SMALL LETTER G WITH CEDILLA
(16#00125#, 16#00125#), -- LATIN SMALL LETTER H WITH CIRCUMFLEX .. LATIN SMALL LETTER H WITH CIRCUMFLEX
(16#00127#, 16#00127#), -- LATIN SMALL LETTER H WITH STROKE .. LATIN SMALL LETTER H WITH STROKE
(16#00129#, 16#00129#), -- LATIN SMALL LETTER I WITH TILDE .. LATIN SMALL LETTER I WITH TILDE
(16#0012B#, 16#0012B#), -- LATIN SMALL LETTER I WITH MACRON .. LATIN SMALL LETTER I WITH MACRON
(16#0012D#, 16#0012D#), -- LATIN SMALL LETTER I WITH BREVE .. LATIN SMALL LETTER I WITH BREVE
(16#0012F#, 16#0012F#), -- LATIN SMALL LETTER I WITH OGONEK .. LATIN SMALL LETTER I WITH OGONEK
(16#00131#, 16#00131#), -- LATIN SMALL LETTER DOTLESS I .. LATIN SMALL LETTER DOTLESS I
(16#00133#, 16#00133#), -- LATIN SMALL LIGATURE IJ .. LATIN SMALL LIGATURE IJ
(16#00135#, 16#00135#), -- LATIN SMALL LETTER J WITH CIRCUMFLEX .. LATIN SMALL LETTER J WITH CIRCUMFLEX
(16#00137#, 16#00137#), -- LATIN SMALL LETTER K WITH CEDILLA .. LATIN SMALL LETTER K WITH CEDILLA
(16#0013A#, 16#0013A#), -- LATIN SMALL LETTER L WITH ACUTE .. LATIN SMALL LETTER L WITH ACUTE
(16#0013C#, 16#0013C#), -- LATIN SMALL LETTER L WITH CEDILLA .. LATIN SMALL LETTER L WITH CEDILLA
(16#0013E#, 16#0013E#), -- LATIN SMALL LETTER L WITH CARON .. LATIN SMALL LETTER L WITH CARON
(16#00140#, 16#00140#), -- LATIN SMALL LETTER L WITH MIDDLE DOT .. LATIN SMALL LETTER L WITH MIDDLE DOT
(16#00142#, 16#00142#), -- LATIN SMALL LETTER L WITH STROKE .. LATIN SMALL LETTER L WITH STROKE
(16#00144#, 16#00144#), -- LATIN SMALL LETTER N WITH ACUTE .. LATIN SMALL LETTER N WITH ACUTE
(16#00146#, 16#00146#), -- LATIN SMALL LETTER N WITH CEDILLA .. LATIN SMALL LETTER N WITH CEDILLA
(16#00148#, 16#00148#), -- LATIN SMALL LETTER N WITH CARON .. LATIN SMALL LETTER N WITH CARON
(16#0014B#, 16#0014B#), -- LATIN SMALL LETTER ENG .. LATIN SMALL LETTER ENG
(16#0014D#, 16#0014D#), -- LATIN SMALL LETTER O WITH MACRON .. LATIN SMALL LETTER O WITH MACRON
(16#0014F#, 16#0014F#), -- LATIN SMALL LETTER O WITH BREVE .. LATIN SMALL LETTER O WITH BREVE
(16#00151#, 16#00151#), -- LATIN SMALL LETTER O WITH DOUBLE ACUTE .. LATIN SMALL LETTER O WITH DOUBLE ACUTE
(16#00153#, 16#00153#), -- LATIN SMALL LIGATURE OE .. LATIN SMALL LIGATURE OE
(16#00155#, 16#00155#), -- LATIN SMALL LETTER R WITH ACUTE .. LATIN SMALL LETTER R WITH ACUTE
(16#00157#, 16#00157#), -- LATIN SMALL LETTER R WITH CEDILLA .. LATIN SMALL LETTER R WITH CEDILLA
(16#00159#, 16#00159#), -- LATIN SMALL LETTER R WITH CARON .. LATIN SMALL LETTER R WITH CARON
(16#0015B#, 16#0015B#), -- LATIN SMALL LETTER S WITH ACUTE .. LATIN SMALL LETTER S WITH ACUTE
(16#0015D#, 16#0015D#), -- LATIN SMALL LETTER S WITH CIRCUMFLEX .. LATIN SMALL LETTER S WITH CIRCUMFLEX
(16#0015F#, 16#0015F#), -- LATIN SMALL LETTER S WITH CEDILLA .. LATIN SMALL LETTER S WITH CEDILLA
(16#00161#, 16#00161#), -- LATIN SMALL LETTER S WITH CARON .. LATIN SMALL LETTER S WITH CARON
(16#00163#, 16#00163#), -- LATIN SMALL LETTER T WITH CEDILLA .. LATIN SMALL LETTER T WITH CEDILLA
(16#00165#, 16#00165#), -- LATIN SMALL LETTER T WITH CARON .. LATIN SMALL LETTER T WITH CARON
(16#00167#, 16#00167#), -- LATIN SMALL LETTER T WITH STROKE .. LATIN SMALL LETTER T WITH STROKE
(16#00169#, 16#00169#), -- LATIN SMALL LETTER U WITH TILDE .. LATIN SMALL LETTER U WITH TILDE
(16#0016B#, 16#0016B#), -- LATIN SMALL LETTER U WITH MACRON .. LATIN SMALL LETTER U WITH MACRON
(16#0016D#, 16#0016D#), -- LATIN SMALL LETTER U WITH BREVE .. LATIN SMALL LETTER U WITH BREVE
(16#0016F#, 16#0016F#), -- LATIN SMALL LETTER U WITH RING ABOVE .. LATIN SMALL LETTER U WITH RING ABOVE
(16#00171#, 16#00171#), -- LATIN SMALL LETTER U WITH DOUBLE ACUTE .. LATIN SMALL LETTER U WITH DOUBLE ACUTE
(16#00173#, 16#00173#), -- LATIN SMALL LETTER U WITH OGONEK .. LATIN SMALL LETTER U WITH OGONEK
(16#00175#, 16#00175#), -- LATIN SMALL LETTER W WITH CIRCUMFLEX .. LATIN SMALL LETTER W WITH CIRCUMFLEX
(16#00177#, 16#00177#), -- LATIN SMALL LETTER Y WITH CIRCUMFLEX .. LATIN SMALL LETTER Y WITH CIRCUMFLEX
(16#0017A#, 16#0017A#), -- LATIN SMALL LETTER Z WITH ACUTE .. LATIN SMALL LETTER Z WITH ACUTE
(16#0017C#, 16#0017C#), -- LATIN SMALL LETTER Z WITH DOT ABOVE .. LATIN SMALL LETTER Z WITH DOT ABOVE
(16#0017E#, 16#0017E#), -- LATIN SMALL LETTER Z WITH CARON .. LATIN SMALL LETTER Z WITH CARON
(16#0017F#, 16#0017F#), -- LATIN SMALL LETTER LONG S .. LATIN SMALL LETTER LONG S
(16#00183#, 16#00183#), -- LATIN SMALL LETTER B WITH TOPBAR .. LATIN SMALL LETTER B WITH TOPBAR
(16#00185#, 16#00185#), -- LATIN SMALL LETTER TONE SIX .. LATIN SMALL LETTER TONE SIX
(16#00188#, 16#00188#), -- LATIN SMALL LETTER C WITH HOOK .. LATIN SMALL LETTER C WITH HOOK
(16#0018C#, 16#0018C#), -- LATIN SMALL LETTER D WITH TOPBAR .. LATIN SMALL LETTER D WITH TOPBAR
(16#00192#, 16#00192#), -- LATIN SMALL LETTER F WITH HOOK .. LATIN SMALL LETTER F WITH HOOK
(16#00195#, 16#00195#), -- LATIN SMALL LETTER HV .. LATIN SMALL LETTER HV
(16#00199#, 16#00199#), -- LATIN SMALL LETTER K WITH HOOK .. LATIN SMALL LETTER K WITH HOOK
(16#0019E#, 16#0019E#), -- LATIN SMALL LETTER N WITH LONG RIGHT LEG .. LATIN SMALL LETTER N WITH LONG RIGHT LEG
(16#001A1#, 16#001A1#), -- LATIN SMALL LETTER O WITH HORN .. LATIN SMALL LETTER O WITH HORN
(16#001A3#, 16#001A3#), -- LATIN SMALL LETTER OI .. LATIN SMALL LETTER OI
(16#001A5#, 16#001A5#), -- LATIN SMALL LETTER P WITH HOOK .. LATIN SMALL LETTER P WITH HOOK
(16#001A8#, 16#001A8#), -- LATIN SMALL LETTER TONE TWO .. LATIN SMALL LETTER TONE TWO
(16#001AD#, 16#001AD#), -- LATIN SMALL LETTER T WITH HOOK .. LATIN SMALL LETTER T WITH HOOK
(16#001B0#, 16#001B0#), -- LATIN SMALL LETTER U WITH HORN .. LATIN SMALL LETTER U WITH HORN
(16#001B4#, 16#001B4#), -- LATIN SMALL LETTER Y WITH HOOK .. LATIN SMALL LETTER Y WITH HOOK
(16#001B6#, 16#001B6#), -- LATIN SMALL LETTER Z WITH STROKE .. LATIN SMALL LETTER Z WITH STROKE
(16#001B9#, 16#001B9#), -- LATIN SMALL LETTER EZH REVERSED .. LATIN SMALL LETTER EZH REVERSED
(16#001BD#, 16#001BD#), -- LATIN SMALL LETTER TONE FIVE .. LATIN SMALL LETTER TONE FIVE
(16#001BF#, 16#001BF#), -- LATIN LETTER WYNN .. LATIN LETTER WYNN
(16#001C5#, 16#001C5#), -- LATIN CAPITAL LETTER D WITH SMALL LETTER Z WITH CARON .. LATIN CAPITAL LETTER D WITH SMALL LETTER Z WITH CARON
(16#001C6#, 16#001C6#), -- LATIN SMALL LETTER DZ WITH CARON .. LATIN SMALL LETTER DZ WITH CARON
(16#001C8#, 16#001C8#), -- LATIN CAPITAL LETTER L WITH SMALL LETTER J .. LATIN CAPITAL LETTER L WITH SMALL LETTER J
(16#001C9#, 16#001C9#), -- LATIN SMALL LETTER LJ .. LATIN SMALL LETTER LJ
(16#001CB#, 16#001CB#), -- LATIN CAPITAL LETTER N WITH SMALL LETTER J .. LATIN CAPITAL LETTER N WITH SMALL LETTER J
(16#001CC#, 16#001CC#), -- LATIN SMALL LETTER NJ .. LATIN SMALL LETTER NJ
(16#001CE#, 16#001CE#), -- LATIN SMALL LETTER A WITH CARON .. LATIN SMALL LETTER A WITH CARON
(16#001D0#, 16#001D0#), -- LATIN SMALL LETTER I WITH CARON .. LATIN SMALL LETTER I WITH CARON
(16#001D2#, 16#001D2#), -- LATIN SMALL LETTER O WITH CARON .. LATIN SMALL LETTER O WITH CARON
(16#001D4#, 16#001D4#), -- LATIN SMALL LETTER U WITH CARON .. LATIN SMALL LETTER U WITH CARON
(16#001D6#, 16#001D6#), -- LATIN SMALL LETTER U WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER U WITH DIAERESIS AND MACRON
(16#001D8#, 16#001D8#), -- LATIN SMALL LETTER U WITH DIAERESIS AND ACUTE .. LATIN SMALL LETTER U WITH DIAERESIS AND ACUTE
(16#001DA#, 16#001DA#), -- LATIN SMALL LETTER U WITH DIAERESIS AND CARON .. LATIN SMALL LETTER U WITH DIAERESIS AND CARON
(16#001DC#, 16#001DC#), -- LATIN SMALL LETTER U WITH DIAERESIS AND GRAVE .. LATIN SMALL LETTER U WITH DIAERESIS AND GRAVE
(16#001DD#, 16#001DD#), -- LATIN SMALL LETTER TURNED E .. LATIN SMALL LETTER TURNED E
(16#001DF#, 16#001DF#), -- LATIN SMALL LETTER A WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER A WITH DIAERESIS AND MACRON
(16#001E1#, 16#001E1#), -- LATIN SMALL LETTER A WITH DOT ABOVE AND MACRON .. LATIN SMALL LETTER A WITH DOT ABOVE AND MACRON
(16#001E3#, 16#001E3#), -- LATIN SMALL LETTER AE WITH MACRON .. LATIN SMALL LETTER AE WITH MACRON
(16#001E5#, 16#001E5#), -- LATIN SMALL LETTER G WITH STROKE .. LATIN SMALL LETTER G WITH STROKE
(16#001E7#, 16#001E7#), -- LATIN SMALL LETTER G WITH CARON .. LATIN SMALL LETTER G WITH CARON
(16#001E9#, 16#001E9#), -- LATIN SMALL LETTER K WITH CARON .. LATIN SMALL LETTER K WITH CARON
(16#001EB#, 16#001EB#), -- LATIN SMALL LETTER O WITH OGONEK .. LATIN SMALL LETTER O WITH OGONEK
(16#001ED#, 16#001ED#), -- LATIN SMALL LETTER O WITH OGONEK AND MACRON .. LATIN SMALL LETTER O WITH OGONEK AND MACRON
(16#001EF#, 16#001EF#), -- LATIN SMALL LETTER EZH WITH CARON .. LATIN SMALL LETTER EZH WITH CARON
(16#001F2#, 16#001F2#), -- LATIN CAPITAL LETTER D WITH SMALL LETTER Z .. LATIN CAPITAL LETTER D WITH SMALL LETTER Z
(16#001F3#, 16#001F3#), -- LATIN SMALL LETTER DZ .. LATIN SMALL LETTER DZ
(16#001F5#, 16#001F5#), -- LATIN SMALL LETTER G WITH ACUTE .. LATIN SMALL LETTER G WITH ACUTE
(16#001F9#, 16#001F9#), -- LATIN SMALL LETTER N WITH GRAVE .. LATIN SMALL LETTER N WITH GRAVE
(16#001FB#, 16#001FB#), -- LATIN SMALL LETTER A WITH RING ABOVE AND ACUTE .. LATIN SMALL LETTER A WITH RING ABOVE AND ACUTE
(16#001FD#, 16#001FD#), -- LATIN SMALL LETTER AE WITH ACUTE .. LATIN SMALL LETTER AE WITH ACUTE
(16#001FF#, 16#001FF#), -- LATIN SMALL LETTER O WITH STROKE AND ACUTE .. LATIN SMALL LETTER O WITH STROKE AND ACUTE
(16#00201#, 16#00201#), -- LATIN SMALL LETTER A WITH DOUBLE GRAVE .. LATIN SMALL LETTER A WITH DOUBLE GRAVE
(16#00203#, 16#00203#), -- LATIN SMALL LETTER A WITH INVERTED BREVE .. LATIN SMALL LETTER A WITH INVERTED BREVE
(16#00205#, 16#00205#), -- LATIN SMALL LETTER E WITH DOUBLE GRAVE .. LATIN SMALL LETTER E WITH DOUBLE GRAVE
(16#00207#, 16#00207#), -- LATIN SMALL LETTER E WITH INVERTED BREVE .. LATIN SMALL LETTER E WITH INVERTED BREVE
(16#00209#, 16#00209#), -- LATIN SMALL LETTER I WITH DOUBLE GRAVE .. LATIN SMALL LETTER I WITH DOUBLE GRAVE
(16#0020B#, 16#0020B#), -- LATIN SMALL LETTER I WITH INVERTED BREVE .. LATIN SMALL LETTER I WITH INVERTED BREVE
(16#0020D#, 16#0020D#), -- LATIN SMALL LETTER O WITH DOUBLE GRAVE .. LATIN SMALL LETTER O WITH DOUBLE GRAVE
(16#0020F#, 16#0020F#), -- LATIN SMALL LETTER O WITH INVERTED BREVE .. LATIN SMALL LETTER O WITH INVERTED BREVE
(16#00211#, 16#00211#), -- LATIN SMALL LETTER R WITH DOUBLE GRAVE .. LATIN SMALL LETTER R WITH DOUBLE GRAVE
(16#00213#, 16#00213#), -- LATIN SMALL LETTER R WITH INVERTED BREVE .. LATIN SMALL LETTER R WITH INVERTED BREVE
(16#00215#, 16#00215#), -- LATIN SMALL LETTER U WITH DOUBLE GRAVE .. LATIN SMALL LETTER U WITH DOUBLE GRAVE
(16#00217#, 16#00217#), -- LATIN SMALL LETTER U WITH INVERTED BREVE .. LATIN SMALL LETTER U WITH INVERTED BREVE
(16#00219#, 16#00219#), -- LATIN SMALL LETTER S WITH COMMA BELOW .. LATIN SMALL LETTER S WITH COMMA BELOW
(16#0021B#, 16#0021B#), -- LATIN SMALL LETTER T WITH COMMA BELOW .. LATIN SMALL LETTER T WITH COMMA BELOW
(16#0021D#, 16#0021D#), -- LATIN SMALL LETTER YOGH .. LATIN SMALL LETTER YOGH
(16#0021F#, 16#0021F#), -- LATIN SMALL LETTER H WITH CARON .. LATIN SMALL LETTER H WITH CARON
(16#00223#, 16#00223#), -- LATIN SMALL LETTER OU .. LATIN SMALL LETTER OU
(16#00225#, 16#00225#), -- LATIN SMALL LETTER Z WITH HOOK .. LATIN SMALL LETTER Z WITH HOOK
(16#00227#, 16#00227#), -- LATIN SMALL LETTER A WITH DOT ABOVE .. LATIN SMALL LETTER A WITH DOT ABOVE
(16#00229#, 16#00229#), -- LATIN SMALL LETTER E WITH CEDILLA .. LATIN SMALL LETTER E WITH CEDILLA
(16#0022B#, 16#0022B#), -- LATIN SMALL LETTER O WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER O WITH DIAERESIS AND MACRON
(16#0022D#, 16#0022D#), -- LATIN SMALL LETTER O WITH TILDE AND MACRON .. LATIN SMALL LETTER O WITH TILDE AND MACRON
(16#0022F#, 16#0022F#), -- LATIN SMALL LETTER O WITH DOT ABOVE .. LATIN SMALL LETTER O WITH DOT ABOVE
(16#00231#, 16#00231#), -- LATIN SMALL LETTER O WITH DOT ABOVE AND MACRON .. LATIN SMALL LETTER O WITH DOT ABOVE AND MACRON
(16#00233#, 16#00233#), -- LATIN SMALL LETTER Y WITH MACRON .. LATIN SMALL LETTER Y WITH MACRON
(16#00253#, 16#00253#), -- LATIN SMALL LETTER B WITH HOOK .. LATIN SMALL LETTER B WITH HOOK
(16#00254#, 16#00254#), -- LATIN SMALL LETTER OPEN O .. LATIN SMALL LETTER OPEN O
(16#00256#, 16#00257#), -- LATIN SMALL LETTER D WITH TAIL .. LATIN SMALL LETTER D WITH HOOK
(16#00259#, 16#00259#), -- LATIN SMALL LETTER SCHWA .. LATIN SMALL LETTER SCHWA
(16#0025B#, 16#0025B#), -- LATIN SMALL LETTER OPEN E .. LATIN SMALL LETTER OPEN E
(16#00260#, 16#00260#), -- LATIN SMALL LETTER G WITH HOOK .. LATIN SMALL LETTER G WITH HOOK
(16#00263#, 16#00263#), -- LATIN SMALL LETTER GAMMA .. LATIN SMALL LETTER GAMMA
(16#00268#, 16#00268#), -- LATIN SMALL LETTER I WITH STROKE .. LATIN SMALL LETTER I WITH STROKE
(16#00269#, 16#00269#), -- LATIN SMALL LETTER IOTA .. LATIN SMALL LETTER IOTA
(16#0026F#, 16#0026F#), -- LATIN SMALL LETTER TURNED M .. LATIN SMALL LETTER TURNED M
(16#00272#, 16#00272#), -- LATIN SMALL LETTER N WITH LEFT HOOK .. LATIN SMALL LETTER N WITH LEFT HOOK
(16#00275#, 16#00275#), -- LATIN SMALL LETTER BARRED O .. LATIN SMALL LETTER BARRED O
(16#00280#, 16#00280#), -- LATIN LETTER SMALL CAPITAL R .. LATIN LETTER SMALL CAPITAL R
(16#00283#, 16#00283#), -- LATIN SMALL LETTER ESH .. LATIN SMALL LETTER ESH
(16#00288#, 16#00288#), -- LATIN SMALL LETTER T WITH RETROFLEX HOOK .. LATIN SMALL LETTER T WITH RETROFLEX HOOK
(16#0028A#, 16#0028B#), -- LATIN SMALL LETTER UPSILON .. LATIN SMALL LETTER V WITH HOOK
(16#00292#, 16#00292#), -- LATIN SMALL LETTER EZH .. LATIN SMALL LETTER EZH
(16#003AC#, 16#003AC#), -- GREEK SMALL LETTER ALPHA WITH TONOS .. GREEK SMALL LETTER ALPHA WITH TONOS
(16#003AD#, 16#003AF#), -- GREEK SMALL LETTER EPSILON WITH TONOS .. GREEK SMALL LETTER IOTA WITH TONOS
(16#003B1#, 16#003C1#), -- GREEK SMALL LETTER ALPHA .. GREEK SMALL LETTER RHO
(16#003C2#, 16#003C2#), -- GREEK SMALL LETTER FINAL SIGMA .. GREEK SMALL LETTER FINAL SIGMA
(16#003C3#, 16#003CB#), -- GREEK SMALL LETTER SIGMA .. GREEK SMALL LETTER UPSILON WITH DIALYTIKA
(16#003CC#, 16#003CC#), -- GREEK SMALL LETTER OMICRON WITH TONOS .. GREEK SMALL LETTER OMICRON WITH TONOS
(16#003CD#, 16#003CE#), -- GREEK SMALL LETTER UPSILON WITH TONOS .. GREEK SMALL LETTER OMEGA WITH TONOS
(16#003D0#, 16#003D0#), -- GREEK BETA SYMBOL .. GREEK BETA SYMBOL
(16#003D1#, 16#003D1#), -- GREEK THETA SYMBOL .. GREEK THETA SYMBOL
(16#003D5#, 16#003D5#), -- GREEK PHI SYMBOL .. GREEK PHI SYMBOL
(16#003D6#, 16#003D6#), -- GREEK PI SYMBOL .. GREEK PI SYMBOL
(16#003D9#, 16#003D9#), -- GREEK SMALL LETTER ARCHAIC KOPPA .. GREEK SMALL LETTER ARCHAIC KOPPA
(16#003DB#, 16#003DB#), -- GREEK SMALL LETTER STIGMA .. GREEK SMALL LETTER STIGMA
(16#003DD#, 16#003DD#), -- GREEK SMALL LETTER DIGAMMA .. GREEK SMALL LETTER DIGAMMA
(16#003DF#, 16#003DF#), -- GREEK SMALL LETTER KOPPA .. GREEK SMALL LETTER KOPPA
(16#003E1#, 16#003E1#), -- GREEK SMALL LETTER SAMPI .. GREEK SMALL LETTER SAMPI
(16#003E3#, 16#003E3#), -- COPTIC SMALL LETTER SHEI .. COPTIC SMALL LETTER SHEI
(16#003E5#, 16#003E5#), -- COPTIC SMALL LETTER FEI .. COPTIC SMALL LETTER FEI
(16#003E7#, 16#003E7#), -- COPTIC SMALL LETTER KHEI .. COPTIC SMALL LETTER KHEI
(16#003E9#, 16#003E9#), -- COPTIC SMALL LETTER HORI .. COPTIC SMALL LETTER HORI
(16#003EB#, 16#003EB#), -- COPTIC SMALL LETTER GANGIA .. COPTIC SMALL LETTER GANGIA
(16#003ED#, 16#003ED#), -- COPTIC SMALL LETTER SHIMA .. COPTIC SMALL LETTER SHIMA
(16#003EF#, 16#003EF#), -- COPTIC SMALL LETTER DEI .. COPTIC SMALL LETTER DEI
(16#003F0#, 16#003F0#), -- GREEK KAPPA SYMBOL .. GREEK KAPPA SYMBOL
(16#003F1#, 16#003F1#), -- GREEK RHO SYMBOL .. GREEK RHO SYMBOL
(16#003F2#, 16#003F2#), -- GREEK LUNATE SIGMA SYMBOL .. GREEK LUNATE SIGMA SYMBOL
(16#003F5#, 16#003F5#), -- GREEK LUNATE EPSILON SYMBOL .. GREEK LUNATE EPSILON SYMBOL
(16#00430#, 16#0044F#), -- CYRILLIC SMALL LETTER A .. CYRILLIC SMALL LETTER YA
(16#00450#, 16#0045F#), -- CYRILLIC SMALL LETTER IE WITH GRAVE .. CYRILLIC SMALL LETTER DZHE
(16#00461#, 16#00461#), -- CYRILLIC SMALL LETTER OMEGA .. CYRILLIC SMALL LETTER OMEGA
(16#00463#, 16#00463#), -- CYRILLIC SMALL LETTER YAT .. CYRILLIC SMALL LETTER YAT
(16#00465#, 16#00465#), -- CYRILLIC SMALL LETTER IOTIFIED E .. CYRILLIC SMALL LETTER IOTIFIED E
(16#00467#, 16#00467#), -- CYRILLIC SMALL LETTER LITTLE YUS .. CYRILLIC SMALL LETTER LITTLE YUS
(16#00469#, 16#00469#), -- CYRILLIC SMALL LETTER IOTIFIED LITTLE YUS .. CYRILLIC SMALL LETTER IOTIFIED LITTLE YUS
(16#0046B#, 16#0046B#), -- CYRILLIC SMALL LETTER BIG YUS .. CYRILLIC SMALL LETTER BIG YUS
(16#0046D#, 16#0046D#), -- CYRILLIC SMALL LETTER IOTIFIED BIG YUS .. CYRILLIC SMALL LETTER IOTIFIED BIG YUS
(16#0046F#, 16#0046F#), -- CYRILLIC SMALL LETTER KSI .. CYRILLIC SMALL LETTER KSI
(16#00471#, 16#00471#), -- CYRILLIC SMALL LETTER PSI .. CYRILLIC SMALL LETTER PSI
(16#00473#, 16#00473#), -- CYRILLIC SMALL LETTER FITA .. CYRILLIC SMALL LETTER FITA
(16#00475#, 16#00475#), -- CYRILLIC SMALL LETTER IZHITSA .. CYRILLIC SMALL LETTER IZHITSA
(16#00477#, 16#00477#), -- CYRILLIC SMALL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT .. CYRILLIC SMALL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT
(16#00479#, 16#00479#), -- CYRILLIC SMALL LETTER UK .. CYRILLIC SMALL LETTER UK
(16#0047B#, 16#0047B#), -- CYRILLIC SMALL LETTER ROUND OMEGA .. CYRILLIC SMALL LETTER ROUND OMEGA
(16#0047D#, 16#0047D#), -- CYRILLIC SMALL LETTER OMEGA WITH TITLO .. CYRILLIC SMALL LETTER OMEGA WITH TITLO
(16#0047F#, 16#0047F#), -- CYRILLIC SMALL LETTER OT .. CYRILLIC SMALL LETTER OT
(16#00481#, 16#00481#), -- CYRILLIC SMALL LETTER KOPPA .. CYRILLIC SMALL LETTER KOPPA
(16#0048B#, 16#0048B#), -- CYRILLIC SMALL LETTER SHORT I WITH TAIL .. CYRILLIC SMALL LETTER SHORT I WITH TAIL
(16#0048D#, 16#0048D#), -- CYRILLIC SMALL LETTER SEMISOFT SIGN .. CYRILLIC SMALL LETTER SEMISOFT SIGN
(16#0048F#, 16#0048F#), -- CYRILLIC SMALL LETTER ER WITH TICK .. CYRILLIC SMALL LETTER ER WITH TICK
(16#00491#, 16#00491#), -- CYRILLIC SMALL LETTER GHE WITH UPTURN .. CYRILLIC SMALL LETTER GHE WITH UPTURN
(16#00493#, 16#00493#), -- CYRILLIC SMALL LETTER GHE WITH STROKE .. CYRILLIC SMALL LETTER GHE WITH STROKE
(16#00495#, 16#00495#), -- CYRILLIC SMALL LETTER GHE WITH MIDDLE HOOK .. CYRILLIC SMALL LETTER GHE WITH MIDDLE HOOK
(16#00497#, 16#00497#), -- CYRILLIC SMALL LETTER ZHE WITH DESCENDER .. CYRILLIC SMALL LETTER ZHE WITH DESCENDER
(16#00499#, 16#00499#), -- CYRILLIC SMALL LETTER ZE WITH DESCENDER .. CYRILLIC SMALL LETTER ZE WITH DESCENDER
(16#0049B#, 16#0049B#), -- CYRILLIC SMALL LETTER KA WITH DESCENDER .. CYRILLIC SMALL LETTER KA WITH DESCENDER
(16#0049D#, 16#0049D#), -- CYRILLIC SMALL LETTER KA WITH VERTICAL STROKE .. CYRILLIC SMALL LETTER KA WITH VERTICAL STROKE
(16#0049F#, 16#0049F#), -- CYRILLIC SMALL LETTER KA WITH STROKE .. CYRILLIC SMALL LETTER KA WITH STROKE
(16#004A1#, 16#004A1#), -- CYRILLIC SMALL LETTER BASHKIR KA .. CYRILLIC SMALL LETTER BASHKIR KA
(16#004A3#, 16#004A3#), -- CYRILLIC SMALL LETTER EN WITH DESCENDER .. CYRILLIC SMALL LETTER EN WITH DESCENDER
(16#004A5#, 16#004A5#), -- CYRILLIC SMALL LIGATURE EN GHE .. CYRILLIC SMALL LIGATURE EN GHE
(16#004A7#, 16#004A7#), -- CYRILLIC SMALL LETTER PE WITH MIDDLE HOOK .. CYRILLIC SMALL LETTER PE WITH MIDDLE HOOK
(16#004A9#, 16#004A9#), -- CYRILLIC SMALL LETTER ABKHASIAN HA .. CYRILLIC SMALL LETTER ABKHASIAN HA
(16#004AB#, 16#004AB#), -- CYRILLIC SMALL LETTER ES WITH DESCENDER .. CYRILLIC SMALL LETTER ES WITH DESCENDER
(16#004AD#, 16#004AD#), -- CYRILLIC SMALL LETTER TE WITH DESCENDER .. CYRILLIC SMALL LETTER TE WITH DESCENDER
(16#004AF#, 16#004AF#), -- CYRILLIC SMALL LETTER STRAIGHT U .. CYRILLIC SMALL LETTER STRAIGHT U
(16#004B1#, 16#004B1#), -- CYRILLIC SMALL LETTER STRAIGHT U WITH STROKE .. CYRILLIC SMALL LETTER STRAIGHT U WITH STROKE
(16#004B3#, 16#004B3#), -- CYRILLIC SMALL LETTER HA WITH DESCENDER .. CYRILLIC SMALL LETTER HA WITH DESCENDER
(16#004B5#, 16#004B5#), -- CYRILLIC SMALL LIGATURE TE TSE .. CYRILLIC SMALL LIGATURE TE TSE
(16#004B7#, 16#004B7#), -- CYRILLIC SMALL LETTER CHE WITH DESCENDER .. CYRILLIC SMALL LETTER CHE WITH DESCENDER
(16#004B9#, 16#004B9#), -- CYRILLIC SMALL LETTER CHE WITH VERTICAL STROKE .. CYRILLIC SMALL LETTER CHE WITH VERTICAL STROKE
(16#004BB#, 16#004BB#), -- CYRILLIC SMALL LETTER SHHA .. CYRILLIC SMALL LETTER SHHA
(16#004BD#, 16#004BD#), -- CYRILLIC SMALL LETTER ABKHASIAN CHE .. CYRILLIC SMALL LETTER ABKHASIAN CHE
(16#004BF#, 16#004BF#), -- CYRILLIC SMALL LETTER ABKHASIAN CHE WITH DESCENDER .. CYRILLIC SMALL LETTER ABKHASIAN CHE WITH DESCENDER
(16#004C2#, 16#004C2#), -- CYRILLIC SMALL LETTER ZHE WITH BREVE .. CYRILLIC SMALL LETTER ZHE WITH BREVE
(16#004C4#, 16#004C4#), -- CYRILLIC SMALL LETTER KA WITH HOOK .. CYRILLIC SMALL LETTER KA WITH HOOK
(16#004C6#, 16#004C6#), -- CYRILLIC SMALL LETTER EL WITH TAIL .. CYRILLIC SMALL LETTER EL WITH TAIL
(16#004C8#, 16#004C8#), -- CYRILLIC SMALL LETTER EN WITH HOOK .. CYRILLIC SMALL LETTER EN WITH HOOK
(16#004CA#, 16#004CA#), -- CYRILLIC SMALL LETTER EN WITH TAIL .. CYRILLIC SMALL LETTER EN WITH TAIL
(16#004CC#, 16#004CC#), -- CYRILLIC SMALL LETTER KHAKASSIAN CHE .. CYRILLIC SMALL LETTER KHAKASSIAN CHE
(16#004CE#, 16#004CE#), -- CYRILLIC SMALL LETTER EM WITH TAIL .. CYRILLIC SMALL LETTER EM WITH TAIL
(16#004D1#, 16#004D1#), -- CYRILLIC SMALL LETTER A WITH BREVE .. CYRILLIC SMALL LETTER A WITH BREVE
(16#004D3#, 16#004D3#), -- CYRILLIC SMALL LETTER A WITH DIAERESIS .. CYRILLIC SMALL LETTER A WITH DIAERESIS
(16#004D5#, 16#004D5#), -- CYRILLIC SMALL LIGATURE A IE .. CYRILLIC SMALL LIGATURE A IE
(16#004D7#, 16#004D7#), -- CYRILLIC SMALL LETTER IE WITH BREVE .. CYRILLIC SMALL LETTER IE WITH BREVE
(16#004D9#, 16#004D9#), -- CYRILLIC SMALL LETTER SCHWA .. CYRILLIC SMALL LETTER SCHWA
(16#004DB#, 16#004DB#), -- CYRILLIC SMALL LETTER SCHWA WITH DIAERESIS .. CYRILLIC SMALL LETTER SCHWA WITH DIAERESIS
(16#004DD#, 16#004DD#), -- CYRILLIC SMALL LETTER ZHE WITH DIAERESIS .. CYRILLIC SMALL LETTER ZHE WITH DIAERESIS
(16#004DF#, 16#004DF#), -- CYRILLIC SMALL LETTER ZE WITH DIAERESIS .. CYRILLIC SMALL LETTER ZE WITH DIAERESIS
(16#004E1#, 16#004E1#), -- CYRILLIC SMALL LETTER ABKHASIAN DZE .. CYRILLIC SMALL LETTER ABKHASIAN DZE
(16#004E3#, 16#004E3#), -- CYRILLIC SMALL LETTER I WITH MACRON .. CYRILLIC SMALL LETTER I WITH MACRON
(16#004E5#, 16#004E5#), -- CYRILLIC SMALL LETTER I WITH DIAERESIS .. CYRILLIC SMALL LETTER I WITH DIAERESIS
(16#004E7#, 16#004E7#), -- CYRILLIC SMALL LETTER O WITH DIAERESIS .. CYRILLIC SMALL LETTER O WITH DIAERESIS
(16#004E9#, 16#004E9#), -- CYRILLIC SMALL LETTER BARRED O .. CYRILLIC SMALL LETTER BARRED O
(16#004EB#, 16#004EB#), -- CYRILLIC SMALL LETTER BARRED O WITH DIAERESIS .. CYRILLIC SMALL LETTER BARRED O WITH DIAERESIS
(16#004ED#, 16#004ED#), -- CYRILLIC SMALL LETTER E WITH DIAERESIS .. CYRILLIC SMALL LETTER E WITH DIAERESIS
(16#004EF#, 16#004EF#), -- CYRILLIC SMALL LETTER U WITH MACRON .. CYRILLIC SMALL LETTER U WITH MACRON
(16#004F1#, 16#004F1#), -- CYRILLIC SMALL LETTER U WITH DIAERESIS .. CYRILLIC SMALL LETTER U WITH DIAERESIS
(16#004F3#, 16#004F3#), -- CYRILLIC SMALL LETTER U WITH DOUBLE ACUTE .. CYRILLIC SMALL LETTER U WITH DOUBLE ACUTE
(16#004F5#, 16#004F5#), -- CYRILLIC SMALL LETTER CHE WITH DIAERESIS .. CYRILLIC SMALL LETTER CHE WITH DIAERESIS
(16#004F9#, 16#004F9#), -- CYRILLIC SMALL LETTER YERU WITH DIAERESIS .. CYRILLIC SMALL LETTER YERU WITH DIAERESIS
(16#00501#, 16#00501#), -- CYRILLIC SMALL LETTER KOMI DE .. CYRILLIC SMALL LETTER KOMI DE
(16#00503#, 16#00503#), -- CYRILLIC SMALL LETTER KOMI DJE .. CYRILLIC SMALL LETTER KOMI DJE
(16#00505#, 16#00505#), -- CYRILLIC SMALL LETTER KOMI ZJE .. CYRILLIC SMALL LETTER KOMI ZJE
(16#00507#, 16#00507#), -- CYRILLIC SMALL LETTER KOMI DZJE .. CYRILLIC SMALL LETTER KOMI DZJE
(16#00509#, 16#00509#), -- CYRILLIC SMALL LETTER KOMI LJE .. CYRILLIC SMALL LETTER KOMI LJE
(16#0050B#, 16#0050B#), -- CYRILLIC SMALL LETTER KOMI NJE .. CYRILLIC SMALL LETTER KOMI NJE
(16#0050D#, 16#0050D#), -- CYRILLIC SMALL LETTER KOMI SJE .. CYRILLIC SMALL LETTER KOMI SJE
(16#0050F#, 16#0050F#), -- CYRILLIC SMALL LETTER KOMI TJE .. CYRILLIC SMALL LETTER KOMI TJE
(16#00561#, 16#00586#), -- ARMENIAN SMALL LETTER AYB .. ARMENIAN SMALL LETTER FEH
(16#01E01#, 16#01E01#), -- LATIN SMALL LETTER A WITH RING BELOW .. LATIN SMALL LETTER A WITH RING BELOW
(16#01E03#, 16#01E03#), -- LATIN SMALL LETTER B WITH DOT ABOVE .. LATIN SMALL LETTER B WITH DOT ABOVE
(16#01E05#, 16#01E05#), -- LATIN SMALL LETTER B WITH DOT BELOW .. LATIN SMALL LETTER B WITH DOT BELOW
(16#01E07#, 16#01E07#), -- LATIN SMALL LETTER B WITH LINE BELOW .. LATIN SMALL LETTER B WITH LINE BELOW
(16#01E09#, 16#01E09#), -- LATIN SMALL LETTER C WITH CEDILLA AND ACUTE .. LATIN SMALL LETTER C WITH CEDILLA AND ACUTE
(16#01E0B#, 16#01E0B#), -- LATIN SMALL LETTER D WITH DOT ABOVE .. LATIN SMALL LETTER D WITH DOT ABOVE
(16#01E0D#, 16#01E0D#), -- LATIN SMALL LETTER D WITH DOT BELOW .. LATIN SMALL LETTER D WITH DOT BELOW
(16#01E0F#, 16#01E0F#), -- LATIN SMALL LETTER D WITH LINE BELOW .. LATIN SMALL LETTER D WITH LINE BELOW
(16#01E11#, 16#01E11#), -- LATIN SMALL LETTER D WITH CEDILLA .. LATIN SMALL LETTER D WITH CEDILLA
(16#01E13#, 16#01E13#), -- LATIN SMALL LETTER D WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER D WITH CIRCUMFLEX BELOW
(16#01E15#, 16#01E15#), -- LATIN SMALL LETTER E WITH MACRON AND GRAVE .. LATIN SMALL LETTER E WITH MACRON AND GRAVE
(16#01E17#, 16#01E17#), -- LATIN SMALL LETTER E WITH MACRON AND ACUTE .. LATIN SMALL LETTER E WITH MACRON AND ACUTE
(16#01E19#, 16#01E19#), -- LATIN SMALL LETTER E WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER E WITH CIRCUMFLEX BELOW
(16#01E1B#, 16#01E1B#), -- LATIN SMALL LETTER E WITH TILDE BELOW .. LATIN SMALL LETTER E WITH TILDE BELOW
(16#01E1D#, 16#01E1D#), -- LATIN SMALL LETTER E WITH CEDILLA AND BREVE .. LATIN SMALL LETTER E WITH CEDILLA AND BREVE
(16#01E1F#, 16#01E1F#), -- LATIN SMALL LETTER F WITH DOT ABOVE .. LATIN SMALL LETTER F WITH DOT ABOVE
(16#01E21#, 16#01E21#), -- LATIN SMALL LETTER G WITH MACRON .. LATIN SMALL LETTER G WITH MACRON
(16#01E23#, 16#01E23#), -- LATIN SMALL LETTER H WITH DOT ABOVE .. LATIN SMALL LETTER H WITH DOT ABOVE
(16#01E25#, 16#01E25#), -- LATIN SMALL LETTER H WITH DOT BELOW .. LATIN SMALL LETTER H WITH DOT BELOW
(16#01E27#, 16#01E27#), -- LATIN SMALL LETTER H WITH DIAERESIS .. LATIN SMALL LETTER H WITH DIAERESIS
(16#01E29#, 16#01E29#), -- LATIN SMALL LETTER H WITH CEDILLA .. LATIN SMALL LETTER H WITH CEDILLA
(16#01E2B#, 16#01E2B#), -- LATIN SMALL LETTER H WITH BREVE BELOW .. LATIN SMALL LETTER H WITH BREVE BELOW
(16#01E2D#, 16#01E2D#), -- LATIN SMALL LETTER I WITH TILDE BELOW .. LATIN SMALL LETTER I WITH TILDE BELOW
(16#01E2F#, 16#01E2F#), -- LATIN SMALL LETTER I WITH DIAERESIS AND ACUTE .. LATIN SMALL LETTER I WITH DIAERESIS AND ACUTE
(16#01E31#, 16#01E31#), -- LATIN SMALL LETTER K WITH ACUTE .. LATIN SMALL LETTER K WITH ACUTE
(16#01E33#, 16#01E33#), -- LATIN SMALL LETTER K WITH DOT BELOW .. LATIN SMALL LETTER K WITH DOT BELOW
(16#01E35#, 16#01E35#), -- LATIN SMALL LETTER K WITH LINE BELOW .. LATIN SMALL LETTER K WITH LINE BELOW
(16#01E37#, 16#01E37#), -- LATIN SMALL LETTER L WITH DOT BELOW .. LATIN SMALL LETTER L WITH DOT BELOW
(16#01E39#, 16#01E39#), -- LATIN SMALL LETTER L WITH DOT BELOW AND MACRON .. LATIN SMALL LETTER L WITH DOT BELOW AND MACRON
(16#01E3B#, 16#01E3B#), -- LATIN SMALL LETTER L WITH LINE BELOW .. LATIN SMALL LETTER L WITH LINE BELOW
(16#01E3D#, 16#01E3D#), -- LATIN SMALL LETTER L WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER L WITH CIRCUMFLEX BELOW
(16#01E3F#, 16#01E3F#), -- LATIN SMALL LETTER M WITH ACUTE .. LATIN SMALL LETTER M WITH ACUTE
(16#01E41#, 16#01E41#), -- LATIN SMALL LETTER M WITH DOT ABOVE .. LATIN SMALL LETTER M WITH DOT ABOVE
(16#01E43#, 16#01E43#), -- LATIN SMALL LETTER M WITH DOT BELOW .. LATIN SMALL LETTER M WITH DOT BELOW
(16#01E45#, 16#01E45#), -- LATIN SMALL LETTER N WITH DOT ABOVE .. LATIN SMALL LETTER N WITH DOT ABOVE
(16#01E47#, 16#01E47#), -- LATIN SMALL LETTER N WITH DOT BELOW .. LATIN SMALL LETTER N WITH DOT BELOW
(16#01E49#, 16#01E49#), -- LATIN SMALL LETTER N WITH LINE BELOW .. LATIN SMALL LETTER N WITH LINE BELOW
(16#01E4B#, 16#01E4B#), -- LATIN SMALL LETTER N WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER N WITH CIRCUMFLEX BELOW
(16#01E4D#, 16#01E4D#), -- LATIN SMALL LETTER O WITH TILDE AND ACUTE .. LATIN SMALL LETTER O WITH TILDE AND ACUTE
(16#01E4F#, 16#01E4F#), -- LATIN SMALL LETTER O WITH TILDE AND DIAERESIS .. LATIN SMALL LETTER O WITH TILDE AND DIAERESIS
(16#01E51#, 16#01E51#), -- LATIN SMALL LETTER O WITH MACRON AND GRAVE .. LATIN SMALL LETTER O WITH MACRON AND GRAVE
(16#01E53#, 16#01E53#), -- LATIN SMALL LETTER O WITH MACRON AND ACUTE .. LATIN SMALL LETTER O WITH MACRON AND ACUTE
(16#01E55#, 16#01E55#), -- LATIN SMALL LETTER P WITH ACUTE .. LATIN SMALL LETTER P WITH ACUTE
(16#01E57#, 16#01E57#), -- LATIN SMALL LETTER P WITH DOT ABOVE .. LATIN SMALL LETTER P WITH DOT ABOVE
(16#01E59#, 16#01E59#), -- LATIN SMALL LETTER R WITH DOT ABOVE .. LATIN SMALL LETTER R WITH DOT ABOVE
(16#01E5B#, 16#01E5B#), -- LATIN SMALL LETTER R WITH DOT BELOW .. LATIN SMALL LETTER R WITH DOT BELOW
(16#01E5D#, 16#01E5D#), -- LATIN SMALL LETTER R WITH DOT BELOW AND MACRON .. LATIN SMALL LETTER R WITH DOT BELOW AND MACRON
(16#01E5F#, 16#01E5F#), -- LATIN SMALL LETTER R WITH LINE BELOW .. LATIN SMALL LETTER R WITH LINE BELOW
(16#01E61#, 16#01E61#), -- LATIN SMALL LETTER S WITH DOT ABOVE .. LATIN SMALL LETTER S WITH DOT ABOVE
(16#01E63#, 16#01E63#), -- LATIN SMALL LETTER S WITH DOT BELOW .. LATIN SMALL LETTER S WITH DOT BELOW
(16#01E65#, 16#01E65#), -- LATIN SMALL LETTER S WITH ACUTE AND DOT ABOVE .. LATIN SMALL LETTER S WITH ACUTE AND DOT ABOVE
(16#01E67#, 16#01E67#), -- LATIN SMALL LETTER S WITH CARON AND DOT ABOVE .. LATIN SMALL LETTER S WITH CARON AND DOT ABOVE
(16#01E69#, 16#01E69#), -- LATIN SMALL LETTER S WITH DOT BELOW AND DOT ABOVE .. LATIN SMALL LETTER S WITH DOT BELOW AND DOT ABOVE
(16#01E6B#, 16#01E6B#), -- LATIN SMALL LETTER T WITH DOT ABOVE .. LATIN SMALL LETTER T WITH DOT ABOVE
(16#01E6D#, 16#01E6D#), -- LATIN SMALL LETTER T WITH DOT BELOW .. LATIN SMALL LETTER T WITH DOT BELOW
(16#01E6F#, 16#01E6F#), -- LATIN SMALL LETTER T WITH LINE BELOW .. LATIN SMALL LETTER T WITH LINE BELOW
(16#01E71#, 16#01E71#), -- LATIN SMALL LETTER T WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER T WITH CIRCUMFLEX BELOW
(16#01E73#, 16#01E73#), -- LATIN SMALL LETTER U WITH DIAERESIS BELOW .. LATIN SMALL LETTER U WITH DIAERESIS BELOW
(16#01E75#, 16#01E75#), -- LATIN SMALL LETTER U WITH TILDE BELOW .. LATIN SMALL LETTER U WITH TILDE BELOW
(16#01E77#, 16#01E77#), -- LATIN SMALL LETTER U WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER U WITH CIRCUMFLEX BELOW
(16#01E79#, 16#01E79#), -- LATIN SMALL LETTER U WITH TILDE AND ACUTE .. LATIN SMALL LETTER U WITH TILDE AND ACUTE
(16#01E7B#, 16#01E7B#), -- LATIN SMALL LETTER U WITH MACRON AND DIAERESIS .. LATIN SMALL LETTER U WITH MACRON AND DIAERESIS
(16#01E7D#, 16#01E7D#), -- LATIN SMALL LETTER V WITH TILDE .. LATIN SMALL LETTER V WITH TILDE
(16#01E7F#, 16#01E7F#), -- LATIN SMALL LETTER V WITH DOT BELOW .. LATIN SMALL LETTER V WITH DOT BELOW
(16#01E81#, 16#01E81#), -- LATIN SMALL LETTER W WITH GRAVE .. LATIN SMALL LETTER W WITH GRAVE
(16#01E83#, 16#01E83#), -- LATIN SMALL LETTER W WITH ACUTE .. LATIN SMALL LETTER W WITH ACUTE
(16#01E85#, 16#01E85#), -- LATIN SMALL LETTER W WITH DIAERESIS .. LATIN SMALL LETTER W WITH DIAERESIS
(16#01E87#, 16#01E87#), -- LATIN SMALL LETTER W WITH DOT ABOVE .. LATIN SMALL LETTER W WITH DOT ABOVE
(16#01E89#, 16#01E89#), -- LATIN SMALL LETTER W WITH DOT BELOW .. LATIN SMALL LETTER W WITH DOT BELOW
(16#01E8B#, 16#01E8B#), -- LATIN SMALL LETTER X WITH DOT ABOVE .. LATIN SMALL LETTER X WITH DOT ABOVE
(16#01E8D#, 16#01E8D#), -- LATIN SMALL LETTER X WITH DIAERESIS .. LATIN SMALL LETTER X WITH DIAERESIS
(16#01E8F#, 16#01E8F#), -- LATIN SMALL LETTER Y WITH DOT ABOVE .. LATIN SMALL LETTER Y WITH DOT ABOVE
(16#01E91#, 16#01E91#), -- LATIN SMALL LETTER Z WITH CIRCUMFLEX .. LATIN SMALL LETTER Z WITH CIRCUMFLEX
(16#01E93#, 16#01E93#), -- LATIN SMALL LETTER Z WITH DOT BELOW .. LATIN SMALL LETTER Z WITH DOT BELOW
(16#01E95#, 16#01E95#), -- LATIN SMALL LETTER Z WITH LINE BELOW .. LATIN SMALL LETTER Z WITH LINE BELOW
(16#01E9B#, 16#01E9B#), -- LATIN SMALL LETTER LONG S WITH DOT ABOVE .. LATIN SMALL LETTER LONG S WITH DOT ABOVE
(16#01EA1#, 16#01EA1#), -- LATIN SMALL LETTER A WITH DOT BELOW .. LATIN SMALL LETTER A WITH DOT BELOW
(16#01EA3#, 16#01EA3#), -- LATIN SMALL LETTER A WITH HOOK ABOVE .. LATIN SMALL LETTER A WITH HOOK ABOVE
(16#01EA5#, 16#01EA5#), -- LATIN SMALL LETTER A WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND ACUTE
(16#01EA7#, 16#01EA7#), -- LATIN SMALL LETTER A WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND GRAVE
(16#01EA9#, 16#01EA9#), -- LATIN SMALL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE
(16#01EAB#, 16#01EAB#), -- LATIN SMALL LETTER A WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND TILDE
(16#01EAD#, 16#01EAD#), -- LATIN SMALL LETTER A WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND DOT BELOW
(16#01EAF#, 16#01EAF#), -- LATIN SMALL LETTER A WITH BREVE AND ACUTE .. LATIN SMALL LETTER A WITH BREVE AND ACUTE
(16#01EB1#, 16#01EB1#), -- LATIN SMALL LETTER A WITH BREVE AND GRAVE .. LATIN SMALL LETTER A WITH BREVE AND GRAVE
(16#01EB3#, 16#01EB3#), -- LATIN SMALL LETTER A WITH BREVE AND HOOK ABOVE .. LATIN SMALL LETTER A WITH BREVE AND HOOK ABOVE
(16#01EB5#, 16#01EB5#), -- LATIN SMALL LETTER A WITH BREVE AND TILDE .. LATIN SMALL LETTER A WITH BREVE AND TILDE
(16#01EB7#, 16#01EB7#), -- LATIN SMALL LETTER A WITH BREVE AND DOT BELOW .. LATIN SMALL LETTER A WITH BREVE AND DOT BELOW
(16#01EB9#, 16#01EB9#), -- LATIN SMALL LETTER E WITH DOT BELOW .. LATIN SMALL LETTER E WITH DOT BELOW
(16#01EBB#, 16#01EBB#), -- LATIN SMALL LETTER E WITH HOOK ABOVE .. LATIN SMALL LETTER E WITH HOOK ABOVE
(16#01EBD#, 16#01EBD#), -- LATIN SMALL LETTER E WITH TILDE .. LATIN SMALL LETTER E WITH TILDE
(16#01EBF#, 16#01EBF#), -- LATIN SMALL LETTER E WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND ACUTE
(16#01EC1#, 16#01EC1#), -- LATIN SMALL LETTER E WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND GRAVE
(16#01EC3#, 16#01EC3#), -- LATIN SMALL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE
(16#01EC5#, 16#01EC5#), -- LATIN SMALL LETTER E WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND TILDE
(16#01EC7#, 16#01EC7#), -- LATIN SMALL LETTER E WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND DOT BELOW
(16#01EC9#, 16#01EC9#), -- LATIN SMALL LETTER I WITH HOOK ABOVE .. LATIN SMALL LETTER I WITH HOOK ABOVE
(16#01ECB#, 16#01ECB#), -- LATIN SMALL LETTER I WITH DOT BELOW .. LATIN SMALL LETTER I WITH DOT BELOW
(16#01ECD#, 16#01ECD#), -- LATIN SMALL LETTER O WITH DOT BELOW .. LATIN SMALL LETTER O WITH DOT BELOW
(16#01ECF#, 16#01ECF#), -- LATIN SMALL LETTER O WITH HOOK ABOVE .. LATIN SMALL LETTER O WITH HOOK ABOVE
(16#01ED1#, 16#01ED1#), -- LATIN SMALL LETTER O WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND ACUTE
(16#01ED3#, 16#01ED3#), -- LATIN SMALL LETTER O WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND GRAVE
(16#01ED5#, 16#01ED5#), -- LATIN SMALL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE
(16#01ED7#, 16#01ED7#), -- LATIN SMALL LETTER O WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND TILDE
(16#01ED9#, 16#01ED9#), -- LATIN SMALL LETTER O WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND DOT BELOW
(16#01EDB#, 16#01EDB#), -- LATIN SMALL LETTER O WITH HORN AND ACUTE .. LATIN SMALL LETTER O WITH HORN AND ACUTE
(16#01EDD#, 16#01EDD#), -- LATIN SMALL LETTER O WITH HORN AND GRAVE .. LATIN SMALL LETTER O WITH HORN AND GRAVE
(16#01EDF#, 16#01EDF#), -- LATIN SMALL LETTER O WITH HORN AND HOOK ABOVE .. LATIN SMALL LETTER O WITH HORN AND HOOK ABOVE
(16#01EE1#, 16#01EE1#), -- LATIN SMALL LETTER O WITH HORN AND TILDE .. LATIN SMALL LETTER O WITH HORN AND TILDE
(16#01EE3#, 16#01EE3#), -- LATIN SMALL LETTER O WITH HORN AND DOT BELOW .. LATIN SMALL LETTER O WITH HORN AND DOT BELOW
(16#01EE5#, 16#01EE5#), -- LATIN SMALL LETTER U WITH DOT BELOW .. LATIN SMALL LETTER U WITH DOT BELOW
(16#01EE7#, 16#01EE7#), -- LATIN SMALL LETTER U WITH HOOK ABOVE .. LATIN SMALL LETTER U WITH HOOK ABOVE
(16#01EE9#, 16#01EE9#), -- LATIN SMALL LETTER U WITH HORN AND ACUTE .. LATIN SMALL LETTER U WITH HORN AND ACUTE
(16#01EEB#, 16#01EEB#), -- LATIN SMALL LETTER U WITH HORN AND GRAVE .. LATIN SMALL LETTER U WITH HORN AND GRAVE
(16#01EED#, 16#01EED#), -- LATIN SMALL LETTER U WITH HORN AND HOOK ABOVE .. LATIN SMALL LETTER U WITH HORN AND HOOK ABOVE
(16#01EEF#, 16#01EEF#), -- LATIN SMALL LETTER U WITH HORN AND TILDE .. LATIN SMALL LETTER U WITH HORN AND TILDE
(16#01EF1#, 16#01EF1#), -- LATIN SMALL LETTER U WITH HORN AND DOT BELOW .. LATIN SMALL LETTER U WITH HORN AND DOT BELOW
(16#01EF3#, 16#01EF3#), -- LATIN SMALL LETTER Y WITH GRAVE .. LATIN SMALL LETTER Y WITH GRAVE
(16#01EF5#, 16#01EF5#), -- LATIN SMALL LETTER Y WITH DOT BELOW .. LATIN SMALL LETTER Y WITH DOT BELOW
(16#01EF7#, 16#01EF7#), -- LATIN SMALL LETTER Y WITH HOOK ABOVE .. LATIN SMALL LETTER Y WITH HOOK ABOVE
(16#01EF9#, 16#01EF9#), -- LATIN SMALL LETTER Y WITH TILDE .. LATIN SMALL LETTER Y WITH TILDE
(16#01F00#, 16#01F07#), -- GREEK SMALL LETTER ALPHA WITH PSILI .. GREEK SMALL LETTER ALPHA WITH DASIA AND PERISPOMENI
(16#01F10#, 16#01F15#), -- GREEK SMALL LETTER EPSILON WITH PSILI .. GREEK SMALL LETTER EPSILON WITH DASIA AND OXIA
(16#01F20#, 16#01F27#), -- GREEK SMALL LETTER ETA WITH PSILI .. GREEK SMALL LETTER ETA WITH DASIA AND PERISPOMENI
(16#01F30#, 16#01F37#), -- GREEK SMALL LETTER IOTA WITH PSILI .. GREEK SMALL LETTER IOTA WITH DASIA AND PERISPOMENI
(16#01F40#, 16#01F45#), -- GREEK SMALL LETTER OMICRON WITH PSILI .. GREEK SMALL LETTER OMICRON WITH DASIA AND OXIA
(16#01F51#, 16#01F51#), -- GREEK SMALL LETTER UPSILON WITH DASIA .. GREEK SMALL LETTER UPSILON WITH DASIA
(16#01F53#, 16#01F53#), -- GREEK SMALL LETTER UPSILON WITH DASIA AND VARIA .. GREEK SMALL LETTER UPSILON WITH DASIA AND VARIA
(16#01F55#, 16#01F55#), -- GREEK SMALL LETTER UPSILON WITH DASIA AND OXIA .. GREEK SMALL LETTER UPSILON WITH DASIA AND OXIA
(16#01F57#, 16#01F57#), -- GREEK SMALL LETTER UPSILON WITH DASIA AND PERISPOMENI .. GREEK SMALL LETTER UPSILON WITH DASIA AND PERISPOMENI
(16#01F60#, 16#01F67#), -- GREEK SMALL LETTER OMEGA WITH PSILI .. GREEK SMALL LETTER OMEGA WITH DASIA AND PERISPOMENI
(16#01F70#, 16#01F71#), -- GREEK SMALL LETTER ALPHA WITH VARIA .. GREEK SMALL LETTER ALPHA WITH OXIA
(16#01F72#, 16#01F75#), -- GREEK SMALL LETTER EPSILON WITH VARIA .. GREEK SMALL LETTER ETA WITH OXIA
(16#01F76#, 16#01F77#), -- GREEK SMALL LETTER IOTA WITH VARIA .. GREEK SMALL LETTER IOTA WITH OXIA
(16#01F78#, 16#01F79#), -- GREEK SMALL LETTER OMICRON WITH VARIA .. GREEK SMALL LETTER OMICRON WITH OXIA
(16#01F7A#, 16#01F7B#), -- GREEK SMALL LETTER UPSILON WITH VARIA .. GREEK SMALL LETTER UPSILON WITH OXIA
(16#01F7C#, 16#01F7D#), -- GREEK SMALL LETTER OMEGA WITH VARIA .. GREEK SMALL LETTER OMEGA WITH OXIA
(16#01F80#, 16#01F87#), -- GREEK SMALL LETTER ALPHA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER ALPHA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
(16#01F90#, 16#01F97#), -- GREEK SMALL LETTER ETA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER ETA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
(16#01FA0#, 16#01FA7#), -- GREEK SMALL LETTER OMEGA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER OMEGA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
(16#01FB0#, 16#01FB1#), -- GREEK SMALL LETTER ALPHA WITH VRACHY .. GREEK SMALL LETTER ALPHA WITH MACRON
(16#01FB3#, 16#01FB3#), -- GREEK SMALL LETTER ALPHA WITH YPOGEGRAMMENI .. GREEK SMALL LETTER ALPHA WITH YPOGEGRAMMENI
(16#01FBE#, 16#01FBE#), -- GREEK PROSGEGRAMMENI .. GREEK PROSGEGRAMMENI
(16#01FC3#, 16#01FC3#), -- GREEK SMALL LETTER ETA WITH YPOGEGRAMMENI .. GREEK SMALL LETTER ETA WITH YPOGEGRAMMENI
(16#01FD0#, 16#01FD1#), -- GREEK SMALL LETTER IOTA WITH VRACHY .. GREEK SMALL LETTER IOTA WITH MACRON
(16#01FE0#, 16#01FE1#), -- GREEK SMALL LETTER UPSILON WITH VRACHY .. GREEK SMALL LETTER UPSILON WITH MACRON
(16#01FE5#, 16#01FE5#), -- GREEK SMALL LETTER RHO WITH DASIA .. GREEK SMALL LETTER RHO WITH DASIA
(16#01FF3#, 16#01FF3#), -- GREEK SMALL LETTER OMEGA WITH YPOGEGRAMMENI .. GREEK SMALL LETTER OMEGA WITH YPOGEGRAMMENI
(16#0FF41#, 16#0FF5A#), -- FULLWIDTH LATIN SMALL LETTER A .. FULLWIDTH LATIN SMALL LETTER Z
(16#10428#, 16#1044D#)); -- DESERET SMALL LETTER LONG I .. DESERET SMALL LETTER ENG
Upper_Case_Adjust : constant array (Lower_Case_Letters'Range)
of UTF_32'Base := (
-32, -- LATIN SMALL LETTER A .. LATIN SMALL LETTER Z
743, -- MICRO SIGN .. MICRO SIGN
-32, -- LATIN SMALL LETTER A WITH GRAVE .. LATIN SMALL LETTER O WITH DIAERESIS
-32, -- LATIN SMALL LETTER O WITH STROKE .. LATIN SMALL LETTER THORN
121, -- LATIN SMALL LETTER Y WITH DIAERESIS .. LATIN SMALL LETTER Y WITH DIAERESIS
-1, -- LATIN SMALL LETTER A WITH MACRON .. LATIN SMALL LETTER A WITH MACRON
-1, -- LATIN SMALL LETTER A WITH BREVE .. LATIN SMALL LETTER A WITH BREVE
-1, -- LATIN SMALL LETTER A WITH OGONEK .. LATIN SMALL LETTER A WITH OGONEK
-1, -- LATIN SMALL LETTER C WITH ACUTE .. LATIN SMALL LETTER C WITH ACUTE
-1, -- LATIN SMALL LETTER C WITH CIRCUMFLEX .. LATIN SMALL LETTER C WITH CIRCUMFLEX
-1, -- LATIN SMALL LETTER C WITH DOT ABOVE .. LATIN SMALL LETTER C WITH DOT ABOVE
-1, -- LATIN SMALL LETTER C WITH CARON .. LATIN SMALL LETTER C WITH CARON
-1, -- LATIN SMALL LETTER D WITH CARON .. LATIN SMALL LETTER D WITH CARON
-1, -- LATIN SMALL LETTER D WITH STROKE .. LATIN SMALL LETTER D WITH STROKE
-1, -- LATIN SMALL LETTER E WITH MACRON .. LATIN SMALL LETTER E WITH MACRON
-1, -- LATIN SMALL LETTER E WITH BREVE .. LATIN SMALL LETTER E WITH BREVE
-1, -- LATIN SMALL LETTER E WITH DOT ABOVE .. LATIN SMALL LETTER E WITH DOT ABOVE
-1, -- LATIN SMALL LETTER E WITH OGONEK .. LATIN SMALL LETTER E WITH OGONEK
-1, -- LATIN SMALL LETTER E WITH CARON .. LATIN SMALL LETTER E WITH CARON
-1, -- LATIN SMALL LETTER G WITH CIRCUMFLEX .. LATIN SMALL LETTER G WITH CIRCUMFLEX
-1, -- LATIN SMALL LETTER G WITH BREVE .. LATIN SMALL LETTER G WITH BREVE
-1, -- LATIN SMALL LETTER G WITH DOT ABOVE .. LATIN SMALL LETTER G WITH DOT ABOVE
-1, -- LATIN SMALL LETTER G WITH CEDILLA .. LATIN SMALL LETTER G WITH CEDILLA
-1, -- LATIN SMALL LETTER H WITH CIRCUMFLEX .. LATIN SMALL LETTER H WITH CIRCUMFLEX
-1, -- LATIN SMALL LETTER H WITH STROKE .. LATIN SMALL LETTER H WITH STROKE
-1, -- LATIN SMALL LETTER I WITH TILDE .. LATIN SMALL LETTER I WITH TILDE
-1, -- LATIN SMALL LETTER I WITH MACRON .. LATIN SMALL LETTER I WITH MACRON
-1, -- LATIN SMALL LETTER I WITH BREVE .. LATIN SMALL LETTER I WITH BREVE
-1, -- LATIN SMALL LETTER I WITH OGONEK .. LATIN SMALL LETTER I WITH OGONEK
-232, -- LATIN SMALL LETTER DOTLESS I .. LATIN SMALL LETTER DOTLESS I
-1, -- LATIN SMALL LIGATURE IJ .. LATIN SMALL LIGATURE IJ
-1, -- LATIN SMALL LETTER J WITH CIRCUMFLEX .. LATIN SMALL LETTER J WITH CIRCUMFLEX
-1, -- LATIN SMALL LETTER K WITH CEDILLA .. LATIN SMALL LETTER K WITH CEDILLA
-1, -- LATIN SMALL LETTER L WITH ACUTE .. LATIN SMALL LETTER L WITH ACUTE
-1, -- LATIN SMALL LETTER L WITH CEDILLA .. LATIN SMALL LETTER L WITH CEDILLA
-1, -- LATIN SMALL LETTER L WITH CARON .. LATIN SMALL LETTER L WITH CARON
-1, -- LATIN SMALL LETTER L WITH MIDDLE DOT .. LATIN SMALL LETTER L WITH MIDDLE DOT
-1, -- LATIN SMALL LETTER L WITH STROKE .. LATIN SMALL LETTER L WITH STROKE
-1, -- LATIN SMALL LETTER N WITH ACUTE .. LATIN SMALL LETTER N WITH ACUTE
-1, -- LATIN SMALL LETTER N WITH CEDILLA .. LATIN SMALL LETTER N WITH CEDILLA
-1, -- LATIN SMALL LETTER N WITH CARON .. LATIN SMALL LETTER N WITH CARON
-1, -- LATIN SMALL LETTER ENG .. LATIN SMALL LETTER ENG
-1, -- LATIN SMALL LETTER O WITH MACRON .. LATIN SMALL LETTER O WITH MACRON
-1, -- LATIN SMALL LETTER O WITH BREVE .. LATIN SMALL LETTER O WITH BREVE
-1, -- LATIN SMALL LETTER O WITH DOUBLE ACUTE .. LATIN SMALL LETTER O WITH DOUBLE ACUTE
-1, -- LATIN SMALL LIGATURE OE .. LATIN SMALL LIGATURE OE
-1, -- LATIN SMALL LETTER R WITH ACUTE .. LATIN SMALL LETTER R WITH ACUTE
-1, -- LATIN SMALL LETTER R WITH CEDILLA .. LATIN SMALL LETTER R WITH CEDILLA
-1, -- LATIN SMALL LETTER R WITH CARON .. LATIN SMALL LETTER R WITH CARON
-1, -- LATIN SMALL LETTER S WITH ACUTE .. LATIN SMALL LETTER S WITH ACUTE
-1, -- LATIN SMALL LETTER S WITH CIRCUMFLEX .. LATIN SMALL LETTER S WITH CIRCUMFLEX
-1, -- LATIN SMALL LETTER S WITH CEDILLA .. LATIN SMALL LETTER S WITH CEDILLA
-1, -- LATIN SMALL LETTER S WITH CARON .. LATIN SMALL LETTER S WITH CARON
-1, -- LATIN SMALL LETTER T WITH CEDILLA .. LATIN SMALL LETTER T WITH CEDILLA
-1, -- LATIN SMALL LETTER T WITH CARON .. LATIN SMALL LETTER T WITH CARON
-1, -- LATIN SMALL LETTER T WITH STROKE .. LATIN SMALL LETTER T WITH STROKE
-1, -- LATIN SMALL LETTER U WITH TILDE .. LATIN SMALL LETTER U WITH TILDE
-1, -- LATIN SMALL LETTER U WITH MACRON .. LATIN SMALL LETTER U WITH MACRON
-1, -- LATIN SMALL LETTER U WITH BREVE .. LATIN SMALL LETTER U WITH BREVE
-1, -- LATIN SMALL LETTER U WITH RING ABOVE .. LATIN SMALL LETTER U WITH RING ABOVE
-1, -- LATIN SMALL LETTER U WITH DOUBLE ACUTE .. LATIN SMALL LETTER U WITH DOUBLE ACUTE
-1, -- LATIN SMALL LETTER U WITH OGONEK .. LATIN SMALL LETTER U WITH OGONEK
-1, -- LATIN SMALL LETTER W WITH CIRCUMFLEX .. LATIN SMALL LETTER W WITH CIRCUMFLEX
-1, -- LATIN SMALL LETTER Y WITH CIRCUMFLEX .. LATIN SMALL LETTER Y WITH CIRCUMFLEX
-1, -- LATIN SMALL LETTER Z WITH ACUTE .. LATIN SMALL LETTER Z WITH ACUTE
-1, -- LATIN SMALL LETTER Z WITH DOT ABOVE .. LATIN SMALL LETTER Z WITH DOT ABOVE
-1, -- LATIN SMALL LETTER Z WITH CARON .. LATIN SMALL LETTER Z WITH CARON
-300, -- LATIN SMALL LETTER LONG S .. LATIN SMALL LETTER LONG S
-1, -- LATIN SMALL LETTER B WITH TOPBAR .. LATIN SMALL LETTER B WITH TOPBAR
-1, -- LATIN SMALL LETTER TONE SIX .. LATIN SMALL LETTER TONE SIX
-1, -- LATIN SMALL LETTER C WITH HOOK .. LATIN SMALL LETTER C WITH HOOK
-1, -- LATIN SMALL LETTER D WITH TOPBAR .. LATIN SMALL LETTER D WITH TOPBAR
-1, -- LATIN SMALL LETTER F WITH HOOK .. LATIN SMALL LETTER F WITH HOOK
97, -- LATIN SMALL LETTER HV .. LATIN SMALL LETTER HV
-1, -- LATIN SMALL LETTER K WITH HOOK .. LATIN SMALL LETTER K WITH HOOK
130, -- LATIN SMALL LETTER N WITH LONG RIGHT LEG .. LATIN SMALL LETTER N WITH LONG RIGHT LEG
-1, -- LATIN SMALL LETTER O WITH HORN .. LATIN SMALL LETTER O WITH HORN
-1, -- LATIN SMALL LETTER OI .. LATIN SMALL LETTER OI
-1, -- LATIN SMALL LETTER P WITH HOOK .. LATIN SMALL LETTER P WITH HOOK
-1, -- LATIN SMALL LETTER TONE TWO .. LATIN SMALL LETTER TONE TWO
-1, -- LATIN SMALL LETTER T WITH HOOK .. LATIN SMALL LETTER T WITH HOOK
-1, -- LATIN SMALL LETTER U WITH HORN .. LATIN SMALL LETTER U WITH HORN
-1, -- LATIN SMALL LETTER Y WITH HOOK .. LATIN SMALL LETTER Y WITH HOOK
-1, -- LATIN SMALL LETTER Z WITH STROKE .. LATIN SMALL LETTER Z WITH STROKE
-1, -- LATIN SMALL LETTER EZH REVERSED .. LATIN SMALL LETTER EZH REVERSED
-1, -- LATIN SMALL LETTER TONE FIVE .. LATIN SMALL LETTER TONE FIVE
56, -- LATIN LETTER WYNN .. LATIN LETTER WYNN
-1, -- LATIN CAPITAL LETTER D WITH SMALL LETTER Z WITH CARON .. LATIN CAPITAL LETTER D WITH SMALL LETTER Z WITH CARON
-2, -- LATIN SMALL LETTER DZ WITH CARON .. LATIN SMALL LETTER DZ WITH CARON
-1, -- LATIN CAPITAL LETTER L WITH SMALL LETTER J .. LATIN CAPITAL LETTER L WITH SMALL LETTER J
-2, -- LATIN SMALL LETTER LJ .. LATIN SMALL LETTER LJ
-1, -- LATIN CAPITAL LETTER N WITH SMALL LETTER J .. LATIN CAPITAL LETTER N WITH SMALL LETTER J
-2, -- LATIN SMALL LETTER NJ .. LATIN SMALL LETTER NJ
-1, -- LATIN SMALL LETTER A WITH CARON .. LATIN SMALL LETTER A WITH CARON
-1, -- LATIN SMALL LETTER I WITH CARON .. LATIN SMALL LETTER I WITH CARON
-1, -- LATIN SMALL LETTER O WITH CARON .. LATIN SMALL LETTER O WITH CARON
-1, -- LATIN SMALL LETTER U WITH CARON .. LATIN SMALL LETTER U WITH CARON
-1, -- LATIN SMALL LETTER U WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER U WITH DIAERESIS AND MACRON
-1, -- LATIN SMALL LETTER U WITH DIAERESIS AND ACUTE .. LATIN SMALL LETTER U WITH DIAERESIS AND ACUTE
-1, -- LATIN SMALL LETTER U WITH DIAERESIS AND CARON .. LATIN SMALL LETTER U WITH DIAERESIS AND CARON
-1, -- LATIN SMALL LETTER U WITH DIAERESIS AND GRAVE .. LATIN SMALL LETTER U WITH DIAERESIS AND GRAVE
-79, -- LATIN SMALL LETTER TURNED E .. LATIN SMALL LETTER TURNED E
-1, -- LATIN SMALL LETTER A WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER A WITH DIAERESIS AND MACRON
-1, -- LATIN SMALL LETTER A WITH DOT ABOVE AND MACRON .. LATIN SMALL LETTER A WITH DOT ABOVE AND MACRON
-1, -- LATIN SMALL LETTER AE WITH MACRON .. LATIN SMALL LETTER AE WITH MACRON
-1, -- LATIN SMALL LETTER G WITH STROKE .. LATIN SMALL LETTER G WITH STROKE
-1, -- LATIN SMALL LETTER G WITH CARON .. LATIN SMALL LETTER G WITH CARON
-1, -- LATIN SMALL LETTER K WITH CARON .. LATIN SMALL LETTER K WITH CARON
-1, -- LATIN SMALL LETTER O WITH OGONEK .. LATIN SMALL LETTER O WITH OGONEK
-1, -- LATIN SMALL LETTER O WITH OGONEK AND MACRON .. LATIN SMALL LETTER O WITH OGONEK AND MACRON
-1, -- LATIN SMALL LETTER EZH WITH CARON .. LATIN SMALL LETTER EZH WITH CARON
-1, -- LATIN CAPITAL LETTER D WITH SMALL LETTER Z .. LATIN CAPITAL LETTER D WITH SMALL LETTER Z
-2, -- LATIN SMALL LETTER DZ .. LATIN SMALL LETTER DZ
-1, -- LATIN SMALL LETTER G WITH ACUTE .. LATIN SMALL LETTER G WITH ACUTE
-1, -- LATIN SMALL LETTER N WITH GRAVE .. LATIN SMALL LETTER N WITH GRAVE
-1, -- LATIN SMALL LETTER A WITH RING ABOVE AND ACUTE .. LATIN SMALL LETTER A WITH RING ABOVE AND ACUTE
-1, -- LATIN SMALL LETTER AE WITH ACUTE .. LATIN SMALL LETTER AE WITH ACUTE
-1, -- LATIN SMALL LETTER O WITH STROKE AND ACUTE .. LATIN SMALL LETTER O WITH STROKE AND ACUTE
-1, -- LATIN SMALL LETTER A WITH DOUBLE GRAVE .. LATIN SMALL LETTER A WITH DOUBLE GRAVE
-1, -- LATIN SMALL LETTER A WITH INVERTED BREVE .. LATIN SMALL LETTER A WITH INVERTED BREVE
-1, -- LATIN SMALL LETTER E WITH DOUBLE GRAVE .. LATIN SMALL LETTER E WITH DOUBLE GRAVE
-1, -- LATIN SMALL LETTER E WITH INVERTED BREVE .. LATIN SMALL LETTER E WITH INVERTED BREVE
-1, -- LATIN SMALL LETTER I WITH DOUBLE GRAVE .. LATIN SMALL LETTER I WITH DOUBLE GRAVE
-1, -- LATIN SMALL LETTER I WITH INVERTED BREVE .. LATIN SMALL LETTER I WITH INVERTED BREVE
-1, -- LATIN SMALL LETTER O WITH DOUBLE GRAVE .. LATIN SMALL LETTER O WITH DOUBLE GRAVE
-1, -- LATIN SMALL LETTER O WITH INVERTED BREVE .. LATIN SMALL LETTER O WITH INVERTED BREVE
-1, -- LATIN SMALL LETTER R WITH DOUBLE GRAVE .. LATIN SMALL LETTER R WITH DOUBLE GRAVE
-1, -- LATIN SMALL LETTER R WITH INVERTED BREVE .. LATIN SMALL LETTER R WITH INVERTED BREVE
-1, -- LATIN SMALL LETTER U WITH DOUBLE GRAVE .. LATIN SMALL LETTER U WITH DOUBLE GRAVE
-1, -- LATIN SMALL LETTER U WITH INVERTED BREVE .. LATIN SMALL LETTER U WITH INVERTED BREVE
-1, -- LATIN SMALL LETTER S WITH COMMA BELOW .. LATIN SMALL LETTER S WITH COMMA BELOW
-1, -- LATIN SMALL LETTER T WITH COMMA BELOW .. LATIN SMALL LETTER T WITH COMMA BELOW
-1, -- LATIN SMALL LETTER YOGH .. LATIN SMALL LETTER YOGH
-1, -- LATIN SMALL LETTER H WITH CARON .. LATIN SMALL LETTER H WITH CARON
-1, -- LATIN SMALL LETTER OU .. LATIN SMALL LETTER OU
-1, -- LATIN SMALL LETTER Z WITH HOOK .. LATIN SMALL LETTER Z WITH HOOK
-1, -- LATIN SMALL LETTER A WITH DOT ABOVE .. LATIN SMALL LETTER A WITH DOT ABOVE
-1, -- LATIN SMALL LETTER E WITH CEDILLA .. LATIN SMALL LETTER E WITH CEDILLA
-1, -- LATIN SMALL LETTER O WITH DIAERESIS AND MACRON .. LATIN SMALL LETTER O WITH DIAERESIS AND MACRON
-1, -- LATIN SMALL LETTER O WITH TILDE AND MACRON .. LATIN SMALL LETTER O WITH TILDE AND MACRON
-1, -- LATIN SMALL LETTER O WITH DOT ABOVE .. LATIN SMALL LETTER O WITH DOT ABOVE
-1, -- LATIN SMALL LETTER O WITH DOT ABOVE AND MACRON .. LATIN SMALL LETTER O WITH DOT ABOVE AND MACRON
-1, -- LATIN SMALL LETTER Y WITH MACRON .. LATIN SMALL LETTER Y WITH MACRON
-210, -- LATIN SMALL LETTER B WITH HOOK .. LATIN SMALL LETTER B WITH HOOK
-206, -- LATIN SMALL LETTER OPEN O .. LATIN SMALL LETTER OPEN O
-205, -- LATIN SMALL LETTER D WITH TAIL .. LATIN SMALL LETTER D WITH HOOK
-202, -- LATIN SMALL LETTER SCHWA .. LATIN SMALL LETTER SCHWA
-203, -- LATIN SMALL LETTER OPEN E .. LATIN SMALL LETTER OPEN E
-205, -- LATIN SMALL LETTER G WITH HOOK .. LATIN SMALL LETTER G WITH HOOK
-207, -- LATIN SMALL LETTER GAMMA .. LATIN SMALL LETTER GAMMA
-209, -- LATIN SMALL LETTER I WITH STROKE .. LATIN SMALL LETTER I WITH STROKE
-211, -- LATIN SMALL LETTER IOTA .. LATIN SMALL LETTER IOTA
-211, -- LATIN SMALL LETTER TURNED M .. LATIN SMALL LETTER TURNED M
-213, -- LATIN SMALL LETTER N WITH LEFT HOOK .. LATIN SMALL LETTER N WITH LEFT HOOK
-214, -- LATIN SMALL LETTER BARRED O .. LATIN SMALL LETTER BARRED O
-218, -- LATIN LETTER SMALL CAPITAL R .. LATIN LETTER SMALL CAPITAL R
-218, -- LATIN SMALL LETTER ESH .. LATIN SMALL LETTER ESH
-218, -- LATIN SMALL LETTER T WITH RETROFLEX HOOK .. LATIN SMALL LETTER T WITH RETROFLEX HOOK
-217, -- LATIN SMALL LETTER UPSILON .. LATIN SMALL LETTER V WITH HOOK
-219, -- LATIN SMALL LETTER EZH .. LATIN SMALL LETTER EZH
-38, -- GREEK SMALL LETTER ALPHA WITH TONOS .. GREEK SMALL LETTER ALPHA WITH TONOS
-37, -- GREEK SMALL LETTER EPSILON WITH TONOS .. GREEK SMALL LETTER IOTA WITH TONOS
-32, -- GREEK SMALL LETTER ALPHA .. GREEK SMALL LETTER RHO
-31, -- GREEK SMALL LETTER FINAL SIGMA .. GREEK SMALL LETTER FINAL SIGMA
-32, -- GREEK SMALL LETTER SIGMA .. GREEK SMALL LETTER UPSILON WITH DIALYTIKA
-64, -- GREEK SMALL LETTER OMICRON WITH TONOS .. GREEK SMALL LETTER OMICRON WITH TONOS
-63, -- GREEK SMALL LETTER UPSILON WITH TONOS .. GREEK SMALL LETTER OMEGA WITH TONOS
-62, -- GREEK BETA SYMBOL .. GREEK BETA SYMBOL
-57, -- GREEK THETA SYMBOL .. GREEK THETA SYMBOL
-47, -- GREEK PHI SYMBOL .. GREEK PHI SYMBOL
-54, -- GREEK PI SYMBOL .. GREEK PI SYMBOL
-1, -- GREEK SMALL LETTER ARCHAIC KOPPA .. GREEK SMALL LETTER ARCHAIC KOPPA
-1, -- GREEK SMALL LETTER STIGMA .. GREEK SMALL LETTER STIGMA
-1, -- GREEK SMALL LETTER DIGAMMA .. GREEK SMALL LETTER DIGAMMA
-1, -- GREEK SMALL LETTER KOPPA .. GREEK SMALL LETTER KOPPA
-1, -- GREEK SMALL LETTER SAMPI .. GREEK SMALL LETTER SAMPI
-1, -- COPTIC SMALL LETTER SHEI .. COPTIC SMALL LETTER SHEI
-1, -- COPTIC SMALL LETTER FEI .. COPTIC SMALL LETTER FEI
-1, -- COPTIC SMALL LETTER KHEI .. COPTIC SMALL LETTER KHEI
-1, -- COPTIC SMALL LETTER HORI .. COPTIC SMALL LETTER HORI
-1, -- COPTIC SMALL LETTER GANGIA .. COPTIC SMALL LETTER GANGIA
-1, -- COPTIC SMALL LETTER SHIMA .. COPTIC SMALL LETTER SHIMA
-1, -- COPTIC SMALL LETTER DEI .. COPTIC SMALL LETTER DEI
-86, -- GREEK KAPPA SYMBOL .. GREEK KAPPA SYMBOL
-80, -- GREEK RHO SYMBOL .. GREEK RHO SYMBOL
-79, -- GREEK LUNATE SIGMA SYMBOL .. GREEK LUNATE SIGMA SYMBOL
-96, -- GREEK LUNATE EPSILON SYMBOL .. GREEK LUNATE EPSILON SYMBOL
-32, -- CYRILLIC SMALL LETTER A .. CYRILLIC SMALL LETTER YA
-80, -- CYRILLIC SMALL LETTER IE WITH GRAVE .. CYRILLIC SMALL LETTER DZHE
-1, -- CYRILLIC SMALL LETTER OMEGA .. CYRILLIC SMALL LETTER OMEGA
-1, -- CYRILLIC SMALL LETTER YAT .. CYRILLIC SMALL LETTER YAT
-1, -- CYRILLIC SMALL LETTER IOTIFIED E .. CYRILLIC SMALL LETTER IOTIFIED E
-1, -- CYRILLIC SMALL LETTER LITTLE YUS .. CYRILLIC SMALL LETTER LITTLE YUS
-1, -- CYRILLIC SMALL LETTER IOTIFIED LITTLE YUS .. CYRILLIC SMALL LETTER IOTIFIED LITTLE YUS
-1, -- CYRILLIC SMALL LETTER BIG YUS .. CYRILLIC SMALL LETTER BIG YUS
-1, -- CYRILLIC SMALL LETTER IOTIFIED BIG YUS .. CYRILLIC SMALL LETTER IOTIFIED BIG YUS
-1, -- CYRILLIC SMALL LETTER KSI .. CYRILLIC SMALL LETTER KSI
-1, -- CYRILLIC SMALL LETTER PSI .. CYRILLIC SMALL LETTER PSI
-1, -- CYRILLIC SMALL LETTER FITA .. CYRILLIC SMALL LETTER FITA
-1, -- CYRILLIC SMALL LETTER IZHITSA .. CYRILLIC SMALL LETTER IZHITSA
-1, -- CYRILLIC SMALL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT .. CYRILLIC SMALL LETTER IZHITSA WITH DOUBLE GRAVE ACCENT
-1, -- CYRILLIC SMALL LETTER UK .. CYRILLIC SMALL LETTER UK
-1, -- CYRILLIC SMALL LETTER ROUND OMEGA .. CYRILLIC SMALL LETTER ROUND OMEGA
-1, -- CYRILLIC SMALL LETTER OMEGA WITH TITLO .. CYRILLIC SMALL LETTER OMEGA WITH TITLO
-1, -- CYRILLIC SMALL LETTER OT .. CYRILLIC SMALL LETTER OT
-1, -- CYRILLIC SMALL LETTER KOPPA .. CYRILLIC SMALL LETTER KOPPA
-1, -- CYRILLIC SMALL LETTER SHORT I WITH TAIL .. CYRILLIC SMALL LETTER SHORT I WITH TAIL
-1, -- CYRILLIC SMALL LETTER SEMISOFT SIGN .. CYRILLIC SMALL LETTER SEMISOFT SIGN
-1, -- CYRILLIC SMALL LETTER ER WITH TICK .. CYRILLIC SMALL LETTER ER WITH TICK
-1, -- CYRILLIC SMALL LETTER GHE WITH UPTURN .. CYRILLIC SMALL LETTER GHE WITH UPTURN
-1, -- CYRILLIC SMALL LETTER GHE WITH STROKE .. CYRILLIC SMALL LETTER GHE WITH STROKE
-1, -- CYRILLIC SMALL LETTER GHE WITH MIDDLE HOOK .. CYRILLIC SMALL LETTER GHE WITH MIDDLE HOOK
-1, -- CYRILLIC SMALL LETTER ZHE WITH DESCENDER .. CYRILLIC SMALL LETTER ZHE WITH DESCENDER
-1, -- CYRILLIC SMALL LETTER ZE WITH DESCENDER .. CYRILLIC SMALL LETTER ZE WITH DESCENDER
-1, -- CYRILLIC SMALL LETTER KA WITH DESCENDER .. CYRILLIC SMALL LETTER KA WITH DESCENDER
-1, -- CYRILLIC SMALL LETTER KA WITH VERTICAL STROKE .. CYRILLIC SMALL LETTER KA WITH VERTICAL STROKE
-1, -- CYRILLIC SMALL LETTER KA WITH STROKE .. CYRILLIC SMALL LETTER KA WITH STROKE
-1, -- CYRILLIC SMALL LETTER BASHKIR KA .. CYRILLIC SMALL LETTER BASHKIR KA
-1, -- CYRILLIC SMALL LETTER EN WITH DESCENDER .. CYRILLIC SMALL LETTER EN WITH DESCENDER
-1, -- CYRILLIC SMALL LIGATURE EN GHE .. CYRILLIC SMALL LIGATURE EN GHE
-1, -- CYRILLIC SMALL LETTER PE WITH MIDDLE HOOK .. CYRILLIC SMALL LETTER PE WITH MIDDLE HOOK
-1, -- CYRILLIC SMALL LETTER ABKHASIAN HA .. CYRILLIC SMALL LETTER ABKHASIAN HA
-1, -- CYRILLIC SMALL LETTER ES WITH DESCENDER .. CYRILLIC SMALL LETTER ES WITH DESCENDER
-1, -- CYRILLIC SMALL LETTER TE WITH DESCENDER .. CYRILLIC SMALL LETTER TE WITH DESCENDER
-1, -- CYRILLIC SMALL LETTER STRAIGHT U .. CYRILLIC SMALL LETTER STRAIGHT U
-1, -- CYRILLIC SMALL LETTER STRAIGHT U WITH STROKE .. CYRILLIC SMALL LETTER STRAIGHT U WITH STROKE
-1, -- CYRILLIC SMALL LETTER HA WITH DESCENDER .. CYRILLIC SMALL LETTER HA WITH DESCENDER
-1, -- CYRILLIC SMALL LIGATURE TE TSE .. CYRILLIC SMALL LIGATURE TE TSE
-1, -- CYRILLIC SMALL LETTER CHE WITH DESCENDER .. CYRILLIC SMALL LETTER CHE WITH DESCENDER
-1, -- CYRILLIC SMALL LETTER CHE WITH VERTICAL STROKE .. CYRILLIC SMALL LETTER CHE WITH VERTICAL STROKE
-1, -- CYRILLIC SMALL LETTER SHHA .. CYRILLIC SMALL LETTER SHHA
-1, -- CYRILLIC SMALL LETTER ABKHASIAN CHE .. CYRILLIC SMALL LETTER ABKHASIAN CHE
-1, -- CYRILLIC SMALL LETTER ABKHASIAN CHE WITH DESCENDER .. CYRILLIC SMALL LETTER ABKHASIAN CHE WITH DESCENDER
-1, -- CYRILLIC SMALL LETTER ZHE WITH BREVE .. CYRILLIC SMALL LETTER ZHE WITH BREVE
-1, -- CYRILLIC SMALL LETTER KA WITH HOOK .. CYRILLIC SMALL LETTER KA WITH HOOK
-1, -- CYRILLIC SMALL LETTER EL WITH TAIL .. CYRILLIC SMALL LETTER EL WITH TAIL
-1, -- CYRILLIC SMALL LETTER EN WITH HOOK .. CYRILLIC SMALL LETTER EN WITH HOOK
-1, -- CYRILLIC SMALL LETTER EN WITH TAIL .. CYRILLIC SMALL LETTER EN WITH TAIL
-1, -- CYRILLIC SMALL LETTER KHAKASSIAN CHE .. CYRILLIC SMALL LETTER KHAKASSIAN CHE
-1, -- CYRILLIC SMALL LETTER EM WITH TAIL .. CYRILLIC SMALL LETTER EM WITH TAIL
-1, -- CYRILLIC SMALL LETTER A WITH BREVE .. CYRILLIC SMALL LETTER A WITH BREVE
-1, -- CYRILLIC SMALL LETTER A WITH DIAERESIS .. CYRILLIC SMALL LETTER A WITH DIAERESIS
-1, -- CYRILLIC SMALL LIGATURE A IE .. CYRILLIC SMALL LIGATURE A IE
-1, -- CYRILLIC SMALL LETTER IE WITH BREVE .. CYRILLIC SMALL LETTER IE WITH BREVE
-1, -- CYRILLIC SMALL LETTER SCHWA .. CYRILLIC SMALL LETTER SCHWA
-1, -- CYRILLIC SMALL LETTER SCHWA WITH DIAERESIS .. CYRILLIC SMALL LETTER SCHWA WITH DIAERESIS
-1, -- CYRILLIC SMALL LETTER ZHE WITH DIAERESIS .. CYRILLIC SMALL LETTER ZHE WITH DIAERESIS
-1, -- CYRILLIC SMALL LETTER ZE WITH DIAERESIS .. CYRILLIC SMALL LETTER ZE WITH DIAERESIS
-1, -- CYRILLIC SMALL LETTER ABKHASIAN DZE .. CYRILLIC SMALL LETTER ABKHASIAN DZE
-1, -- CYRILLIC SMALL LETTER I WITH MACRON .. CYRILLIC SMALL LETTER I WITH MACRON
-1, -- CYRILLIC SMALL LETTER I WITH DIAERESIS .. CYRILLIC SMALL LETTER I WITH DIAERESIS
-1, -- CYRILLIC SMALL LETTER O WITH DIAERESIS .. CYRILLIC SMALL LETTER O WITH DIAERESIS
-1, -- CYRILLIC SMALL LETTER BARRED O .. CYRILLIC SMALL LETTER BARRED O
-1, -- CYRILLIC SMALL LETTER BARRED O WITH DIAERESIS .. CYRILLIC SMALL LETTER BARRED O WITH DIAERESIS
-1, -- CYRILLIC SMALL LETTER E WITH DIAERESIS .. CYRILLIC SMALL LETTER E WITH DIAERESIS
-1, -- CYRILLIC SMALL LETTER U WITH MACRON .. CYRILLIC SMALL LETTER U WITH MACRON
-1, -- CYRILLIC SMALL LETTER U WITH DIAERESIS .. CYRILLIC SMALL LETTER U WITH DIAERESIS
-1, -- CYRILLIC SMALL LETTER U WITH DOUBLE ACUTE .. CYRILLIC SMALL LETTER U WITH DOUBLE ACUTE
-1, -- CYRILLIC SMALL LETTER CHE WITH DIAERESIS .. CYRILLIC SMALL LETTER CHE WITH DIAERESIS
-1, -- CYRILLIC SMALL LETTER YERU WITH DIAERESIS .. CYRILLIC SMALL LETTER YERU WITH DIAERESIS
-1, -- CYRILLIC SMALL LETTER KOMI DE .. CYRILLIC SMALL LETTER KOMI DE
-1, -- CYRILLIC SMALL LETTER KOMI DJE .. CYRILLIC SMALL LETTER KOMI DJE
-1, -- CYRILLIC SMALL LETTER KOMI ZJE .. CYRILLIC SMALL LETTER KOMI ZJE
-1, -- CYRILLIC SMALL LETTER KOMI DZJE .. CYRILLIC SMALL LETTER KOMI DZJE
-1, -- CYRILLIC SMALL LETTER KOMI LJE .. CYRILLIC SMALL LETTER KOMI LJE
-1, -- CYRILLIC SMALL LETTER KOMI NJE .. CYRILLIC SMALL LETTER KOMI NJE
-1, -- CYRILLIC SMALL LETTER KOMI SJE .. CYRILLIC SMALL LETTER KOMI SJE
-1, -- CYRILLIC SMALL LETTER KOMI TJE .. CYRILLIC SMALL LETTER KOMI TJE
-48, -- ARMENIAN SMALL LETTER AYB .. ARMENIAN SMALL LETTER FEH
-1, -- LATIN SMALL LETTER A WITH RING BELOW .. LATIN SMALL LETTER A WITH RING BELOW
-1, -- LATIN SMALL LETTER B WITH DOT ABOVE .. LATIN SMALL LETTER B WITH DOT ABOVE
-1, -- LATIN SMALL LETTER B WITH DOT BELOW .. LATIN SMALL LETTER B WITH DOT BELOW
-1, -- LATIN SMALL LETTER B WITH LINE BELOW .. LATIN SMALL LETTER B WITH LINE BELOW
-1, -- LATIN SMALL LETTER C WITH CEDILLA AND ACUTE .. LATIN SMALL LETTER C WITH CEDILLA AND ACUTE
-1, -- LATIN SMALL LETTER D WITH DOT ABOVE .. LATIN SMALL LETTER D WITH DOT ABOVE
-1, -- LATIN SMALL LETTER D WITH DOT BELOW .. LATIN SMALL LETTER D WITH DOT BELOW
-1, -- LATIN SMALL LETTER D WITH LINE BELOW .. LATIN SMALL LETTER D WITH LINE BELOW
-1, -- LATIN SMALL LETTER D WITH CEDILLA .. LATIN SMALL LETTER D WITH CEDILLA
-1, -- LATIN SMALL LETTER D WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER D WITH CIRCUMFLEX BELOW
-1, -- LATIN SMALL LETTER E WITH MACRON AND GRAVE .. LATIN SMALL LETTER E WITH MACRON AND GRAVE
-1, -- LATIN SMALL LETTER E WITH MACRON AND ACUTE .. LATIN SMALL LETTER E WITH MACRON AND ACUTE
-1, -- LATIN SMALL LETTER E WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER E WITH CIRCUMFLEX BELOW
-1, -- LATIN SMALL LETTER E WITH TILDE BELOW .. LATIN SMALL LETTER E WITH TILDE BELOW
-1, -- LATIN SMALL LETTER E WITH CEDILLA AND BREVE .. LATIN SMALL LETTER E WITH CEDILLA AND BREVE
-1, -- LATIN SMALL LETTER F WITH DOT ABOVE .. LATIN SMALL LETTER F WITH DOT ABOVE
-1, -- LATIN SMALL LETTER G WITH MACRON .. LATIN SMALL LETTER G WITH MACRON
-1, -- LATIN SMALL LETTER H WITH DOT ABOVE .. LATIN SMALL LETTER H WITH DOT ABOVE
-1, -- LATIN SMALL LETTER H WITH DOT BELOW .. LATIN SMALL LETTER H WITH DOT BELOW
-1, -- LATIN SMALL LETTER H WITH DIAERESIS .. LATIN SMALL LETTER H WITH DIAERESIS
-1, -- LATIN SMALL LETTER H WITH CEDILLA .. LATIN SMALL LETTER H WITH CEDILLA
-1, -- LATIN SMALL LETTER H WITH BREVE BELOW .. LATIN SMALL LETTER H WITH BREVE BELOW
-1, -- LATIN SMALL LETTER I WITH TILDE BELOW .. LATIN SMALL LETTER I WITH TILDE BELOW
-1, -- LATIN SMALL LETTER I WITH DIAERESIS AND ACUTE .. LATIN SMALL LETTER I WITH DIAERESIS AND ACUTE
-1, -- LATIN SMALL LETTER K WITH ACUTE .. LATIN SMALL LETTER K WITH ACUTE
-1, -- LATIN SMALL LETTER K WITH DOT BELOW .. LATIN SMALL LETTER K WITH DOT BELOW
-1, -- LATIN SMALL LETTER K WITH LINE BELOW .. LATIN SMALL LETTER K WITH LINE BELOW
-1, -- LATIN SMALL LETTER L WITH DOT BELOW .. LATIN SMALL LETTER L WITH DOT BELOW
-1, -- LATIN SMALL LETTER L WITH DOT BELOW AND MACRON .. LATIN SMALL LETTER L WITH DOT BELOW AND MACRON
-1, -- LATIN SMALL LETTER L WITH LINE BELOW .. LATIN SMALL LETTER L WITH LINE BELOW
-1, -- LATIN SMALL LETTER L WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER L WITH CIRCUMFLEX BELOW
-1, -- LATIN SMALL LETTER M WITH ACUTE .. LATIN SMALL LETTER M WITH ACUTE
-1, -- LATIN SMALL LETTER M WITH DOT ABOVE .. LATIN SMALL LETTER M WITH DOT ABOVE
-1, -- LATIN SMALL LETTER M WITH DOT BELOW .. LATIN SMALL LETTER M WITH DOT BELOW
-1, -- LATIN SMALL LETTER N WITH DOT ABOVE .. LATIN SMALL LETTER N WITH DOT ABOVE
-1, -- LATIN SMALL LETTER N WITH DOT BELOW .. LATIN SMALL LETTER N WITH DOT BELOW
-1, -- LATIN SMALL LETTER N WITH LINE BELOW .. LATIN SMALL LETTER N WITH LINE BELOW
-1, -- LATIN SMALL LETTER N WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER N WITH CIRCUMFLEX BELOW
-1, -- LATIN SMALL LETTER O WITH TILDE AND ACUTE .. LATIN SMALL LETTER O WITH TILDE AND ACUTE
-1, -- LATIN SMALL LETTER O WITH TILDE AND DIAERESIS .. LATIN SMALL LETTER O WITH TILDE AND DIAERESIS
-1, -- LATIN SMALL LETTER O WITH MACRON AND GRAVE .. LATIN SMALL LETTER O WITH MACRON AND GRAVE
-1, -- LATIN SMALL LETTER O WITH MACRON AND ACUTE .. LATIN SMALL LETTER O WITH MACRON AND ACUTE
-1, -- LATIN SMALL LETTER P WITH ACUTE .. LATIN SMALL LETTER P WITH ACUTE
-1, -- LATIN SMALL LETTER P WITH DOT ABOVE .. LATIN SMALL LETTER P WITH DOT ABOVE
-1, -- LATIN SMALL LETTER R WITH DOT ABOVE .. LATIN SMALL LETTER R WITH DOT ABOVE
-1, -- LATIN SMALL LETTER R WITH DOT BELOW .. LATIN SMALL LETTER R WITH DOT BELOW
-1, -- LATIN SMALL LETTER R WITH DOT BELOW AND MACRON .. LATIN SMALL LETTER R WITH DOT BELOW AND MACRON
-1, -- LATIN SMALL LETTER R WITH LINE BELOW .. LATIN SMALL LETTER R WITH LINE BELOW
-1, -- LATIN SMALL LETTER S WITH DOT ABOVE .. LATIN SMALL LETTER S WITH DOT ABOVE
-1, -- LATIN SMALL LETTER S WITH DOT BELOW .. LATIN SMALL LETTER S WITH DOT BELOW
-1, -- LATIN SMALL LETTER S WITH ACUTE AND DOT ABOVE .. LATIN SMALL LETTER S WITH ACUTE AND DOT ABOVE
-1, -- LATIN SMALL LETTER S WITH CARON AND DOT ABOVE .. LATIN SMALL LETTER S WITH CARON AND DOT ABOVE
-1, -- LATIN SMALL LETTER S WITH DOT BELOW AND DOT ABOVE .. LATIN SMALL LETTER S WITH DOT BELOW AND DOT ABOVE
-1, -- LATIN SMALL LETTER T WITH DOT ABOVE .. LATIN SMALL LETTER T WITH DOT ABOVE
-1, -- LATIN SMALL LETTER T WITH DOT BELOW .. LATIN SMALL LETTER T WITH DOT BELOW
-1, -- LATIN SMALL LETTER T WITH LINE BELOW .. LATIN SMALL LETTER T WITH LINE BELOW
-1, -- LATIN SMALL LETTER T WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER T WITH CIRCUMFLEX BELOW
-1, -- LATIN SMALL LETTER U WITH DIAERESIS BELOW .. LATIN SMALL LETTER U WITH DIAERESIS BELOW
-1, -- LATIN SMALL LETTER U WITH TILDE BELOW .. LATIN SMALL LETTER U WITH TILDE BELOW
-1, -- LATIN SMALL LETTER U WITH CIRCUMFLEX BELOW .. LATIN SMALL LETTER U WITH CIRCUMFLEX BELOW
-1, -- LATIN SMALL LETTER U WITH TILDE AND ACUTE .. LATIN SMALL LETTER U WITH TILDE AND ACUTE
-1, -- LATIN SMALL LETTER U WITH MACRON AND DIAERESIS .. LATIN SMALL LETTER U WITH MACRON AND DIAERESIS
-1, -- LATIN SMALL LETTER V WITH TILDE .. LATIN SMALL LETTER V WITH TILDE
-1, -- LATIN SMALL LETTER V WITH DOT BELOW .. LATIN SMALL LETTER V WITH DOT BELOW
-1, -- LATIN SMALL LETTER W WITH GRAVE .. LATIN SMALL LETTER W WITH GRAVE
-1, -- LATIN SMALL LETTER W WITH ACUTE .. LATIN SMALL LETTER W WITH ACUTE
-1, -- LATIN SMALL LETTER W WITH DIAERESIS .. LATIN SMALL LETTER W WITH DIAERESIS
-1, -- LATIN SMALL LETTER W WITH DOT ABOVE .. LATIN SMALL LETTER W WITH DOT ABOVE
-1, -- LATIN SMALL LETTER W WITH DOT BELOW .. LATIN SMALL LETTER W WITH DOT BELOW
-1, -- LATIN SMALL LETTER X WITH DOT ABOVE .. LATIN SMALL LETTER X WITH DOT ABOVE
-1, -- LATIN SMALL LETTER X WITH DIAERESIS .. LATIN SMALL LETTER X WITH DIAERESIS
-1, -- LATIN SMALL LETTER Y WITH DOT ABOVE .. LATIN SMALL LETTER Y WITH DOT ABOVE
-1, -- LATIN SMALL LETTER Z WITH CIRCUMFLEX .. LATIN SMALL LETTER Z WITH CIRCUMFLEX
-1, -- LATIN SMALL LETTER Z WITH DOT BELOW .. LATIN SMALL LETTER Z WITH DOT BELOW
-1, -- LATIN SMALL LETTER Z WITH LINE BELOW .. LATIN SMALL LETTER Z WITH LINE BELOW
-59, -- LATIN SMALL LETTER LONG S WITH DOT ABOVE .. LATIN SMALL LETTER LONG S WITH DOT ABOVE
-1, -- LATIN SMALL LETTER A WITH DOT BELOW .. LATIN SMALL LETTER A WITH DOT BELOW
-1, -- LATIN SMALL LETTER A WITH HOOK ABOVE .. LATIN SMALL LETTER A WITH HOOK ABOVE
-1, -- LATIN SMALL LETTER A WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND ACUTE
-1, -- LATIN SMALL LETTER A WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND GRAVE
-1, -- LATIN SMALL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND HOOK ABOVE
-1, -- LATIN SMALL LETTER A WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND TILDE
-1, -- LATIN SMALL LETTER A WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER A WITH CIRCUMFLEX AND DOT BELOW
-1, -- LATIN SMALL LETTER A WITH BREVE AND ACUTE .. LATIN SMALL LETTER A WITH BREVE AND ACUTE
-1, -- LATIN SMALL LETTER A WITH BREVE AND GRAVE .. LATIN SMALL LETTER A WITH BREVE AND GRAVE
-1, -- LATIN SMALL LETTER A WITH BREVE AND HOOK ABOVE .. LATIN SMALL LETTER A WITH BREVE AND HOOK ABOVE
-1, -- LATIN SMALL LETTER A WITH BREVE AND TILDE .. LATIN SMALL LETTER A WITH BREVE AND TILDE
-1, -- LATIN SMALL LETTER A WITH BREVE AND DOT BELOW .. LATIN SMALL LETTER A WITH BREVE AND DOT BELOW
-1, -- LATIN SMALL LETTER E WITH DOT BELOW .. LATIN SMALL LETTER E WITH DOT BELOW
-1, -- LATIN SMALL LETTER E WITH HOOK ABOVE .. LATIN SMALL LETTER E WITH HOOK ABOVE
-1, -- LATIN SMALL LETTER E WITH TILDE .. LATIN SMALL LETTER E WITH TILDE
-1, -- LATIN SMALL LETTER E WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND ACUTE
-1, -- LATIN SMALL LETTER E WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND GRAVE
-1, -- LATIN SMALL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND HOOK ABOVE
-1, -- LATIN SMALL LETTER E WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND TILDE
-1, -- LATIN SMALL LETTER E WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER E WITH CIRCUMFLEX AND DOT BELOW
-1, -- LATIN SMALL LETTER I WITH HOOK ABOVE .. LATIN SMALL LETTER I WITH HOOK ABOVE
-1, -- LATIN SMALL LETTER I WITH DOT BELOW .. LATIN SMALL LETTER I WITH DOT BELOW
-1, -- LATIN SMALL LETTER O WITH DOT BELOW .. LATIN SMALL LETTER O WITH DOT BELOW
-1, -- LATIN SMALL LETTER O WITH HOOK ABOVE .. LATIN SMALL LETTER O WITH HOOK ABOVE
-1, -- LATIN SMALL LETTER O WITH CIRCUMFLEX AND ACUTE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND ACUTE
-1, -- LATIN SMALL LETTER O WITH CIRCUMFLEX AND GRAVE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND GRAVE
-1, -- LATIN SMALL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND HOOK ABOVE
-1, -- LATIN SMALL LETTER O WITH CIRCUMFLEX AND TILDE .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND TILDE
-1, -- LATIN SMALL LETTER O WITH CIRCUMFLEX AND DOT BELOW .. LATIN SMALL LETTER O WITH CIRCUMFLEX AND DOT BELOW
-1, -- LATIN SMALL LETTER O WITH HORN AND ACUTE .. LATIN SMALL LETTER O WITH HORN AND ACUTE
-1, -- LATIN SMALL LETTER O WITH HORN AND GRAVE .. LATIN SMALL LETTER O WITH HORN AND GRAVE
-1, -- LATIN SMALL LETTER O WITH HORN AND HOOK ABOVE .. LATIN SMALL LETTER O WITH HORN AND HOOK ABOVE
-1, -- LATIN SMALL LETTER O WITH HORN AND TILDE .. LATIN SMALL LETTER O WITH HORN AND TILDE
-1, -- LATIN SMALL LETTER O WITH HORN AND DOT BELOW .. LATIN SMALL LETTER O WITH HORN AND DOT BELOW
-1, -- LATIN SMALL LETTER U WITH DOT BELOW .. LATIN SMALL LETTER U WITH DOT BELOW
-1, -- LATIN SMALL LETTER U WITH HOOK ABOVE .. LATIN SMALL LETTER U WITH HOOK ABOVE
-1, -- LATIN SMALL LETTER U WITH HORN AND ACUTE .. LATIN SMALL LETTER U WITH HORN AND ACUTE
-1, -- LATIN SMALL LETTER U WITH HORN AND GRAVE .. LATIN SMALL LETTER U WITH HORN AND GRAVE
-1, -- LATIN SMALL LETTER U WITH HORN AND HOOK ABOVE .. LATIN SMALL LETTER U WITH HORN AND HOOK ABOVE
-1, -- LATIN SMALL LETTER U WITH HORN AND TILDE .. LATIN SMALL LETTER U WITH HORN AND TILDE
-1, -- LATIN SMALL LETTER U WITH HORN AND DOT BELOW .. LATIN SMALL LETTER U WITH HORN AND DOT BELOW
-1, -- LATIN SMALL LETTER Y WITH GRAVE .. LATIN SMALL LETTER Y WITH GRAVE
-1, -- LATIN SMALL LETTER Y WITH DOT BELOW .. LATIN SMALL LETTER Y WITH DOT BELOW
-1, -- LATIN SMALL LETTER Y WITH HOOK ABOVE .. LATIN SMALL LETTER Y WITH HOOK ABOVE
-1, -- LATIN SMALL LETTER Y WITH TILDE .. LATIN SMALL LETTER Y WITH TILDE
8, -- GREEK SMALL LETTER ALPHA WITH PSILI .. GREEK SMALL LETTER ALPHA WITH DASIA AND PERISPOMENI
8, -- GREEK SMALL LETTER EPSILON WITH PSILI .. GREEK SMALL LETTER EPSILON WITH DASIA AND OXIA
8, -- GREEK SMALL LETTER ETA WITH PSILI .. GREEK SMALL LETTER ETA WITH DASIA AND PERISPOMENI
8, -- GREEK SMALL LETTER IOTA WITH PSILI .. GREEK SMALL LETTER IOTA WITH DASIA AND PERISPOMENI
8, -- GREEK SMALL LETTER OMICRON WITH PSILI .. GREEK SMALL LETTER OMICRON WITH DASIA AND OXIA
8, -- GREEK SMALL LETTER UPSILON WITH DASIA .. GREEK SMALL LETTER UPSILON WITH DASIA
8, -- GREEK SMALL LETTER UPSILON WITH DASIA AND VARIA .. GREEK SMALL LETTER UPSILON WITH DASIA AND VARIA
8, -- GREEK SMALL LETTER UPSILON WITH DASIA AND OXIA .. GREEK SMALL LETTER UPSILON WITH DASIA AND OXIA
8, -- GREEK SMALL LETTER UPSILON WITH DASIA AND PERISPOMENI .. GREEK SMALL LETTER UPSILON WITH DASIA AND PERISPOMENI
8, -- GREEK SMALL LETTER OMEGA WITH PSILI .. GREEK SMALL LETTER OMEGA WITH DASIA AND PERISPOMENI
74, -- GREEK SMALL LETTER ALPHA WITH VARIA .. GREEK SMALL LETTER ALPHA WITH OXIA
86, -- GREEK SMALL LETTER EPSILON WITH VARIA .. GREEK SMALL LETTER ETA WITH OXIA
100, -- GREEK SMALL LETTER IOTA WITH VARIA .. GREEK SMALL LETTER IOTA WITH OXIA
128, -- GREEK SMALL LETTER OMICRON WITH VARIA .. GREEK SMALL LETTER OMICRON WITH OXIA
112, -- GREEK SMALL LETTER UPSILON WITH VARIA .. GREEK SMALL LETTER UPSILON WITH OXIA
126, -- GREEK SMALL LETTER OMEGA WITH VARIA .. GREEK SMALL LETTER OMEGA WITH OXIA
8, -- GREEK SMALL LETTER ALPHA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER ALPHA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
8, -- GREEK SMALL LETTER ETA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER ETA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
8, -- GREEK SMALL LETTER OMEGA WITH PSILI AND YPOGEGRAMMENI .. GREEK SMALL LETTER OMEGA WITH DASIA AND PERISPOMENI AND YPOGEGRAMMENI
8, -- GREEK SMALL LETTER ALPHA WITH VRACHY .. GREEK SMALL LETTER ALPHA WITH MACRON
9, -- GREEK SMALL LETTER ALPHA WITH YPOGEGRAMMENI .. GREEK SMALL LETTER ALPHA WITH YPOGEGRAMMENI
-7205, -- GREEK PROSGEGRAMMENI .. GREEK PROSGEGRAMMENI
9, -- GREEK SMALL LETTER ETA WITH YPOGEGRAMMENI .. GREEK SMALL LETTER ETA WITH YPOGEGRAMMENI
8, -- GREEK SMALL LETTER IOTA WITH VRACHY .. GREEK SMALL LETTER IOTA WITH MACRON
8, -- GREEK SMALL LETTER UPSILON WITH VRACHY .. GREEK SMALL LETTER UPSILON WITH MACRON
7, -- GREEK SMALL LETTER RHO WITH DASIA .. GREEK SMALL LETTER RHO WITH DASIA
9, -- GREEK SMALL LETTER OMEGA WITH YPOGEGRAMMENI .. GREEK SMALL LETTER OMEGA WITH YPOGEGRAMMENI
-32, -- FULLWIDTH LATIN SMALL LETTER A .. FULLWIDTH LATIN SMALL LETTER Z
-40); -- DESERET SMALL LETTER LONG I .. DESERET SMALL LETTER ENG
-----------------------
-- Local Subprograms --
-----------------------
function Range_Search (U : UTF_32; R : UTF_32_Ranges) return Natural;
-- Searches the given ranges (which must be in ascending order by Lo value)
-- and returns the index of the matching range in R if U matches one of the
-- ranges. If U matches none of the ranges, returns zero.
------------------
-- Get_Category --
------------------
function Get_Category (U : UTF_32) return Category is
begin
-- Deal with FFFE/FFFF cases
if U mod 2#1_0000# >= 16#FFFE# then
return Fe;
-- Otherwise search table
else
declare
Index : constant Integer := Range_Search (U, Unicode_Ranges);
begin
if Index = 0 then
return Cn;
else
return Unicode_Categories (Index);
end if;
end;
end if;
end Get_Category;
---------------------
-- Is_UTF_32_Digit --
---------------------
function Is_UTF_32_Digit (U : UTF_32) return Boolean is
begin
return Range_Search (U, UTF_32_Digits) /= 0;
end Is_UTF_32_Digit;
function Is_UTF_32_Digit (C : Category) return Boolean is
begin
return C = Nd;
end Is_UTF_32_Digit;
----------------------
-- Is_UTF_32_Letter --
----------------------
function Is_UTF_32_Letter (U : UTF_32) return Boolean is
begin
return Range_Search (U, UTF_32_Letters) /= 0;
end Is_UTF_32_Letter;
Letter : constant array (Category) of Boolean :=
(Lu => True,
Ll => True,
Lt => True,
Lm => True,
Lo => True,
Nl => True,
others => False);
function Is_UTF_32_Letter (C : Category) return Boolean is
begin
return Letter (C);
end Is_UTF_32_Letter;
-------------------------------
-- Is_UTF_32_Line_Terminator --
-------------------------------
function Is_UTF_32_Line_Terminator (U : UTF_32) return Boolean is
begin
return U in 10 .. 13 -- Ascii.LF Ascii.VT Ascii.FF Ascii.CR
or else U = 16#02028# -- LINE SEPARATOR
or else U = 16#02029#; -- PARAGRAPH SEPARATOR
end Is_UTF_32_Line_Terminator;
--------------------
-- Is_UTF_32_Mark --
--------------------
function Is_UTF_32_Mark (U : UTF_32) return Boolean is
begin
return Range_Search (U, UTF_32_Marks) /= 0;
end Is_UTF_32_Mark;
function Is_UTF_32_Mark (C : Category) return Boolean is
begin
return C = Mn or else C = Mc;
end Is_UTF_32_Mark;
---------------------------
-- Is_UTF_32_Non_Graphic --
---------------------------
function Is_UTF_32_Non_Graphic (U : UTF_32) return Boolean is
begin
-- We have to deal with FFFE/FFFF specially
if U mod 16#1_0000# >= 16#FFFE# then
return True;
-- Otherwise we can use the table
else
return Range_Search (U, UTF_32_Non_Graphic) /= 0;
end if;
end Is_UTF_32_Non_Graphic;
Non_Graphic : constant array (Category) of Boolean :=
(Cc => True,
Co => True,
Cs => True,
Zl => True,
Zp => True,
Fe => True,
others => False);
function Is_UTF_32_Non_Graphic (C : Category) return Boolean is
begin
return Non_Graphic (C);
end Is_UTF_32_Non_Graphic;
---------------------
-- Is_UTF_32_Other --
---------------------
function Is_UTF_32_Other (U : UTF_32) return Boolean is
begin
return Range_Search (U, UTF_32_Other_Format) /= 0;
end Is_UTF_32_Other;
function Is_UTF_32_Other (C : Category) return Boolean is
begin
return C = Cf;
end Is_UTF_32_Other;
---------------------------
-- Is_UTF_32_Punctuation --
---------------------------
function Is_UTF_32_Punctuation (U : UTF_32) return Boolean is
begin
return Range_Search (U, UTF_32_Punctuation) /= 0;
end Is_UTF_32_Punctuation;
function Is_UTF_32_Punctuation (C : Category) return Boolean is
begin
return C = Pc;
end Is_UTF_32_Punctuation;
---------------------
-- Is_UTF_32_Space --
---------------------
function Is_UTF_32_Space (U : UTF_32) return Boolean is
begin
return Range_Search (U, UTF_32_Spaces) /= 0;
end Is_UTF_32_Space;
function Is_UTF_32_Space (C : Category) return Boolean is
begin
return C = Zs;
end Is_UTF_32_Space;
------------------
-- Range_Search --
------------------
function Range_Search (U : UTF_32; R : UTF_32_Ranges) return Natural is
Lo : Integer;
Hi : Integer;
Mid : Integer;
begin
Lo := R'First;
Hi := R'Last;
loop
Mid := (Lo + Hi) / 2;
if U < R (Mid).Lo then
Hi := Mid - 1;
if Hi < Lo then
return 0;
end if;
elsif R (Mid).Hi < U then
Lo := Mid + 1;
if Hi < Lo then
return 0;
end if;
else
return Mid;
end if;
end loop;
end Range_Search;
--------------------------
-- UTF_32_To_Upper_Case --
--------------------------
function UTF_32_To_Upper_Case (U : UTF_32) return UTF_32 is
Index : constant Integer := Range_Search (U, Lower_Case_Letters);
begin
if Index = 0 then
return U;
else
return U + Upper_Case_Adjust (Index);
end if;
end UTF_32_To_Upper_Case;
end GNAT.UTF_32;
| 95.081213
| 171
| 0.657724
|
197c41fe4bff402ada4f730820df681d891788f8
| 10,278
|
adb
|
Ada
|
source/league/league-settings.adb
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 24
|
2016-11-29T06:59:41.000Z
|
2021-08-30T11:55:16.000Z
|
source/league/league-settings.adb
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 2
|
2019-01-16T05:15:20.000Z
|
2019-02-03T10:03:32.000Z
|
source/league/league-settings.adb
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 4
|
2017-07-18T07:11:05.000Z
|
2020-06-21T03:02:25.000Z
|
------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Localization, Internationalization, Globalization for Ada --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2010-2011, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with Matreshka.Internals.Settings.Configuration;
package body League.Settings is
-- --------------
-- -- All_Keys --
-- --------------
--
-- function All_Keys
-- (Self : Settings) return League.String_Vectors.Universal_String_Vector
-- is
-- pragma Unreferenced (Self);
--
-- begin
-- return X : League.String_Vectors.Universal_String_Vector;
-- end All_Keys;
--
-- ----------------------
-- -- Application_Name --
-- ----------------------
--
-- function Application_Name
-- (Self : Settings) return League.Strings.Universal_String
-- is
-- pragma Unreferenced (Self);
--
-- begin
-- return League.Strings.Empty_Universal_String;
-- end Application_Name;
--
-- -----------------
-- -- Begin_Group --
-- -----------------
--
-- procedure Begin_Group
-- (Self : in out Settings;
-- Prefix : League.Strings.Universal_String) is
-- begin
-- null;
-- end Begin_Group;
--
-- ------------------
-- -- Child_Groups --
-- ------------------
--
-- function Child_Groups
-- (Self : Settings) return League.String_Vectors.Universal_String_Vector
-- is
-- pragma Unreferenced (Self);
--
-- begin
-- return X : League.String_Vectors.Universal_String_Vector;
-- end Child_Groups;
--
-- ----------------
-- -- Child_Keys --
-- ----------------
--
-- function Child_Keys
-- (Self : Settings) return League.String_Vectors.Universal_String_Vector
-- is
-- pragma Unreferenced (Self);
--
-- begin
-- return X : League.String_Vectors.Universal_String_Vector;
-- end Child_Keys;
--
-- -----------
-- -- Clear --
-- -----------
--
-- procedure Clear (Self : in out Settings) is
-- begin
-- null;
-- end Clear;
--------------
-- Contains --
--------------
function Contains
(Self : Settings;
Key : League.Strings.Universal_String) return Boolean is
begin
return Self.Data.Contains (Self.Data.Manager.To_Storage_Key (Key));
end Contains;
------------
-- Create --
------------
function Create
(File_Name : League.Strings.Universal_String;
Format : Formats := Native) return Settings is
begin
return
Settings'
(Ada.Finalization.Limited_Controlled with
Matreshka.Internals.Settings.Configuration.Manager (Format).Create
(File_Name));
end Create;
------------
-- Create --
------------
function Create
(Organization_Name : League.Strings.Universal_String;
Organization_Domain : League.Strings.Universal_String;
Application_Name : League.Strings.Universal_String
:= League.Strings.Empty_Universal_String;
Format : Formats := Native) return Settings is
begin
return
Settings'
(Ada.Finalization.Limited_Controlled with
Matreshka.Internals.Settings.Configuration.Manager (Format).Create
(Organization_Name, Organization_Domain, Application_Name));
end Create;
-- ---------------
-- -- End_Group --
-- ---------------
--
-- procedure End_Group (Self : in out Settings) is
-- begin
-- null;
-- end End_Group;
--
-- -----------------------
-- -- Fallbacks_Enabled --
-- -----------------------
--
-- function Fallbacks_Enabled (Self : Settings) return Boolean is
-- pragma Unreferenced (Self);
--
-- begin
-- return False;
-- end Fallbacks_Enabled;
--
-- ---------------
-- -- File_Name --
-- ---------------
--
-- function File_Name
-- (Self : Settings) return League.Strings.Universal_String
-- is
-- pragma Unreferenced (Self);
--
-- begin
-- return League.Strings.Empty_Universal_String;
-- end File_Name;
--------------
-- Finalize --
--------------
overriding procedure Finalize (Self : in out Settings) is
use type Matreshka.Internals.Settings.Settings_Access;
begin
if Self.Data /= null then
Matreshka.Internals.Settings.Dereference (Self.Data);
end if;
end Finalize;
-- ------------
-- -- Format --
-- ------------
--
-- function Format (Self : Settings) return Formats is
-- pragma Unreferenced (Self);
--
-- begin
-- return Native;
-- end Format;
--
-- -----------
-- -- Group --
-- -----------
--
-- function Group (Self : Settings) return League.Strings.Universal_String is
-- pragma Unreferenced (Self);
--
-- begin
-- return League.Strings.Empty_Universal_String;
-- end Group;
----------------
-- Initialize --
----------------
overriding procedure Initialize (Self : in out Settings) is
begin
Self.Data :=
Matreshka.Internals.Settings.Configuration.Manager (Native).Create;
end Initialize;
-- ------------------
-- -- Is_Writeable --
-- ------------------
--
-- function Is_Writeable (Self : Settings) return Boolean is
-- pragma Unreferenced (Self);
--
-- begin
-- return False;
-- end Is_Writeable;
-- -----------------------
-- -- Organization_Name --
-- -----------------------
--
-- function Organization_Name
-- (Self : Settings) return League.Strings.Universal_String
-- is
-- pragma Unreferenced (Self);
--
-- begin
-- return League.Strings.Empty_Universal_String;
-- end Organization_Name;
------------
-- Remove --
------------
procedure Remove
(Self : in out Settings;
Key : League.Strings.Universal_String) is
begin
Self.Data.Remove (Self.Data.Manager.To_Storage_Key (Key));
end Remove;
-- -----------
-- -- Scope --
-- -----------
--
-- function Scope (Self : Settings) return Scopes is
-- pragma Unreferenced (Self);
--
-- begin
-- return System;
-- end Scope;
--
-- ---------------------------
-- -- Set_Fallbacks_Enables --
-- ---------------------------
--
-- procedure Set_Fallbacks_Enables
-- (Self : in out Settings;
-- Enabled : Boolean) is
-- begin
-- null;
-- end Set_Fallbacks_Enables;
---------------
-- Set_Value --
---------------
procedure Set_Value
(Self : in out Settings'Class;
Key : League.Strings.Universal_String;
Value : League.Holders.Holder) is
begin
Self.Data.Set_Value (Self.Data.Manager.To_Storage_Key (Key), Value);
end Set_Value;
-- ------------
-- -- Status --
-- ------------
--
-- function Status (Self : Settings) return Statuses is
-- pragma Unreferenced (Self);
--
-- begin
-- return No_Error;
-- end Status;
----------
-- Sync --
----------
procedure Sync (Self : in out Settings) is
begin
Self.Data.Sync;
end Sync;
-----------
-- Value --
-----------
function Value
(Self : Settings'Class;
Key : League.Strings.Universal_String) return League.Holders.Holder is
begin
return Self.Data.Value (Self.Data.Manager.To_Storage_Key (Key));
end Value;
end League.Settings;
| 29.965015
| 79
| 0.498249
|
032c3e27a358e3de5d578935f46ec89cc844ad9f
| 18,444
|
adb
|
Ada
|
examples/test_reader.adb
|
ytomino/xml-ada
|
b3754218d7c581fc41d7c6841ab3ccebb6766295
|
[
"MIT",
"Unlicense"
] | null | null | null |
examples/test_reader.adb
|
ytomino/xml-ada
|
b3754218d7c581fc41d7c6841ab3ccebb6766295
|
[
"MIT",
"Unlicense"
] | null | null | null |
examples/test_reader.adb
|
ytomino/xml-ada
|
b3754218d7c581fc41d7c6841ab3ccebb6766295
|
[
"MIT",
"Unlicense"
] | null | null | null |
-- reader1.c
--
-- section: xmlReader
-- synopsis: Parse an XML file with an xmlReader
-- purpose: Demonstrate the use of xmlReaderForFile() to parse an XML file
-- and dump the informations about the nodes found in the process.
-- (Note that the XMLReader functions require libxml2 version later
-- than 2.6.)
-- usage: reader1 <filename>
-- test: reader1 test2.xml > reader1.tmp ;
-- diff reader1.tmp reader1.res ;
-- rm reader1.tmp
-- author: Daniel Veillard
-- copy: see Copyright for the status of this software.
--
-- reader2.c
--
-- section: xmlReader
-- synopsis: Parse and validate an XML file with an xmlReader
-- purpose: Demonstrate the use of xmlReaderForFile() to parse an XML file
-- validating the content in the process and activating options
-- like entities substitution, and DTD attributes defaulting.
-- (Note that the XMLReader functions require libxml2 version later
-- than 2.6.)
-- usage: reader2 <valid_xml_filename>
-- test: reader2 test2.xml > reader1.tmp ;
-- diff reader1.tmp reader1.res ;
-- rm reader1.tmp
-- author: Daniel Veillard
-- copy: see Copyright for the status of this software.
--
-- reader3.c
--
-- section: xmlReader
-- synopsis: Show how to extract subdocuments with xmlReader
-- purpose: Demonstrate the use of xmlTextReaderPreservePattern()
-- to parse an XML file with the xmlReader while collecting
-- only some subparts of the document.
-- (Note that the XMLReader functions require libxml2 version later
-- than 2.6.)
-- usage: reader3
-- test: reader3 > reader3.tmp ;
-- diff reader3.tmp reader3.res ;
-- rm reader3.tmp
-- author: Daniel Veillard
-- copy: see Copyright for the status of this software.
--
-- reader4.c
--
-- section: xmlReader
-- synopsis: Parse multiple XML files reusing an xmlReader
-- purpose: Demonstrate the use of xmlReaderForFile() and
-- xmlReaderNewFile to parse XML files while reusing the reader object
-- and parser context. (Note that the XMLReader functions require
-- libxml2 version later than 2.6.)
-- usage: reader4 <filename> [ filename ... ]
-- test: reader4 test1.xml test2.xml test3.xml > reader4.tmp ;
-- diff reader4.tmp reader4.res ;
-- rm reader4.tmp
-- author: Graham Bennett
-- copy: see Copyright for the status of this software.
--
-- Ada version by yt
--
with Ada.Text_IO;
with Ada.Unchecked_Conversion;
with C.stdio;
with C.stdlib;
with C.string;
with C.libxml.xmlreader;
with C.libxml.parser;
with C.libxml.xmlmemory;
with C.libxml.xmlstring;
with C.libxml.tree;
with C.libxml.xmlversion;
--pragma Compile_Time_Error (
-- not C.libxml.xmlversion.LIBXML_READER_ENABLED
-- or else not C.libxml.xmlversion.LIBXML_PATTERN_ENABLED
-- or else not C.libxml.xmlversion.LIBXML_OUTPUT_ENABLED,
-- "Reader, Pattern or output support not compiled in");
procedure test_reader is
pragma Linker_Options ("-lxml2");
use type C.char;
use type C.char_array;
use type C.signed_int;
use type C.size_t;
use type C.unsigned_int;
use type C.libxml.tree.xmlDocPtr;
use type C.libxml.xmlreader.xmlTextReaderPtr;
use type C.libxml.xmlstring.xmlChar_const_ptr;
function To_char_const_ptr is
new Ada.Unchecked_Conversion (
C.libxml.xmlstring.xmlChar_const_ptr,
C.char_const_ptr);
function To_xmlChar_const_ptr is
new Ada.Unchecked_Conversion (
C.char_const_ptr,
C.libxml.xmlstring.xmlChar_const_ptr);
Write_Mode : constant C.char_array := "w" & C.char'Val (0);
stdout : access C.stdio.FILE;
procedure fwrite (
ptr : not null access constant C.char;
size : in C.size_t;
nitems : in C.size_t;
stream : access C.stdio.FILE)
is
Dummy_size_t : C.size_t;
begin
Dummy_size_t :=
C.stdio.fwrite (
C.void_const_ptr (ptr.all'Address),
size,
nitems,
stream);
end fwrite;
procedure fputs (
s : not null access constant C.char;
stream : access C.stdio.FILE)
is
Dummy_signed_int : C.signed_int;
begin
Dummy_signed_int := C.stdio.fputs (s, stream);
end fputs;
procedure fputs (
s : in C.char_array;
stream : access C.stdio.FILE) is
begin
fputs (s (s'First)'Access, stream);
end fputs;
procedure fputd (
d : in C.signed_int;
stream : access C.stdio.FILE)
is
s : C.char_array (0 .. 10);
i : C.size_t := s'Last;
r : C.signed_int := d;
begin
if r < 0 then
fputs (' ' & C.char'Val (0), stream);
r := -r;
end if;
s (i) := C.char'Val (0);
loop
i := i - 1;
s (i) := C.char'Val (C.char'Pos ('0') + r rem 10);
r := r / 10;
exit when r = 0;
end loop;
fputs (s (i)'Access, stream);
end fputd;
procedure processNode_For_1_and_2 (
reader : C.libxml.xmlreader.xmlTextReaderPtr)
is
name, value : C.libxml.xmlstring.xmlChar_const_ptr;
S1 : constant C.char_array := "--" & C.char'Val (0);
begin
name := C.libxml.xmlreader.xmlTextReaderConstName (reader);
if name = null then
name := To_xmlChar_const_ptr (S1 (S1'First)'Unchecked_Access);
end if;
value := C.libxml.xmlreader.xmlTextReaderConstValue (reader);
fputd (C.libxml.xmlreader.xmlTextReaderDepth (reader), stdout);
fputs (' ' & C.char'Val (0), stdout);
fputd (C.libxml.xmlreader.xmlTextReaderNodeType (reader), stdout);
fputs (' ' & C.char'Val (0), stdout);
fputs (To_char_const_ptr (name), stdout);
fputs (' ' & C.char'Val (0), stdout);
fputd (C.libxml.xmlreader.xmlTextReaderIsEmptyElement (reader), stdout);
fputs (' ' & C.char'Val (0), stdout);
fputd (C.libxml.xmlreader.xmlTextReaderHasValue (reader), stdout);
if value = null then
fputs (C.char'Val (10) & C.char'Val (0), stdout);
else
if C.libxml.xmlstring.xmlStrlen (value) > 40 then
fputs (' ' & C.char'Val (0), stdout);
fwrite (To_char_const_ptr (value), 1, 40, stdout);
fputs ("..." & C.char'Val (10) & C.char'Val (0), stdout);
else
fputs (' ' & C.char'Val (0), stdout);
fputs (To_char_const_ptr (value), stdout);
fputs (C.char'Val (10) & C.char'Val (0), stdout);
end if;
end if;
end processNode_For_1_and_2;
-- do as reader1.c
procedure reader1 (argv1, output : in C.char_array) is
-- processNode:
-- @reader: the xmlReader
--
-- Dump information about the current node
procedure processNode (reader : C.libxml.xmlreader.xmlTextReaderPtr)
renames processNode_For_1_and_2;
-- streamFile:
-- @filename: the file name to parse
--
-- Parse and print information about an XML file.
procedure streamFile (filename : access constant C.char) is
reader : C.libxml.xmlreader.xmlTextReaderPtr;
ret : C.signed_int;
begin
reader := C.libxml.xmlreader.xmlReaderForFile (filename, null, 0);
if reader /= null then
ret := C.libxml.xmlreader.xmlTextReaderRead (reader);
while ret = 1 loop
processNode (reader);
ret := C.libxml.xmlreader.xmlTextReaderRead (reader);
end loop;
C.libxml.xmlreader.xmlFreeTextReader (reader);
if ret /= 0 then
fputs (filename, C.stdio.stderr);
fputs (
" : failed to parse" & C.char'Val (10) & C.char'Val (0),
C.stdio.stderr);
end if;
else
fputs ("Unable to open " & C.char'Val (0), C.stdio.stderr);
fputs (filename, C.stdio.stderr);
fputs (C.char'Val (10) & C.char'Val (0), C.stdio.stderr);
end if;
end streamFile;
Dummy_signed_int : C.signed_int;
begin
stdout :=
C.stdio.fopen (
output (output'First)'Access,
Write_Mode (Write_Mode'First)'Access);
streamFile (argv1 (argv1'First)'Access);
Dummy_signed_int := C.stdio.fclose (stdout);
end reader1;
-- do as reader2.c
procedure reader2 (argv1, output : in C.char_array) is
-- processNode:
-- @reader: the xmlReader
--
-- Dump information about the current node
procedure processNode (reader : C.libxml.xmlreader.xmlTextReaderPtr)
renames processNode_For_1_and_2;
-- streamFile:
-- @filename: the file name to parse
--
-- Parse, validate and print information about an XML file.
procedure streamFile (filename : access constant C.char) is
reader : C.libxml.xmlreader.xmlTextReaderPtr;
ret : C.signed_int;
begin
-- Pass some special parsing options to activate DTD attribute defaulting,
-- entities substitution and DTD validation
reader :=
C.libxml.xmlreader.xmlReaderForFile (
filename,
null,
C.signed_int (
C.unsigned_int'(
C.libxml.parser.xmlParserOption'Enum_Rep (
C.libxml.parser.XML_PARSE_DTDATTR) -- default DTD attributes
or C.libxml.parser.xmlParserOption'Enum_Rep (
C.libxml.parser.XML_PARSE_NOENT) -- substitute entities
or C.libxml.parser.xmlParserOption'Enum_Rep (
C.libxml.parser.XML_PARSE_DTDVALID)))); -- validate with the DTD
if reader /= null then
ret := C.libxml.xmlreader.xmlTextReaderRead (reader);
while ret = 1 loop
processNode (reader);
ret := C.libxml.xmlreader.xmlTextReaderRead (reader);
end loop;
-- Once the document has been fully parsed check the validation results
if C.libxml.xmlreader.xmlTextReaderIsValid (reader) /= 1 then
fputs ("Document " & C.char'Val (0), C.stdio.stderr);
fputs (filename, C.stdio.stderr);
fputs (
" does not validate" & C.char'Val (10) & C.char'Val (0),
C.stdio.stderr);
end if;
C.libxml.xmlreader.xmlFreeTextReader (reader);
if ret /= 0 then
fputs (filename, C.stdio.stderr);
fputs (
" : failed to parse" & C.char'Val (10) & C.char'Val (0),
C.stdio.stderr);
end if;
else
fputs ("Unable to open " & C.char'Val (0), C.stdio.stderr);
fputs (filename, C.stdio.stderr);
fputs (C.char'Val (10) & C.char'Val (0), C.stdio.stderr);
end if;
end streamFile;
Dummy_signed_int : C.signed_int;
begin
stdout :=
C.stdio.fopen (
output (output'First)'Access,
Write_Mode (Write_Mode'First)'Access);
streamFile (argv1 (argv1'First)'Access);
Dummy_signed_int := C.stdio.fclose (stdout);
end reader2;
-- do as reader3.c
procedure reader3 (output : in C.char_array) is
-- streamFile:
-- @filename: the file name to parse
--
-- Parse and print information about an XML file.
--
-- Returns the resulting doc with just the elements preserved.
function extractFile (
filename : access constant C.char;
pattern : C.libxml.xmlstring.xmlChar_const_ptr)
return C.libxml.tree.xmlDocPtr
is
doc : C.libxml.tree.xmlDocPtr;
reader : C.libxml.xmlreader.xmlTextReaderPtr;
ret : C.signed_int;
begin
-- build an xmlReader for that file
reader := C.libxml.xmlreader.xmlReaderForFile (filename, null, 0);
if reader /= null then
-- add the pattern to preserve
if C.libxml.xmlreader.xmlTextReaderPreservePattern (
reader,
pattern,
null) < 0
then
fputs (filename, C.stdio.stderr);
fputs (
" : failed add preserve pattern " & C.char'Val (0),
C.stdio.stderr);
fputs (To_char_const_ptr (pattern), C.stdio.stderr);
fputs (C.char'Val (10) & C.char'Val (0), C.stdio.stderr);
end if;
-- Parse and traverse the tree, collecting the nodes in the process
ret := C.libxml.xmlreader.xmlTextReaderRead (reader);
while ret = 1 loop
ret := C.libxml.xmlreader.xmlTextReaderRead (reader);
end loop;
if ret /= 0 then
fputs (filename, C.stdio.stderr);
fputs (
" : failed to parse" & C.char'Val (10) & C.char'Val (0),
C.stdio.stderr);
C.libxml.xmlreader.xmlFreeTextReader (reader);
return null;
end if;
-- get the resulting nodes
doc := C.libxml.xmlreader.xmlTextReaderCurrentDoc (reader);
-- Free up the reader
C.libxml.xmlreader.xmlFreeTextReader (reader);
else
fputs ("Unable to open " & C.char'Val (0), C.stdio.stderr);
fputs (filename, C.stdio.stderr);
fputs (C.char'Val (10) & C.char'Val (0), C.stdio.stderr);
return null;
end if;
return doc;
end extractFile;
filename : constant C.char_array := "test3.xml" & C.char'Val (0);
pattern : constant C.char_array := "preserved" & C.char'Val (0);
doc : C.libxml.tree.xmlDocPtr;
Dummy_signed_int : C.signed_int;
begin
stdout :=
C.stdio.fopen (
output (output'First)'Access,
Write_Mode (Write_Mode'First)'Access);
doc :=
extractFile (
filename (filename'First)'Access,
To_xmlChar_const_ptr (pattern (pattern'First)'Unchecked_Access));
if doc /= null then
-- ouptut the result.
Dummy_signed_int := C.libxml.tree.xmlDocDump (stdout, doc);
-- don't forget to free up the doc
C.libxml.tree.xmlFreeDoc (doc);
end if;
Dummy_signed_int := C.stdio.fclose (stdout);
end reader3;
-- do as reader4.c
procedure reader4 (argv1, argv2, argv3, output : in C.char_array) is
procedure processDoc (readerPtr : C.libxml.xmlreader.xmlTextReaderPtr) is
ret : C.signed_int;
docPtr : C.libxml.tree.xmlDocPtr;
URL : C.libxml.xmlstring.xmlChar_const_ptr;
begin
ret := C.libxml.xmlreader.xmlTextReaderRead (readerPtr);
while ret = 1 loop
ret := C.libxml.xmlreader.xmlTextReaderRead (readerPtr);
end loop;
-- One can obtain the document pointer to get insteresting
-- information about the document like the URL, but one must also
-- be sure to clean it up at the end (see below).
docPtr := C.libxml.xmlreader.xmlTextReaderCurrentDoc (readerPtr);
if null = docPtr then
fputs (
"failed to obtain document" & C.char'Val (10) & C.char'Val (0),
C.stdio.stderr);
return;
end if;
URL := docPtr.URL;
if null = URL then
fputs (To_char_const_ptr (URL), C.stdio.stderr);
fputs (
": Failed to obtain URL" & C.char'Val (10) & C.char'Val (0),
C.stdio.stderr);
end if;
if ret /= 0 then
fputs (To_char_const_ptr (URL), C.stdio.stderr);
fputs (
" : failed to parse" & C.char'Val (10) & C.char'Val (0),
C.stdio.stderr);
return;
end if;
fputs (To_char_const_ptr (URL), stdout);
fputs (": Processed ok" & C.char'Val (10) & C.char'Val (0), stdout);
end processDoc;
readerPtr : C.libxml.xmlreader.xmlTextReaderPtr;
docPtr : C.libxml.tree.xmlDocPtr;
Dummy_signed_int : C.signed_int;
begin
stdout :=
C.stdio.fopen (
output (output'First)'Access,
Write_Mode (Write_Mode'First)'Access);
-- Create a new reader for the first file and process the document.
readerPtr :=
C.libxml.xmlreader.xmlReaderForFile (argv1 (argv1'First)'Access, null, 0);
if null = readerPtr then
fputs (argv1, C.stdio.stderr);
fputs (
": failed to create reader" & C.char'Val (10) & C.char'Val (0),
C.stdio.stderr);
raise Program_Error;
end if;
processDoc (readerPtr);
-- The reader can be reused for subsequent files.
for i in 2 .. 3 loop
declare
argv_i : access constant C.char;
begin
case i is
when 2 =>
argv_i := argv2 (argv2'First)'Access;
when 3 =>
argv_i := argv3 (argv3'First)'Access;
end case;
if C.libxml.xmlreader.xmlReaderNewFile (readerPtr, argv_i, null, 0) < 0 then
raise Program_Error;
end if;
if null = readerPtr then
fputs (argv_i, C.stdio.stderr);
fputs (
": failed to create reader" & C.char'Val (10) & C.char'Val (0),
C.stdio.stderr);
raise Program_Error;
end if;
processDoc (readerPtr);
end;
end loop;
-- Since we've called xmlTextReaderCurrentDoc, we now have to
-- clean up after ourselves. We only have to do this the last
-- time, because xmlReaderNewFile calls xmlCtxtReset which takes
-- care of it.
docPtr := C.libxml.xmlreader.xmlTextReaderCurrentDoc (readerPtr);
if docPtr /= null then
C.libxml.tree.xmlFreeDoc (docPtr);
end if;
-- Clean up the reader.
C.libxml.xmlreader.xmlFreeTextReader (readerPtr);
Dummy_signed_int := C.stdio.fclose (stdout);
end reader4;
begin
-- this initialize the library and check potential ABI mismatches
-- between the version it was compiled for and the actual shared
-- library used.
C.libxml.xmlversion.xmlCheckVersion (C.libxml.xmlversion.LIBXML_VERSION);
Tests : declare
Default_Temp : constant C.char_array (0 .. 4) := "/tmp" & C.char'Val (0);
function Get_Temp return access constant C.char is
TMPDIR : constant C.char_array (0 .. 6) := "TMPDIR" & C.char'Val (0);
Temp : access constant C.char := C.stdlib.getenv (TMPDIR (0)'Access);
begin
if Temp = null or else Temp.all = C.char'Val (0) then
Temp := Default_Temp (0)'Access;
end if;
return Temp;
end Get_Temp;
Temp : constant not null access constant C.char := Get_Temp;
Dummy_char_ptr : C.char_ptr;
begin
declare
argv1 : constant C.char_array := "test2.xml" & C.char'Val (0);
output_Name : constant C.char_array := "/reader1.tmp" & C.char'Val (0);
output : aliased C.char_array (0 .. C.string.strlen (Temp) + 256);
begin
Dummy_char_ptr := C.string.strcpy (output (0)'Access, Temp);
Dummy_char_ptr := C.string.strcat (output (0)'Access, output_Name (0)'Access);
reader1 (argv1, output);
end;
declare
argv1 : constant C.char_array := "test2.xml" & C.char'Val (0);
output_Name : constant C.char_array := "/reader2.tmp" & C.char'Val (0);
output : aliased C.char_array (0 .. C.string.strlen (Temp) + 256);
begin
Dummy_char_ptr := C.string.strcpy (output (0)'Access, Temp);
Dummy_char_ptr := C.string.strcat (output (0)'Access, output_Name (0)'Access);
reader2 (argv1, output);
end;
declare
output_Name : constant C.char_array := "/reader3.tmp" & C.char'Val (0);
output : aliased C.char_array (0 .. C.string.strlen (Temp) + 256);
begin
Dummy_char_ptr := C.string.strcpy (output (0)'Access, Temp);
Dummy_char_ptr := C.string.strcat (output (0)'Access, output_Name (0)'Access);
reader3 (output);
end;
declare
argv1 : constant C.char_array := "test1.xml" & C.char'Val (0);
argv2 : constant C.char_array := "test2.xml" & C.char'Val (0);
argv3 : constant C.char_array := "test3.xml" & C.char'Val (0);
output_Name : constant C.char_array := "/reader4.tmp" & C.char'Val (0);
output : aliased C.char_array (0 .. C.string.strlen (Temp) + 256);
begin
Dummy_char_ptr := C.string.strcpy (output (0)'Access, Temp);
Dummy_char_ptr := C.string.strcat (output (0)'Access, output_Name (0)'Access);
reader4 (argv1, argv2, argv3, output);
end;
end Tests;
-- Cleanup function for the XML library.
C.libxml.parser.xmlCleanupParser;
-- this is to debug memory for regression tests
C.libxml.xmlmemory.xmlMemoryDump;
-- finish
Ada.Text_IO.Put_Line (Ada.Text_IO.Standard_Error.all, "ok");
end test_reader;
| 34.669173
| 81
| 0.674637
|
1e7e94c8d930744f35c59a7444a89345ff51214a
| 7,281
|
ads
|
Ada
|
regtests/model/regtests-images-model.ads
|
Letractively/ada-ado
|
f0863c6975ae1a2c5349daee1e98a04fe11ba11e
|
[
"Apache-2.0"
] | null | null | null |
regtests/model/regtests-images-model.ads
|
Letractively/ada-ado
|
f0863c6975ae1a2c5349daee1e98a04fe11ba11e
|
[
"Apache-2.0"
] | null | null | null |
regtests/model/regtests-images-model.ads
|
Letractively/ada-ado
|
f0863c6975ae1a2c5349daee1e98a04fe11ba11e
|
[
"Apache-2.0"
] | null | null | null |
-----------------------------------------------------------------------
-- Regtests.Images.Model -- Regtests.Images.Model
-----------------------------------------------------------------------
-- File generated by ada-gen DO NOT MODIFY
-- Template used: templates/model/package-spec.xhtml
-- Ada Generator: https://ada-gen.googlecode.com/svn/trunk Revision 166
-----------------------------------------------------------------------
-- Copyright (C) 2011 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
pragma Warnings (Off, "unit * is not referenced");
with ADO.Sessions;
with ADO.Objects;
with ADO.Statements;
with ADO.SQL;
with ADO.Schemas;
with Ada.Calendar;
with Ada.Containers.Vectors;
with Ada.Strings.Unbounded;
with Util.Beans.Objects;
with Util.Beans.Basic.Lists;
pragma Warnings (On, "unit * is not referenced");
package Regtests.Images.Model is
-- Create an object key for Image.
function Image_Key (Id : in ADO.Identifier) return ADO.Objects.Object_Key;
-- Create an object key for Image from a string.
-- Raises Constraint_Error if the string cannot be converted into the object key.
function Image_Key (Id : in String) return ADO.Objects.Object_Key;
type Image_Ref is new ADO.Objects.Object_Ref with null record;
Null_Image : constant Image_Ref;
function "=" (Left, Right : Image_Ref'Class) return Boolean;
-- Set the image identifier
procedure Set_Id (Object : in out Image_Ref;
Value : in ADO.Identifier);
-- Get the image identifier
function Get_Id (Object : in Image_Ref)
return ADO.Identifier;
-- Get the image version.
function Get_Version (Object : in Image_Ref)
return Integer;
-- Set the message creation date
procedure Set_Create_Date (Object : in out Image_Ref;
Value : in Ada.Calendar.Time);
-- Get the message creation date
function Get_Create_Date (Object : in Image_Ref)
return Ada.Calendar.Time;
-- Set the image data
procedure Set_Image (Object : in out Image_Ref;
Value : in ADO.Blob_Ref);
-- Get the image data
function Get_Image (Object : in Image_Ref)
return ADO.Blob_Ref;
-- Load the entity identified by 'Id'.
-- Raises the NOT_FOUND exception if it does not exist.
procedure Load (Object : in out Image_Ref;
Session : in out ADO.Sessions.Session'Class;
Id : in ADO.Identifier);
-- Load the entity identified by 'Id'.
-- Returns True in <b>Found</b> if the object was found and False if it does not exist.
procedure Load (Object : in out Image_Ref;
Session : in out ADO.Sessions.Session'Class;
Id : in ADO.Identifier;
Found : out Boolean);
-- Find and load the entity.
overriding
procedure Find (Object : in out Image_Ref;
Session : in out ADO.Sessions.Session'Class;
Query : in ADO.SQL.Query'Class;
Found : out Boolean);
-- Save the entity. If the entity does not have an identifier, an identifier is allocated
-- and it is inserted in the table. Otherwise, only data fields which have been changed
-- are updated.
overriding
procedure Save (Object : in out Image_Ref;
Session : in out ADO.Sessions.Master_Session'Class);
-- Delete the entity.
overriding
procedure Delete (Object : in out Image_Ref;
Session : in out ADO.Sessions.Master_Session'Class);
overriding
function Get_Value (Item : in Image_Ref;
Name : in String) return Util.Beans.Objects.Object;
-- Table definition
IMAGE_TABLE : aliased constant ADO.Schemas.Class_Mapping;
-- Internal method to allocate the Object_Record instance
overriding
procedure Allocate (Object : in out Image_Ref);
-- Copy of the object.
procedure Copy (Object : in Image_Ref;
Into : in out Image_Ref);
package Image_Vectors is
new Ada.Containers.Vectors (Index_Type => Natural,
Element_Type => Image_Ref,
"=" => "=");
subtype Image_Vector is Image_Vectors.Vector;
procedure List (Object : in out Image_Vector;
Session : in out ADO.Sessions.Session'Class;
Query : in ADO.SQL.Query'Class);
private
IMAGE_NAME : aliased constant String := "test_image";
COL_0_1_NAME : aliased constant String := "id";
COL_1_1_NAME : aliased constant String := "version";
COL_2_1_NAME : aliased constant String := "create_date";
COL_3_1_NAME : aliased constant String := "image";
IMAGE_TABLE : aliased constant ADO.Schemas.Class_Mapping :=
(Count => 4,
Table => IMAGE_NAME'Access,
Members => (
COL_0_1_NAME'Access,
COL_1_1_NAME'Access,
COL_2_1_NAME'Access,
COL_3_1_NAME'Access
)
);
Null_Image : constant Image_Ref
:= Image_Ref'(ADO.Objects.Object_Ref with others => <>);
type Image_Impl is
new ADO.Objects.Object_Record (Key_Type => ADO.Objects.KEY_INTEGER,
Of_Class => IMAGE_TABLE'Access)
with record
Version : Integer;
Create_Date : Ada.Calendar.Time;
Image : ADO.Blob_Ref;
end record;
type Image_Access is access all Image_Impl;
overriding
procedure Destroy (Object : access Image_Impl);
overriding
procedure Find (Object : in out Image_Impl;
Session : in out ADO.Sessions.Session'Class;
Query : in ADO.SQL.Query'Class;
Found : out Boolean);
overriding
procedure Load (Object : in out Image_Impl;
Session : in out ADO.Sessions.Session'Class);
procedure Load (Object : in out Image_Impl;
Stmt : in out ADO.Statements.Query_Statement'Class;
Session : in out ADO.Sessions.Session'Class);
overriding
procedure Save (Object : in out Image_Impl;
Session : in out ADO.Sessions.Master_Session'Class);
procedure Create (Object : in out Image_Impl;
Session : in out ADO.Sessions.Master_Session'Class);
overriding
procedure Delete (Object : in out Image_Impl;
Session : in out ADO.Sessions.Master_Session'Class);
procedure Set_Field (Object : in out Image_Ref'Class;
Impl : out Image_Access);
end Regtests.Images.Model;
| 39.786885
| 94
| 0.615712
|
193d4e2851289c6321d8229adcb633f78488ad81
| 1,209
|
adb
|
Ada
|
src/app.adb
|
egilhh/Futures-in-Ada
|
f1c71ad6d7774e98dc44a98c9252bf0ead34a69e
|
[
"MIT"
] | 1
|
2015-11-25T19:57:53.000Z
|
2015-11-25T19:57:53.000Z
|
src/app.adb
|
egilhh/Futures-in-Ada
|
f1c71ad6d7774e98dc44a98c9252bf0ead34a69e
|
[
"MIT"
] | null | null | null |
src/app.adb
|
egilhh/Futures-in-Ada
|
f1c71ad6d7774e98dc44a98c9252bf0ead34a69e
|
[
"MIT"
] | null | null | null |
with Ada.Text_IO;
with Futures;
package body App is
procedure Show_Search
(Self : in out Object;
Target : String )
is
function Callable_String
return String
is
begin
-- delay 10.0; -- for triggering timeout...
return Self.Searcher.Search(Target);
end Callable_String;
package Future_String is
new Futures(String);
Future : Future_String.Object := Future_String.Create(Callable_String'Access);
begin
Self.Executor.Execute(Future.Promise);
Self.Display_Other_Things;
Self.Display_Text(Future.Get);
exception
when Future_String.Execution_Exception =>
Ada.Text_IO.Put_Line("***Operation timed out");
Self.Clean_Up;
end Show_Search;
procedure Display_Other_Things
(Self : in out Object)
is
begin
Ada.Text_IO.Put_Line("Display_Other_Things");
end Display_Other_Things;
procedure Display_Text
(Self : in out Object;
Text : in String)
is
begin
Ada.Text_IO.Put_Line("Display_Text: " & Text);
end Display_Text;
procedure Clean_Up
(Self : in out Object)
is
begin
null;
end Clean_Up;
end App;
| 19.190476
| 84
| 0.644334
|
2ea39a9289057829c932d935377931eb31cec4b6
| 3,012
|
ada
|
Ada
|
gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/tests/cc/cc1018a.ada
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | 7
|
2020-05-02T17:34:05.000Z
|
2021-10-17T10:15:18.000Z
|
gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/tests/cc/cc1018a.ada
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | null | null | null |
gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/tests/cc/cc1018a.ada
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | 2
|
2020-07-27T00:22:36.000Z
|
2021-04-01T09:41:02.000Z
|
-- CC1018A.ADA
-- Grant of Unlimited Rights
--
-- Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
-- F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
-- unlimited rights in the software and documentation contained herein.
-- Unlimited rights are defined in DFAR 252.227-7013(a)(19). By making
-- this public release, the Government intends to confer upon all
-- recipients unlimited rights equal to those held by the Government.
-- These rights include rights to use, duplicate, release or disclose the
-- released technical data and computer software in whole or in part, in
-- any manner and for any purpose whatsoever, and to have or permit others
-- to do so.
--
-- DISCLAIMER
--
-- ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
-- DISCLOSED ARE AS IS. THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
-- WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
-- SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
-- OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
-- PARTICULAR PURPOSE OF SAID MATERIAL.
--*
-- CHECK THAT A FORMAL OUT PARAMETER OF A GENERIC FORMAL SUBPROGRAM CAN
-- HAVE A FORMAL LIMITED TYPE AND AN ARRAY TYPE WITH LIMITED COMPONENTS.
-- AH 10/3/86
WITH REPORT; USE REPORT;
PROCEDURE CC1018A IS
TYPE INT IS RANGE 1..10;
TYPE ARR IS ARRAY (INTEGER RANGE <>) OF INT;
INT_OBJ : INT := 4;
ARR_OBJ : ARR(1..5) := (2, 8, 2, 8, 2);
GENERIC
TYPE GLP IS LIMITED PRIVATE;
TYPE GARR IS ARRAY (INTEGER RANGE <>) OF GLP;
LP_OBJ : IN OUT GLP;
GA_OBJ : IN OUT GARR;
WITH PROCEDURE P (X : OUT GLP; Y : OUT GARR);
WITH FUNCTION SAME (LEFT, RIGHT : GLP) RETURN BOOLEAN;
PROCEDURE GEN_PROC;
PROCEDURE GET_VALUES (X1 : OUT INT; Y1 : OUT ARR) IS
BEGIN
X1 := 4;
Y1 := (2, 8, 2, 8, 2);
END GET_VALUES;
FUNCTION SAME_VALUE (LEFT, RIGHT : INT) RETURN BOOLEAN IS
BEGIN
RETURN LEFT = RIGHT;
END SAME_VALUE;
PROCEDURE GEN_PROC IS
LP : GLP;
A : GARR(1..5);
BEGIN
P(LP, A);
IF NOT SAME(LP, LP_OBJ) THEN
FAILED ("LIMITED PRIVATE TYPE HAS INCORRECT VALUE");
END IF;
FOR INDEX IN A'RANGE LOOP
IF NOT SAME(A(INDEX), GA_OBJ(INDEX)) THEN
FAILED ("LIMITED PRIVATE TYPE COMPONENT " &
"HAS INCORRECT VALUE");
END IF;
END LOOP;
END GEN_PROC;
PROCEDURE TEST_LP IS NEW GEN_PROC(INT, ARR, INT_OBJ, ARR_OBJ,
GET_VALUES, SAME_VALUE);
BEGIN
TEST ("CC1018A", "A GENERIC FORMAL SUBPROGRAM OUT PRARAMETER " &
"CAN HAVE A LIMITED TYPE");
TEST_LP;
RESULT;
END CC1018A;
| 35.857143
| 79
| 0.598274
|
190d4cb089d74c375e7731de118e86971c42c69b
| 30,626
|
adb
|
Ada
|
src/ado-objects.adb
|
My-Colaborations/ada-ado
|
cebf1f9b38c0c259c44935e8bca05a5bff12aace
|
[
"Apache-2.0"
] | null | null | null |
src/ado-objects.adb
|
My-Colaborations/ada-ado
|
cebf1f9b38c0c259c44935e8bca05a5bff12aace
|
[
"Apache-2.0"
] | null | null | null |
src/ado-objects.adb
|
My-Colaborations/ada-ado
|
cebf1f9b38c0c259c44935e8bca05a5bff12aace
|
[
"Apache-2.0"
] | null | null | null |
-----------------------------------------------------------------------
-- ADO Objects -- Database objects
-- Copyright (C) 2009 - 2020 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Strings.Unbounded.Hash;
with Ada.Unchecked_Deallocation;
with ADO.Sessions.Factory;
package body ADO.Objects is
use type ADO.Schemas.Class_Mapping_Access;
-- ------------------------------
-- Compute the hash of the object key.
-- ------------------------------
function Hash (Key : Object_Key) return Ada.Containers.Hash_Type is
use Ada.Containers;
Result : Ada.Containers.Hash_Type;
begin
case Key.Of_Type is
when KEY_INTEGER =>
if Key.Id < 0 then
Result := Hash_Type (-Key.Id);
else
Result := Hash_Type (Key.Id);
end if;
when KEY_STRING =>
Result := Ada.Strings.Unbounded.Hash (Key.Str);
end case;
-- Merge with the class mapping hash so that two key values of different
-- tables will result in a different hash.
Result := Result xor ADO.Schemas.Hash (Key.Of_Class);
return Result;
end Hash;
-- ------------------------------
-- Compare whether the two objects pointed to by Left and Right have the same
-- object key. The object key is identical if the object key type, the class
-- mapping and the key value are identical.
-- ------------------------------
function Equivalent_Elements (Left, Right : Object_Key)
return Boolean is
use Ada.Strings.Unbounded;
begin
if Left.Of_Type /= Right.Of_Type then
return False;
end if;
if Left.Of_Class /= Right.Of_Class then
return False;
end if;
case Left.Of_Type is
when KEY_INTEGER =>
return Left.Id = Right.Id;
when KEY_STRING =>
return Left.Str = Right.Str;
end case;
end Equivalent_Elements;
-- ------------------------------
-- Get the key value
-- ------------------------------
function Get_Value (Key : Object_Key) return Identifier is
begin
return Key.Id;
end Get_Value;
-- ------------------------------
-- Get the key value
-- ------------------------------
function Get_Value (Key : Object_Key) return Ada.Strings.Unbounded.Unbounded_String is
begin
return Key.Str;
end Get_Value;
-- ------------------------------
-- Set the key value
-- ------------------------------
procedure Set_Value (Key : in out Object_Key;
Value : in Identifier) is
begin
case Key.Of_Type is
when KEY_INTEGER =>
Key.Id := Value;
when KEY_STRING =>
Key.Str := Ada.Strings.Unbounded.To_Unbounded_String (Identifier'Image (Value));
end case;
end Set_Value;
-- ------------------------------
-- Set the key value
-- ------------------------------
procedure Set_Value (Key : in out Object_Key;
Value : in String) is
begin
case Key.Of_Type is
when KEY_INTEGER =>
Key.Id := Identifier'Value (Value);
when KEY_STRING =>
Key.Str := Ada.Strings.Unbounded.To_Unbounded_String (Value);
end case;
end Set_Value;
-- ------------------------------
-- Get the key as a string
-- ------------------------------
function To_String (Key : Object_Key) return String is
begin
case Key.Of_Type is
when KEY_INTEGER =>
return Identifier'Image (Key.Id);
when KEY_STRING =>
return Ada.Strings.Unbounded.To_String (Key.Str);
end case;
end To_String;
-- ------------------------------
-- Return the key value in a bean object.
-- ------------------------------
function To_Object (Key : Object_Key) return Util.Beans.Objects.Object is
begin
case Key.Of_Type is
when KEY_INTEGER =>
return Util.Beans.Objects.To_Object (Long_Long_Integer (Key.Id));
when KEY_STRING =>
return Util.Beans.Objects.To_Object (Key.Str);
end case;
end To_Object;
-- ------------------------------
-- Increment the reference counter when an object is copied
-- ------------------------------
overriding
procedure Adjust (Object : in out Object_Ref) is
begin
if Object.Object /= null then
Util.Concurrent.Counters.Increment (Object.Object.Counter);
end if;
end Adjust;
-- ------------------------------
-- Decrement the reference counter and release the object record.
-- ------------------------------
overriding
procedure Finalize (Object : in out Object_Ref) is
procedure Free is new
Ada.Unchecked_Deallocation (Object => Object_Record'Class,
Name => Object_Record_Access);
Is_Zero : Boolean;
begin
if Object.Object /= null then
Util.Concurrent.Counters.Decrement (Object.Object.Counter, Is_Zero);
if Is_Zero then
Free (Object.Object);
end if;
end if;
end Finalize;
-- ------------------------------
-- Mark the field identified by <b>Field</b> as modified.
-- ------------------------------
procedure Set_Field (Object : in out Object_Ref'Class;
Field : in Column_Index) is
begin
if Object.Object = null then
Object.Allocate;
Object.Object.Is_Loaded := True;
elsif not Object.Object.Is_Loaded then
Object.Lazy_Load;
end if;
Object.Object.Modified (Field) := True;
end Set_Field;
-- ------------------------------
-- Prepare the object to be modified. If the reference is empty, an object record
-- instance is allocated by calling <b>Allocate</b>.
-- ------------------------------
procedure Prepare_Modify (Object : in out Object_Ref'Class;
Result : out Object_Record_Access) is
begin
if Object.Object = null then
Object.Allocate;
Object.Object.Is_Loaded := True;
elsif not Object.Object.Is_Loaded then
Object.Lazy_Load;
end if;
Result := Object.Object;
end Prepare_Modify;
-- ------------------------------
-- Check whether this object is initialized or not.
-- ------------------------------
function Is_Null (Object : in Object_Ref'Class) return Boolean is
begin
return Object.Object = null;
end Is_Null;
-- ------------------------------
-- Check whether this object is saved in the database.
-- Returns True if the object was saved in the database.
-- ------------------------------
function Is_Inserted (Object : in Object_Ref'Class) return Boolean is
begin
if Object.Object = null then
return False;
else
return Object.Object.Is_Created;
end if;
end Is_Inserted;
-- ------------------------------
-- Check whether this object is loaded from the database.
-- ------------------------------
function Is_Loaded (Object : in Object_Ref'Class) return Boolean is
begin
if Object.Object = null then
return False;
else
return Object.Object.Is_Loaded;
end if;
end Is_Loaded;
-- ------------------------------
-- Check if at least one field is modified and the object must be saved.
-- ------------------------------
function Is_Modified (Object : in Object_Ref'Class) return Boolean is
begin
if Object.Object = null then
return False;
else
return Object.Object.Is_Modified;
end if;
end Is_Modified;
-- ------------------------------
-- Load the object from the database if it was not already loaded.
-- For a lazy association, the <b>Object_Record</b> is allocated and holds the primary key.
-- The <b>Is_Loaded</b> boolean is cleared thus indicating the other values are not loaded.
-- This procedure makes sure these values are loaded by invoking <b>Load</b> if necessary.
-- Raises Session_Error if the session associated with the object is closed.
-- ------------------------------
procedure Lazy_Load (Ref : in Object_Ref'Class) is
begin
if Ref.Object = null then
raise NULL_ERROR;
elsif not Ref.Object.Is_Loaded then
if Ref.Object.Session = null then
raise ADO.Sessions.Session_Error;
end if;
if Ref.Object.Session.Session = null then
raise ADO.Sessions.Session_Error;
end if;
declare
S : ADO.Sessions.Session
:= ADO.Sessions.Factory.Get_Session (Ref.Object.Session.Session.all'Access);
begin
Ref.Object.Load (S);
end;
end if;
end Lazy_Load;
-- ------------------------------
-- Internal method to get the object record instance and make sure it is fully loaded.
-- If the object was not yet loaded, calls <b>Lazy_Load</b> to get the values from the
-- database. Raises Session_Error if the session associated with the object is closed.
-- ------------------------------
function Get_Load_Object (Ref : in Object_Ref'Class) return Object_Record_Access is
begin
Ref.Lazy_Load;
return Ref.Object;
end Get_Load_Object;
-- ------------------------------
-- Internal method to get the object record instance.
-- ------------------------------
function Get_Object (Ref : in Object_Ref'Class) return Object_Record_Access is
begin
return Ref.Object;
end Get_Object;
-- ------------------------------
-- Get the object key
-- ------------------------------
function Get_Key (Ref : in Object_Ref'Class) return Object_Key is
begin
return Ref.Object.Key;
end Get_Key;
-- ------------------------------
-- Set the object key.
-- ------------------------------
procedure Set_Key_Value (Ref : in out Object_Ref'Class;
Value : in Identifier;
Session : in ADO.Sessions.Session'Class) is
begin
if Ref.Object = null then
Ref.Allocate;
end if;
Ref.Object.Is_Created := True;
Ref.Object.Set_Key_Value (Value);
Ref.Object.Session := Session.Get_Session_Proxy;
Util.Concurrent.Counters.Increment (Ref.Object.Session.Counter);
end Set_Key_Value;
-- ------------------------------
-- Set the object key.
-- ------------------------------
procedure Set_Key_Value (Ref : in out Object_Ref'Class;
Value : in Ada.Strings.Unbounded.Unbounded_String;
Session : in ADO.Sessions.Session'Class) is
begin
if Ref.Object = null then
Ref.Allocate;
end if;
Ref.Object.Is_Created := True;
Ref.Object.Set_Key_Value (Value);
Ref.Object.Session := Session.Get_Session_Proxy;
Util.Concurrent.Counters.Increment (Ref.Object.Session.Counter);
end Set_Key_Value;
-- ------------------------------
-- Check if the two objects are the same database objects.
-- The comparison is only made on the primary key.
-- Returns true if the two objects have the same primary key.
-- ------------------------------
function "=" (Left : Object_Ref; Right : Object_Ref) return Boolean is
begin
-- Same target object
if Left.Object = Right.Object then
return True;
end if;
-- One of the target object is null
if Left.Object = null or Right.Object = null then
return False;
end if;
return Left.Object.Key = Right.Object.Key;
end "=";
procedure Set_Object (Ref : in out Object_Ref'Class;
Object : in Object_Record_Access) is
Is_Zero : Boolean;
begin
if Ref.Object /= null and Ref.Object /= Object then
Util.Concurrent.Counters.Decrement (Ref.Object.Counter, Is_Zero);
if Is_Zero then
Destroy (Ref.Object);
end if;
end if;
Ref.Object := Object;
end Set_Object;
procedure Set_Object (Ref : in out Object_Ref'Class;
Object : in Object_Record_Access;
Session : in ADO.Sessions.Session'Class) is
begin
if Object /= null and then Object.Session = null then
Object.Session := Session.Get_Session_Proxy;
Util.Concurrent.Counters.Increment (Object.Session.Counter);
end if;
Ref.Set_Object (Object);
end Set_Object;
-- ------------------------------
-- Get the object primary key in a bean object.
-- ------------------------------
function To_Object (Object : in Object_Ref'Class) return Util.Beans.Objects.Object is
begin
if Object.Object = null then
return Util.Beans.Objects.Null_Object;
else
return To_Object (Object.Object.Get_Key);
end if;
end To_Object;
-- ------------------------------
-- Get the object key
-- ------------------------------
function Get_Key (Ref : in Object_Record'Class) return Object_Key is
begin
return Ref.Key;
end Get_Key;
-- ------------------------------
-- Set the object key
-- ------------------------------
procedure Set_Key (Ref : in out Object_Record'Class;
Key : in Object_Key) is
begin
Ref.Key := Key;
end Set_Key;
-- ------------------------------
-- Get the object key value as an identifier
-- ------------------------------
function Get_Key_Value (Ref : in Object_Record'Class)
return Identifier is
begin
return Ref.Key.Id;
end Get_Key_Value;
function Get_Key_Value (Ref : in Object_Record'Class)
return Ada.Strings.Unbounded.Unbounded_String is
begin
return Ref.Key.Str;
end Get_Key_Value;
procedure Set_Key_Value (Ref : in out Object_Record'Class;
Value : in Identifier) is
begin
Set_Value (Ref.Key, Value);
end Set_Key_Value;
procedure Set_Key_Value (Ref : in out Object_Record'Class;
Value : in Ada.Strings.Unbounded.Unbounded_String) is
begin
Ref.Key.Str := Value;
end Set_Key_Value;
procedure Set_Key_Value (Ref : in out Object_Record'Class;
Value : in String) is
begin
Ref.Key.Str := Ada.Strings.Unbounded.To_Unbounded_String (Value);
end Set_Key_Value;
-- ------------------------------
-- Get the table name associated with the object record.
-- ------------------------------
function Get_Table_Name (Ref : in Object_Record'Class) return Util.Strings.Name_Access is
begin
if Ref.Key.Of_Class = null then
return null;
else
return Ref.Key.Of_Class.Table;
end if;
end Get_Table_Name;
-- ------------------------------
-- Check if this is a new object.
-- Returns True if an insert is necessary to persist this object.
-- ------------------------------
function Is_Created (Ref : in Object_Record'Class) return Boolean is
begin
return Ref.Is_Created;
end Is_Created;
-- ------------------------------
-- Mark the object as created in the database.
-- ------------------------------
procedure Set_Created (Ref : in out Object_Record'Class) is
begin
Ref.Is_Created := True;
Ref.Is_Loaded := True;
Ref.Modified := (others => False);
end Set_Created;
-- ------------------------------
-- Check if at least one field is modified and the object must be saved.
-- ------------------------------
function Is_Modified (Ref : in Object_Record'Class) return Boolean is
begin
return (for some Modified_Field of Ref.Modified => Modified_Field);
end Is_Modified;
-- ------------------------------
-- Check if the field at position <b>Field</b> was modified.
-- ------------------------------
function Is_Modified (Ref : in Object_Record'Class;
Field : in Column_Index) return Boolean is
begin
return Ref.Modified (Field);
end Is_Modified;
-- ------------------------------
-- Clear the modification flag associated with the field at
-- position <b>Field</b>.
-- ------------------------------
procedure Clear_Modified (Ref : in out Object_Record'Class;
Field : in Column_Index) is
begin
Ref.Modified (Field) := False;
end Clear_Modified;
-- ------------------------------
-- Release the session proxy, deleting the instance if it is no longer used.
-- The <tt>Detach</tt> parameter controls whether the session proxy must be detached
-- from the database session. When set, the session proxy is no longer linked to the
-- database session and trying to load the lazy object will raise the Session_Error
-- exception.
-- ------------------------------
procedure Release_Proxy (Proxy : in out Session_Proxy_Access;
Detach : in Boolean := False) is
procedure Free is new
Ada.Unchecked_Deallocation (Object => Session_Proxy,
Name => Session_Proxy_Access);
Is_Zero : Boolean;
begin
if Proxy /= null then
Util.Concurrent.Counters.Decrement (Proxy.Counter, Is_Zero);
if Detach then
Proxy.Session := null;
end if;
if Is_Zero then
Free (Proxy);
end if;
Proxy := null;
end if;
end Release_Proxy;
-- ------------------------------
-- Release the object.
-- ------------------------------
overriding
procedure Finalize (Object : in out Object_Record) is
begin
Release_Proxy (Object.Session);
end Finalize;
-- ------------------------------
-- Copy the source object record into the target.
-- ------------------------------
procedure Copy (To : in out Object_Record;
From : in Object_Record'Class) is
begin
To.Session := From.Session;
To.Is_Created := From.Is_Created;
To.Is_Loaded := From.Is_Loaded;
To.Modified := From.Modified;
To.Key := From.Key;
end Copy;
function Create_Session_Proxy (S : access ADO.Sessions.Session_Record)
return Session_Proxy_Access is
Result : constant Session_Proxy_Access := new Session_Proxy;
begin
Result.Session := S;
return Result;
end Create_Session_Proxy;
-- ------------------------------
-- Set the object field to the new value in <b>Into</b>. If the new value is identical,
-- the operation does nothing. Otherwise, the new value <b>Value</b> is copied
-- to <b>Into</b> and the field identified by <b>Field</b> is marked as modified on
-- the object.
-- ------------------------------
procedure Set_Field_Unbounded_String (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Ada.Strings.Unbounded.Unbounded_String;
Value : in Ada.Strings.Unbounded.Unbounded_String) is
use Ada.Strings.Unbounded;
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Unbounded_String;
procedure Set_Field_String (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Ada.Strings.Unbounded.Unbounded_String;
Value : in String) is
use Ada.Strings.Unbounded;
begin
if Into /= Value then
Ada.Strings.Unbounded.Set_Unbounded_String (Into, Value);
Object.Modified (Field) := True;
end if;
end Set_Field_String;
procedure Set_Field_String (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out ADO.Nullable_String;
Value : in String) is
use Ada.Strings.Unbounded;
begin
if Into.Is_Null or else Into.Value /= Value then
Into.Is_Null := False;
Ada.Strings.Unbounded.Set_Unbounded_String (Into.Value, Value);
Object.Modified (Field) := True;
end if;
end Set_Field_String;
procedure Set_Field_String (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out ADO.Nullable_String;
Value : in ADO.Nullable_String) is
use Ada.Strings.Unbounded;
begin
if Into.Is_Null then
if not Value.Is_Null then
Into := Value;
Object.Modified (Field) := True;
end if;
elsif Value.Is_Null then
Into.Is_Null := True;
Object.Modified (Field) := True;
elsif Into.Value /= Value.Value then
Into.Value := Value.Value;
Object.Modified (Field) := True;
end if;
end Set_Field_String;
procedure Set_Field_Time (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Ada.Calendar.Time;
Value : in Ada.Calendar.Time) is
use Ada.Calendar;
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Time;
procedure Set_Field_Time (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out ADO.Nullable_Time;
Value : in ADO.Nullable_Time) is
use Ada.Calendar;
begin
if Into.Is_Null then
if not Value.Is_Null then
Into := Value;
Object.Modified (Field) := True;
end if;
elsif Value.Is_Null then
Into.Is_Null := True;
Object.Modified (Field) := True;
elsif Into.Value /= Value.Value then
Into.Value := Value.Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Time;
procedure Set_Field_Integer (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Integer;
Value : in Integer) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Integer;
procedure Set_Field_Integer (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out ADO.Nullable_Integer;
Value : in ADO.Nullable_Integer) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Integer;
procedure Set_Field_Natural (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Natural;
Value : in Natural) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Natural;
procedure Set_Field_Positive (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Positive;
Value : in Positive) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Positive;
procedure Set_Field_Boolean (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Boolean;
Value : in Boolean) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Boolean;
procedure Set_Field_Boolean (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Nullable_Boolean;
Value : in Nullable_Boolean) is
begin
if Into.Is_Null then
if not Value.Is_Null then
Into := Value;
Object.Modified (Field) := True;
end if;
elsif Value.Is_Null then
Into.Is_Null := True;
Object.Modified (Field) := True;
elsif Into.Value /= Value.Value then
Into.Value := Value.Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Boolean;
procedure Set_Field_Float (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Float;
Value : in Float) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Float;
procedure Set_Field_Long_Float (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Long_Float;
Value : in Long_Float) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Long_Float;
procedure Set_Field_Object (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out Object_Ref'Class;
Value : in Object_Ref'Class) is
begin
if Into.Object /= Value.Object then
Set_Object (Into, Value.Object);
if Into.Object /= null then
Util.Concurrent.Counters.Increment (Into.Object.Counter);
end if;
Object.Modified (Field) := True;
end if;
end Set_Field_Object;
procedure Set_Field_Identifier (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out ADO.Identifier;
Value : in ADO.Identifier) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Identifier;
procedure Set_Field_Entity_Type (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out ADO.Entity_Type;
Value : in ADO.Entity_Type) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Entity_Type;
procedure Set_Field_Entity_Type (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out ADO.Nullable_Entity_Type;
Value : in ADO.Nullable_Entity_Type) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Entity_Type;
procedure Set_Field_Blob (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out ADO.Blob_Ref;
Value : in ADO.Blob_Ref) is
use type ADO.Blob_Ref;
begin
if Value /= Into then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Blob;
procedure Set_Field_Key_Value (Object : in out Object_Record'Class;
Field : in Column_Index;
Value : in ADO.Identifier) is
begin
if Object.Get_Key_Value /= Value then
Set_Key_Value (Object, Value);
Object.Modified (Field) := True;
end if;
end Set_Field_Key_Value;
procedure Set_Field_Key_Value (Object : in out Object_Record'Class;
Field : in Column_Index;
Value : in String) is
use Ada.Strings.Unbounded;
begin
if Object.Key.Str /= Value then
Set_Key_Value (Object, Value);
Object.Modified (Field) := True;
end if;
end Set_Field_Key_Value;
procedure Set_Field_Key_Value (Object : in out Object_Record'Class;
Field : in Column_Index;
Value : in Ada.Strings.Unbounded.Unbounded_String) is
use Ada.Strings.Unbounded;
begin
if Object.Key.Str /= Value then
Set_Key_Value (Object, Value);
Object.Modified (Field) := True;
end if;
end Set_Field_Key_Value;
procedure Set_Field_Operation (Object : in out Object_Record'Class;
Field : in Column_Index;
Into : in out T;
Value : in T) is
begin
if Into /= Value then
Into := Value;
Object.Modified (Field) := True;
end if;
end Set_Field_Operation;
-- ------------------------------
-- Mark the field identified by <b>Field</b> as modified.
-- ------------------------------
procedure Set_Field (Object : in out Object_Record'Class;
Field : in Column_Index) is
begin
Object.Modified (Field) := True;
end Set_Field;
end ADO.Objects;
| 35.161883
| 96
| 0.530921
|
194005fa36d200abac2762e7236b7ac3e4d80eb1
| 894
|
adb
|
Ada
|
tests/tk-widget-test_data.adb
|
thindil/tashy2
|
43fcbadb33c0062b2c8d6138a8238441dec5fd80
|
[
"Apache-2.0"
] | 2
|
2020-12-09T07:27:07.000Z
|
2021-10-19T13:31:54.000Z
|
tests/tk-widget-test_data.adb
|
thindil/tashy2
|
43fcbadb33c0062b2c8d6138a8238441dec5fd80
|
[
"Apache-2.0"
] | null | null | null |
tests/tk-widget-test_data.adb
|
thindil/tashy2
|
43fcbadb33c0062b2c8d6138a8238441dec5fd80
|
[
"Apache-2.0"
] | null | null | null |
-- This package is intended to set up and tear down the test environment.
-- Once created by GNATtest, this package will never be overwritten
-- automatically. Contents of this package can be modified in any way
-- except for sections surrounded by a 'read only' marker.
with Ada.Environment_Variables; use Ada.Environment_Variables;
with Tk.Button; use Tk.Button;
package body Tk.Widget.Test_Data is
procedure Set_Up(Gnattest_T: in out Test) is
pragma Unreferenced(Gnattest_T);
begin
null;
end Set_Up;
procedure Tear_Down(Gnattest_T: in out Test) is
pragma Unreferenced(Gnattest_T);
Button: Tk_Button;
begin
if Value("DISPLAY", "")'Length = 0 then
return;
end if;
Button := Get_Widget(".mybutton");
if Button /= Null_Widget then
Destroy(Button);
end if;
end Tear_Down;
end Tk.Widget.Test_Data;
| 29.8
| 75
| 0.693512
|
5819f5f47b986aa01b6a6a95114da8a019673a91
| 295,682
|
ads
|
Ada
|
source/amf/uml/amf-internals-tables-uml_string_data_07.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 24
|
2016-11-29T06:59:41.000Z
|
2021-08-30T11:55:16.000Z
|
source/amf/uml/amf-internals-tables-uml_string_data_07.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 2
|
2019-01-16T05:15:20.000Z
|
2019-02-03T10:03:32.000Z
|
source/amf/uml/amf-internals-tables-uml_string_data_07.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 4
|
2017-07-18T07:11:05.000Z
|
2020-06-21T03:02:25.000Z
|
------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2010-2017, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
with Matreshka.Internals.Strings;
package AMF.Internals.Tables.UML_String_Data_07 is
-- "The query conformsTo() gives true for a classifier that defines a type that conforms to another. This is used, for example, in the specification of signature conformance for operations."
MS_0700 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 191,
Unused => 185,
Length => 185,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0071#, 16#0075#, 16#0065#, 16#0072#,
16#0079#, 16#0020#, 16#0063#, 16#006F#,
16#006E#, 16#0066#, 16#006F#, 16#0072#,
16#006D#, 16#0073#, 16#0054#, 16#006F#,
16#0028#, 16#0029#, 16#0020#, 16#0067#,
16#0069#, 16#0076#, 16#0065#, 16#0073#,
16#0020#, 16#0074#, 16#0072#, 16#0075#,
16#0065#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#0020#, 16#0061#, 16#0020#,
16#0063#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0072#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0064#, 16#0065#, 16#0066#, 16#0069#,
16#006E#, 16#0065#, 16#0073#, 16#0020#,
16#0061#, 16#0020#, 16#0074#, 16#0079#,
16#0070#, 16#0065#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0063#, 16#006F#, 16#006E#, 16#0066#,
16#006F#, 16#0072#, 16#006D#, 16#0073#,
16#0020#, 16#0074#, 16#006F#, 16#0020#,
16#0061#, 16#006E#, 16#006F#, 16#0074#,
16#0068#, 16#0065#, 16#0072#, 16#002E#,
16#0020#, 16#0054#, 16#0068#, 16#0069#,
16#0073#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0075#, 16#0073#, 16#0065#,
16#0064#, 16#002C#, 16#0020#, 16#0066#,
16#006F#, 16#0072#, 16#0020#, 16#0065#,
16#0078#, 16#0061#, 16#006D#, 16#0070#,
16#006C#, 16#0065#, 16#002C#, 16#0020#,
16#0069#, 16#006E#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0073#,
16#0070#, 16#0065#, 16#0063#, 16#0069#,
16#0066#, 16#0069#, 16#0063#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0073#, 16#0069#, 16#0067#, 16#006E#,
16#0061#, 16#0074#, 16#0075#, 16#0072#,
16#0065#, 16#0020#, 16#0063#, 16#006F#,
16#006E#, 16#0066#, 16#006F#, 16#0072#,
16#006D#, 16#0061#, 16#006E#, 16#0063#,
16#0065#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#0020#, 16#006F#, 16#0070#,
16#0065#, 16#0072#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0073#,
16#002E#,
others => 16#0000#),
others => <>);
-- "If an element that is owned by a package has visibility, it is public or private."
MS_0701 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 81,
Length => 81,
Value =>
(16#0049#, 16#0066#, 16#0020#, 16#0061#,
16#006E#, 16#0020#, 16#0065#, 16#006C#,
16#0065#, 16#006D#, 16#0065#, 16#006E#,
16#0074#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#006F#, 16#0077#,
16#006E#, 16#0065#, 16#0064#, 16#0020#,
16#0062#, 16#0079#, 16#0020#, 16#0061#,
16#0020#, 16#0070#, 16#0061#, 16#0063#,
16#006B#, 16#0061#, 16#0067#, 16#0065#,
16#0020#, 16#0068#, 16#0061#, 16#0073#,
16#0020#, 16#0076#, 16#0069#, 16#0073#,
16#0069#, 16#0062#, 16#0069#, 16#006C#,
16#0069#, 16#0074#, 16#0079#, 16#002C#,
16#0020#, 16#0069#, 16#0074#, 16#0020#,
16#0069#, 16#0073#, 16#0020#, 16#0070#,
16#0075#, 16#0062#, 16#006C#, 16#0069#,
16#0063#, 16#0020#, 16#006F#, 16#0072#,
16#0020#, 16#0070#, 16#0072#, 16#0069#,
16#0076#, 16#0061#, 16#0074#, 16#0065#,
16#002E#,
others => 16#0000#),
others => <>);
-- "number_order"
MS_0702 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 12,
Length => 12,
Value =>
(16#006E#, 16#0075#, 16#006D#, 16#0062#,
16#0065#, 16#0072#, 16#005F#, 16#006F#,
16#0072#, 16#0064#, 16#0065#, 16#0072#,
others => 16#0000#),
others => <>);
-- "An add variable value action is a write variable action for adding values to a variable."
MS_0703 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 95,
Unused => 88,
Length => 88,
Value =>
(16#0041#, 16#006E#, 16#0020#, 16#0061#,
16#0064#, 16#0064#, 16#0020#, 16#0076#,
16#0061#, 16#0072#, 16#0069#, 16#0061#,
16#0062#, 16#006C#, 16#0065#, 16#0020#,
16#0076#, 16#0061#, 16#006C#, 16#0075#,
16#0065#, 16#0020#, 16#0061#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0061#, 16#0020#, 16#0077#, 16#0072#,
16#0069#, 16#0074#, 16#0065#, 16#0020#,
16#0076#, 16#0061#, 16#0072#, 16#0069#,
16#0061#, 16#0062#, 16#006C#, 16#0065#,
16#0020#, 16#0061#, 16#0063#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0066#, 16#006F#, 16#0072#, 16#0020#,
16#0061#, 16#0064#, 16#0064#, 16#0069#,
16#006E#, 16#0067#, 16#0020#, 16#0076#,
16#0061#, 16#006C#, 16#0075#, 16#0065#,
16#0073#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0061#, 16#0020#, 16#0076#,
16#0061#, 16#0072#, 16#0069#, 16#0061#,
16#0062#, 16#006C#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "InstanceSpecification"
MS_0704 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 21,
Length => 21,
Value =>
(16#0049#, 16#006E#, 16#0073#, 16#0074#,
16#0061#, 16#006E#, 16#0063#, 16#0065#,
16#0053#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0063#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#,
others => 16#0000#),
others => <>);
-- "handler"
MS_0705 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 7,
Length => 7,
Value =>
(16#0068#, 16#0061#, 16#006E#, 16#0064#,
16#006C#, 16#0065#, 16#0072#,
others => 16#0000#),
others => <>);
-- "Receptions that objects providing this interface are willing to accept."
MS_0706 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 71,
Length => 71,
Value =>
(16#0052#, 16#0065#, 16#0063#, 16#0065#,
16#0070#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#006F#, 16#0062#, 16#006A#, 16#0065#,
16#0063#, 16#0074#, 16#0073#, 16#0020#,
16#0070#, 16#0072#, 16#006F#, 16#0076#,
16#0069#, 16#0064#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0074#, 16#0068#,
16#0069#, 16#0073#, 16#0020#, 16#0069#,
16#006E#, 16#0074#, 16#0065#, 16#0072#,
16#0066#, 16#0061#, 16#0063#, 16#0065#,
16#0020#, 16#0061#, 16#0072#, 16#0065#,
16#0020#, 16#0077#, 16#0069#, 16#006C#,
16#006C#, 16#0069#, 16#006E#, 16#0067#,
16#0020#, 16#0074#, 16#006F#, 16#0020#,
16#0061#, 16#0063#, 16#0063#, 16#0065#,
16#0070#, 16#0074#, 16#002E#,
others => 16#0000#),
others => <>);
-- "allOwnedElements"
MS_0707 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 16,
Length => 16,
Value =>
(16#0061#, 16#006C#, 16#006C#, 16#004F#,
16#0077#, 16#006E#, 16#0065#, 16#0064#,
16#0045#, 16#006C#, 16#0065#, 16#006D#,
16#0065#, 16#006E#, 16#0074#, 16#0073#,
others => 16#0000#),
others => <>);
-- "action_referenced"
MS_0708 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 17,
Length => 17,
Value =>
(16#0061#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#005F#, 16#0072#,
16#0065#, 16#0066#, 16#0065#, 16#0072#,
16#0065#, 16#006E#, 16#0063#, 16#0065#,
16#0064#,
others => 16#0000#),
others => <>);
-- "Indicates the dependencies that reference the supplier."
MS_0709 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 55,
Length => 55,
Value =>
(16#0049#, 16#006E#, 16#0064#, 16#0069#,
16#0063#, 16#0061#, 16#0074#, 16#0065#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0064#, 16#0065#,
16#0070#, 16#0065#, 16#006E#, 16#0064#,
16#0065#, 16#006E#, 16#0063#, 16#0069#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0072#, 16#0065#, 16#0066#, 16#0065#,
16#0072#, 16#0065#, 16#006E#, 16#0063#,
16#0065#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0073#, 16#0075#,
16#0070#, 16#0070#, 16#006C#, 16#0069#,
16#0065#, 16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "parameteredElement"
MS_070A : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 18,
Length => 18,
Value =>
(16#0070#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0065#, 16#0064#, 16#0045#,
16#006C#, 16#0065#, 16#006D#, 16#0065#,
16#006E#, 16#0074#,
others => 16#0000#),
others => <>);
-- "A set of clauses which may not be tested unless the current clause tests false."
MS_070B : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 79,
Length => 79,
Value =>
(16#0041#, 16#0020#, 16#0073#, 16#0065#,
16#0074#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0063#, 16#006C#, 16#0061#,
16#0075#, 16#0073#, 16#0065#, 16#0073#,
16#0020#, 16#0077#, 16#0068#, 16#0069#,
16#0063#, 16#0068#, 16#0020#, 16#006D#,
16#0061#, 16#0079#, 16#0020#, 16#006E#,
16#006F#, 16#0074#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0074#, 16#0065#,
16#0073#, 16#0074#, 16#0065#, 16#0064#,
16#0020#, 16#0075#, 16#006E#, 16#006C#,
16#0065#, 16#0073#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0063#, 16#0075#, 16#0072#, 16#0072#,
16#0065#, 16#006E#, 16#0074#, 16#0020#,
16#0063#, 16#006C#, 16#0061#, 16#0075#,
16#0073#, 16#0065#, 16#0020#, 16#0074#,
16#0065#, 16#0073#, 16#0074#, 16#0073#,
16#0020#, 16#0066#, 16#0061#, 16#006C#,
16#0073#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A_operand_expression"
MS_070C : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 20,
Length => 20,
Value =>
(16#0041#, 16#005F#, 16#006F#, 16#0070#,
16#0065#, 16#0072#, 16#0061#, 16#006E#,
16#0064#, 16#005F#, 16#0065#, 16#0078#,
16#0070#, 16#0072#, 16#0065#, 16#0073#,
16#0073#, 16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "A_transformation_objectFlow"
MS_070D : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 27,
Length => 27,
Value =>
(16#0041#, 16#005F#, 16#0074#, 16#0072#,
16#0061#, 16#006E#, 16#0073#, 16#0066#,
16#006F#, 16#0072#, 16#006D#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#005F#, 16#006F#, 16#0062#, 16#006A#,
16#0065#, 16#0063#, 16#0074#, 16#0046#,
16#006C#, 16#006F#, 16#0077#,
others => 16#0000#),
others => <>);
-- "ReduceAction"
MS_070E : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 12,
Length => 12,
Value =>
(16#0052#, 16#0065#, 16#0064#, 16#0075#,
16#0063#, 16#0065#, 16#0041#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "The qualifier attribute must be a qualifier attribute of an association end."
MS_070F : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 76,
Length => 76,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0071#, 16#0075#, 16#0061#, 16#006C#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#0020#, 16#0061#, 16#0074#,
16#0074#, 16#0072#, 16#0069#, 16#0062#,
16#0075#, 16#0074#, 16#0065#, 16#0020#,
16#006D#, 16#0075#, 16#0073#, 16#0074#,
16#0020#, 16#0062#, 16#0065#, 16#0020#,
16#0061#, 16#0020#, 16#0071#, 16#0075#,
16#0061#, 16#006C#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#0020#,
16#0061#, 16#0074#, 16#0074#, 16#0072#,
16#0069#, 16#0062#, 16#0075#, 16#0074#,
16#0065#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#0061#, 16#0073#, 16#0073#, 16#006F#,
16#0063#, 16#0069#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0065#, 16#006E#, 16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "readLinkAction"
MS_0710 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 14,
Length => 14,
Value =>
(16#0072#, 16#0065#, 16#0061#, 16#0064#,
16#004C#, 16#0069#, 16#006E#, 16#006B#,
16#0041#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "If true, the Classifier does not provide a complete declaration and can typically not be instantiated. An abstract classifier is intended to be used by other classifiers e.g. as the target of general metarelationships or generalization relationships."
MS_0711 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 263,
Unused => 250,
Length => 250,
Value =>
(16#0049#, 16#0066#, 16#0020#, 16#0074#,
16#0072#, 16#0075#, 16#0065#, 16#002C#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0043#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#0020#,
16#0064#, 16#006F#, 16#0065#, 16#0073#,
16#0020#, 16#006E#, 16#006F#, 16#0074#,
16#0020#, 16#0070#, 16#0072#, 16#006F#,
16#0076#, 16#0069#, 16#0064#, 16#0065#,
16#0020#, 16#0061#, 16#0020#, 16#0063#,
16#006F#, 16#006D#, 16#0070#, 16#006C#,
16#0065#, 16#0074#, 16#0065#, 16#0020#,
16#0064#, 16#0065#, 16#0063#, 16#006C#,
16#0061#, 16#0072#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0061#, 16#006E#, 16#0064#, 16#0020#,
16#0063#, 16#0061#, 16#006E#, 16#0020#,
16#0074#, 16#0079#, 16#0070#, 16#0069#,
16#0063#, 16#0061#, 16#006C#, 16#006C#,
16#0079#, 16#0020#, 16#006E#, 16#006F#,
16#0074#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0069#, 16#006E#, 16#0073#,
16#0074#, 16#0061#, 16#006E#, 16#0074#,
16#0069#, 16#0061#, 16#0074#, 16#0065#,
16#0064#, 16#002E#, 16#0020#, 16#0041#,
16#006E#, 16#0020#, 16#0061#, 16#0062#,
16#0073#, 16#0074#, 16#0072#, 16#0061#,
16#0063#, 16#0074#, 16#0020#, 16#0063#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0069#, 16#006E#, 16#0074#,
16#0065#, 16#006E#, 16#0064#, 16#0065#,
16#0064#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0062#, 16#0065#, 16#0020#,
16#0075#, 16#0073#, 16#0065#, 16#0064#,
16#0020#, 16#0062#, 16#0079#, 16#0020#,
16#006F#, 16#0074#, 16#0068#, 16#0065#,
16#0072#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#0073#, 16#0020#, 16#0065#, 16#002E#,
16#0067#, 16#002E#, 16#0020#, 16#0061#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0074#, 16#0061#,
16#0072#, 16#0067#, 16#0065#, 16#0074#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0067#, 16#0065#, 16#006E#, 16#0065#,
16#0072#, 16#0061#, 16#006C#, 16#0020#,
16#006D#, 16#0065#, 16#0074#, 16#0061#,
16#0072#, 16#0065#, 16#006C#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0073#, 16#0068#, 16#0069#, 16#0070#,
16#0073#, 16#0020#, 16#006F#, 16#0072#,
16#0020#, 16#0067#, 16#0065#, 16#006E#,
16#0065#, 16#0072#, 16#0061#, 16#006C#,
16#0069#, 16#007A#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0072#, 16#0065#, 16#006C#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0073#, 16#0068#, 16#0069#, 16#0070#,
16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "redefined"
MS_0712 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 9,
Length => 9,
Value =>
(16#0072#, 16#0065#, 16#0064#, 16#0065#,
16#0066#, 16#0069#, 16#006E#, 16#0065#,
16#0064#,
others => 16#0000#),
others => <>);
-- "An optional behavior that is executed whenever this state is entered regardless of the transition taken to reach the state. If defined, entry actions are always executed to completion prior to any internal behavior or transitions performed within the state."
MS_0713 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 271,
Unused => 257,
Length => 257,
Value =>
(16#0041#, 16#006E#, 16#0020#, 16#006F#,
16#0070#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0061#, 16#006C#, 16#0020#,
16#0062#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#0020#, 16#0074#, 16#0068#, 16#0061#,
16#0074#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0065#, 16#0078#, 16#0065#,
16#0063#, 16#0075#, 16#0074#, 16#0065#,
16#0064#, 16#0020#, 16#0077#, 16#0068#,
16#0065#, 16#006E#, 16#0065#, 16#0076#,
16#0065#, 16#0072#, 16#0020#, 16#0074#,
16#0068#, 16#0069#, 16#0073#, 16#0020#,
16#0073#, 16#0074#, 16#0061#, 16#0074#,
16#0065#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0065#, 16#006E#, 16#0074#,
16#0065#, 16#0072#, 16#0065#, 16#0064#,
16#0020#, 16#0072#, 16#0065#, 16#0067#,
16#0061#, 16#0072#, 16#0064#, 16#006C#,
16#0065#, 16#0073#, 16#0073#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0074#,
16#0072#, 16#0061#, 16#006E#, 16#0073#,
16#0069#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0074#, 16#0061#,
16#006B#, 16#0065#, 16#006E#, 16#0020#,
16#0074#, 16#006F#, 16#0020#, 16#0072#,
16#0065#, 16#0061#, 16#0063#, 16#0068#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0073#, 16#0074#, 16#0061#,
16#0074#, 16#0065#, 16#002E#, 16#0020#,
16#0049#, 16#0066#, 16#0020#, 16#0064#,
16#0065#, 16#0066#, 16#0069#, 16#006E#,
16#0065#, 16#0064#, 16#002C#, 16#0020#,
16#0065#, 16#006E#, 16#0074#, 16#0072#,
16#0079#, 16#0020#, 16#0061#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0073#, 16#0020#, 16#0061#, 16#0072#,
16#0065#, 16#0020#, 16#0061#, 16#006C#,
16#0077#, 16#0061#, 16#0079#, 16#0073#,
16#0020#, 16#0065#, 16#0078#, 16#0065#,
16#0063#, 16#0075#, 16#0074#, 16#0065#,
16#0064#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0063#, 16#006F#, 16#006D#,
16#0070#, 16#006C#, 16#0065#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0070#, 16#0072#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0061#, 16#006E#, 16#0079#,
16#0020#, 16#0069#, 16#006E#, 16#0074#,
16#0065#, 16#0072#, 16#006E#, 16#0061#,
16#006C#, 16#0020#, 16#0062#, 16#0065#,
16#0068#, 16#0061#, 16#0076#, 16#0069#,
16#006F#, 16#0072#, 16#0020#, 16#006F#,
16#0072#, 16#0020#, 16#0074#, 16#0072#,
16#0061#, 16#006E#, 16#0073#, 16#0069#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0073#, 16#0020#, 16#0070#, 16#0065#,
16#0072#, 16#0066#, 16#006F#, 16#0072#,
16#006D#, 16#0065#, 16#0064#, 16#0020#,
16#0077#, 16#0069#, 16#0074#, 16#0068#,
16#0069#, 16#006E#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0073#,
16#0074#, 16#0061#, 16#0074#, 16#0065#,
16#002E#,
others => 16#0000#),
others => <>);
-- "A_signature_message"
MS_0714 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 19,
Length => 19,
Value =>
(16#0041#, 16#005F#, 16#0073#, 16#0069#,
16#0067#, 16#006E#, 16#0061#, 16#0074#,
16#0075#, 16#0072#, 16#0065#, 16#005F#,
16#006D#, 16#0065#, 16#0073#, 16#0073#,
16#0061#, 16#0067#, 16#0065#,
others => 16#0000#),
others => <>);
-- "A_generalMachine_protocolConformance"
MS_0715 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 36,
Length => 36,
Value =>
(16#0041#, 16#005F#, 16#0067#, 16#0065#,
16#006E#, 16#0065#, 16#0072#, 16#0061#,
16#006C#, 16#004D#, 16#0061#, 16#0063#,
16#0068#, 16#0069#, 16#006E#, 16#0065#,
16#005F#, 16#0070#, 16#0072#, 16#006F#,
16#0074#, 16#006F#, 16#0063#, 16#006F#,
16#006C#, 16#0043#, 16#006F#, 16#006E#,
16#0066#, 16#006F#, 16#0072#, 16#006D#,
16#0061#, 16#006E#, 16#0063#, 16#0065#,
others => 16#0000#),
others => <>);
-- "profileApplication"
MS_0716 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 18,
Length => 18,
Value =>
(16#0070#, 16#0072#, 16#006F#, 16#0066#,
16#0069#, 16#006C#, 16#0065#, 16#0041#,
16#0070#, 16#0070#, 16#006C#, 16#0069#,
16#0063#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "Expression"
MS_0717 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 10,
Length => 10,
Value =>
(16#0045#, 16#0078#, 16#0070#, 16#0072#,
16#0065#, 16#0073#, 16#0073#, 16#0069#,
16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "References the OccurrenceSpecification that designates the finish of the Action or Behavior."
MS_0718 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 95,
Unused => 92,
Length => 92,
Value =>
(16#0052#, 16#0065#, 16#0066#, 16#0065#,
16#0072#, 16#0065#, 16#006E#, 16#0063#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#004F#,
16#0063#, 16#0063#, 16#0075#, 16#0072#,
16#0072#, 16#0065#, 16#006E#, 16#0063#,
16#0065#, 16#0053#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0063#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0064#, 16#0065#, 16#0073#, 16#0069#,
16#0067#, 16#006E#, 16#0061#, 16#0074#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0066#,
16#0069#, 16#006E#, 16#0069#, 16#0073#,
16#0068#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0041#, 16#0063#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#006F#, 16#0072#, 16#0020#, 16#0042#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "An input pin is a pin that holds input values to be consumed by an action."
MS_0719 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 74,
Length => 74,
Value =>
(16#0041#, 16#006E#, 16#0020#, 16#0069#,
16#006E#, 16#0070#, 16#0075#, 16#0074#,
16#0020#, 16#0070#, 16#0069#, 16#006E#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0061#, 16#0020#, 16#0070#, 16#0069#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0068#,
16#006F#, 16#006C#, 16#0064#, 16#0073#,
16#0020#, 16#0069#, 16#006E#, 16#0070#,
16#0075#, 16#0074#, 16#0020#, 16#0076#,
16#0061#, 16#006C#, 16#0075#, 16#0065#,
16#0073#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0062#, 16#0065#, 16#0020#,
16#0063#, 16#006F#, 16#006E#, 16#0073#,
16#0075#, 16#006D#, 16#0065#, 16#0064#,
16#0020#, 16#0062#, 16#0079#, 16#0020#,
16#0061#, 16#006E#, 16#0020#, 16#0061#,
16#0063#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#002E#,
others => 16#0000#),
others => <>);
-- "It is not instantiable."
MS_071A : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 23,
Length => 23,
Value =>
(16#0049#, 16#0074#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#006E#, 16#006F#,
16#0074#, 16#0020#, 16#0069#, 16#006E#,
16#0073#, 16#0074#, 16#0061#, 16#006E#,
16#0074#, 16#0069#, 16#0061#, 16#0062#,
16#006C#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A join node is a control node that synchronizes multiple flows."
MS_071B : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 71,
Unused => 63,
Length => 63,
Value =>
(16#0041#, 16#0020#, 16#006A#, 16#006F#,
16#0069#, 16#006E#, 16#0020#, 16#006E#,
16#006F#, 16#0064#, 16#0065#, 16#0020#,
16#0069#, 16#0073#, 16#0020#, 16#0061#,
16#0020#, 16#0063#, 16#006F#, 16#006E#,
16#0074#, 16#0072#, 16#006F#, 16#006C#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0073#,
16#0079#, 16#006E#, 16#0063#, 16#0068#,
16#0072#, 16#006F#, 16#006E#, 16#0069#,
16#007A#, 16#0065#, 16#0073#, 16#0020#,
16#006D#, 16#0075#, 16#006C#, 16#0074#,
16#0069#, 16#0070#, 16#006C#, 16#0065#,
16#0020#, 16#0066#, 16#006C#, 16#006F#,
16#0077#, 16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "LiteralBoolean"
MS_071C : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 14,
Length => 14,
Value =>
(16#004C#, 16#0069#, 16#0074#, 16#0065#,
16#0072#, 16#0061#, 16#006C#, 16#0042#,
16#006F#, 16#006F#, 16#006C#, 16#0065#,
16#0061#, 16#006E#,
others => 16#0000#),
others => <>);
-- "Refers to the Interaction that defines its meaning"
MS_071D : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 50,
Length => 50,
Value =>
(16#0052#, 16#0065#, 16#0066#, 16#0065#,
16#0072#, 16#0073#, 16#0020#, 16#0074#,
16#006F#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0049#, 16#006E#,
16#0074#, 16#0065#, 16#0072#, 16#0061#,
16#0063#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0064#,
16#0065#, 16#0066#, 16#0069#, 16#006E#,
16#0065#, 16#0073#, 16#0020#, 16#0069#,
16#0074#, 16#0073#, 16#0020#, 16#006D#,
16#0065#, 16#0061#, 16#006E#, 16#0069#,
16#006E#, 16#0067#,
others => 16#0000#),
others => <>);
-- "The query getName() returns the name under which the imported PackageableElement will be known in the importing namespace."
MS_071E : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 127,
Unused => 122,
Length => 122,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0071#, 16#0075#, 16#0065#, 16#0072#,
16#0079#, 16#0020#, 16#0067#, 16#0065#,
16#0074#, 16#004E#, 16#0061#, 16#006D#,
16#0065#, 16#0028#, 16#0029#, 16#0020#,
16#0072#, 16#0065#, 16#0074#, 16#0075#,
16#0072#, 16#006E#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#006E#, 16#0061#, 16#006D#, 16#0065#,
16#0020#, 16#0075#, 16#006E#, 16#0064#,
16#0065#, 16#0072#, 16#0020#, 16#0077#,
16#0068#, 16#0069#, 16#0063#, 16#0068#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0069#, 16#006D#, 16#0070#,
16#006F#, 16#0072#, 16#0074#, 16#0065#,
16#0064#, 16#0020#, 16#0050#, 16#0061#,
16#0063#, 16#006B#, 16#0061#, 16#0067#,
16#0065#, 16#0061#, 16#0062#, 16#006C#,
16#0065#, 16#0045#, 16#006C#, 16#0065#,
16#006D#, 16#0065#, 16#006E#, 16#0074#,
16#0020#, 16#0077#, 16#0069#, 16#006C#,
16#006C#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#006B#, 16#006E#, 16#006F#,
16#0077#, 16#006E#, 16#0020#, 16#0069#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0069#, 16#006D#,
16#0070#, 16#006F#, 16#0072#, 16#0074#,
16#0069#, 16#006E#, 16#0067#, 16#0020#,
16#006E#, 16#0061#, 16#006D#, 16#0065#,
16#0073#, 16#0070#, 16#0061#, 16#0063#,
16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "FinalNode"
MS_071F : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 9,
Length => 9,
Value =>
(16#0046#, 16#0069#, 16#006E#, 16#0061#,
16#006C#, 16#004E#, 16#006F#, 16#0064#,
16#0065#,
others => 16#0000#),
others => <>);
-- "A call event models the receipt by an object of a message invoking a call of an operation."
MS_0720 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 95,
Unused => 90,
Length => 90,
Value =>
(16#0041#, 16#0020#, 16#0063#, 16#0061#,
16#006C#, 16#006C#, 16#0020#, 16#0065#,
16#0076#, 16#0065#, 16#006E#, 16#0074#,
16#0020#, 16#006D#, 16#006F#, 16#0064#,
16#0065#, 16#006C#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0072#, 16#0065#, 16#0063#, 16#0065#,
16#0069#, 16#0070#, 16#0074#, 16#0020#,
16#0062#, 16#0079#, 16#0020#, 16#0061#,
16#006E#, 16#0020#, 16#006F#, 16#0062#,
16#006A#, 16#0065#, 16#0063#, 16#0074#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0061#, 16#0020#, 16#006D#, 16#0065#,
16#0073#, 16#0073#, 16#0061#, 16#0067#,
16#0065#, 16#0020#, 16#0069#, 16#006E#,
16#0076#, 16#006F#, 16#006B#, 16#0069#,
16#006E#, 16#0067#, 16#0020#, 16#0061#,
16#0020#, 16#0063#, 16#0061#, 16#006C#,
16#006C#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#006F#, 16#0070#, 16#0065#, 16#0072#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#002E#,
others => 16#0000#),
others => <>);
-- "An activity partition is a kind of activity group for identifying actions that have some characteristic in common."
MS_0721 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 119,
Unused => 114,
Length => 114,
Value =>
(16#0041#, 16#006E#, 16#0020#, 16#0061#,
16#0063#, 16#0074#, 16#0069#, 16#0076#,
16#0069#, 16#0074#, 16#0079#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0074#,
16#0069#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0061#, 16#0020#, 16#006B#,
16#0069#, 16#006E#, 16#0064#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0061#,
16#0063#, 16#0074#, 16#0069#, 16#0076#,
16#0069#, 16#0074#, 16#0079#, 16#0020#,
16#0067#, 16#0072#, 16#006F#, 16#0075#,
16#0070#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#0020#, 16#0069#, 16#0064#,
16#0065#, 16#006E#, 16#0074#, 16#0069#,
16#0066#, 16#0079#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0061#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0068#,
16#0061#, 16#0076#, 16#0065#, 16#0020#,
16#0073#, 16#006F#, 16#006D#, 16#0065#,
16#0020#, 16#0063#, 16#0068#, 16#0061#,
16#0072#, 16#0061#, 16#0063#, 16#0074#,
16#0065#, 16#0072#, 16#0069#, 16#0073#,
16#0074#, 16#0069#, 16#0063#, 16#0020#,
16#0069#, 16#006E#, 16#0020#, 16#0063#,
16#006F#, 16#006D#, 16#006D#, 16#006F#,
16#006E#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A final node is an abstract control node at which a flow in an activity stops."
MS_0722 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 78,
Length => 78,
Value =>
(16#0041#, 16#0020#, 16#0066#, 16#0069#,
16#006E#, 16#0061#, 16#006C#, 16#0020#,
16#006E#, 16#006F#, 16#0064#, 16#0065#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0061#, 16#006E#, 16#0020#, 16#0061#,
16#0062#, 16#0073#, 16#0074#, 16#0072#,
16#0061#, 16#0063#, 16#0074#, 16#0020#,
16#0063#, 16#006F#, 16#006E#, 16#0074#,
16#0072#, 16#006F#, 16#006C#, 16#0020#,
16#006E#, 16#006F#, 16#0064#, 16#0065#,
16#0020#, 16#0061#, 16#0074#, 16#0020#,
16#0077#, 16#0068#, 16#0069#, 16#0063#,
16#0068#, 16#0020#, 16#0061#, 16#0020#,
16#0066#, 16#006C#, 16#006F#, 16#0077#,
16#0020#, 16#0069#, 16#006E#, 16#0020#,
16#0061#, 16#006E#, 16#0020#, 16#0061#,
16#0063#, 16#0074#, 16#0069#, 16#0076#,
16#0069#, 16#0074#, 16#0079#, 16#0020#,
16#0073#, 16#0074#, 16#006F#, 16#0070#,
16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "ConnectorKind"
MS_0723 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 13,
Length => 13,
Value =>
(16#0043#, 16#006F#, 16#006E#, 16#006E#,
16#0065#, 16#0063#, 16#0074#, 16#006F#,
16#0072#, 16#004B#, 16#0069#, 16#006E#,
16#0064#,
others => 16#0000#),
others => <>);
-- "AddVariableValueAction"
MS_0724 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 22,
Length => 22,
Value =>
(16#0041#, 16#0064#, 16#0064#, 16#0056#,
16#0061#, 16#0072#, 16#0069#, 16#0061#,
16#0062#, 16#006C#, 16#0065#, 16#0056#,
16#0061#, 16#006C#, 16#0075#, 16#0065#,
16#0041#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "The set of operands of the combined fragment."
MS_0725 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 47,
Unused => 45,
Length => 45,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0065#, 16#0074#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#006F#,
16#0070#, 16#0065#, 16#0072#, 16#0061#,
16#006E#, 16#0064#, 16#0073#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0063#,
16#006F#, 16#006D#, 16#0062#, 16#0069#,
16#006E#, 16#0065#, 16#0064#, 16#0020#,
16#0066#, 16#0072#, 16#0061#, 16#0067#,
16#006D#, 16#0065#, 16#006E#, 16#0074#,
16#002E#,
others => 16#0000#),
others => <>);
-- "A_decisionInput_decisionNode"
MS_0726 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 28,
Length => 28,
Value =>
(16#0041#, 16#005F#, 16#0064#, 16#0065#,
16#0063#, 16#0069#, 16#0073#, 16#0069#,
16#006F#, 16#006E#, 16#0049#, 16#006E#,
16#0070#, 16#0075#, 16#0074#, 16#005F#,
16#0064#, 16#0065#, 16#0063#, 16#0069#,
16#0073#, 16#0069#, 16#006F#, 16#006E#,
16#004E#, 16#006F#, 16#0064#, 16#0065#,
others => 16#0000#),
others => <>);
-- "A_collaborationRole_collaboration"
MS_0727 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 33,
Length => 33,
Value =>
(16#0041#, 16#005F#, 16#0063#, 16#006F#,
16#006C#, 16#006C#, 16#0061#, 16#0062#,
16#006F#, 16#0072#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0052#,
16#006F#, 16#006C#, 16#0065#, 16#005F#,
16#0063#, 16#006F#, 16#006C#, 16#006C#,
16#0061#, 16#0062#, 16#006F#, 16#0072#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#,
others => 16#0000#),
others => <>);
-- "isCovering"
MS_0728 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 10,
Length => 10,
Value =>
(16#0069#, 16#0073#, 16#0043#, 16#006F#,
16#0076#, 16#0065#, 16#0072#, 16#0069#,
16#006E#, 16#0067#,
others => 16#0000#),
others => <>);
-- "This indicates the format of the content - which is how the string content should be interpreted. The following values are reserved: SVG, GIF, PNG, JPG, WMF, EMF, BMP. In addition the prefix 'MIME: ' is also reserved. This option can be used as an alternative to express the reserved values above, for example 'SVG' could instead be expressed as 'MIME: image/svg+xml'."
MS_0729 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 383,
Unused => 368,
Length => 368,
Value =>
(16#0054#, 16#0068#, 16#0069#, 16#0073#,
16#0020#, 16#0069#, 16#006E#, 16#0064#,
16#0069#, 16#0063#, 16#0061#, 16#0074#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0066#,
16#006F#, 16#0072#, 16#006D#, 16#0061#,
16#0074#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0063#, 16#006F#, 16#006E#,
16#0074#, 16#0065#, 16#006E#, 16#0074#,
16#0020#, 16#002D#, 16#0020#, 16#0077#,
16#0068#, 16#0069#, 16#0063#, 16#0068#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0068#, 16#006F#, 16#0077#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0074#, 16#0072#, 16#0069#,
16#006E#, 16#0067#, 16#0020#, 16#0063#,
16#006F#, 16#006E#, 16#0074#, 16#0065#,
16#006E#, 16#0074#, 16#0020#, 16#0073#,
16#0068#, 16#006F#, 16#0075#, 16#006C#,
16#0064#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0069#, 16#006E#, 16#0074#,
16#0065#, 16#0072#, 16#0070#, 16#0072#,
16#0065#, 16#0074#, 16#0065#, 16#0064#,
16#002E#, 16#0020#, 16#0054#, 16#0068#,
16#0065#, 16#0020#, 16#0066#, 16#006F#,
16#006C#, 16#006C#, 16#006F#, 16#0077#,
16#0069#, 16#006E#, 16#0067#, 16#0020#,
16#0076#, 16#0061#, 16#006C#, 16#0075#,
16#0065#, 16#0073#, 16#0020#, 16#0061#,
16#0072#, 16#0065#, 16#0020#, 16#0072#,
16#0065#, 16#0073#, 16#0065#, 16#0072#,
16#0076#, 16#0065#, 16#0064#, 16#003A#,
16#0020#, 16#0053#, 16#0056#, 16#0047#,
16#002C#, 16#0020#, 16#0047#, 16#0049#,
16#0046#, 16#002C#, 16#0020#, 16#0050#,
16#004E#, 16#0047#, 16#002C#, 16#0020#,
16#004A#, 16#0050#, 16#0047#, 16#002C#,
16#0020#, 16#0057#, 16#004D#, 16#0046#,
16#002C#, 16#0020#, 16#0045#, 16#004D#,
16#0046#, 16#002C#, 16#0020#, 16#0042#,
16#004D#, 16#0050#, 16#002E#, 16#0020#,
16#0049#, 16#006E#, 16#0020#, 16#0061#,
16#0064#, 16#0064#, 16#0069#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0070#, 16#0072#, 16#0065#, 16#0066#,
16#0069#, 16#0078#, 16#0020#, 16#0027#,
16#004D#, 16#0049#, 16#004D#, 16#0045#,
16#003A#, 16#0020#, 16#0027#, 16#0020#,
16#0069#, 16#0073#, 16#0020#, 16#0061#,
16#006C#, 16#0073#, 16#006F#, 16#0020#,
16#0072#, 16#0065#, 16#0073#, 16#0065#,
16#0072#, 16#0076#, 16#0065#, 16#0064#,
16#002E#, 16#0020#, 16#0054#, 16#0068#,
16#0069#, 16#0073#, 16#0020#, 16#006F#,
16#0070#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0063#, 16#0061#,
16#006E#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0075#, 16#0073#, 16#0065#,
16#0064#, 16#0020#, 16#0061#, 16#0073#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#0061#, 16#006C#, 16#0074#, 16#0065#,
16#0072#, 16#006E#, 16#0061#, 16#0074#,
16#0069#, 16#0076#, 16#0065#, 16#0020#,
16#0074#, 16#006F#, 16#0020#, 16#0065#,
16#0078#, 16#0070#, 16#0072#, 16#0065#,
16#0073#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0072#,
16#0065#, 16#0073#, 16#0065#, 16#0072#,
16#0076#, 16#0065#, 16#0064#, 16#0020#,
16#0076#, 16#0061#, 16#006C#, 16#0075#,
16#0065#, 16#0073#, 16#0020#, 16#0061#,
16#0062#, 16#006F#, 16#0076#, 16#0065#,
16#002C#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#0020#, 16#0065#, 16#0078#,
16#0061#, 16#006D#, 16#0070#, 16#006C#,
16#0065#, 16#0020#, 16#0027#, 16#0053#,
16#0056#, 16#0047#, 16#0027#, 16#0020#,
16#0063#, 16#006F#, 16#0075#, 16#006C#,
16#0064#, 16#0020#, 16#0069#, 16#006E#,
16#0073#, 16#0074#, 16#0065#, 16#0061#,
16#0064#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0065#, 16#0078#, 16#0070#,
16#0072#, 16#0065#, 16#0073#, 16#0073#,
16#0065#, 16#0064#, 16#0020#, 16#0061#,
16#0073#, 16#0020#, 16#0027#, 16#004D#,
16#0049#, 16#004D#, 16#0045#, 16#003A#,
16#0020#, 16#0069#, 16#006D#, 16#0061#,
16#0067#, 16#0065#, 16#002F#, 16#0073#,
16#0076#, 16#0067#, 16#002B#, 16#0078#,
16#006D#, 16#006C#, 16#0027#, 16#002E#,
others => 16#0000#),
others => <>);
-- "References the BehavioredClassifier that owns this Interfacerealization (i.e., the classifier that realizes the Interface to which it points)."
MS_072A : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 151,
Unused => 142,
Length => 142,
Value =>
(16#0052#, 16#0065#, 16#0066#, 16#0065#,
16#0072#, 16#0065#, 16#006E#, 16#0063#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0042#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#0065#,
16#0064#, 16#0043#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#006F#, 16#0077#, 16#006E#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0069#, 16#0073#, 16#0020#, 16#0049#,
16#006E#, 16#0074#, 16#0065#, 16#0072#,
16#0066#, 16#0061#, 16#0063#, 16#0065#,
16#0072#, 16#0065#, 16#0061#, 16#006C#,
16#0069#, 16#007A#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0028#, 16#0069#, 16#002E#, 16#0065#,
16#002E#, 16#002C#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0063#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0072#,
16#0065#, 16#0061#, 16#006C#, 16#0069#,
16#007A#, 16#0065#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0049#, 16#006E#, 16#0074#, 16#0065#,
16#0072#, 16#0066#, 16#0061#, 16#0063#,
16#0065#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0077#, 16#0068#, 16#0069#,
16#0063#, 16#0068#, 16#0020#, 16#0069#,
16#0074#, 16#0020#, 16#0070#, 16#006F#,
16#0069#, 16#006E#, 16#0074#, 16#0073#,
16#0029#, 16#002E#,
others => 16#0000#),
others => <>);
-- "redefined_property_inherited"
MS_072B : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 28,
Length => 28,
Value =>
(16#0072#, 16#0065#, 16#0064#, 16#0065#,
16#0066#, 16#0069#, 16#006E#, 16#0065#,
16#0064#, 16#005F#, 16#0070#, 16#0072#,
16#006F#, 16#0070#, 16#0065#, 16#0072#,
16#0074#, 16#0079#, 16#005F#, 16#0069#,
16#006E#, 16#0068#, 16#0065#, 16#0072#,
16#0069#, 16#0074#, 16#0065#, 16#0064#,
others => 16#0000#),
others => <>);
-- "A_message_considerIgnoreFragment"
MS_072C : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 32,
Length => 32,
Value =>
(16#0041#, 16#005F#, 16#006D#, 16#0065#,
16#0073#, 16#0073#, 16#0061#, 16#0067#,
16#0065#, 16#005F#, 16#0063#, 16#006F#,
16#006E#, 16#0073#, 16#0069#, 16#0064#,
16#0065#, 16#0072#, 16#0049#, 16#0067#,
16#006E#, 16#006F#, 16#0072#, 16#0065#,
16#0046#, 16#0072#, 16#0061#, 16#0067#,
16#006D#, 16#0065#, 16#006E#, 16#0074#,
others => 16#0000#),
others => <>);
-- "A selection behavior has one input parameter and one output parameter. The input parameter must be a bag of elements of the same type as the object node or a supertype of the type of object node. The output parameter must be the same or a subtype of the type of object node. The behavior cannot have side effects."
MS_072D : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 327,
Unused => 313,
Length => 313,
Value =>
(16#0041#, 16#0020#, 16#0073#, 16#0065#,
16#006C#, 16#0065#, 16#0063#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0062#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#0020#, 16#0068#, 16#0061#, 16#0073#,
16#0020#, 16#006F#, 16#006E#, 16#0065#,
16#0020#, 16#0069#, 16#006E#, 16#0070#,
16#0075#, 16#0074#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0020#, 16#0061#, 16#006E#, 16#0064#,
16#0020#, 16#006F#, 16#006E#, 16#0065#,
16#0020#, 16#006F#, 16#0075#, 16#0074#,
16#0070#, 16#0075#, 16#0074#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#002E#, 16#0020#, 16#0054#,
16#0068#, 16#0065#, 16#0020#, 16#0069#,
16#006E#, 16#0070#, 16#0075#, 16#0074#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0061#, 16#006D#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#0020#, 16#006D#,
16#0075#, 16#0073#, 16#0074#, 16#0020#,
16#0062#, 16#0065#, 16#0020#, 16#0061#,
16#0020#, 16#0062#, 16#0061#, 16#0067#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0065#, 16#006C#, 16#0065#, 16#006D#,
16#0065#, 16#006E#, 16#0074#, 16#0073#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0061#, 16#006D#, 16#0065#,
16#0020#, 16#0074#, 16#0079#, 16#0070#,
16#0065#, 16#0020#, 16#0061#, 16#0073#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#006F#, 16#0062#, 16#006A#,
16#0065#, 16#0063#, 16#0074#, 16#0020#,
16#006E#, 16#006F#, 16#0064#, 16#0065#,
16#0020#, 16#006F#, 16#0072#, 16#0020#,
16#0061#, 16#0020#, 16#0073#, 16#0075#,
16#0070#, 16#0065#, 16#0072#, 16#0074#,
16#0079#, 16#0070#, 16#0065#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0074#,
16#0079#, 16#0070#, 16#0065#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#006F#,
16#0062#, 16#006A#, 16#0065#, 16#0063#,
16#0074#, 16#0020#, 16#006E#, 16#006F#,
16#0064#, 16#0065#, 16#002E#, 16#0020#,
16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006F#, 16#0075#, 16#0074#, 16#0070#,
16#0075#, 16#0074#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0073#, 16#0061#, 16#006D#,
16#0065#, 16#0020#, 16#006F#, 16#0072#,
16#0020#, 16#0061#, 16#0020#, 16#0073#,
16#0075#, 16#0062#, 16#0074#, 16#0079#,
16#0070#, 16#0065#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0074#, 16#0079#,
16#0070#, 16#0065#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#006F#, 16#0062#,
16#006A#, 16#0065#, 16#0063#, 16#0074#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#002E#, 16#0020#, 16#0054#,
16#0068#, 16#0065#, 16#0020#, 16#0062#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#0020#,
16#0063#, 16#0061#, 16#006E#, 16#006E#,
16#006F#, 16#0074#, 16#0020#, 16#0068#,
16#0061#, 16#0076#, 16#0065#, 16#0020#,
16#0073#, 16#0069#, 16#0064#, 16#0065#,
16#0020#, 16#0065#, 16#0066#, 16#0066#,
16#0065#, 16#0063#, 16#0074#, 16#0073#,
16#002E#,
others => 16#0000#),
others => <>);
-- "A state machine as the method for a behavioral feature cannot have entry/exit connection points."
MS_072E : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 103,
Unused => 96,
Length => 96,
Value =>
(16#0041#, 16#0020#, 16#0073#, 16#0074#,
16#0061#, 16#0074#, 16#0065#, 16#0020#,
16#006D#, 16#0061#, 16#0063#, 16#0068#,
16#0069#, 16#006E#, 16#0065#, 16#0020#,
16#0061#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#006D#,
16#0065#, 16#0074#, 16#0068#, 16#006F#,
16#0064#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#0020#, 16#0061#, 16#0020#,
16#0062#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#0061#, 16#006C#, 16#0020#, 16#0066#,
16#0065#, 16#0061#, 16#0074#, 16#0075#,
16#0072#, 16#0065#, 16#0020#, 16#0063#,
16#0061#, 16#006E#, 16#006E#, 16#006F#,
16#0074#, 16#0020#, 16#0068#, 16#0061#,
16#0076#, 16#0065#, 16#0020#, 16#0065#,
16#006E#, 16#0074#, 16#0072#, 16#0079#,
16#002F#, 16#0065#, 16#0078#, 16#0069#,
16#0074#, 16#0020#, 16#0063#, 16#006F#,
16#006E#, 16#006E#, 16#0065#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0070#, 16#006F#, 16#0069#,
16#006E#, 16#0074#, 16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A component represents a modular part of a system that encapsulates its contents and whose manifestation is replaceable within its environment."
MS_072F : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 151,
Unused => 143,
Length => 143,
Value =>
(16#0041#, 16#0020#, 16#0063#, 16#006F#,
16#006D#, 16#0070#, 16#006F#, 16#006E#,
16#0065#, 16#006E#, 16#0074#, 16#0020#,
16#0072#, 16#0065#, 16#0070#, 16#0072#,
16#0065#, 16#0073#, 16#0065#, 16#006E#,
16#0074#, 16#0073#, 16#0020#, 16#0061#,
16#0020#, 16#006D#, 16#006F#, 16#0064#,
16#0075#, 16#006C#, 16#0061#, 16#0072#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0074#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0061#, 16#0020#, 16#0073#,
16#0079#, 16#0073#, 16#0074#, 16#0065#,
16#006D#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0065#,
16#006E#, 16#0063#, 16#0061#, 16#0070#,
16#0073#, 16#0075#, 16#006C#, 16#0061#,
16#0074#, 16#0065#, 16#0073#, 16#0020#,
16#0069#, 16#0074#, 16#0073#, 16#0020#,
16#0063#, 16#006F#, 16#006E#, 16#0074#,
16#0065#, 16#006E#, 16#0074#, 16#0073#,
16#0020#, 16#0061#, 16#006E#, 16#0064#,
16#0020#, 16#0077#, 16#0068#, 16#006F#,
16#0073#, 16#0065#, 16#0020#, 16#006D#,
16#0061#, 16#006E#, 16#0069#, 16#0066#,
16#0065#, 16#0073#, 16#0074#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0072#, 16#0065#, 16#0070#, 16#006C#,
16#0061#, 16#0063#, 16#0065#, 16#0061#,
16#0062#, 16#006C#, 16#0065#, 16#0020#,
16#0077#, 16#0069#, 16#0074#, 16#0068#,
16#0069#, 16#006E#, 16#0020#, 16#0069#,
16#0074#, 16#0073#, 16#0020#, 16#0065#,
16#006E#, 16#0076#, 16#0069#, 16#0072#,
16#006F#, 16#006E#, 16#006D#, 16#0065#,
16#006E#, 16#0074#, 16#002E#,
others => 16#0000#),
others => <>);
-- "lowerBound"
MS_0730 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 10,
Length => 10,
Value =>
(16#006C#, 16#006F#, 16#0077#, 16#0065#,
16#0072#, 16#0042#, 16#006F#, 16#0075#,
16#006E#, 16#0064#,
others => 16#0000#),
others => <>);
-- "A_ownedAttribute_interface"
MS_0731 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 26,
Length => 26,
Value =>
(16#0041#, 16#005F#, 16#006F#, 16#0077#,
16#006E#, 16#0065#, 16#0064#, 16#0041#,
16#0074#, 16#0074#, 16#0072#, 16#0069#,
16#0062#, 16#0075#, 16#0074#, 16#0065#,
16#005F#, 16#0069#, 16#006E#, 16#0074#,
16#0065#, 16#0072#, 16#0066#, 16#0061#,
16#0063#, 16#0065#,
others => 16#0000#),
others => <>);
-- "The specified String value."
MS_0732 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 27,
Length => 27,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0064#, 16#0020#, 16#0053#, 16#0074#,
16#0072#, 16#0069#, 16#006E#, 16#0067#,
16#0020#, 16#0076#, 16#0061#, 16#006C#,
16#0075#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "consider_or_ignore"
MS_0733 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 18,
Length => 18,
Value =>
(16#0063#, 16#006F#, 16#006E#, 16#0073#,
16#0069#, 16#0064#, 16#0065#, 16#0072#,
16#005F#, 16#006F#, 16#0072#, 16#005F#,
16#0069#, 16#0067#, 16#006E#, 16#006F#,
16#0072#, 16#0065#,
others => 16#0000#),
others => <>);
-- "The reply value pins must match the return, out, and inout parameters of the operation on the event on the trigger in number, type, and order."
MS_0734 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 151,
Unused => 142,
Length => 142,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0072#, 16#0065#, 16#0070#, 16#006C#,
16#0079#, 16#0020#, 16#0076#, 16#0061#,
16#006C#, 16#0075#, 16#0065#, 16#0020#,
16#0070#, 16#0069#, 16#006E#, 16#0073#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#006D#, 16#0061#,
16#0074#, 16#0063#, 16#0068#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0072#, 16#0065#, 16#0074#, 16#0075#,
16#0072#, 16#006E#, 16#002C#, 16#0020#,
16#006F#, 16#0075#, 16#0074#, 16#002C#,
16#0020#, 16#0061#, 16#006E#, 16#0064#,
16#0020#, 16#0069#, 16#006E#, 16#006F#,
16#0075#, 16#0074#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0073#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#006F#, 16#0070#, 16#0065#,
16#0072#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#006F#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0065#, 16#0076#,
16#0065#, 16#006E#, 16#0074#, 16#0020#,
16#006F#, 16#006E#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0074#,
16#0072#, 16#0069#, 16#0067#, 16#0067#,
16#0065#, 16#0072#, 16#0020#, 16#0069#,
16#006E#, 16#0020#, 16#006E#, 16#0075#,
16#006D#, 16#0062#, 16#0065#, 16#0072#,
16#002C#, 16#0020#, 16#0074#, 16#0079#,
16#0070#, 16#0065#, 16#002C#, 16#0020#,
16#0061#, 16#006E#, 16#0064#, 16#0020#,
16#006F#, 16#0072#, 16#0064#, 16#0065#,
16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Constraint that should be satisfied for the owner of the parameters in an input parameter set to start execution using the values provided for those parameters, or the owner of the parameters in an output parameter set to end execution providing the values for those parameters, if all preconditions and conditions on input parameter sets were satisfied."
MS_0735 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 367,
Unused => 354,
Length => 354,
Value =>
(16#0043#, 16#006F#, 16#006E#, 16#0073#,
16#0074#, 16#0072#, 16#0061#, 16#0069#,
16#006E#, 16#0074#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0073#, 16#0068#, 16#006F#, 16#0075#,
16#006C#, 16#0064#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0073#, 16#0061#,
16#0074#, 16#0069#, 16#0073#, 16#0066#,
16#0069#, 16#0065#, 16#0064#, 16#0020#,
16#0066#, 16#006F#, 16#0072#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#006F#, 16#0077#, 16#006E#, 16#0065#,
16#0072#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0061#, 16#006D#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#0073#, 16#0020#,
16#0069#, 16#006E#, 16#0020#, 16#0061#,
16#006E#, 16#0020#, 16#0069#, 16#006E#,
16#0070#, 16#0075#, 16#0074#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0020#, 16#0073#, 16#0065#,
16#0074#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0073#, 16#0074#, 16#0061#,
16#0072#, 16#0074#, 16#0020#, 16#0065#,
16#0078#, 16#0065#, 16#0063#, 16#0075#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0075#, 16#0073#, 16#0069#,
16#006E#, 16#0067#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0076#,
16#0061#, 16#006C#, 16#0075#, 16#0065#,
16#0073#, 16#0020#, 16#0070#, 16#0072#,
16#006F#, 16#0076#, 16#0069#, 16#0064#,
16#0065#, 16#0064#, 16#0020#, 16#0066#,
16#006F#, 16#0072#, 16#0020#, 16#0074#,
16#0068#, 16#006F#, 16#0073#, 16#0065#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0061#, 16#006D#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#0073#, 16#002C#,
16#0020#, 16#006F#, 16#0072#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#006F#, 16#0077#, 16#006E#, 16#0065#,
16#0072#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0061#, 16#006D#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#0073#, 16#0020#,
16#0069#, 16#006E#, 16#0020#, 16#0061#,
16#006E#, 16#0020#, 16#006F#, 16#0075#,
16#0074#, 16#0070#, 16#0075#, 16#0074#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0061#, 16#006D#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#0020#, 16#0073#,
16#0065#, 16#0074#, 16#0020#, 16#0074#,
16#006F#, 16#0020#, 16#0065#, 16#006E#,
16#0064#, 16#0020#, 16#0065#, 16#0078#,
16#0065#, 16#0063#, 16#0075#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0070#, 16#0072#, 16#006F#, 16#0076#,
16#0069#, 16#0064#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0076#, 16#0061#,
16#006C#, 16#0075#, 16#0065#, 16#0073#,
16#0020#, 16#0066#, 16#006F#, 16#0072#,
16#0020#, 16#0074#, 16#0068#, 16#006F#,
16#0073#, 16#0065#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0073#, 16#002C#, 16#0020#, 16#0069#,
16#0066#, 16#0020#, 16#0061#, 16#006C#,
16#006C#, 16#0020#, 16#0070#, 16#0072#,
16#0065#, 16#0063#, 16#006F#, 16#006E#,
16#0064#, 16#0069#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0073#, 16#0020#,
16#0061#, 16#006E#, 16#0064#, 16#0020#,
16#0063#, 16#006F#, 16#006E#, 16#0064#,
16#0069#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0073#, 16#0020#, 16#006F#,
16#006E#, 16#0020#, 16#0069#, 16#006E#,
16#0070#, 16#0075#, 16#0074#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0020#, 16#0073#, 16#0065#,
16#0074#, 16#0073#, 16#0020#, 16#0077#,
16#0065#, 16#0072#, 16#0065#, 16#0020#,
16#0073#, 16#0061#, 16#0074#, 16#0069#,
16#0073#, 16#0066#, 16#0069#, 16#0065#,
16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "message"
MS_0736 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 7,
Length => 7,
Value =>
(16#006D#, 16#0065#, 16#0073#, 16#0073#,
16#0061#, 16#0067#, 16#0065#,
others => 16#0000#),
others => <>);
-- "not_contained"
MS_0737 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 13,
Length => 13,
Value =>
(16#006E#, 16#006F#, 16#0074#, 16#005F#,
16#0063#, 16#006F#, 16#006E#, 16#0074#,
16#0061#, 16#0069#, 16#006E#, 16#0065#,
16#0064#,
others => 16#0000#),
others => <>);
-- "componentRealization"
MS_0738 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 20,
Length => 20,
Value =>
(16#0063#, 16#006F#, 16#006D#, 16#0070#,
16#006F#, 16#006E#, 16#0065#, 16#006E#,
16#0074#, 16#0052#, 16#0065#, 16#0061#,
16#006C#, 16#0069#, 16#007A#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "ReadExtentAction"
MS_0739 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 16,
Length => 16,
Value =>
(16#0052#, 16#0065#, 16#0061#, 16#0064#,
16#0045#, 16#0078#, 16#0074#, 16#0065#,
16#006E#, 16#0074#, 16#0041#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "Only control edges can have initial nodes as source."
MS_073A : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 52,
Length => 52,
Value =>
(16#004F#, 16#006E#, 16#006C#, 16#0079#,
16#0020#, 16#0063#, 16#006F#, 16#006E#,
16#0074#, 16#0072#, 16#006F#, 16#006C#,
16#0020#, 16#0065#, 16#0064#, 16#0067#,
16#0065#, 16#0073#, 16#0020#, 16#0063#,
16#0061#, 16#006E#, 16#0020#, 16#0068#,
16#0061#, 16#0076#, 16#0065#, 16#0020#,
16#0069#, 16#006E#, 16#0069#, 16#0074#,
16#0069#, 16#0061#, 16#006C#, 16#0020#,
16#006E#, 16#006F#, 16#0064#, 16#0065#,
16#0073#, 16#0020#, 16#0061#, 16#0073#,
16#0020#, 16#0073#, 16#006F#, 16#0075#,
16#0072#, 16#0063#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "ClassifierTemplateParameter"
MS_073B : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 27,
Length => 27,
Value =>
(16#0043#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0072#, 16#0054#, 16#0065#,
16#006D#, 16#0070#, 16#006C#, 16#0061#,
16#0074#, 16#0065#, 16#0050#, 16#0061#,
16#0072#, 16#0061#, 16#006D#, 16#0065#,
16#0074#, 16#0065#, 16#0072#,
others => 16#0000#),
others => <>);
-- "trigger"
MS_073C : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 7,
Length => 7,
Value =>
(16#0074#, 16#0072#, 16#0069#, 16#0067#,
16#0067#, 16#0065#, 16#0072#,
others => 16#0000#),
others => <>);
-- "A_redefinitionContext_transition"
MS_073D : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 32,
Length => 32,
Value =>
(16#0041#, 16#005F#, 16#0072#, 16#0065#,
16#0064#, 16#0065#, 16#0066#, 16#0069#,
16#006E#, 16#0069#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0043#, 16#006F#,
16#006E#, 16#0074#, 16#0065#, 16#0078#,
16#0074#, 16#005F#, 16#0074#, 16#0072#,
16#0061#, 16#006E#, 16#0073#, 16#0069#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "alias"
MS_073E : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 7,
Unused => 5,
Length => 5,
Value =>
(16#0061#, 16#006C#, 16#0069#, 16#0061#,
16#0073#,
others => 16#0000#),
others => <>);
-- "PrimitiveType"
MS_073F : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 13,
Length => 13,
Value =>
(16#0050#, 16#0072#, 16#0069#, 16#006D#,
16#0069#, 16#0074#, 16#0069#, 16#0076#,
16#0065#, 16#0054#, 16#0079#, 16#0070#,
16#0065#,
others => 16#0000#),
others => <>);
-- "A list of output pins that constitute the data flow outputs of the conditional."
MS_0740 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 79,
Length => 79,
Value =>
(16#0041#, 16#0020#, 16#006C#, 16#0069#,
16#0073#, 16#0074#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#006F#, 16#0075#,
16#0074#, 16#0070#, 16#0075#, 16#0074#,
16#0020#, 16#0070#, 16#0069#, 16#006E#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0063#,
16#006F#, 16#006E#, 16#0073#, 16#0074#,
16#0069#, 16#0074#, 16#0075#, 16#0074#,
16#0065#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0064#, 16#0061#,
16#0074#, 16#0061#, 16#0020#, 16#0066#,
16#006C#, 16#006F#, 16#0077#, 16#0020#,
16#006F#, 16#0075#, 16#0074#, 16#0070#,
16#0075#, 16#0074#, 16#0073#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0063#,
16#006F#, 16#006E#, 16#0064#, 16#0069#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0061#, 16#006C#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Activity parameter nodes must have parameters from the containing activity."
MS_0741 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 75,
Length => 75,
Value =>
(16#0041#, 16#0063#, 16#0074#, 16#0069#,
16#0076#, 16#0069#, 16#0074#, 16#0079#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0061#, 16#006D#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#0020#, 16#006E#,
16#006F#, 16#0064#, 16#0065#, 16#0073#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#0068#, 16#0061#,
16#0076#, 16#0065#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0073#, 16#0020#, 16#0066#, 16#0072#,
16#006F#, 16#006D#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0063#,
16#006F#, 16#006E#, 16#0074#, 16#0061#,
16#0069#, 16#006E#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0061#, 16#0063#,
16#0074#, 16#0069#, 16#0076#, 16#0069#,
16#0074#, 16#0079#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Specifies the ordered set of formal parameters of this BehavioralFeature."
MS_0742 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 73,
Length => 73,
Value =>
(16#0053#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#006F#, 16#0072#,
16#0064#, 16#0065#, 16#0072#, 16#0065#,
16#0064#, 16#0020#, 16#0073#, 16#0065#,
16#0074#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0066#, 16#006F#, 16#0072#,
16#006D#, 16#0061#, 16#006C#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0073#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0074#, 16#0068#,
16#0069#, 16#0073#, 16#0020#, 16#0042#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#0061#,
16#006C#, 16#0046#, 16#0065#, 16#0061#,
16#0074#, 16#0075#, 16#0072#, 16#0065#,
16#002E#,
others => 16#0000#),
others => <>);
-- "The guard must be placed directly prior to (above) the OccurrenceSpecification that will become the first OccurrenceSpecification within this InteractionOperand."
MS_0743 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 167,
Unused => 161,
Length => 161,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0067#, 16#0075#, 16#0061#, 16#0072#,
16#0064#, 16#0020#, 16#006D#, 16#0075#,
16#0073#, 16#0074#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0070#, 16#006C#,
16#0061#, 16#0063#, 16#0065#, 16#0064#,
16#0020#, 16#0064#, 16#0069#, 16#0072#,
16#0065#, 16#0063#, 16#0074#, 16#006C#,
16#0079#, 16#0020#, 16#0070#, 16#0072#,
16#0069#, 16#006F#, 16#0072#, 16#0020#,
16#0074#, 16#006F#, 16#0020#, 16#0028#,
16#0061#, 16#0062#, 16#006F#, 16#0076#,
16#0065#, 16#0029#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#004F#,
16#0063#, 16#0063#, 16#0075#, 16#0072#,
16#0072#, 16#0065#, 16#006E#, 16#0063#,
16#0065#, 16#0053#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0063#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0077#, 16#0069#, 16#006C#, 16#006C#,
16#0020#, 16#0062#, 16#0065#, 16#0063#,
16#006F#, 16#006D#, 16#0065#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0066#, 16#0069#, 16#0072#, 16#0073#,
16#0074#, 16#0020#, 16#004F#, 16#0063#,
16#0063#, 16#0075#, 16#0072#, 16#0072#,
16#0065#, 16#006E#, 16#0063#, 16#0065#,
16#0053#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0063#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0077#, 16#0069#,
16#0074#, 16#0068#, 16#0069#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0069#,
16#0073#, 16#0020#, 16#0049#, 16#006E#,
16#0074#, 16#0065#, 16#0072#, 16#0061#,
16#0063#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#004F#, 16#0070#, 16#0065#,
16#0072#, 16#0061#, 16#006E#, 16#0064#,
16#002E#,
others => 16#0000#),
others => <>);
-- "A_target_destroyObjectAction"
MS_0744 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 28,
Length => 28,
Value =>
(16#0041#, 16#005F#, 16#0074#, 16#0061#,
16#0072#, 16#0067#, 16#0065#, 16#0074#,
16#005F#, 16#0064#, 16#0065#, 16#0073#,
16#0074#, 16#0072#, 16#006F#, 16#0079#,
16#004F#, 16#0062#, 16#006A#, 16#0065#,
16#0063#, 16#0074#, 16#0041#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "feature"
MS_0745 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 7,
Length => 7,
Value =>
(16#0066#, 16#0065#, 16#0061#, 16#0074#,
16#0075#, 16#0072#, 16#0065#,
others => 16#0000#),
others => <>);
-- "The multiplicity of the open association end must be compatible with the multiplicity of the result output pin."
MS_0746 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 119,
Unused => 111,
Length => 111,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006D#, 16#0075#, 16#006C#, 16#0074#,
16#0069#, 16#0070#, 16#006C#, 16#0069#,
16#0063#, 16#0069#, 16#0074#, 16#0079#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#006F#, 16#0070#, 16#0065#, 16#006E#,
16#0020#, 16#0061#, 16#0073#, 16#0073#,
16#006F#, 16#0063#, 16#0069#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0065#, 16#006E#, 16#0064#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0063#, 16#006F#, 16#006D#,
16#0070#, 16#0061#, 16#0074#, 16#0069#,
16#0062#, 16#006C#, 16#0065#, 16#0020#,
16#0077#, 16#0069#, 16#0074#, 16#0068#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#006D#, 16#0075#, 16#006C#,
16#0074#, 16#0069#, 16#0070#, 16#006C#,
16#0069#, 16#0063#, 16#0069#, 16#0074#,
16#0079#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0072#, 16#0065#, 16#0073#,
16#0075#, 16#006C#, 16#0074#, 16#0020#,
16#006F#, 16#0075#, 16#0074#, 16#0070#,
16#0075#, 16#0074#, 16#0020#, 16#0070#,
16#0069#, 16#006E#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A_association_clearAssociationAction"
MS_0747 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 36,
Length => 36,
Value =>
(16#0041#, 16#005F#, 16#0061#, 16#0073#,
16#0073#, 16#006F#, 16#0063#, 16#0069#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#005F#, 16#0063#, 16#006C#,
16#0065#, 16#0061#, 16#0072#, 16#0041#,
16#0073#, 16#0073#, 16#006F#, 16#0063#,
16#0069#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0041#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "formalGate"
MS_0748 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 10,
Length => 10,
Value =>
(16#0066#, 16#006F#, 16#0072#, 16#006D#,
16#0061#, 16#006C#, 16#0047#, 16#0061#,
16#0074#, 16#0065#,
others => 16#0000#),
others => <>);
-- "owningPackage"
MS_0749 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 13,
Length => 13,
Value =>
(16#006F#, 16#0077#, 16#006E#, 16#0069#,
16#006E#, 16#0067#, 16#0050#, 16#0061#,
16#0063#, 16#006B#, 16#0061#, 16#0067#,
16#0065#,
others => 16#0000#),
others => <>);
-- "protocolTransition"
MS_074A : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 18,
Length => 18,
Value =>
(16#0070#, 16#0072#, 16#006F#, 16#0074#,
16#006F#, 16#0063#, 16#006F#, 16#006C#,
16#0054#, 16#0072#, 16#0061#, 16#006E#,
16#0073#, 16#0069#, 16#0074#, 16#0069#,
16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "ConnectableElement"
MS_074B : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 18,
Length => 18,
Value =>
(16#0043#, 16#006F#, 16#006E#, 16#006E#,
16#0065#, 16#0063#, 16#0074#, 16#0061#,
16#0062#, 16#006C#, 16#0065#, 16#0045#,
16#006C#, 16#0065#, 16#006D#, 16#0065#,
16#006E#, 16#0074#,
others => 16#0000#),
others => <>);
-- "Refers to the Duration denoting the maximum value of the range."
MS_074C : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 71,
Unused => 63,
Length => 63,
Value =>
(16#0052#, 16#0065#, 16#0066#, 16#0065#,
16#0072#, 16#0073#, 16#0020#, 16#0074#,
16#006F#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0044#, 16#0075#,
16#0072#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0064#,
16#0065#, 16#006E#, 16#006F#, 16#0074#,
16#0069#, 16#006E#, 16#0067#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#006D#, 16#0061#, 16#0078#, 16#0069#,
16#006D#, 16#0075#, 16#006D#, 16#0020#,
16#0076#, 16#0061#, 16#006C#, 16#0075#,
16#0065#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0072#, 16#0061#, 16#006E#,
16#0067#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The parents of a classifier must be non-final."
MS_074D : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 47,
Unused => 46,
Length => 46,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0065#,
16#006E#, 16#0074#, 16#0073#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0061#,
16#0020#, 16#0063#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#0020#,
16#006D#, 16#0075#, 16#0073#, 16#0074#,
16#0020#, 16#0062#, 16#0065#, 16#0020#,
16#006E#, 16#006F#, 16#006E#, 16#002D#,
16#0066#, 16#0069#, 16#006E#, 16#0061#,
16#006C#, 16#002E#,
others => 16#0000#),
others => <>);
-- "inPartition"
MS_074E : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 11,
Length => 11,
Value =>
(16#0069#, 16#006E#, 16#0050#, 16#0061#,
16#0072#, 16#0074#, 16#0069#, 16#0074#,
16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "LiteralString"
MS_074F : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 13,
Length => 13,
Value =>
(16#004C#, 16#0069#, 16#0074#, 16#0065#,
16#0072#, 16#0061#, 16#006C#, 16#0053#,
16#0074#, 16#0072#, 16#0069#, 16#006E#,
16#0067#,
others => 16#0000#),
others => <>);
-- "org.omg.xmi.nsPrefix"
MS_0750 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 20,
Length => 20,
Value =>
(16#006F#, 16#0072#, 16#0067#, 16#002E#,
16#006F#, 16#006D#, 16#0067#, 16#002E#,
16#0078#, 16#006D#, 16#0069#, 16#002E#,
16#006E#, 16#0073#, 16#0050#, 16#0072#,
16#0065#, 16#0066#, 16#0069#, 16#0078#,
others => 16#0000#),
others => <>);
-- "True indicates this property can be used to uniquely identify an instance of the containing Class."
MS_0751 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 103,
Unused => 98,
Length => 98,
Value =>
(16#0054#, 16#0072#, 16#0075#, 16#0065#,
16#0020#, 16#0069#, 16#006E#, 16#0064#,
16#0069#, 16#0063#, 16#0061#, 16#0074#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0069#, 16#0073#, 16#0020#,
16#0070#, 16#0072#, 16#006F#, 16#0070#,
16#0065#, 16#0072#, 16#0074#, 16#0079#,
16#0020#, 16#0063#, 16#0061#, 16#006E#,
16#0020#, 16#0062#, 16#0065#, 16#0020#,
16#0075#, 16#0073#, 16#0065#, 16#0064#,
16#0020#, 16#0074#, 16#006F#, 16#0020#,
16#0075#, 16#006E#, 16#0069#, 16#0071#,
16#0075#, 16#0065#, 16#006C#, 16#0079#,
16#0020#, 16#0069#, 16#0064#, 16#0065#,
16#006E#, 16#0074#, 16#0069#, 16#0066#,
16#0079#, 16#0020#, 16#0061#, 16#006E#,
16#0020#, 16#0069#, 16#006E#, 16#0073#,
16#0074#, 16#0061#, 16#006E#, 16#0063#,
16#0065#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0063#, 16#006F#, 16#006E#,
16#0074#, 16#0061#, 16#0069#, 16#006E#,
16#0069#, 16#006E#, 16#0067#, 16#0020#,
16#0043#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "at_most_one_return"
MS_0752 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 18,
Length => 18,
Value =>
(16#0061#, 16#0074#, 16#005F#, 16#006D#,
16#006F#, 16#0073#, 16#0074#, 16#005F#,
16#006F#, 16#006E#, 16#0065#, 16#005F#,
16#0072#, 16#0065#, 16#0074#, 16#0075#,
16#0072#, 16#006E#,
others => 16#0000#),
others => <>);
-- "In a complete statemachine, a fork vertex must have at least two outgoing transitions and exactly one incoming transition."
MS_0753 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 127,
Unused => 122,
Length => 122,
Value =>
(16#0049#, 16#006E#, 16#0020#, 16#0061#,
16#0020#, 16#0063#, 16#006F#, 16#006D#,
16#0070#, 16#006C#, 16#0065#, 16#0074#,
16#0065#, 16#0020#, 16#0073#, 16#0074#,
16#0061#, 16#0074#, 16#0065#, 16#006D#,
16#0061#, 16#0063#, 16#0068#, 16#0069#,
16#006E#, 16#0065#, 16#002C#, 16#0020#,
16#0061#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#006B#, 16#0020#, 16#0076#,
16#0065#, 16#0072#, 16#0074#, 16#0065#,
16#0078#, 16#0020#, 16#006D#, 16#0075#,
16#0073#, 16#0074#, 16#0020#, 16#0068#,
16#0061#, 16#0076#, 16#0065#, 16#0020#,
16#0061#, 16#0074#, 16#0020#, 16#006C#,
16#0065#, 16#0061#, 16#0073#, 16#0074#,
16#0020#, 16#0074#, 16#0077#, 16#006F#,
16#0020#, 16#006F#, 16#0075#, 16#0074#,
16#0067#, 16#006F#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0074#, 16#0072#,
16#0061#, 16#006E#, 16#0073#, 16#0069#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0073#, 16#0020#, 16#0061#, 16#006E#,
16#0064#, 16#0020#, 16#0065#, 16#0078#,
16#0061#, 16#0063#, 16#0074#, 16#006C#,
16#0079#, 16#0020#, 16#006F#, 16#006E#,
16#0065#, 16#0020#, 16#0069#, 16#006E#,
16#0063#, 16#006F#, 16#006D#, 16#0069#,
16#006E#, 16#0067#, 16#0020#, 16#0074#,
16#0072#, 16#0061#, 16#006E#, 16#0073#,
16#0069#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The optional template signature specifying the formal template parameters."
MS_0754 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 74,
Length => 74,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006F#, 16#0070#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0061#, 16#006C#,
16#0020#, 16#0074#, 16#0065#, 16#006D#,
16#0070#, 16#006C#, 16#0061#, 16#0074#,
16#0065#, 16#0020#, 16#0073#, 16#0069#,
16#0067#, 16#006E#, 16#0061#, 16#0074#,
16#0075#, 16#0072#, 16#0065#, 16#0020#,
16#0073#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0079#, 16#0069#,
16#006E#, 16#0067#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0066#,
16#006F#, 16#0072#, 16#006D#, 16#0061#,
16#006C#, 16#0020#, 16#0074#, 16#0065#,
16#006D#, 16#0070#, 16#006C#, 16#0061#,
16#0074#, 16#0065#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "VariableAction is an abstract class for actions that operate on a statically specified variable."
MS_0755 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 103,
Unused => 96,
Length => 96,
Value =>
(16#0056#, 16#0061#, 16#0072#, 16#0069#,
16#0061#, 16#0062#, 16#006C#, 16#0065#,
16#0041#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#0061#, 16#006E#,
16#0020#, 16#0061#, 16#0062#, 16#0073#,
16#0074#, 16#0072#, 16#0061#, 16#0063#,
16#0074#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0020#,
16#0066#, 16#006F#, 16#0072#, 16#0020#,
16#0061#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#006F#, 16#0070#, 16#0065#,
16#0072#, 16#0061#, 16#0074#, 16#0065#,
16#0020#, 16#006F#, 16#006E#, 16#0020#,
16#0061#, 16#0020#, 16#0073#, 16#0074#,
16#0061#, 16#0074#, 16#0069#, 16#0063#,
16#0061#, 16#006C#, 16#006C#, 16#0079#,
16#0020#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0064#, 16#0020#, 16#0076#,
16#0061#, 16#0072#, 16#0069#, 16#0061#,
16#0062#, 16#006C#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Tells whether the objects in the flow are gathered from respondents to multicasting."
MS_0756 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 84,
Length => 84,
Value =>
(16#0054#, 16#0065#, 16#006C#, 16#006C#,
16#0073#, 16#0020#, 16#0077#, 16#0068#,
16#0065#, 16#0074#, 16#0068#, 16#0065#,
16#0072#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#006F#, 16#0062#,
16#006A#, 16#0065#, 16#0063#, 16#0074#,
16#0073#, 16#0020#, 16#0069#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0066#, 16#006C#, 16#006F#,
16#0077#, 16#0020#, 16#0061#, 16#0072#,
16#0065#, 16#0020#, 16#0067#, 16#0061#,
16#0074#, 16#0068#, 16#0065#, 16#0072#,
16#0065#, 16#0064#, 16#0020#, 16#0066#,
16#0072#, 16#006F#, 16#006D#, 16#0020#,
16#0072#, 16#0065#, 16#0073#, 16#0070#,
16#006F#, 16#006E#, 16#0064#, 16#0065#,
16#006E#, 16#0074#, 16#0073#, 16#0020#,
16#0074#, 16#006F#, 16#0020#, 16#006D#,
16#0075#, 16#006C#, 16#0074#, 16#0069#,
16#0063#, 16#0061#, 16#0073#, 16#0074#,
16#0069#, 16#006E#, 16#0067#, 16#002E#,
others => 16#0000#),
others => <>);
-- "maxint_greater_equal_minint"
MS_0757 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 27,
Length => 27,
Value =>
(16#006D#, 16#0061#, 16#0078#, 16#0069#,
16#006E#, 16#0074#, 16#005F#, 16#0067#,
16#0072#, 16#0065#, 16#0061#, 16#0074#,
16#0065#, 16#0072#, 16#005F#, 16#0065#,
16#0071#, 16#0075#, 16#0061#, 16#006C#,
16#005F#, 16#006D#, 16#0069#, 16#006E#,
16#0069#, 16#006E#, 16#0074#,
others => 16#0000#),
others => <>);
-- "The onPort must be a port on the receiver object."
MS_0758 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 49,
Length => 49,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006F#, 16#006E#, 16#0050#, 16#006F#,
16#0072#, 16#0074#, 16#0020#, 16#006D#,
16#0075#, 16#0073#, 16#0074#, 16#0020#,
16#0062#, 16#0065#, 16#0020#, 16#0061#,
16#0020#, 16#0070#, 16#006F#, 16#0072#,
16#0074#, 16#0020#, 16#006F#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0072#, 16#0065#, 16#0063#,
16#0065#, 16#0069#, 16#0076#, 16#0065#,
16#0072#, 16#0020#, 16#006F#, 16#0062#,
16#006A#, 16#0065#, 16#0063#, 16#0074#,
16#002E#,
others => 16#0000#),
others => <>);
-- "Refers to the TimeExpression denoting the maximum value of the range."
MS_0759 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 71,
Unused => 69,
Length => 69,
Value =>
(16#0052#, 16#0065#, 16#0066#, 16#0065#,
16#0072#, 16#0073#, 16#0020#, 16#0074#,
16#006F#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0054#, 16#0069#,
16#006D#, 16#0065#, 16#0045#, 16#0078#,
16#0070#, 16#0072#, 16#0065#, 16#0073#,
16#0073#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0064#, 16#0065#, 16#006E#,
16#006F#, 16#0074#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#006D#, 16#0061#,
16#0078#, 16#0069#, 16#006D#, 16#0075#,
16#006D#, 16#0020#, 16#0076#, 16#0061#,
16#006C#, 16#0075#, 16#0065#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0072#,
16#0061#, 16#006E#, 16#0067#, 16#0065#,
16#002E#,
others => 16#0000#),
others => <>);
-- "utilizedElement"
MS_075A : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 15,
Length => 15,
Value =>
(16#0075#, 16#0074#, 16#0069#, 16#006C#,
16#0069#, 16#007A#, 16#0065#, 16#0064#,
16#0045#, 16#006C#, 16#0065#, 16#006D#,
16#0065#, 16#006E#, 16#0074#,
others => 16#0000#),
others => <>);
-- "The DataType that owns this Property."
MS_075B : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 37,
Length => 37,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0044#, 16#0061#, 16#0074#, 16#0061#,
16#0054#, 16#0079#, 16#0070#, 16#0065#,
16#0020#, 16#0074#, 16#0068#, 16#0061#,
16#0074#, 16#0020#, 16#006F#, 16#0077#,
16#006E#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0069#, 16#0073#, 16#0020#,
16#0050#, 16#0072#, 16#006F#, 16#0070#,
16#0065#, 16#0072#, 16#0074#, 16#0079#,
16#002E#,
others => 16#0000#),
others => <>);
-- "BehavioredClassifier"
MS_075C : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 20,
Length => 20,
Value =>
(16#0042#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#0065#, 16#0064#, 16#0043#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
others => 16#0000#),
others => <>);
-- "An execution specification is a specification of the execution of a unit of behavior or action within the lifeline. The duration of an execution specification is represented by two cccurrence specifications, the start occurrence specification and the finish occurrence specification."
MS_075D : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 295,
Unused => 283,
Length => 283,
Value =>
(16#0041#, 16#006E#, 16#0020#, 16#0065#,
16#0078#, 16#0065#, 16#0063#, 16#0075#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0063#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#0061#, 16#0020#,
16#0073#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0063#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0065#, 16#0078#, 16#0065#,
16#0063#, 16#0075#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0061#, 16#0020#,
16#0075#, 16#006E#, 16#0069#, 16#0074#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0062#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#0020#, 16#006F#, 16#0072#, 16#0020#,
16#0061#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0077#,
16#0069#, 16#0074#, 16#0068#, 16#0069#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#006C#, 16#0069#,
16#0066#, 16#0065#, 16#006C#, 16#0069#,
16#006E#, 16#0065#, 16#002E#, 16#0020#,
16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0064#, 16#0075#, 16#0072#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0061#, 16#006E#, 16#0020#, 16#0065#,
16#0078#, 16#0065#, 16#0063#, 16#0075#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0063#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#0072#, 16#0065#,
16#0070#, 16#0072#, 16#0065#, 16#0073#,
16#0065#, 16#006E#, 16#0074#, 16#0065#,
16#0064#, 16#0020#, 16#0062#, 16#0079#,
16#0020#, 16#0074#, 16#0077#, 16#006F#,
16#0020#, 16#0063#, 16#0063#, 16#0063#,
16#0075#, 16#0072#, 16#0072#, 16#0065#,
16#006E#, 16#0063#, 16#0065#, 16#0020#,
16#0073#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0063#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0073#, 16#002C#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0074#, 16#0061#, 16#0072#,
16#0074#, 16#0020#, 16#006F#, 16#0063#,
16#0063#, 16#0075#, 16#0072#, 16#0072#,
16#0065#, 16#006E#, 16#0063#, 16#0065#,
16#0020#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0063#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0061#,
16#006E#, 16#0064#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0066#,
16#0069#, 16#006E#, 16#0069#, 16#0073#,
16#0068#, 16#0020#, 16#006F#, 16#0063#,
16#0063#, 16#0075#, 16#0072#, 16#0072#,
16#0065#, 16#006E#, 16#0063#, 16#0065#,
16#0020#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0063#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#002E#,
others => 16#0000#),
others => <>);
-- "fork"
MS_075E : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 7,
Unused => 4,
Length => 4,
Value =>
(16#0066#, 16#006F#, 16#0072#, 16#006B#,
others => 16#0000#),
others => <>);
-- "minint_non_negative"
MS_075F : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 19,
Length => 19,
Value =>
(16#006D#, 16#0069#, 16#006E#, 16#0069#,
16#006E#, 16#0074#, 16#005F#, 16#006E#,
16#006F#, 16#006E#, 16#005F#, 16#006E#,
16#0065#, 16#0067#, 16#0061#, 16#0074#,
16#0069#, 16#0076#, 16#0065#,
others => 16#0000#),
others => <>);
-- "Defines to which target the conveyed InformationItems are directed."
MS_0760 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 71,
Unused => 67,
Length => 67,
Value =>
(16#0044#, 16#0065#, 16#0066#, 16#0069#,
16#006E#, 16#0065#, 16#0073#, 16#0020#,
16#0074#, 16#006F#, 16#0020#, 16#0077#,
16#0068#, 16#0069#, 16#0063#, 16#0068#,
16#0020#, 16#0074#, 16#0061#, 16#0072#,
16#0067#, 16#0065#, 16#0074#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0063#, 16#006F#, 16#006E#, 16#0076#,
16#0065#, 16#0079#, 16#0065#, 16#0064#,
16#0020#, 16#0049#, 16#006E#, 16#0066#,
16#006F#, 16#0072#, 16#006D#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0049#, 16#0074#, 16#0065#, 16#006D#,
16#0073#, 16#0020#, 16#0061#, 16#0072#,
16#0065#, 16#0020#, 16#0064#, 16#0069#,
16#0072#, 16#0065#, 16#0063#, 16#0074#,
16#0065#, 16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Node from which tokens are taken when they traverse the edge."
MS_0761 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 61,
Length => 61,
Value =>
(16#004E#, 16#006F#, 16#0064#, 16#0065#,
16#0020#, 16#0066#, 16#0072#, 16#006F#,
16#006D#, 16#0020#, 16#0077#, 16#0068#,
16#0069#, 16#0063#, 16#0068#, 16#0020#,
16#0074#, 16#006F#, 16#006B#, 16#0065#,
16#006E#, 16#0073#, 16#0020#, 16#0061#,
16#0072#, 16#0065#, 16#0020#, 16#0074#,
16#0061#, 16#006B#, 16#0065#, 16#006E#,
16#0020#, 16#0077#, 16#0068#, 16#0065#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0079#, 16#0020#, 16#0074#,
16#0072#, 16#0061#, 16#0076#, 16#0065#,
16#0072#, 16#0073#, 16#0065#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0065#, 16#0064#, 16#0067#, 16#0065#,
16#002E#,
others => 16#0000#),
others => <>);
-- "StartObjectBehaviorAction"
MS_0762 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 25,
Length => 25,
Value =>
(16#0053#, 16#0074#, 16#0061#, 16#0072#,
16#0074#, 16#004F#, 16#0062#, 16#006A#,
16#0065#, 16#0063#, 16#0074#, 16#0042#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#0041#,
16#0063#, 16#0074#, 16#0069#, 16#006F#,
16#006E#,
others => 16#0000#),
others => <>);
-- "isUnmarshall"
MS_0763 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 12,
Length => 12,
Value =>
(16#0069#, 16#0073#, 16#0055#, 16#006E#,
16#006D#, 16#0061#, 16#0072#, 16#0073#,
16#0068#, 16#0061#, 16#006C#, 16#006C#,
others => 16#0000#),
others => <>);
-- "Utility returning the set of used interfaces of a component."
MS_0764 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 60,
Length => 60,
Value =>
(16#0055#, 16#0074#, 16#0069#, 16#006C#,
16#0069#, 16#0074#, 16#0079#, 16#0020#,
16#0072#, 16#0065#, 16#0074#, 16#0075#,
16#0072#, 16#006E#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0073#, 16#0065#,
16#0074#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0075#, 16#0073#, 16#0065#,
16#0064#, 16#0020#, 16#0069#, 16#006E#,
16#0074#, 16#0065#, 16#0072#, 16#0066#,
16#0061#, 16#0063#, 16#0065#, 16#0073#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0061#, 16#0020#, 16#0063#, 16#006F#,
16#006D#, 16#0070#, 16#006F#, 16#006E#,
16#0065#, 16#006E#, 16#0074#, 16#002E#,
others => 16#0000#),
others => <>);
-- "ownedRule"
MS_0765 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 9,
Length => 9,
Value =>
(16#006F#, 16#0077#, 16#006E#, 16#0065#,
16#0064#, 16#0052#, 16#0075#, 16#006C#,
16#0065#,
others => 16#0000#),
others => <>);
-- "After termination of the action, will hold the result of the test."
MS_0766 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 71,
Unused => 66,
Length => 66,
Value =>
(16#0041#, 16#0066#, 16#0074#, 16#0065#,
16#0072#, 16#0020#, 16#0074#, 16#0065#,
16#0072#, 16#006D#, 16#0069#, 16#006E#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0061#, 16#0063#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#002C#,
16#0020#, 16#0077#, 16#0069#, 16#006C#,
16#006C#, 16#0020#, 16#0068#, 16#006F#,
16#006C#, 16#0064#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0072#,
16#0065#, 16#0073#, 16#0075#, 16#006C#,
16#0074#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0074#, 16#0065#, 16#0073#,
16#0074#, 16#002E#,
others => 16#0000#),
others => <>);
-- "isSubmachineState"
MS_0767 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 17,
Length => 17,
Value =>
(16#0069#, 16#0073#, 16#0053#, 16#0075#,
16#0062#, 16#006D#, 16#0061#, 16#0063#,
16#0068#, 16#0069#, 16#006E#, 16#0065#,
16#0053#, 16#0074#, 16#0061#, 16#0074#,
16#0065#,
others => 16#0000#),
others => <>);
-- "The query allFeatures() gives all of the features in the namespace of the classifier. In general, through mechanisms such as inheritance, this will be a larger set than feature."
MS_0768 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 183,
Unused => 177,
Length => 177,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0071#, 16#0075#, 16#0065#, 16#0072#,
16#0079#, 16#0020#, 16#0061#, 16#006C#,
16#006C#, 16#0046#, 16#0065#, 16#0061#,
16#0074#, 16#0075#, 16#0072#, 16#0065#,
16#0073#, 16#0028#, 16#0029#, 16#0020#,
16#0067#, 16#0069#, 16#0076#, 16#0065#,
16#0073#, 16#0020#, 16#0061#, 16#006C#,
16#006C#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0066#, 16#0065#, 16#0061#,
16#0074#, 16#0075#, 16#0072#, 16#0065#,
16#0073#, 16#0020#, 16#0069#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#006E#, 16#0061#, 16#006D#,
16#0065#, 16#0073#, 16#0070#, 16#0061#,
16#0063#, 16#0065#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#002E#, 16#0020#, 16#0049#, 16#006E#,
16#0020#, 16#0067#, 16#0065#, 16#006E#,
16#0065#, 16#0072#, 16#0061#, 16#006C#,
16#002C#, 16#0020#, 16#0074#, 16#0068#,
16#0072#, 16#006F#, 16#0075#, 16#0067#,
16#0068#, 16#0020#, 16#006D#, 16#0065#,
16#0063#, 16#0068#, 16#0061#, 16#006E#,
16#0069#, 16#0073#, 16#006D#, 16#0073#,
16#0020#, 16#0073#, 16#0075#, 16#0063#,
16#0068#, 16#0020#, 16#0061#, 16#0073#,
16#0020#, 16#0069#, 16#006E#, 16#0068#,
16#0065#, 16#0072#, 16#0069#, 16#0074#,
16#0061#, 16#006E#, 16#0063#, 16#0065#,
16#002C#, 16#0020#, 16#0074#, 16#0068#,
16#0069#, 16#0073#, 16#0020#, 16#0077#,
16#0069#, 16#006C#, 16#006C#, 16#0020#,
16#0062#, 16#0065#, 16#0020#, 16#0061#,
16#0020#, 16#006C#, 16#0061#, 16#0072#,
16#0067#, 16#0065#, 16#0072#, 16#0020#,
16#0073#, 16#0065#, 16#0074#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#006E#,
16#0020#, 16#0066#, 16#0065#, 16#0061#,
16#0074#, 16#0075#, 16#0072#, 16#0065#,
16#002E#,
others => 16#0000#),
others => <>);
-- "A data store node is a central buffer node for non-transient information."
MS_0769 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 73,
Length => 73,
Value =>
(16#0041#, 16#0020#, 16#0064#, 16#0061#,
16#0074#, 16#0061#, 16#0020#, 16#0073#,
16#0074#, 16#006F#, 16#0072#, 16#0065#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0061#, 16#0020#, 16#0063#,
16#0065#, 16#006E#, 16#0074#, 16#0072#,
16#0061#, 16#006C#, 16#0020#, 16#0062#,
16#0075#, 16#0066#, 16#0066#, 16#0065#,
16#0072#, 16#0020#, 16#006E#, 16#006F#,
16#0064#, 16#0065#, 16#0020#, 16#0066#,
16#006F#, 16#0072#, 16#0020#, 16#006E#,
16#006F#, 16#006E#, 16#002D#, 16#0074#,
16#0072#, 16#0061#, 16#006E#, 16#0073#,
16#0069#, 16#0065#, 16#006E#, 16#0074#,
16#0020#, 16#0069#, 16#006E#, 16#0066#,
16#006F#, 16#0072#, 16#006D#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#002E#,
others => 16#0000#),
others => <>);
-- "The Classifier that maps to a GeneralizationSet may neither be a specific nor a general Classifier in any of the Generalization relationships defined for that GeneralizationSet. In other words, a power type may not be an instance of itself nor may its instances be its subclasses."
MS_076A : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 295,
Unused => 280,
Length => 280,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0043#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0072#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#006D#, 16#0061#, 16#0070#, 16#0073#,
16#0020#, 16#0074#, 16#006F#, 16#0020#,
16#0061#, 16#0020#, 16#0047#, 16#0065#,
16#006E#, 16#0065#, 16#0072#, 16#0061#,
16#006C#, 16#0069#, 16#007A#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0053#, 16#0065#, 16#0074#, 16#0020#,
16#006D#, 16#0061#, 16#0079#, 16#0020#,
16#006E#, 16#0065#, 16#0069#, 16#0074#,
16#0068#, 16#0065#, 16#0072#, 16#0020#,
16#0062#, 16#0065#, 16#0020#, 16#0061#,
16#0020#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0063#, 16#0020#, 16#006E#, 16#006F#,
16#0072#, 16#0020#, 16#0061#, 16#0020#,
16#0067#, 16#0065#, 16#006E#, 16#0065#,
16#0072#, 16#0061#, 16#006C#, 16#0020#,
16#0043#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0072#, 16#0020#, 16#0069#,
16#006E#, 16#0020#, 16#0061#, 16#006E#,
16#0079#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0047#, 16#0065#, 16#006E#,
16#0065#, 16#0072#, 16#0061#, 16#006C#,
16#0069#, 16#007A#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0072#, 16#0065#, 16#006C#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0073#, 16#0068#, 16#0069#, 16#0070#,
16#0073#, 16#0020#, 16#0064#, 16#0065#,
16#0066#, 16#0069#, 16#006E#, 16#0065#,
16#0064#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0047#,
16#0065#, 16#006E#, 16#0065#, 16#0072#,
16#0061#, 16#006C#, 16#0069#, 16#007A#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0053#, 16#0065#, 16#0074#,
16#002E#, 16#0020#, 16#0049#, 16#006E#,
16#0020#, 16#006F#, 16#0074#, 16#0068#,
16#0065#, 16#0072#, 16#0020#, 16#0077#,
16#006F#, 16#0072#, 16#0064#, 16#0073#,
16#002C#, 16#0020#, 16#0061#, 16#0020#,
16#0070#, 16#006F#, 16#0077#, 16#0065#,
16#0072#, 16#0020#, 16#0074#, 16#0079#,
16#0070#, 16#0065#, 16#0020#, 16#006D#,
16#0061#, 16#0079#, 16#0020#, 16#006E#,
16#006F#, 16#0074#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0061#, 16#006E#,
16#0020#, 16#0069#, 16#006E#, 16#0073#,
16#0074#, 16#0061#, 16#006E#, 16#0063#,
16#0065#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0069#, 16#0074#, 16#0073#,
16#0065#, 16#006C#, 16#0066#, 16#0020#,
16#006E#, 16#006F#, 16#0072#, 16#0020#,
16#006D#, 16#0061#, 16#0079#, 16#0020#,
16#0069#, 16#0074#, 16#0073#, 16#0020#,
16#0069#, 16#006E#, 16#0073#, 16#0074#,
16#0061#, 16#006E#, 16#0063#, 16#0065#,
16#0073#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0069#, 16#0074#, 16#0073#,
16#0020#, 16#0073#, 16#0075#, 16#0062#,
16#0063#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#0065#, 16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "ParameterSet"
MS_076B : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 12,
Length => 12,
Value =>
(16#0050#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0053#, 16#0065#, 16#0074#,
others => 16#0000#),
others => <>);
-- "selector_specified"
MS_076C : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 18,
Length => 18,
Value =>
(16#0073#, 16#0065#, 16#006C#, 16#0065#,
16#0063#, 16#0074#, 16#006F#, 16#0072#,
16#005F#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0064#,
others => 16#0000#),
others => <>);
-- "The ParameterSets owned by this Behavior."
MS_076D : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 47,
Unused => 41,
Length => 41,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0050#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0053#, 16#0065#, 16#0074#,
16#0073#, 16#0020#, 16#006F#, 16#0077#,
16#006E#, 16#0065#, 16#0064#, 16#0020#,
16#0062#, 16#0079#, 16#0020#, 16#0074#,
16#0068#, 16#0069#, 16#0073#, 16#0020#,
16#0042#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#002E#,
others => 16#0000#),
others => <>);
-- "If true, the Classifier cannot be specialized by generalization. Note that this property is preserved through package merge operations; that is, the capability to specialize a Classifier (i.e., isFinalSpecialization =false) must be preserved in the resulting Classifier of a package merge operation where a Classifier with isFinalSpecialization =false is merged with a matching Classifier with isFinalSpecialization =true: the resulting Classifier will have isFinalSpecialization =false."
MS_076E : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 503,
Unused => 487,
Length => 487,
Value =>
(16#0049#, 16#0066#, 16#0020#, 16#0074#,
16#0072#, 16#0075#, 16#0065#, 16#002C#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0043#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#0020#,
16#0063#, 16#0061#, 16#006E#, 16#006E#,
16#006F#, 16#0074#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0073#, 16#0070#,
16#0065#, 16#0063#, 16#0069#, 16#0061#,
16#006C#, 16#0069#, 16#007A#, 16#0065#,
16#0064#, 16#0020#, 16#0062#, 16#0079#,
16#0020#, 16#0067#, 16#0065#, 16#006E#,
16#0065#, 16#0072#, 16#0061#, 16#006C#,
16#0069#, 16#007A#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#002E#,
16#0020#, 16#004E#, 16#006F#, 16#0074#,
16#0065#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0074#,
16#0068#, 16#0069#, 16#0073#, 16#0020#,
16#0070#, 16#0072#, 16#006F#, 16#0070#,
16#0065#, 16#0072#, 16#0074#, 16#0079#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0070#, 16#0072#, 16#0065#, 16#0073#,
16#0065#, 16#0072#, 16#0076#, 16#0065#,
16#0064#, 16#0020#, 16#0074#, 16#0068#,
16#0072#, 16#006F#, 16#0075#, 16#0067#,
16#0068#, 16#0020#, 16#0070#, 16#0061#,
16#0063#, 16#006B#, 16#0061#, 16#0067#,
16#0065#, 16#0020#, 16#006D#, 16#0065#,
16#0072#, 16#0067#, 16#0065#, 16#0020#,
16#006F#, 16#0070#, 16#0065#, 16#0072#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0073#, 16#003B#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#0069#, 16#0073#, 16#002C#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0063#, 16#0061#, 16#0070#,
16#0061#, 16#0062#, 16#0069#, 16#006C#,
16#0069#, 16#0074#, 16#0079#, 16#0020#,
16#0074#, 16#006F#, 16#0020#, 16#0073#,
16#0070#, 16#0065#, 16#0063#, 16#0069#,
16#0061#, 16#006C#, 16#0069#, 16#007A#,
16#0065#, 16#0020#, 16#0061#, 16#0020#,
16#0043#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0072#, 16#0020#, 16#0028#,
16#0069#, 16#002E#, 16#0065#, 16#002E#,
16#002C#, 16#0020#, 16#0069#, 16#0073#,
16#0046#, 16#0069#, 16#006E#, 16#0061#,
16#006C#, 16#0053#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0061#, 16#006C#,
16#0069#, 16#007A#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#003D#, 16#0066#, 16#0061#, 16#006C#,
16#0073#, 16#0065#, 16#0029#, 16#0020#,
16#006D#, 16#0075#, 16#0073#, 16#0074#,
16#0020#, 16#0062#, 16#0065#, 16#0020#,
16#0070#, 16#0072#, 16#0065#, 16#0073#,
16#0065#, 16#0072#, 16#0076#, 16#0065#,
16#0064#, 16#0020#, 16#0069#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0072#, 16#0065#, 16#0073#,
16#0075#, 16#006C#, 16#0074#, 16#0069#,
16#006E#, 16#0067#, 16#0020#, 16#0043#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0061#, 16#0020#, 16#0070#,
16#0061#, 16#0063#, 16#006B#, 16#0061#,
16#0067#, 16#0065#, 16#0020#, 16#006D#,
16#0065#, 16#0072#, 16#0067#, 16#0065#,
16#0020#, 16#006F#, 16#0070#, 16#0065#,
16#0072#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0077#,
16#0068#, 16#0065#, 16#0072#, 16#0065#,
16#0020#, 16#0061#, 16#0020#, 16#0043#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#0020#, 16#0077#, 16#0069#,
16#0074#, 16#0068#, 16#0020#, 16#0069#,
16#0073#, 16#0046#, 16#0069#, 16#006E#,
16#0061#, 16#006C#, 16#0053#, 16#0070#,
16#0065#, 16#0063#, 16#0069#, 16#0061#,
16#006C#, 16#0069#, 16#007A#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#003D#, 16#0066#, 16#0061#,
16#006C#, 16#0073#, 16#0065#, 16#0020#,
16#0069#, 16#0073#, 16#0020#, 16#006D#,
16#0065#, 16#0072#, 16#0067#, 16#0065#,
16#0064#, 16#0020#, 16#0077#, 16#0069#,
16#0074#, 16#0068#, 16#0020#, 16#0061#,
16#0020#, 16#006D#, 16#0061#, 16#0074#,
16#0063#, 16#0068#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0043#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#0020#, 16#0077#, 16#0069#, 16#0074#,
16#0068#, 16#0020#, 16#0069#, 16#0073#,
16#0046#, 16#0069#, 16#006E#, 16#0061#,
16#006C#, 16#0053#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0061#, 16#006C#,
16#0069#, 16#007A#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#003D#, 16#0074#, 16#0072#, 16#0075#,
16#0065#, 16#003A#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0072#,
16#0065#, 16#0073#, 16#0075#, 16#006C#,
16#0074#, 16#0069#, 16#006E#, 16#0067#,
16#0020#, 16#0043#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#0020#,
16#0077#, 16#0069#, 16#006C#, 16#006C#,
16#0020#, 16#0068#, 16#0061#, 16#0076#,
16#0065#, 16#0020#, 16#0069#, 16#0073#,
16#0046#, 16#0069#, 16#006E#, 16#0061#,
16#006C#, 16#0053#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0061#, 16#006C#,
16#0069#, 16#007A#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#003D#, 16#0066#, 16#0061#, 16#006C#,
16#0073#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "definingFeature"
MS_076F : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 15,
Length => 15,
Value =>
(16#0064#, 16#0065#, 16#0066#, 16#0069#,
16#006E#, 16#0069#, 16#006E#, 16#0067#,
16#0046#, 16#0065#, 16#0061#, 16#0074#,
16#0075#, 16#0072#, 16#0065#,
others => 16#0000#),
others => <>);
-- "References the roles that instances may play in this classifier."
MS_0770 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 71,
Unused => 64,
Length => 64,
Value =>
(16#0052#, 16#0065#, 16#0066#, 16#0065#,
16#0072#, 16#0065#, 16#006E#, 16#0063#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0072#,
16#006F#, 16#006C#, 16#0065#, 16#0073#,
16#0020#, 16#0074#, 16#0068#, 16#0061#,
16#0074#, 16#0020#, 16#0069#, 16#006E#,
16#0073#, 16#0074#, 16#0061#, 16#006E#,
16#0063#, 16#0065#, 16#0073#, 16#0020#,
16#006D#, 16#0061#, 16#0079#, 16#0020#,
16#0070#, 16#006C#, 16#0061#, 16#0079#,
16#0020#, 16#0069#, 16#006E#, 16#0020#,
16#0074#, 16#0068#, 16#0069#, 16#0073#,
16#0020#, 16#0063#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "decisionInputFlow"
MS_0771 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 17,
Length => 17,
Value =>
(16#0064#, 16#0065#, 16#0063#, 16#0069#,
16#0073#, 16#0069#, 16#006F#, 16#006E#,
16#0049#, 16#006E#, 16#0070#, 16#0075#,
16#0074#, 16#0046#, 16#006C#, 16#006F#,
16#0077#,
others => 16#0000#),
others => <>);
-- "when_non_negative"
MS_0772 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 17,
Length => 17,
Value =>
(16#0077#, 16#0068#, 16#0065#, 16#006E#,
16#005F#, 16#006E#, 16#006F#, 16#006E#,
16#005F#, 16#006E#, 16#0065#, 16#0067#,
16#0061#, 16#0074#, 16#0069#, 16#0076#,
16#0065#,
others => 16#0000#),
others => <>);
-- "neg"
MS_0773 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 7,
Unused => 3,
Length => 3,
Value =>
(16#006E#, 16#0065#, 16#0067#,
others => 16#0000#),
others => <>);
-- "metaclass_reference_not_specialized"
MS_0774 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 35,
Length => 35,
Value =>
(16#006D#, 16#0065#, 16#0074#, 16#0061#,
16#0063#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#005F#, 16#0072#, 16#0065#,
16#0066#, 16#0065#, 16#0072#, 16#0065#,
16#006E#, 16#0063#, 16#0065#, 16#005F#,
16#006E#, 16#006F#, 16#0074#, 16#005F#,
16#0073#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0061#, 16#006C#, 16#0069#,
16#007A#, 16#0065#, 16#0064#,
others => 16#0000#),
others => <>);
-- "A_object_unmarshallAction"
MS_0775 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 25,
Length => 25,
Value =>
(16#0041#, 16#005F#, 16#006F#, 16#0062#,
16#006A#, 16#0065#, 16#0063#, 16#0074#,
16#005F#, 16#0075#, 16#006E#, 16#006D#,
16#0061#, 16#0072#, 16#0073#, 16#0068#,
16#0061#, 16#006C#, 16#006C#, 16#0041#,
16#0063#, 16#0074#, 16#0069#, 16#006F#,
16#006E#,
others => 16#0000#),
others => <>);
-- "Specifies all elements inherited by this classifier from the general classifiers."
MS_0776 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 81,
Length => 81,
Value =>
(16#0053#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0073#, 16#0020#, 16#0061#, 16#006C#,
16#006C#, 16#0020#, 16#0065#, 16#006C#,
16#0065#, 16#006D#, 16#0065#, 16#006E#,
16#0074#, 16#0073#, 16#0020#, 16#0069#,
16#006E#, 16#0068#, 16#0065#, 16#0072#,
16#0069#, 16#0074#, 16#0065#, 16#0064#,
16#0020#, 16#0062#, 16#0079#, 16#0020#,
16#0074#, 16#0068#, 16#0069#, 16#0073#,
16#0020#, 16#0063#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#0020#,
16#0066#, 16#0072#, 16#006F#, 16#006D#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0067#, 16#0065#, 16#006E#,
16#0065#, 16#0072#, 16#0061#, 16#006C#,
16#0020#, 16#0063#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#0073#,
16#002E#,
others => 16#0000#),
others => <>);
-- "The message was generated by an asynchronous call to an operation; i.e., a CallAction with isSynchronous = false."
MS_0777 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 119,
Unused => 113,
Length => 113,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006D#, 16#0065#, 16#0073#, 16#0073#,
16#0061#, 16#0067#, 16#0065#, 16#0020#,
16#0077#, 16#0061#, 16#0073#, 16#0020#,
16#0067#, 16#0065#, 16#006E#, 16#0065#,
16#0072#, 16#0061#, 16#0074#, 16#0065#,
16#0064#, 16#0020#, 16#0062#, 16#0079#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#0061#, 16#0073#, 16#0079#, 16#006E#,
16#0063#, 16#0068#, 16#0072#, 16#006F#,
16#006E#, 16#006F#, 16#0075#, 16#0073#,
16#0020#, 16#0063#, 16#0061#, 16#006C#,
16#006C#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#006F#, 16#0070#, 16#0065#, 16#0072#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#003B#, 16#0020#, 16#0069#,
16#002E#, 16#0065#, 16#002E#, 16#002C#,
16#0020#, 16#0061#, 16#0020#, 16#0043#,
16#0061#, 16#006C#, 16#006C#, 16#0041#,
16#0063#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0077#, 16#0069#,
16#0074#, 16#0068#, 16#0020#, 16#0069#,
16#0073#, 16#0053#, 16#0079#, 16#006E#,
16#0063#, 16#0068#, 16#0072#, 16#006F#,
16#006E#, 16#006F#, 16#0075#, 16#0073#,
16#0020#, 16#003D#, 16#0020#, 16#0066#,
16#0061#, 16#006C#, 16#0073#, 16#0065#,
16#002E#,
others => 16#0000#),
others => <>);
-- "executionLocation"
MS_0778 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 17,
Length => 17,
Value =>
(16#0065#, 16#0078#, 16#0065#, 16#0063#,
16#0075#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#004C#, 16#006F#, 16#0063#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#,
others => 16#0000#),
others => <>);
-- "interactionFragment"
MS_0779 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 19,
Length => 19,
Value =>
(16#0069#, 16#006E#, 16#0074#, 16#0065#,
16#0072#, 16#0061#, 16#0063#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0046#,
16#0072#, 16#0061#, 16#0067#, 16#006D#,
16#0065#, 16#006E#, 16#0074#,
others => 16#0000#),
others => <>);
-- "parameterSet"
MS_077A : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 12,
Length => 12,
Value =>
(16#0070#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0053#, 16#0065#, 16#0074#,
others => 16#0000#),
others => <>);
-- "value_specification_constant"
MS_077B : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 28,
Length => 28,
Value =>
(16#0076#, 16#0061#, 16#006C#, 16#0075#,
16#0065#, 16#005F#, 16#0073#, 16#0070#,
16#0065#, 16#0063#, 16#0069#, 16#0066#,
16#0069#, 16#0063#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#005F#,
16#0063#, 16#006F#, 16#006E#, 16#0073#,
16#0074#, 16#0061#, 16#006E#, 16#0074#,
others => 16#0000#),
others => <>);
-- "A_result_testIdentityAction"
MS_077C : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 27,
Length => 27,
Value =>
(16#0041#, 16#005F#, 16#0072#, 16#0065#,
16#0073#, 16#0075#, 16#006C#, 16#0074#,
16#005F#, 16#0074#, 16#0065#, 16#0073#,
16#0074#, 16#0049#, 16#0064#, 16#0065#,
16#006E#, 16#0074#, 16#0069#, 16#0074#,
16#0079#, 16#0041#, 16#0063#, 16#0074#,
16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "subexpressions"
MS_077D : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 14,
Length => 14,
Value =>
(16#0073#, 16#0075#, 16#0062#, 16#0065#,
16#0078#, 16#0070#, 16#0072#, 16#0065#,
16#0073#, 16#0073#, 16#0069#, 16#006F#,
16#006E#, 16#0073#,
others => 16#0000#),
others => <>);
-- "s1"
MS_077E : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 7,
Unused => 2,
Length => 2,
Value =>
(16#0073#, 16#0031#,
others => 16#0000#),
others => <>);
-- "ReplyAction"
MS_077F : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 11,
Length => 11,
Value =>
(16#0052#, 16#0065#, 16#0070#, 16#006C#,
16#0079#, 16#0041#, 16#0063#, 16#0074#,
16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "importingNamespace"
MS_0780 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 18,
Length => 18,
Value =>
(16#0069#, 16#006D#, 16#0070#, 16#006F#,
16#0072#, 16#0074#, 16#0069#, 16#006E#,
16#0067#, 16#004E#, 16#0061#, 16#006D#,
16#0065#, 16#0073#, 16#0070#, 16#0061#,
16#0063#, 16#0065#,
others => 16#0000#),
others => <>);
-- "Designates the target vertex that is reached when the transition is taken."
MS_0781 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 74,
Length => 74,
Value =>
(16#0044#, 16#0065#, 16#0073#, 16#0069#,
16#0067#, 16#006E#, 16#0061#, 16#0074#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0074#,
16#0061#, 16#0072#, 16#0067#, 16#0065#,
16#0074#, 16#0020#, 16#0076#, 16#0065#,
16#0072#, 16#0074#, 16#0065#, 16#0078#,
16#0020#, 16#0074#, 16#0068#, 16#0061#,
16#0074#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0072#, 16#0065#, 16#0061#,
16#0063#, 16#0068#, 16#0065#, 16#0064#,
16#0020#, 16#0077#, 16#0068#, 16#0065#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0074#, 16#0072#,
16#0061#, 16#006E#, 16#0073#, 16#0069#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0074#, 16#0061#, 16#006B#, 16#0065#,
16#006E#, 16#002E#,
others => 16#0000#),
others => <>);
-- "ownedDefault"
MS_0782 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 12,
Length => 12,
Value =>
(16#006F#, 16#0077#, 16#006E#, 16#0065#,
16#0064#, 16#0044#, 16#0065#, 16#0066#,
16#0061#, 16#0075#, 16#006C#, 16#0074#,
others => 16#0000#),
others => <>);
-- "A parameter with direction other than inout must have at most one activity parameter node in an activity."
MS_0783 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 111,
Unused => 105,
Length => 105,
Value =>
(16#0041#, 16#0020#, 16#0070#, 16#0061#,
16#0072#, 16#0061#, 16#006D#, 16#0065#,
16#0074#, 16#0065#, 16#0072#, 16#0020#,
16#0077#, 16#0069#, 16#0074#, 16#0068#,
16#0020#, 16#0064#, 16#0069#, 16#0072#,
16#0065#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#006F#,
16#0074#, 16#0068#, 16#0065#, 16#0072#,
16#0020#, 16#0074#, 16#0068#, 16#0061#,
16#006E#, 16#0020#, 16#0069#, 16#006E#,
16#006F#, 16#0075#, 16#0074#, 16#0020#,
16#006D#, 16#0075#, 16#0073#, 16#0074#,
16#0020#, 16#0068#, 16#0061#, 16#0076#,
16#0065#, 16#0020#, 16#0061#, 16#0074#,
16#0020#, 16#006D#, 16#006F#, 16#0073#,
16#0074#, 16#0020#, 16#006F#, 16#006E#,
16#0065#, 16#0020#, 16#0061#, 16#0063#,
16#0074#, 16#0069#, 16#0076#, 16#0069#,
16#0074#, 16#0079#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#0020#, 16#0069#, 16#006E#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#0061#, 16#0063#, 16#0074#, 16#0069#,
16#0076#, 16#0069#, 16#0074#, 16#0079#,
16#002E#,
others => 16#0000#),
others => <>);
-- "number_and_order"
MS_0784 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 16,
Length => 16,
Value =>
(16#006E#, 16#0075#, 16#006D#, 16#0062#,
16#0065#, 16#0072#, 16#005F#, 16#0061#,
16#006E#, 16#0064#, 16#005F#, 16#006F#,
16#0072#, 16#0064#, 16#0065#, 16#0072#,
others => 16#0000#),
others => <>);
-- "The association cannot be an abstract classifier."
MS_0785 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 49,
Length => 49,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0061#, 16#0073#, 16#0073#, 16#006F#,
16#0063#, 16#0069#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0063#, 16#0061#, 16#006E#, 16#006E#,
16#006F#, 16#0074#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0061#, 16#006E#,
16#0020#, 16#0061#, 16#0062#, 16#0073#,
16#0074#, 16#0072#, 16#0061#, 16#0063#,
16#0074#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#002E#,
others => 16#0000#),
others => <>);
-- "The message designating the creation of another lifeline object."
MS_0786 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 71,
Unused => 64,
Length => 64,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006D#, 16#0065#, 16#0073#, 16#0073#,
16#0061#, 16#0067#, 16#0065#, 16#0020#,
16#0064#, 16#0065#, 16#0073#, 16#0069#,
16#0067#, 16#006E#, 16#0061#, 16#0074#,
16#0069#, 16#006E#, 16#0067#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0063#, 16#0072#, 16#0065#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0061#, 16#006E#, 16#006F#, 16#0074#,
16#0068#, 16#0065#, 16#0072#, 16#0020#,
16#006C#, 16#0069#, 16#0066#, 16#0065#,
16#006C#, 16#0069#, 16#006E#, 16#0065#,
16#0020#, 16#006F#, 16#0062#, 16#006A#,
16#0065#, 16#0063#, 16#0074#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The value or values corresponding to the defining feature for the owning instance specification."
MS_0787 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 103,
Unused => 96,
Length => 96,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0076#, 16#0061#, 16#006C#, 16#0075#,
16#0065#, 16#0020#, 16#006F#, 16#0072#,
16#0020#, 16#0076#, 16#0061#, 16#006C#,
16#0075#, 16#0065#, 16#0073#, 16#0020#,
16#0063#, 16#006F#, 16#0072#, 16#0072#,
16#0065#, 16#0073#, 16#0070#, 16#006F#,
16#006E#, 16#0064#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0064#, 16#0065#, 16#0066#,
16#0069#, 16#006E#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0066#, 16#0065#,
16#0061#, 16#0074#, 16#0075#, 16#0072#,
16#0065#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#006F#, 16#0077#,
16#006E#, 16#0069#, 16#006E#, 16#0067#,
16#0020#, 16#0069#, 16#006E#, 16#0073#,
16#0074#, 16#0061#, 16#006E#, 16#0063#,
16#0065#, 16#0020#, 16#0073#, 16#0070#,
16#0065#, 16#0063#, 16#0069#, 16#0066#,
16#0069#, 16#0063#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A_exceptionType_exceptionHandler"
MS_0788 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 32,
Length => 32,
Value =>
(16#0041#, 16#005F#, 16#0065#, 16#0078#,
16#0063#, 16#0065#, 16#0070#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0054#,
16#0079#, 16#0070#, 16#0065#, 16#005F#,
16#0065#, 16#0078#, 16#0063#, 16#0065#,
16#0070#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0048#, 16#0061#, 16#006E#,
16#0064#, 16#006C#, 16#0065#, 16#0072#,
others => 16#0000#),
others => <>);
-- "association_class"
MS_0789 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 17,
Length => 17,
Value =>
(16#0061#, 16#0073#, 16#0073#, 16#006F#,
16#0063#, 16#0069#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#005F#,
16#0063#, 16#006C#, 16#0061#, 16#0073#,
16#0073#,
others => 16#0000#),
others => <>);
-- "Specifies the gates that form the message interface between this Interaction and any InteractionUses which reference it."
MS_078A : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 127,
Unused => 120,
Length => 120,
Value =>
(16#0053#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0067#, 16#0061#,
16#0074#, 16#0065#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#0066#, 16#006F#, 16#0072#,
16#006D#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#006D#, 16#0065#,
16#0073#, 16#0073#, 16#0061#, 16#0067#,
16#0065#, 16#0020#, 16#0069#, 16#006E#,
16#0074#, 16#0065#, 16#0072#, 16#0066#,
16#0061#, 16#0063#, 16#0065#, 16#0020#,
16#0062#, 16#0065#, 16#0074#, 16#0077#,
16#0065#, 16#0065#, 16#006E#, 16#0020#,
16#0074#, 16#0068#, 16#0069#, 16#0073#,
16#0020#, 16#0049#, 16#006E#, 16#0074#,
16#0065#, 16#0072#, 16#0061#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0061#, 16#006E#, 16#0064#,
16#0020#, 16#0061#, 16#006E#, 16#0079#,
16#0020#, 16#0049#, 16#006E#, 16#0074#,
16#0065#, 16#0072#, 16#0061#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0055#, 16#0073#, 16#0065#, 16#0073#,
16#0020#, 16#0077#, 16#0068#, 16#0069#,
16#0063#, 16#0068#, 16#0020#, 16#0072#,
16#0065#, 16#0066#, 16#0065#, 16#0072#,
16#0065#, 16#006E#, 16#0063#, 16#0065#,
16#0020#, 16#0069#, 16#0074#, 16#002E#,
others => 16#0000#),
others => <>);
-- "one_input"
MS_078B : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 9,
Length => 9,
Value =>
(16#006F#, 16#006E#, 16#0065#, 16#005F#,
16#0069#, 16#006E#, 16#0070#, 16#0075#,
16#0074#,
others => 16#0000#),
others => <>);
-- "Protocol state machines can be redefined into more specific protocol state machines, or into behavioral state machines. Protocol conformance declares that the specific protocol state machine specifies a protocol that conforms to the general state machine one, or that the specific behavioral state machine abide by the protocol of the general protocol state machine."
MS_078C : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 383,
Unused => 366,
Length => 366,
Value =>
(16#0050#, 16#0072#, 16#006F#, 16#0074#,
16#006F#, 16#0063#, 16#006F#, 16#006C#,
16#0020#, 16#0073#, 16#0074#, 16#0061#,
16#0074#, 16#0065#, 16#0020#, 16#006D#,
16#0061#, 16#0063#, 16#0068#, 16#0069#,
16#006E#, 16#0065#, 16#0073#, 16#0020#,
16#0063#, 16#0061#, 16#006E#, 16#0020#,
16#0062#, 16#0065#, 16#0020#, 16#0072#,
16#0065#, 16#0064#, 16#0065#, 16#0066#,
16#0069#, 16#006E#, 16#0065#, 16#0064#,
16#0020#, 16#0069#, 16#006E#, 16#0074#,
16#006F#, 16#0020#, 16#006D#, 16#006F#,
16#0072#, 16#0065#, 16#0020#, 16#0073#,
16#0070#, 16#0065#, 16#0063#, 16#0069#,
16#0066#, 16#0069#, 16#0063#, 16#0020#,
16#0070#, 16#0072#, 16#006F#, 16#0074#,
16#006F#, 16#0063#, 16#006F#, 16#006C#,
16#0020#, 16#0073#, 16#0074#, 16#0061#,
16#0074#, 16#0065#, 16#0020#, 16#006D#,
16#0061#, 16#0063#, 16#0068#, 16#0069#,
16#006E#, 16#0065#, 16#0073#, 16#002C#,
16#0020#, 16#006F#, 16#0072#, 16#0020#,
16#0069#, 16#006E#, 16#0074#, 16#006F#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0061#, 16#006C#, 16#0020#,
16#0073#, 16#0074#, 16#0061#, 16#0074#,
16#0065#, 16#0020#, 16#006D#, 16#0061#,
16#0063#, 16#0068#, 16#0069#, 16#006E#,
16#0065#, 16#0073#, 16#002E#, 16#0020#,
16#0050#, 16#0072#, 16#006F#, 16#0074#,
16#006F#, 16#0063#, 16#006F#, 16#006C#,
16#0020#, 16#0063#, 16#006F#, 16#006E#,
16#0066#, 16#006F#, 16#0072#, 16#006D#,
16#0061#, 16#006E#, 16#0063#, 16#0065#,
16#0020#, 16#0064#, 16#0065#, 16#0063#,
16#006C#, 16#0061#, 16#0072#, 16#0065#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0073#,
16#0070#, 16#0065#, 16#0063#, 16#0069#,
16#0066#, 16#0069#, 16#0063#, 16#0020#,
16#0070#, 16#0072#, 16#006F#, 16#0074#,
16#006F#, 16#0063#, 16#006F#, 16#006C#,
16#0020#, 16#0073#, 16#0074#, 16#0061#,
16#0074#, 16#0065#, 16#0020#, 16#006D#,
16#0061#, 16#0063#, 16#0068#, 16#0069#,
16#006E#, 16#0065#, 16#0020#, 16#0073#,
16#0070#, 16#0065#, 16#0063#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0073#,
16#0020#, 16#0061#, 16#0020#, 16#0070#,
16#0072#, 16#006F#, 16#0074#, 16#006F#,
16#0063#, 16#006F#, 16#006C#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#0063#, 16#006F#, 16#006E#,
16#0066#, 16#006F#, 16#0072#, 16#006D#,
16#0073#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0067#, 16#0065#, 16#006E#,
16#0065#, 16#0072#, 16#0061#, 16#006C#,
16#0020#, 16#0073#, 16#0074#, 16#0061#,
16#0074#, 16#0065#, 16#0020#, 16#006D#,
16#0061#, 16#0063#, 16#0068#, 16#0069#,
16#006E#, 16#0065#, 16#0020#, 16#006F#,
16#006E#, 16#0065#, 16#002C#, 16#0020#,
16#006F#, 16#0072#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0063#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0061#, 16#006C#, 16#0020#,
16#0073#, 16#0074#, 16#0061#, 16#0074#,
16#0065#, 16#0020#, 16#006D#, 16#0061#,
16#0063#, 16#0068#, 16#0069#, 16#006E#,
16#0065#, 16#0020#, 16#0061#, 16#0062#,
16#0069#, 16#0064#, 16#0065#, 16#0020#,
16#0062#, 16#0079#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0070#,
16#0072#, 16#006F#, 16#0074#, 16#006F#,
16#0063#, 16#006F#, 16#006C#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0067#,
16#0065#, 16#006E#, 16#0065#, 16#0072#,
16#0061#, 16#006C#, 16#0020#, 16#0070#,
16#0072#, 16#006F#, 16#0074#, 16#006F#,
16#0063#, 16#006F#, 16#006C#, 16#0020#,
16#0073#, 16#0074#, 16#0061#, 16#0074#,
16#0065#, 16#0020#, 16#006D#, 16#0061#,
16#0063#, 16#0068#, 16#0069#, 16#006E#,
16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "first"
MS_078D : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 7,
Unused => 5,
Length => 5,
Value =>
(16#0066#, 16#0069#, 16#0072#, 16#0073#,
16#0074#,
others => 16#0000#),
others => <>);
-- "The query stringValue() gives a single String value when one can be computed."
MS_078E : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 77,
Length => 77,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0071#, 16#0075#, 16#0065#, 16#0072#,
16#0079#, 16#0020#, 16#0073#, 16#0074#,
16#0072#, 16#0069#, 16#006E#, 16#0067#,
16#0056#, 16#0061#, 16#006C#, 16#0075#,
16#0065#, 16#0028#, 16#0029#, 16#0020#,
16#0067#, 16#0069#, 16#0076#, 16#0065#,
16#0073#, 16#0020#, 16#0061#, 16#0020#,
16#0073#, 16#0069#, 16#006E#, 16#0067#,
16#006C#, 16#0065#, 16#0020#, 16#0053#,
16#0074#, 16#0072#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0076#, 16#0061#,
16#006C#, 16#0075#, 16#0065#, 16#0020#,
16#0077#, 16#0068#, 16#0065#, 16#006E#,
16#0020#, 16#006F#, 16#006E#, 16#0065#,
16#0020#, 16#0063#, 16#0061#, 16#006E#,
16#0020#, 16#0062#, 16#0065#, 16#0020#,
16#0063#, 16#006F#, 16#006D#, 16#0070#,
16#0075#, 16#0074#, 16#0065#, 16#0064#,
16#002E#,
others => 16#0000#),
others => <>);
-- "A_inInterruptibleRegion_node"
MS_078F : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 28,
Length => 28,
Value =>
(16#0041#, 16#005F#, 16#0069#, 16#006E#,
16#0049#, 16#006E#, 16#0074#, 16#0065#,
16#0072#, 16#0072#, 16#0075#, 16#0070#,
16#0074#, 16#0069#, 16#0062#, 16#006C#,
16#0065#, 16#0052#, 16#0065#, 16#0067#,
16#0069#, 16#006F#, 16#006E#, 16#005F#,
16#006E#, 16#006F#, 16#0064#, 16#0065#,
others => 16#0000#),
others => <>);
-- "exception"
MS_0790 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 9,
Length => 9,
Value =>
(16#0065#, 16#0078#, 16#0063#, 16#0065#,
16#0070#, 16#0074#, 16#0069#, 16#006F#,
16#006E#,
others => 16#0000#),
others => <>);
-- "owningExpression"
MS_0791 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 16,
Length => 16,
Value =>
(16#006F#, 16#0077#, 16#006E#, 16#0069#,
16#006E#, 16#0067#, 16#0045#, 16#0078#,
16#0070#, 16#0072#, 16#0065#, 16#0073#,
16#0073#, 16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "Specifies a set of Constraints owned by this Namespace."
MS_0792 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 55,
Length => 55,
Value =>
(16#0053#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0073#, 16#0020#, 16#0061#, 16#0020#,
16#0073#, 16#0065#, 16#0074#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0043#,
16#006F#, 16#006E#, 16#0073#, 16#0074#,
16#0072#, 16#0061#, 16#0069#, 16#006E#,
16#0074#, 16#0073#, 16#0020#, 16#006F#,
16#0077#, 16#006E#, 16#0065#, 16#0064#,
16#0020#, 16#0062#, 16#0079#, 16#0020#,
16#0074#, 16#0068#, 16#0069#, 16#0073#,
16#0020#, 16#004E#, 16#0061#, 16#006D#,
16#0065#, 16#0073#, 16#0070#, 16#0061#,
16#0063#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "type_of_object"
MS_0793 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 14,
Length => 14,
Value =>
(16#0074#, 16#0079#, 16#0070#, 16#0065#,
16#005F#, 16#006F#, 16#0066#, 16#005F#,
16#006F#, 16#0062#, 16#006A#, 16#0065#,
16#0063#, 16#0074#,
others => 16#0000#),
others => <>);
-- "The fromAction of an action input pin cannot have control or data flows coming into or out of it or its pins."
MS_0794 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 119,
Unused => 109,
Length => 109,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0066#, 16#0072#, 16#006F#, 16#006D#,
16#0041#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0061#, 16#006E#,
16#0020#, 16#0061#, 16#0063#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0069#, 16#006E#, 16#0070#, 16#0075#,
16#0074#, 16#0020#, 16#0070#, 16#0069#,
16#006E#, 16#0020#, 16#0063#, 16#0061#,
16#006E#, 16#006E#, 16#006F#, 16#0074#,
16#0020#, 16#0068#, 16#0061#, 16#0076#,
16#0065#, 16#0020#, 16#0063#, 16#006F#,
16#006E#, 16#0074#, 16#0072#, 16#006F#,
16#006C#, 16#0020#, 16#006F#, 16#0072#,
16#0020#, 16#0064#, 16#0061#, 16#0074#,
16#0061#, 16#0020#, 16#0066#, 16#006C#,
16#006F#, 16#0077#, 16#0073#, 16#0020#,
16#0063#, 16#006F#, 16#006D#, 16#0069#,
16#006E#, 16#0067#, 16#0020#, 16#0069#,
16#006E#, 16#0074#, 16#006F#, 16#0020#,
16#006F#, 16#0072#, 16#0020#, 16#006F#,
16#0075#, 16#0074#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0069#, 16#0074#,
16#0020#, 16#006F#, 16#0072#, 16#0020#,
16#0069#, 16#0074#, 16#0073#, 16#0020#,
16#0070#, 16#0069#, 16#006E#, 16#0073#,
16#002E#,
others => 16#0000#),
others => <>);
-- "UseCases can only be involved in binary Associations."
MS_0795 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 53,
Length => 53,
Value =>
(16#0055#, 16#0073#, 16#0065#, 16#0043#,
16#0061#, 16#0073#, 16#0065#, 16#0073#,
16#0020#, 16#0063#, 16#0061#, 16#006E#,
16#0020#, 16#006F#, 16#006E#, 16#006C#,
16#0079#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0069#, 16#006E#, 16#0076#,
16#006F#, 16#006C#, 16#0076#, 16#0065#,
16#0064#, 16#0020#, 16#0069#, 16#006E#,
16#0020#, 16#0062#, 16#0069#, 16#006E#,
16#0061#, 16#0072#, 16#0079#, 16#0020#,
16#0041#, 16#0073#, 16#0073#, 16#006F#,
16#0063#, 16#0069#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0073#,
16#002E#,
others => 16#0000#),
others => <>);
-- "A_ownedOperation_class"
MS_0796 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 22,
Length => 22,
Value =>
(16#0041#, 16#005F#, 16#006F#, 16#0077#,
16#006E#, 16#0065#, 16#0064#, 16#004F#,
16#0070#, 16#0065#, 16#0072#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#005F#, 16#0063#, 16#006C#, 16#0061#,
16#0073#, 16#0073#,
others => 16#0000#),
others => <>);
-- "Collaboration"
MS_0797 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 13,
Length => 13,
Value =>
(16#0043#, 16#006F#, 16#006C#, 16#006C#,
16#0061#, 16#0062#, 16#006F#, 16#0072#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#,
others => 16#0000#),
others => <>);
-- "isDestroyLinks"
MS_0798 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 14,
Length => 14,
Value =>
(16#0069#, 16#0073#, 16#0044#, 16#0065#,
16#0073#, 16#0074#, 16#0072#, 16#006F#,
16#0079#, 16#004C#, 16#0069#, 16#006E#,
16#006B#, 16#0073#,
others => 16#0000#),
others => <>);
-- "importMembers"
MS_0799 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 13,
Length => 13,
Value =>
(16#0069#, 16#006D#, 16#0070#, 16#006F#,
16#0072#, 16#0074#, 16#004D#, 16#0065#,
16#006D#, 16#0062#, 16#0065#, 16#0072#,
16#0073#,
others => 16#0000#),
others => <>);
-- "The query mustBeOwned() indicates whether elements of this type must have an owner."
MS_079A : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 83,
Length => 83,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0071#, 16#0075#, 16#0065#, 16#0072#,
16#0079#, 16#0020#, 16#006D#, 16#0075#,
16#0073#, 16#0074#, 16#0042#, 16#0065#,
16#004F#, 16#0077#, 16#006E#, 16#0065#,
16#0064#, 16#0028#, 16#0029#, 16#0020#,
16#0069#, 16#006E#, 16#0064#, 16#0069#,
16#0063#, 16#0061#, 16#0074#, 16#0065#,
16#0073#, 16#0020#, 16#0077#, 16#0068#,
16#0065#, 16#0074#, 16#0068#, 16#0065#,
16#0072#, 16#0020#, 16#0065#, 16#006C#,
16#0065#, 16#006D#, 16#0065#, 16#006E#,
16#0074#, 16#0073#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0074#, 16#0068#,
16#0069#, 16#0073#, 16#0020#, 16#0074#,
16#0079#, 16#0070#, 16#0065#, 16#0020#,
16#006D#, 16#0075#, 16#0073#, 16#0074#,
16#0020#, 16#0068#, 16#0061#, 16#0076#,
16#0065#, 16#0020#, 16#0061#, 16#006E#,
16#0020#, 16#006F#, 16#0077#, 16#006E#,
16#0065#, 16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A nested activity fragment with a designated output pin that specifies the result of the test."
MS_079B : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 103,
Unused => 94,
Length => 94,
Value =>
(16#0041#, 16#0020#, 16#006E#, 16#0065#,
16#0073#, 16#0074#, 16#0065#, 16#0064#,
16#0020#, 16#0061#, 16#0063#, 16#0074#,
16#0069#, 16#0076#, 16#0069#, 16#0074#,
16#0079#, 16#0020#, 16#0066#, 16#0072#,
16#0061#, 16#0067#, 16#006D#, 16#0065#,
16#006E#, 16#0074#, 16#0020#, 16#0077#,
16#0069#, 16#0074#, 16#0068#, 16#0020#,
16#0061#, 16#0020#, 16#0064#, 16#0065#,
16#0073#, 16#0069#, 16#0067#, 16#006E#,
16#0061#, 16#0074#, 16#0065#, 16#0064#,
16#0020#, 16#006F#, 16#0075#, 16#0074#,
16#0070#, 16#0075#, 16#0074#, 16#0020#,
16#0070#, 16#0069#, 16#006E#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0072#,
16#0065#, 16#0073#, 16#0075#, 16#006C#,
16#0074#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0074#, 16#0065#, 16#0073#,
16#0074#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The edges owned by a structured node must have source and target nodes in the structured node, and vice versa."
MS_079C : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 119,
Unused => 110,
Length => 110,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0065#, 16#0064#, 16#0067#, 16#0065#,
16#0073#, 16#0020#, 16#006F#, 16#0077#,
16#006E#, 16#0065#, 16#0064#, 16#0020#,
16#0062#, 16#0079#, 16#0020#, 16#0061#,
16#0020#, 16#0073#, 16#0074#, 16#0072#,
16#0075#, 16#0063#, 16#0074#, 16#0075#,
16#0072#, 16#0065#, 16#0064#, 16#0020#,
16#006E#, 16#006F#, 16#0064#, 16#0065#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#0068#, 16#0061#,
16#0076#, 16#0065#, 16#0020#, 16#0073#,
16#006F#, 16#0075#, 16#0072#, 16#0063#,
16#0065#, 16#0020#, 16#0061#, 16#006E#,
16#0064#, 16#0020#, 16#0074#, 16#0061#,
16#0072#, 16#0067#, 16#0065#, 16#0074#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#0073#, 16#0020#, 16#0069#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0073#, 16#0074#,
16#0072#, 16#0075#, 16#0063#, 16#0074#,
16#0075#, 16#0072#, 16#0065#, 16#0064#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#002C#, 16#0020#, 16#0061#,
16#006E#, 16#0064#, 16#0020#, 16#0076#,
16#0069#, 16#0063#, 16#0065#, 16#0020#,
16#0076#, 16#0065#, 16#0072#, 16#0073#,
16#0061#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The property must be an association end."
MS_079D : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 47,
Unused => 40,
Length => 40,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0070#, 16#0072#, 16#006F#, 16#0070#,
16#0065#, 16#0072#, 16#0074#, 16#0079#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#0061#, 16#0073#, 16#0073#, 16#006F#,
16#0063#, 16#0069#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0065#, 16#006E#, 16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "is_binary"
MS_079E : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 9,
Length => 9,
Value =>
(16#0069#, 16#0073#, 16#005F#, 16#0062#,
16#0069#, 16#006E#, 16#0061#, 16#0072#,
16#0079#,
others => 16#0000#),
others => <>);
-- "References a behavior that this behavior redefines. A subtype of Behavior may redefine any other subtype of Behavior. If the behavior implements a behavioral feature, it replaces the redefined behavior. If the behavior is a classifier behavior, it extends the redefined behavior."
MS_079F : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 287,
Unused => 279,
Length => 279,
Value =>
(16#0052#, 16#0065#, 16#0066#, 16#0065#,
16#0072#, 16#0065#, 16#006E#, 16#0063#,
16#0065#, 16#0073#, 16#0020#, 16#0061#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0074#,
16#0068#, 16#0069#, 16#0073#, 16#0020#,
16#0062#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#0020#, 16#0072#, 16#0065#, 16#0064#,
16#0065#, 16#0066#, 16#0069#, 16#006E#,
16#0065#, 16#0073#, 16#002E#, 16#0020#,
16#0041#, 16#0020#, 16#0073#, 16#0075#,
16#0062#, 16#0074#, 16#0079#, 16#0070#,
16#0065#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0042#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#006D#, 16#0061#,
16#0079#, 16#0020#, 16#0072#, 16#0065#,
16#0064#, 16#0065#, 16#0066#, 16#0069#,
16#006E#, 16#0065#, 16#0020#, 16#0061#,
16#006E#, 16#0079#, 16#0020#, 16#006F#,
16#0074#, 16#0068#, 16#0065#, 16#0072#,
16#0020#, 16#0073#, 16#0075#, 16#0062#,
16#0074#, 16#0079#, 16#0070#, 16#0065#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0042#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#002E#, 16#0020#, 16#0049#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#0069#, 16#006D#,
16#0070#, 16#006C#, 16#0065#, 16#006D#,
16#0065#, 16#006E#, 16#0074#, 16#0073#,
16#0020#, 16#0061#, 16#0020#, 16#0062#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#0061#,
16#006C#, 16#0020#, 16#0066#, 16#0065#,
16#0061#, 16#0074#, 16#0075#, 16#0072#,
16#0065#, 16#002C#, 16#0020#, 16#0069#,
16#0074#, 16#0020#, 16#0072#, 16#0065#,
16#0070#, 16#006C#, 16#0061#, 16#0063#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0072#,
16#0065#, 16#0064#, 16#0065#, 16#0066#,
16#0069#, 16#006E#, 16#0065#, 16#0064#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#002E#, 16#0020#, 16#0049#,
16#0066#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0062#, 16#0065#,
16#0068#, 16#0061#, 16#0076#, 16#0069#,
16#006F#, 16#0072#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#0061#, 16#0020#,
16#0063#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0072#, 16#0020#, 16#0062#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#002C#,
16#0020#, 16#0069#, 16#0074#, 16#0020#,
16#0065#, 16#0078#, 16#0074#, 16#0065#,
16#006E#, 16#0064#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0072#, 16#0065#, 16#0064#, 16#0065#,
16#0066#, 16#0069#, 16#006E#, 16#0065#,
16#0064#, 16#0020#, 16#0062#, 16#0065#,
16#0068#, 16#0061#, 16#0076#, 16#0069#,
16#006F#, 16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "All edges coming into or going out of object nodes must be object flow edges."
MS_07A0 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 77,
Length => 77,
Value =>
(16#0041#, 16#006C#, 16#006C#, 16#0020#,
16#0065#, 16#0064#, 16#0067#, 16#0065#,
16#0073#, 16#0020#, 16#0063#, 16#006F#,
16#006D#, 16#0069#, 16#006E#, 16#0067#,
16#0020#, 16#0069#, 16#006E#, 16#0074#,
16#006F#, 16#0020#, 16#006F#, 16#0072#,
16#0020#, 16#0067#, 16#006F#, 16#0069#,
16#006E#, 16#0067#, 16#0020#, 16#006F#,
16#0075#, 16#0074#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#006F#, 16#0062#,
16#006A#, 16#0065#, 16#0063#, 16#0074#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#0073#, 16#0020#, 16#006D#,
16#0075#, 16#0073#, 16#0074#, 16#0020#,
16#0062#, 16#0065#, 16#0020#, 16#006F#,
16#0062#, 16#006A#, 16#0065#, 16#0063#,
16#0074#, 16#0020#, 16#0066#, 16#006C#,
16#006F#, 16#0077#, 16#0020#, 16#0065#,
16#0064#, 16#0067#, 16#0065#, 16#0073#,
16#002E#,
others => 16#0000#),
others => <>);
-- "Pins holding the received event objects or their attributes. Event objects may be copied in transmission, so identity might not be preserved."
MS_07A1 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 151,
Unused => 141,
Length => 141,
Value =>
(16#0050#, 16#0069#, 16#006E#, 16#0073#,
16#0020#, 16#0068#, 16#006F#, 16#006C#,
16#0064#, 16#0069#, 16#006E#, 16#0067#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0072#, 16#0065#, 16#0063#,
16#0065#, 16#0069#, 16#0076#, 16#0065#,
16#0064#, 16#0020#, 16#0065#, 16#0076#,
16#0065#, 16#006E#, 16#0074#, 16#0020#,
16#006F#, 16#0062#, 16#006A#, 16#0065#,
16#0063#, 16#0074#, 16#0073#, 16#0020#,
16#006F#, 16#0072#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0069#, 16#0072#,
16#0020#, 16#0061#, 16#0074#, 16#0074#,
16#0072#, 16#0069#, 16#0062#, 16#0075#,
16#0074#, 16#0065#, 16#0073#, 16#002E#,
16#0020#, 16#0045#, 16#0076#, 16#0065#,
16#006E#, 16#0074#, 16#0020#, 16#006F#,
16#0062#, 16#006A#, 16#0065#, 16#0063#,
16#0074#, 16#0073#, 16#0020#, 16#006D#,
16#0061#, 16#0079#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0063#, 16#006F#,
16#0070#, 16#0069#, 16#0065#, 16#0064#,
16#0020#, 16#0069#, 16#006E#, 16#0020#,
16#0074#, 16#0072#, 16#0061#, 16#006E#,
16#0073#, 16#006D#, 16#0069#, 16#0073#,
16#0073#, 16#0069#, 16#006F#, 16#006E#,
16#002C#, 16#0020#, 16#0073#, 16#006F#,
16#0020#, 16#0069#, 16#0064#, 16#0065#,
16#006E#, 16#0074#, 16#0069#, 16#0074#,
16#0079#, 16#0020#, 16#006D#, 16#0069#,
16#0067#, 16#0068#, 16#0074#, 16#0020#,
16#006E#, 16#006F#, 16#0074#, 16#0020#,
16#0062#, 16#0065#, 16#0020#, 16#0070#,
16#0072#, 16#0065#, 16#0073#, 16#0065#,
16#0072#, 16#0076#, 16#0065#, 16#0064#,
16#002E#,
others => 16#0000#),
others => <>);
-- "A_realization_abstraction_flow"
MS_07A2 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 30,
Length => 30,
Value =>
(16#0041#, 16#005F#, 16#0072#, 16#0065#,
16#0061#, 16#006C#, 16#0069#, 16#007A#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#005F#, 16#0061#, 16#0062#,
16#0073#, 16#0074#, 16#0072#, 16#0061#,
16#0063#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#005F#, 16#0066#, 16#006C#,
16#006F#, 16#0077#,
others => 16#0000#),
others => <>);
-- "not_exception"
MS_07A3 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 13,
Length => 13,
Value =>
(16#006E#, 16#006F#, 16#0074#, 16#005F#,
16#0065#, 16#0078#, 16#0063#, 16#0065#,
16#0070#, 16#0074#, 16#0069#, 16#006F#,
16#006E#,
others => 16#0000#),
others => <>);
-- "node"
MS_07A4 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 7,
Unused => 4,
Length => 4,
Value =>
(16#006E#, 16#006F#, 16#0064#, 16#0065#,
others => 16#0000#),
others => <>);
-- "The template parameter that exposes this element as a formal parameter."
MS_07A5 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 71,
Length => 71,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0074#, 16#0065#, 16#006D#, 16#0070#,
16#006C#, 16#0061#, 16#0074#, 16#0065#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0061#, 16#006D#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0065#, 16#0078#, 16#0070#, 16#006F#,
16#0073#, 16#0065#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0069#, 16#0073#,
16#0020#, 16#0065#, 16#006C#, 16#0065#,
16#006D#, 16#0065#, 16#006E#, 16#0074#,
16#0020#, 16#0061#, 16#0073#, 16#0020#,
16#0061#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#006D#, 16#0061#, 16#006C#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0061#, 16#006D#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Top-level partitions in the activity."
MS_07A6 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 37,
Length => 37,
Value =>
(16#0054#, 16#006F#, 16#0070#, 16#002D#,
16#006C#, 16#0065#, 16#0076#, 16#0065#,
16#006C#, 16#0020#, 16#0070#, 16#0061#,
16#0072#, 16#0074#, 16#0069#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0073#,
16#0020#, 16#0069#, 16#006E#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0061#, 16#0063#, 16#0074#, 16#0069#,
16#0076#, 16#0069#, 16#0074#, 16#0079#,
16#002E#,
others => 16#0000#),
others => <>);
-- "The multiplicity of each result output pin must be compatible with the multiplicity of the corresponding structural features of the unmarshall classifier."
MS_07A7 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 159,
Unused => 154,
Length => 154,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006D#, 16#0075#, 16#006C#, 16#0074#,
16#0069#, 16#0070#, 16#006C#, 16#0069#,
16#0063#, 16#0069#, 16#0074#, 16#0079#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0065#, 16#0061#, 16#0063#, 16#0068#,
16#0020#, 16#0072#, 16#0065#, 16#0073#,
16#0075#, 16#006C#, 16#0074#, 16#0020#,
16#006F#, 16#0075#, 16#0074#, 16#0070#,
16#0075#, 16#0074#, 16#0020#, 16#0070#,
16#0069#, 16#006E#, 16#0020#, 16#006D#,
16#0075#, 16#0073#, 16#0074#, 16#0020#,
16#0062#, 16#0065#, 16#0020#, 16#0063#,
16#006F#, 16#006D#, 16#0070#, 16#0061#,
16#0074#, 16#0069#, 16#0062#, 16#006C#,
16#0065#, 16#0020#, 16#0077#, 16#0069#,
16#0074#, 16#0068#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#006D#,
16#0075#, 16#006C#, 16#0074#, 16#0069#,
16#0070#, 16#006C#, 16#0069#, 16#0063#,
16#0069#, 16#0074#, 16#0079#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0063#,
16#006F#, 16#0072#, 16#0072#, 16#0065#,
16#0073#, 16#0070#, 16#006F#, 16#006E#,
16#0064#, 16#0069#, 16#006E#, 16#0067#,
16#0020#, 16#0073#, 16#0074#, 16#0072#,
16#0075#, 16#0063#, 16#0074#, 16#0075#,
16#0072#, 16#0061#, 16#006C#, 16#0020#,
16#0066#, 16#0065#, 16#0061#, 16#0074#,
16#0075#, 16#0072#, 16#0065#, 16#0073#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0075#, 16#006E#, 16#006D#, 16#0061#,
16#0072#, 16#0073#, 16#0068#, 16#0061#,
16#006C#, 16#006C#, 16#0020#, 16#0063#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The multiplicity of the qualifier value input pin is '1..1'."
MS_07A8 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 60,
Length => 60,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006D#, 16#0075#, 16#006C#, 16#0074#,
16#0069#, 16#0070#, 16#006C#, 16#0069#,
16#0063#, 16#0069#, 16#0074#, 16#0079#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0071#, 16#0075#, 16#0061#, 16#006C#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#0020#, 16#0076#, 16#0061#,
16#006C#, 16#0075#, 16#0065#, 16#0020#,
16#0069#, 16#006E#, 16#0070#, 16#0075#,
16#0074#, 16#0020#, 16#0070#, 16#0069#,
16#006E#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0027#, 16#0031#, 16#002E#,
16#002E#, 16#0031#, 16#0027#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The derived upper attribute must equal the upperBound."
MS_07A9 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 54,
Length => 54,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0064#, 16#0065#, 16#0072#, 16#0069#,
16#0076#, 16#0065#, 16#0064#, 16#0020#,
16#0075#, 16#0070#, 16#0070#, 16#0065#,
16#0072#, 16#0020#, 16#0061#, 16#0074#,
16#0074#, 16#0072#, 16#0069#, 16#0062#,
16#0075#, 16#0074#, 16#0065#, 16#0020#,
16#006D#, 16#0075#, 16#0073#, 16#0074#,
16#0020#, 16#0065#, 16#0071#, 16#0075#,
16#0061#, 16#006C#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0075#,
16#0070#, 16#0070#, 16#0065#, 16#0072#,
16#0042#, 16#006F#, 16#0075#, 16#006E#,
16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "References the Interaction that represents the decomposition."
MS_07AA : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 61,
Length => 61,
Value =>
(16#0052#, 16#0065#, 16#0066#, 16#0065#,
16#0072#, 16#0065#, 16#006E#, 16#0063#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0049#,
16#006E#, 16#0074#, 16#0065#, 16#0072#,
16#0061#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0072#, 16#0065#, 16#0070#, 16#0072#,
16#0065#, 16#0073#, 16#0065#, 16#006E#,
16#0074#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0064#,
16#0065#, 16#0063#, 16#006F#, 16#006D#,
16#0070#, 16#006F#, 16#0073#, 16#0069#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#002E#,
others => 16#0000#),
others => <>);
-- "A_general_generalization"
MS_07AB : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 24,
Length => 24,
Value =>
(16#0041#, 16#005F#, 16#0067#, 16#0065#,
16#006E#, 16#0065#, 16#0072#, 16#0061#,
16#006C#, 16#005F#, 16#0067#, 16#0065#,
16#006E#, 16#0065#, 16#0072#, 16#0061#,
16#006C#, 16#0069#, 16#007A#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "imported_element_is_public"
MS_07AC : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 26,
Length => 26,
Value =>
(16#0069#, 16#006D#, 16#0070#, 16#006F#,
16#0072#, 16#0074#, 16#0065#, 16#0064#,
16#005F#, 16#0065#, 16#006C#, 16#0065#,
16#006D#, 16#0065#, 16#006E#, 16#0074#,
16#005F#, 16#0069#, 16#0073#, 16#005F#,
16#0070#, 16#0075#, 16#0062#, 16#006C#,
16#0069#, 16#0063#,
others => 16#0000#),
others => <>);
-- "Implies that the transition, if triggered, will not exit the composite (source) state, but it will apply to any state within the composite state, and these will be exited and entered."
MS_07AD : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 191,
Unused => 183,
Length => 183,
Value =>
(16#0049#, 16#006D#, 16#0070#, 16#006C#,
16#0069#, 16#0065#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0074#, 16#0072#, 16#0061#,
16#006E#, 16#0073#, 16#0069#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#002C#,
16#0020#, 16#0069#, 16#0066#, 16#0020#,
16#0074#, 16#0072#, 16#0069#, 16#0067#,
16#0067#, 16#0065#, 16#0072#, 16#0065#,
16#0064#, 16#002C#, 16#0020#, 16#0077#,
16#0069#, 16#006C#, 16#006C#, 16#0020#,
16#006E#, 16#006F#, 16#0074#, 16#0020#,
16#0065#, 16#0078#, 16#0069#, 16#0074#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0063#, 16#006F#, 16#006D#,
16#0070#, 16#006F#, 16#0073#, 16#0069#,
16#0074#, 16#0065#, 16#0020#, 16#0028#,
16#0073#, 16#006F#, 16#0075#, 16#0072#,
16#0063#, 16#0065#, 16#0029#, 16#0020#,
16#0073#, 16#0074#, 16#0061#, 16#0074#,
16#0065#, 16#002C#, 16#0020#, 16#0062#,
16#0075#, 16#0074#, 16#0020#, 16#0069#,
16#0074#, 16#0020#, 16#0077#, 16#0069#,
16#006C#, 16#006C#, 16#0020#, 16#0061#,
16#0070#, 16#0070#, 16#006C#, 16#0079#,
16#0020#, 16#0074#, 16#006F#, 16#0020#,
16#0061#, 16#006E#, 16#0079#, 16#0020#,
16#0073#, 16#0074#, 16#0061#, 16#0074#,
16#0065#, 16#0020#, 16#0077#, 16#0069#,
16#0074#, 16#0068#, 16#0069#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0063#, 16#006F#, 16#006D#,
16#0070#, 16#006F#, 16#0073#, 16#0069#,
16#0074#, 16#0065#, 16#0020#, 16#0073#,
16#0074#, 16#0061#, 16#0074#, 16#0065#,
16#002C#, 16#0020#, 16#0061#, 16#006E#,
16#0064#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0073#, 16#0065#, 16#0020#,
16#0077#, 16#0069#, 16#006C#, 16#006C#,
16#0020#, 16#0062#, 16#0065#, 16#0020#,
16#0065#, 16#0078#, 16#0069#, 16#0074#,
16#0065#, 16#0064#, 16#0020#, 16#0061#,
16#006E#, 16#0064#, 16#0020#, 16#0065#,
16#006E#, 16#0074#, 16#0065#, 16#0072#,
16#0065#, 16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "synchronous_call"
MS_07AE : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 16,
Length => 16,
Value =>
(16#0073#, 16#0079#, 16#006E#, 16#0063#,
16#0068#, 16#0072#, 16#006F#, 16#006E#,
16#006F#, 16#0075#, 16#0073#, 16#005F#,
16#0063#, 16#0061#, 16#006C#, 16#006C#,
others => 16#0000#),
others => <>);
-- "A_signal_signalEvent"
MS_07AF : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 20,
Length => 20,
Value =>
(16#0041#, 16#005F#, 16#0073#, 16#0069#,
16#0067#, 16#006E#, 16#0061#, 16#006C#,
16#005F#, 16#0073#, 16#0069#, 16#0067#,
16#006E#, 16#0061#, 16#006C#, 16#0045#,
16#0076#, 16#0065#, 16#006E#, 16#0074#,
others => 16#0000#),
others => <>);
-- "sendEvent and receiveEvent absent (should not appear)"
MS_07B0 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 53,
Length => 53,
Value =>
(16#0073#, 16#0065#, 16#006E#, 16#0064#,
16#0045#, 16#0076#, 16#0065#, 16#006E#,
16#0074#, 16#0020#, 16#0061#, 16#006E#,
16#0064#, 16#0020#, 16#0072#, 16#0065#,
16#0063#, 16#0065#, 16#0069#, 16#0076#,
16#0065#, 16#0045#, 16#0076#, 16#0065#,
16#006E#, 16#0074#, 16#0020#, 16#0061#,
16#0062#, 16#0073#, 16#0065#, 16#006E#,
16#0074#, 16#0020#, 16#0028#, 16#0073#,
16#0068#, 16#006F#, 16#0075#, 16#006C#,
16#0064#, 16#0020#, 16#006E#, 16#006F#,
16#0074#, 16#0020#, 16#0061#, 16#0070#,
16#0070#, 16#0065#, 16#0061#, 16#0072#,
16#0029#,
others => 16#0000#),
others => <>);
-- "A_precondition_behavior"
MS_07B1 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 23,
Length => 23,
Value =>
(16#0041#, 16#005F#, 16#0070#, 16#0072#,
16#0065#, 16#0063#, 16#006F#, 16#006E#,
16#0064#, 16#0069#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#005F#, 16#0062#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#,
others => 16#0000#),
others => <>);
-- "redefinedState"
MS_07B2 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 14,
Length => 14,
Value =>
(16#0072#, 16#0065#, 16#0064#, 16#0065#,
16#0066#, 16#0069#, 16#006E#, 16#0065#,
16#0064#, 16#0053#, 16#0074#, 16#0061#,
16#0074#, 16#0065#,
others => 16#0000#),
others => <>);
-- "The operation is determines if the upper and lower bound of the ranges are the ones given."
MS_07B3 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 95,
Unused => 90,
Length => 90,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006F#, 16#0070#, 16#0065#, 16#0072#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0064#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#006D#, 16#0069#,
16#006E#, 16#0065#, 16#0073#, 16#0020#,
16#0069#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0075#,
16#0070#, 16#0070#, 16#0065#, 16#0072#,
16#0020#, 16#0061#, 16#006E#, 16#0064#,
16#0020#, 16#006C#, 16#006F#, 16#0077#,
16#0065#, 16#0072#, 16#0020#, 16#0062#,
16#006F#, 16#0075#, 16#006E#, 16#0064#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0072#, 16#0061#, 16#006E#, 16#0067#,
16#0065#, 16#0073#, 16#0020#, 16#0061#,
16#0072#, 16#0065#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#006F#,
16#006E#, 16#0065#, 16#0073#, 16#0020#,
16#0067#, 16#0069#, 16#0076#, 16#0065#,
16#006E#, 16#002E#,
others => 16#0000#),
others => <>);
-- "inheritedMember"
MS_07B4 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 15,
Length => 15,
Value =>
(16#0069#, 16#006E#, 16#0068#, 16#0065#,
16#0072#, 16#0069#, 16#0074#, 16#0065#,
16#0064#, 16#004D#, 16#0065#, 16#006D#,
16#0062#, 16#0065#, 16#0072#,
others => 16#0000#),
others => <>);
-- "The specified Integer value."
MS_07B5 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 28,
Length => 28,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0064#, 16#0020#, 16#0049#, 16#006E#,
16#0074#, 16#0065#, 16#0067#, 16#0065#,
16#0072#, 16#0020#, 16#0076#, 16#0061#,
16#006C#, 16#0075#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The trigger event must be a CallEvent."
MS_07B6 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 38,
Length => 38,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0074#, 16#0072#, 16#0069#, 16#0067#,
16#0067#, 16#0065#, 16#0072#, 16#0020#,
16#0065#, 16#0076#, 16#0065#, 16#006E#,
16#0074#, 16#0020#, 16#006D#, 16#0075#,
16#0073#, 16#0074#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0061#, 16#0020#,
16#0043#, 16#0061#, 16#006C#, 16#006C#,
16#0045#, 16#0076#, 16#0065#, 16#006E#,
16#0074#, 16#002E#,
others => 16#0000#),
others => <>);
-- "StartObjectBehaviorAction is an action that starts the execution either of a directly instantiated behavior or of the classifier behavior of an object. Argument values may be supplied for the input parameters of the behavior. If the behavior is invoked synchronously, then output values may be obtained for output parameters."
MS_07B7 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 335,
Unused => 325,
Length => 325,
Value =>
(16#0053#, 16#0074#, 16#0061#, 16#0072#,
16#0074#, 16#004F#, 16#0062#, 16#006A#,
16#0065#, 16#0063#, 16#0074#, 16#0042#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#0041#,
16#0063#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#0061#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0073#, 16#0074#, 16#0061#, 16#0072#,
16#0074#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0065#,
16#0078#, 16#0065#, 16#0063#, 16#0075#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0065#, 16#0069#, 16#0074#,
16#0068#, 16#0065#, 16#0072#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0061#,
16#0020#, 16#0064#, 16#0069#, 16#0072#,
16#0065#, 16#0063#, 16#0074#, 16#006C#,
16#0079#, 16#0020#, 16#0069#, 16#006E#,
16#0073#, 16#0074#, 16#0061#, 16#006E#,
16#0074#, 16#0069#, 16#0061#, 16#0074#,
16#0065#, 16#0064#, 16#0020#, 16#0062#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#0020#,
16#006F#, 16#0072#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#006F#, 16#0062#, 16#006A#, 16#0065#,
16#0063#, 16#0074#, 16#002E#, 16#0020#,
16#0041#, 16#0072#, 16#0067#, 16#0075#,
16#006D#, 16#0065#, 16#006E#, 16#0074#,
16#0020#, 16#0076#, 16#0061#, 16#006C#,
16#0075#, 16#0065#, 16#0073#, 16#0020#,
16#006D#, 16#0061#, 16#0079#, 16#0020#,
16#0062#, 16#0065#, 16#0020#, 16#0073#,
16#0075#, 16#0070#, 16#0070#, 16#006C#,
16#0069#, 16#0065#, 16#0064#, 16#0020#,
16#0066#, 16#006F#, 16#0072#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0069#, 16#006E#, 16#0070#, 16#0075#,
16#0074#, 16#0020#, 16#0070#, 16#0061#,
16#0072#, 16#0061#, 16#006D#, 16#0065#,
16#0074#, 16#0065#, 16#0072#, 16#0073#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0062#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#002E#, 16#0020#, 16#0049#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0069#, 16#006E#, 16#0076#,
16#006F#, 16#006B#, 16#0065#, 16#0064#,
16#0020#, 16#0073#, 16#0079#, 16#006E#,
16#0063#, 16#0068#, 16#0072#, 16#006F#,
16#006E#, 16#006F#, 16#0075#, 16#0073#,
16#006C#, 16#0079#, 16#002C#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#006E#,
16#0020#, 16#006F#, 16#0075#, 16#0074#,
16#0070#, 16#0075#, 16#0074#, 16#0020#,
16#0076#, 16#0061#, 16#006C#, 16#0075#,
16#0065#, 16#0073#, 16#0020#, 16#006D#,
16#0061#, 16#0079#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#006F#, 16#0062#,
16#0074#, 16#0061#, 16#0069#, 16#006E#,
16#0065#, 16#0064#, 16#0020#, 16#0066#,
16#006F#, 16#0072#, 16#0020#, 16#006F#,
16#0075#, 16#0074#, 16#0070#, 16#0075#,
16#0074#, 16#0020#, 16#0070#, 16#0061#,
16#0072#, 16#0061#, 16#006D#, 16#0065#,
16#0074#, 16#0065#, 16#0072#, 16#0073#,
16#002E#,
others => 16#0000#),
others => <>);
-- "Output pins may have incoming edges only when they are on actions that are structured nodes, and these edges may not target a node contained by the structured node."
MS_07B8 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 175,
Unused => 164,
Length => 164,
Value =>
(16#004F#, 16#0075#, 16#0074#, 16#0070#,
16#0075#, 16#0074#, 16#0020#, 16#0070#,
16#0069#, 16#006E#, 16#0073#, 16#0020#,
16#006D#, 16#0061#, 16#0079#, 16#0020#,
16#0068#, 16#0061#, 16#0076#, 16#0065#,
16#0020#, 16#0069#, 16#006E#, 16#0063#,
16#006F#, 16#006D#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0065#, 16#0064#,
16#0067#, 16#0065#, 16#0073#, 16#0020#,
16#006F#, 16#006E#, 16#006C#, 16#0079#,
16#0020#, 16#0077#, 16#0068#, 16#0065#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0079#, 16#0020#, 16#0061#,
16#0072#, 16#0065#, 16#0020#, 16#006F#,
16#006E#, 16#0020#, 16#0061#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0061#,
16#0072#, 16#0065#, 16#0020#, 16#0073#,
16#0074#, 16#0072#, 16#0075#, 16#0063#,
16#0074#, 16#0075#, 16#0072#, 16#0065#,
16#0064#, 16#0020#, 16#006E#, 16#006F#,
16#0064#, 16#0065#, 16#0073#, 16#002C#,
16#0020#, 16#0061#, 16#006E#, 16#0064#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0073#, 16#0065#, 16#0020#, 16#0065#,
16#0064#, 16#0067#, 16#0065#, 16#0073#,
16#0020#, 16#006D#, 16#0061#, 16#0079#,
16#0020#, 16#006E#, 16#006F#, 16#0074#,
16#0020#, 16#0074#, 16#0061#, 16#0072#,
16#0067#, 16#0065#, 16#0074#, 16#0020#,
16#0061#, 16#0020#, 16#006E#, 16#006F#,
16#0064#, 16#0065#, 16#0020#, 16#0063#,
16#006F#, 16#006E#, 16#0074#, 16#0061#,
16#0069#, 16#006E#, 16#0065#, 16#0064#,
16#0020#, 16#0062#, 16#0079#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0074#, 16#0072#, 16#0075#,
16#0063#, 16#0074#, 16#0075#, 16#0072#,
16#0065#, 16#0064#, 16#0020#, 16#006E#,
16#006F#, 16#0064#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The operations owned by the class."
MS_07B9 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 34,
Length => 34,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006F#, 16#0070#, 16#0065#, 16#0072#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0073#, 16#0020#, 16#006F#,
16#0077#, 16#006E#, 16#0065#, 16#0064#,
16#0020#, 16#0062#, 16#0079#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0063#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A_fragment_enclosingOperand"
MS_07BA : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 27,
Length => 27,
Value =>
(16#0041#, 16#005F#, 16#0066#, 16#0072#,
16#0061#, 16#0067#, 16#006D#, 16#0065#,
16#006E#, 16#0074#, 16#005F#, 16#0065#,
16#006E#, 16#0063#, 16#006C#, 16#006F#,
16#0073#, 16#0069#, 16#006E#, 16#0067#,
16#004F#, 16#0070#, 16#0065#, 16#0072#,
16#0061#, 16#006E#, 16#0064#,
others => 16#0000#),
others => <>);
-- "protectedNode"
MS_07BB : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 13,
Length => 13,
Value =>
(16#0070#, 16#0072#, 16#006F#, 16#0074#,
16#0065#, 16#0063#, 16#0074#, 16#0065#,
16#0064#, 16#004E#, 16#006F#, 16#0064#,
16#0065#,
others => 16#0000#),
others => <>);
-- "The message designating the termination of another lifeline."
MS_07BC : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 60,
Length => 60,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006D#, 16#0065#, 16#0073#, 16#0073#,
16#0061#, 16#0067#, 16#0065#, 16#0020#,
16#0064#, 16#0065#, 16#0073#, 16#0069#,
16#0067#, 16#006E#, 16#0061#, 16#0074#,
16#0069#, 16#006E#, 16#0067#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0074#, 16#0065#, 16#0072#, 16#006D#,
16#0069#, 16#006E#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0061#,
16#006E#, 16#006F#, 16#0074#, 16#0068#,
16#0065#, 16#0072#, 16#0020#, 16#006C#,
16#0069#, 16#0066#, 16#0065#, 16#006C#,
16#0069#, 16#006E#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A_result_acceptEventAction"
MS_07BD : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 26,
Length => 26,
Value =>
(16#0041#, 16#005F#, 16#0072#, 16#0065#,
16#0073#, 16#0075#, 16#006C#, 16#0074#,
16#005F#, 16#0061#, 16#0063#, 16#0063#,
16#0065#, 16#0070#, 16#0074#, 16#0045#,
16#0076#, 16#0065#, 16#006E#, 16#0074#,
16#0041#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "Determines which Messages will realize the specified flow."
MS_07BE : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 58,
Length => 58,
Value =>
(16#0044#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#006D#, 16#0069#, 16#006E#,
16#0065#, 16#0073#, 16#0020#, 16#0077#,
16#0068#, 16#0069#, 16#0063#, 16#0068#,
16#0020#, 16#004D#, 16#0065#, 16#0073#,
16#0073#, 16#0061#, 16#0067#, 16#0065#,
16#0073#, 16#0020#, 16#0077#, 16#0069#,
16#006C#, 16#006C#, 16#0020#, 16#0072#,
16#0065#, 16#0061#, 16#006C#, 16#0069#,
16#007A#, 16#0065#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0073#,
16#0070#, 16#0065#, 16#0063#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0064#,
16#0020#, 16#0066#, 16#006C#, 16#006F#,
16#0077#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The query returnResult() returns the set containing the return parameter of the Operation if one exists, otherwise, it returns an empty set"
MS_07BF : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 143,
Unused => 139,
Length => 139,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0071#, 16#0075#, 16#0065#, 16#0072#,
16#0079#, 16#0020#, 16#0072#, 16#0065#,
16#0074#, 16#0075#, 16#0072#, 16#006E#,
16#0052#, 16#0065#, 16#0073#, 16#0075#,
16#006C#, 16#0074#, 16#0028#, 16#0029#,
16#0020#, 16#0072#, 16#0065#, 16#0074#,
16#0075#, 16#0072#, 16#006E#, 16#0073#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0073#, 16#0065#, 16#0074#,
16#0020#, 16#0063#, 16#006F#, 16#006E#,
16#0074#, 16#0061#, 16#0069#, 16#006E#,
16#0069#, 16#006E#, 16#0067#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0072#, 16#0065#, 16#0074#, 16#0075#,
16#0072#, 16#006E#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#004F#, 16#0070#, 16#0065#, 16#0072#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0069#, 16#0066#,
16#0020#, 16#006F#, 16#006E#, 16#0065#,
16#0020#, 16#0065#, 16#0078#, 16#0069#,
16#0073#, 16#0074#, 16#0073#, 16#002C#,
16#0020#, 16#006F#, 16#0074#, 16#0068#,
16#0065#, 16#0072#, 16#0077#, 16#0069#,
16#0073#, 16#0065#, 16#002C#, 16#0020#,
16#0069#, 16#0074#, 16#0020#, 16#0072#,
16#0065#, 16#0074#, 16#0075#, 16#0072#,
16#006E#, 16#0073#, 16#0020#, 16#0061#,
16#006E#, 16#0020#, 16#0065#, 16#006D#,
16#0070#, 16#0074#, 16#0079#, 16#0020#,
16#0073#, 16#0065#, 16#0074#,
others => 16#0000#),
others => <>);
-- "The actual parameter must be compatible with the formal template parameter, e.g. the actual parameter for a class template parameter must be a class."
MS_07C0 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 159,
Unused => 149,
Length => 149,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0061#, 16#0063#, 16#0074#, 16#0075#,
16#0061#, 16#006C#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0063#, 16#006F#, 16#006D#,
16#0070#, 16#0061#, 16#0074#, 16#0069#,
16#0062#, 16#006C#, 16#0065#, 16#0020#,
16#0077#, 16#0069#, 16#0074#, 16#0068#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0066#, 16#006F#, 16#0072#,
16#006D#, 16#0061#, 16#006C#, 16#0020#,
16#0074#, 16#0065#, 16#006D#, 16#0070#,
16#006C#, 16#0061#, 16#0074#, 16#0065#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0061#, 16#006D#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#002C#, 16#0020#,
16#0065#, 16#002E#, 16#0067#, 16#002E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0061#, 16#0063#, 16#0074#,
16#0075#, 16#0061#, 16#006C#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#0020#, 16#0061#, 16#0020#,
16#0063#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#0020#, 16#0074#, 16#0065#,
16#006D#, 16#0070#, 16#006C#, 16#0061#,
16#0074#, 16#0065#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0061#, 16#0020#, 16#0063#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#002E#,
others => 16#0000#),
others => <>);
-- "structuredActivityNode"
MS_07C1 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 22,
Length => 22,
Value =>
(16#0073#, 16#0074#, 16#0072#, 16#0075#,
16#0063#, 16#0074#, 16#0075#, 16#0072#,
16#0065#, 16#0064#, 16#0041#, 16#0063#,
16#0074#, 16#0069#, 16#0076#, 16#0069#,
16#0074#, 16#0079#, 16#004E#, 16#006F#,
16#0064#, 16#0065#,
others => 16#0000#),
others => <>);
-- "All the members of a Namespace are distinguishable within it."
MS_07C2 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 61,
Length => 61,
Value =>
(16#0041#, 16#006C#, 16#006C#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#006D#, 16#0065#, 16#006D#, 16#0062#,
16#0065#, 16#0072#, 16#0073#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0061#,
16#0020#, 16#004E#, 16#0061#, 16#006D#,
16#0065#, 16#0073#, 16#0070#, 16#0061#,
16#0063#, 16#0065#, 16#0020#, 16#0061#,
16#0072#, 16#0065#, 16#0020#, 16#0064#,
16#0069#, 16#0073#, 16#0074#, 16#0069#,
16#006E#, 16#0067#, 16#0075#, 16#0069#,
16#0073#, 16#0068#, 16#0061#, 16#0062#,
16#006C#, 16#0065#, 16#0020#, 16#0077#,
16#0069#, 16#0074#, 16#0068#, 16#0069#,
16#006E#, 16#0020#, 16#0069#, 16#0074#,
16#002E#,
others => 16#0000#),
others => <>);
-- "successorClause"
MS_07C3 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 15,
Length => 15,
Value =>
(16#0073#, 16#0075#, 16#0063#, 16#0063#,
16#0065#, 16#0073#, 16#0073#, 16#006F#,
16#0072#, 16#0043#, 16#006C#, 16#0061#,
16#0075#, 16#0073#, 16#0065#,
others => 16#0000#),
others => <>);
-- "A defaultValue for port cannot be specified when the type of the Port is an Interface"
MS_07C4 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 85,
Length => 85,
Value =>
(16#0041#, 16#0020#, 16#0064#, 16#0065#,
16#0066#, 16#0061#, 16#0075#, 16#006C#,
16#0074#, 16#0056#, 16#0061#, 16#006C#,
16#0075#, 16#0065#, 16#0020#, 16#0066#,
16#006F#, 16#0072#, 16#0020#, 16#0070#,
16#006F#, 16#0072#, 16#0074#, 16#0020#,
16#0063#, 16#0061#, 16#006E#, 16#006E#,
16#006F#, 16#0074#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0073#, 16#0070#,
16#0065#, 16#0063#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0064#, 16#0020#,
16#0077#, 16#0068#, 16#0065#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0074#, 16#0079#, 16#0070#,
16#0065#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0050#, 16#006F#, 16#0072#,
16#0074#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#0049#, 16#006E#, 16#0074#, 16#0065#,
16#0072#, 16#0066#, 16#0061#, 16#0063#,
16#0065#,
others => 16#0000#),
others => <>);
-- "interface"
MS_07C5 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 9,
Length => 9,
Value =>
(16#0069#, 16#006E#, 16#0074#, 16#0065#,
16#0072#, 16#0066#, 16#0061#, 16#0063#,
16#0065#,
others => 16#0000#),
others => <>);
-- "opt_loop_break_neg"
MS_07C6 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 18,
Length => 18,
Value =>
(16#006F#, 16#0070#, 16#0074#, 16#005F#,
16#006C#, 16#006F#, 16#006F#, 16#0070#,
16#005F#, 16#0062#, 16#0072#, 16#0065#,
16#0061#, 16#006B#, 16#005F#, 16#006E#,
16#0065#, 16#0067#,
others => 16#0000#),
others => <>);
-- "action"
MS_07C7 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 7,
Unused => 6,
Length => 6,
Value =>
(16#0061#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "The query allApplicableStereotypes() returns all the directly or indirectly owned stereotypes, including stereotypes contained in sub-profiles."
MS_07C8 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 151,
Unused => 143,
Length => 143,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0071#, 16#0075#, 16#0065#, 16#0072#,
16#0079#, 16#0020#, 16#0061#, 16#006C#,
16#006C#, 16#0041#, 16#0070#, 16#0070#,
16#006C#, 16#0069#, 16#0063#, 16#0061#,
16#0062#, 16#006C#, 16#0065#, 16#0053#,
16#0074#, 16#0065#, 16#0072#, 16#0065#,
16#006F#, 16#0074#, 16#0079#, 16#0070#,
16#0065#, 16#0073#, 16#0028#, 16#0029#,
16#0020#, 16#0072#, 16#0065#, 16#0074#,
16#0075#, 16#0072#, 16#006E#, 16#0073#,
16#0020#, 16#0061#, 16#006C#, 16#006C#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0064#, 16#0069#, 16#0072#,
16#0065#, 16#0063#, 16#0074#, 16#006C#,
16#0079#, 16#0020#, 16#006F#, 16#0072#,
16#0020#, 16#0069#, 16#006E#, 16#0064#,
16#0069#, 16#0072#, 16#0065#, 16#0063#,
16#0074#, 16#006C#, 16#0079#, 16#0020#,
16#006F#, 16#0077#, 16#006E#, 16#0065#,
16#0064#, 16#0020#, 16#0073#, 16#0074#,
16#0065#, 16#0072#, 16#0065#, 16#006F#,
16#0074#, 16#0079#, 16#0070#, 16#0065#,
16#0073#, 16#002C#, 16#0020#, 16#0069#,
16#006E#, 16#0063#, 16#006C#, 16#0075#,
16#0064#, 16#0069#, 16#006E#, 16#0067#,
16#0020#, 16#0073#, 16#0074#, 16#0065#,
16#0072#, 16#0065#, 16#006F#, 16#0074#,
16#0079#, 16#0070#, 16#0065#, 16#0073#,
16#0020#, 16#0063#, 16#006F#, 16#006E#,
16#0074#, 16#0061#, 16#0069#, 16#006E#,
16#0065#, 16#0064#, 16#0020#, 16#0069#,
16#006E#, 16#0020#, 16#0073#, 16#0075#,
16#0062#, 16#002D#, 16#0070#, 16#0072#,
16#006F#, 16#0066#, 16#0069#, 16#006C#,
16#0065#, 16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "An object node within the handler body. When the handler catches an exception, the exception token is placed in this node, causing the body to execute."
MS_07C9 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 159,
Unused => 151,
Length => 151,
Value =>
(16#0041#, 16#006E#, 16#0020#, 16#006F#,
16#0062#, 16#006A#, 16#0065#, 16#0063#,
16#0074#, 16#0020#, 16#006E#, 16#006F#,
16#0064#, 16#0065#, 16#0020#, 16#0077#,
16#0069#, 16#0074#, 16#0068#, 16#0069#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0068#, 16#0061#,
16#006E#, 16#0064#, 16#006C#, 16#0065#,
16#0072#, 16#0020#, 16#0062#, 16#006F#,
16#0064#, 16#0079#, 16#002E#, 16#0020#,
16#0057#, 16#0068#, 16#0065#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0068#, 16#0061#, 16#006E#,
16#0064#, 16#006C#, 16#0065#, 16#0072#,
16#0020#, 16#0063#, 16#0061#, 16#0074#,
16#0063#, 16#0068#, 16#0065#, 16#0073#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#0065#, 16#0078#, 16#0063#, 16#0065#,
16#0070#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#002C#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0065#,
16#0078#, 16#0063#, 16#0065#, 16#0070#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0074#, 16#006F#, 16#006B#,
16#0065#, 16#006E#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#0070#, 16#006C#,
16#0061#, 16#0063#, 16#0065#, 16#0064#,
16#0020#, 16#0069#, 16#006E#, 16#0020#,
16#0074#, 16#0068#, 16#0069#, 16#0073#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#002C#, 16#0020#, 16#0063#,
16#0061#, 16#0075#, 16#0073#, 16#0069#,
16#006E#, 16#0067#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0062#,
16#006F#, 16#0064#, 16#0079#, 16#0020#,
16#0074#, 16#006F#, 16#0020#, 16#0065#,
16#0078#, 16#0065#, 16#0063#, 16#0075#,
16#0074#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Missing derivation for Vertex::/outgoing : Transition"
MS_07CA : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 53,
Length => 53,
Value =>
(16#004D#, 16#0069#, 16#0073#, 16#0073#,
16#0069#, 16#006E#, 16#0067#, 16#0020#,
16#0064#, 16#0065#, 16#0072#, 16#0069#,
16#0076#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0066#,
16#006F#, 16#0072#, 16#0020#, 16#0056#,
16#0065#, 16#0072#, 16#0074#, 16#0065#,
16#0078#, 16#003A#, 16#003A#, 16#002F#,
16#006F#, 16#0075#, 16#0074#, 16#0067#,
16#006F#, 16#0069#, 16#006E#, 16#0067#,
16#0020#, 16#003A#, 16#0020#, 16#0054#,
16#0072#, 16#0061#, 16#006E#, 16#0073#,
16#0069#, 16#0074#, 16#0069#, 16#006F#,
16#006E#,
others => 16#0000#),
others => <>);
-- "If maxint is specified, then the expression must evaluate to a positive integer."
MS_07CB : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 80,
Length => 80,
Value =>
(16#0049#, 16#0066#, 16#0020#, 16#006D#,
16#0061#, 16#0078#, 16#0069#, 16#006E#,
16#0074#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0064#, 16#002C#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0065#, 16#0078#, 16#0070#,
16#0072#, 16#0065#, 16#0073#, 16#0073#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#006D#, 16#0075#, 16#0073#, 16#0074#,
16#0020#, 16#0065#, 16#0076#, 16#0061#,
16#006C#, 16#0075#, 16#0061#, 16#0074#,
16#0065#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0061#, 16#0020#, 16#0070#,
16#006F#, 16#0073#, 16#0069#, 16#0074#,
16#0069#, 16#0076#, 16#0065#, 16#0020#,
16#0069#, 16#006E#, 16#0074#, 16#0065#,
16#0067#, 16#0065#, 16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The query isCompatibleWith() determines if this parameterable element is compatible with the specified parameterable element. By default parameterable element P is compatible with parameterable element Q if the kind of P is the same or a subtype as the kind of Q. In addition, for ValueSpecification, the type must be conformant with the type of the specified parameterable element."
MS_07CC : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 399,
Unused => 382,
Length => 382,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0071#, 16#0075#, 16#0065#, 16#0072#,
16#0079#, 16#0020#, 16#0069#, 16#0073#,
16#0043#, 16#006F#, 16#006D#, 16#0070#,
16#0061#, 16#0074#, 16#0069#, 16#0062#,
16#006C#, 16#0065#, 16#0057#, 16#0069#,
16#0074#, 16#0068#, 16#0028#, 16#0029#,
16#0020#, 16#0064#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#006D#, 16#0069#,
16#006E#, 16#0065#, 16#0073#, 16#0020#,
16#0069#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0069#, 16#0073#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0061#, 16#0062#, 16#006C#,
16#0065#, 16#0020#, 16#0065#, 16#006C#,
16#0065#, 16#006D#, 16#0065#, 16#006E#,
16#0074#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0063#, 16#006F#, 16#006D#,
16#0070#, 16#0061#, 16#0074#, 16#0069#,
16#0062#, 16#006C#, 16#0065#, 16#0020#,
16#0077#, 16#0069#, 16#0074#, 16#0068#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0064#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0061#, 16#0062#, 16#006C#, 16#0065#,
16#0020#, 16#0065#, 16#006C#, 16#0065#,
16#006D#, 16#0065#, 16#006E#, 16#0074#,
16#002E#, 16#0020#, 16#0042#, 16#0079#,
16#0020#, 16#0064#, 16#0065#, 16#0066#,
16#0061#, 16#0075#, 16#006C#, 16#0074#,
16#0020#, 16#0070#, 16#0061#, 16#0072#,
16#0061#, 16#006D#, 16#0065#, 16#0074#,
16#0065#, 16#0072#, 16#0061#, 16#0062#,
16#006C#, 16#0065#, 16#0020#, 16#0065#,
16#006C#, 16#0065#, 16#006D#, 16#0065#,
16#006E#, 16#0074#, 16#0020#, 16#0050#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0063#, 16#006F#, 16#006D#, 16#0070#,
16#0061#, 16#0074#, 16#0069#, 16#0062#,
16#006C#, 16#0065#, 16#0020#, 16#0077#,
16#0069#, 16#0074#, 16#0068#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0061#, 16#0062#, 16#006C#,
16#0065#, 16#0020#, 16#0065#, 16#006C#,
16#0065#, 16#006D#, 16#0065#, 16#006E#,
16#0074#, 16#0020#, 16#0051#, 16#0020#,
16#0069#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#006B#,
16#0069#, 16#006E#, 16#0064#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0050#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0061#, 16#006D#, 16#0065#,
16#0020#, 16#006F#, 16#0072#, 16#0020#,
16#0061#, 16#0020#, 16#0073#, 16#0075#,
16#0062#, 16#0074#, 16#0079#, 16#0070#,
16#0065#, 16#0020#, 16#0061#, 16#0073#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#006B#, 16#0069#, 16#006E#,
16#0064#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0051#, 16#002E#, 16#0020#,
16#0049#, 16#006E#, 16#0020#, 16#0061#,
16#0064#, 16#0064#, 16#0069#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#002C#,
16#0020#, 16#0066#, 16#006F#, 16#0072#,
16#0020#, 16#0056#, 16#0061#, 16#006C#,
16#0075#, 16#0065#, 16#0053#, 16#0070#,
16#0065#, 16#0063#, 16#0069#, 16#0066#,
16#0069#, 16#0063#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#002C#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0074#, 16#0079#, 16#0070#,
16#0065#, 16#0020#, 16#006D#, 16#0075#,
16#0073#, 16#0074#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0063#, 16#006F#,
16#006E#, 16#0066#, 16#006F#, 16#0072#,
16#006D#, 16#0061#, 16#006E#, 16#0074#,
16#0020#, 16#0077#, 16#0069#, 16#0074#,
16#0068#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0074#, 16#0079#,
16#0070#, 16#0065#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0073#, 16#0070#,
16#0065#, 16#0063#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0064#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0061#,
16#006D#, 16#0065#, 16#0074#, 16#0065#,
16#0072#, 16#0061#, 16#0062#, 16#006C#,
16#0065#, 16#0020#, 16#0065#, 16#006C#,
16#0065#, 16#006D#, 16#0065#, 16#006E#,
16#0074#, 16#002E#,
others => 16#0000#),
others => <>);
-- "update"
MS_07CD : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 7,
Unused => 6,
Length => 6,
Value =>
(16#0075#, 16#0070#, 16#0064#, 16#0061#,
16#0074#, 16#0065#,
others => 16#0000#),
others => <>);
-- "Specifies the kind of aggregation that applies to the Property."
MS_07CE : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 71,
Unused => 63,
Length => 63,
Value =>
(16#0053#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#006B#, 16#0069#,
16#006E#, 16#0064#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0061#, 16#0067#,
16#0067#, 16#0072#, 16#0065#, 16#0067#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0061#,
16#0070#, 16#0070#, 16#006C#, 16#0069#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#006F#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0050#, 16#0072#,
16#006F#, 16#0070#, 16#0065#, 16#0072#,
16#0074#, 16#0079#, 16#002E#,
others => 16#0000#),
others => <>);
-- "realizingMessage"
MS_07CF : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 16,
Length => 16,
Value =>
(16#0072#, 16#0065#, 16#0061#, 16#006C#,
16#0069#, 16#007A#, 16#0069#, 16#006E#,
16#0067#, 16#004D#, 16#0065#, 16#0073#,
16#0073#, 16#0061#, 16#0067#, 16#0065#,
others => 16#0000#),
others => <>);
-- "Designates a behavioral feature that the behavior implements. The behavioral feature must be owned by the classifier that owns the behavior or be inherited by it. The parameters of the behavioral feature and the implementing behavior must match. A behavior does not need to have a specification, in which case it either is the classifer behavior of a BehavioredClassifier or it can only be invoked by another behavior of the classifier."
MS_07D0 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 455,
Unused => 436,
Length => 436,
Value =>
(16#0044#, 16#0065#, 16#0073#, 16#0069#,
16#0067#, 16#006E#, 16#0061#, 16#0074#,
16#0065#, 16#0073#, 16#0020#, 16#0061#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0061#, 16#006C#, 16#0020#,
16#0066#, 16#0065#, 16#0061#, 16#0074#,
16#0075#, 16#0072#, 16#0065#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#0069#, 16#006D#,
16#0070#, 16#006C#, 16#0065#, 16#006D#,
16#0065#, 16#006E#, 16#0074#, 16#0073#,
16#002E#, 16#0020#, 16#0054#, 16#0068#,
16#0065#, 16#0020#, 16#0062#, 16#0065#,
16#0068#, 16#0061#, 16#0076#, 16#0069#,
16#006F#, 16#0072#, 16#0061#, 16#006C#,
16#0020#, 16#0066#, 16#0065#, 16#0061#,
16#0074#, 16#0075#, 16#0072#, 16#0065#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#006F#, 16#0077#, 16#006E#,
16#0065#, 16#0064#, 16#0020#, 16#0062#,
16#0079#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#0020#, 16#0074#, 16#0068#, 16#0061#,
16#0074#, 16#0020#, 16#006F#, 16#0077#,
16#006E#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0062#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#0020#,
16#006F#, 16#0072#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0069#, 16#006E#,
16#0068#, 16#0065#, 16#0072#, 16#0069#,
16#0074#, 16#0065#, 16#0064#, 16#0020#,
16#0062#, 16#0079#, 16#0020#, 16#0069#,
16#0074#, 16#002E#, 16#0020#, 16#0054#,
16#0068#, 16#0065#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0061#, 16#006D#,
16#0065#, 16#0074#, 16#0065#, 16#0072#,
16#0073#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0061#, 16#006C#, 16#0020#,
16#0066#, 16#0065#, 16#0061#, 16#0074#,
16#0075#, 16#0072#, 16#0065#, 16#0020#,
16#0061#, 16#006E#, 16#0064#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0069#, 16#006D#, 16#0070#, 16#006C#,
16#0065#, 16#006D#, 16#0065#, 16#006E#,
16#0074#, 16#0069#, 16#006E#, 16#0067#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#006D#, 16#0075#,
16#0073#, 16#0074#, 16#0020#, 16#006D#,
16#0061#, 16#0074#, 16#0063#, 16#0068#,
16#002E#, 16#0020#, 16#0041#, 16#0020#,
16#0062#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#0020#, 16#0064#, 16#006F#, 16#0065#,
16#0073#, 16#0020#, 16#006E#, 16#006F#,
16#0074#, 16#0020#, 16#006E#, 16#0065#,
16#0065#, 16#0064#, 16#0020#, 16#0074#,
16#006F#, 16#0020#, 16#0068#, 16#0061#,
16#0076#, 16#0065#, 16#0020#, 16#0061#,
16#0020#, 16#0073#, 16#0070#, 16#0065#,
16#0063#, 16#0069#, 16#0066#, 16#0069#,
16#0063#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#002C#, 16#0020#,
16#0069#, 16#006E#, 16#0020#, 16#0077#,
16#0068#, 16#0069#, 16#0063#, 16#0068#,
16#0020#, 16#0063#, 16#0061#, 16#0073#,
16#0065#, 16#0020#, 16#0069#, 16#0074#,
16#0020#, 16#0065#, 16#0069#, 16#0074#,
16#0068#, 16#0065#, 16#0072#, 16#0020#,
16#0069#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0063#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#0069#, 16#0066#, 16#0065#, 16#0072#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0061#, 16#0020#, 16#0042#,
16#0065#, 16#0068#, 16#0061#, 16#0076#,
16#0069#, 16#006F#, 16#0072#, 16#0065#,
16#0064#, 16#0043#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#0020#,
16#006F#, 16#0072#, 16#0020#, 16#0069#,
16#0074#, 16#0020#, 16#0063#, 16#0061#,
16#006E#, 16#0020#, 16#006F#, 16#006E#,
16#006C#, 16#0079#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0069#, 16#006E#,
16#0076#, 16#006F#, 16#006B#, 16#0065#,
16#0064#, 16#0020#, 16#0062#, 16#0079#,
16#0020#, 16#0061#, 16#006E#, 16#006F#,
16#0074#, 16#0068#, 16#0065#, 16#0072#,
16#0020#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0063#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A_configuration_deployment"
MS_07D1 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 26,
Length => 26,
Value =>
(16#0041#, 16#005F#, 16#0063#, 16#006F#,
16#006E#, 16#0066#, 16#0069#, 16#0067#,
16#0075#, 16#0072#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#005F#,
16#0064#, 16#0065#, 16#0070#, 16#006C#,
16#006F#, 16#0079#, 16#006D#, 16#0065#,
16#006E#, 16#0074#,
others => 16#0000#),
others => <>);
-- "In the namespace of a component, all model elements that are involved in or related to its definition are either owned or imported explicitly. This may include, for example, use cases and dependencies (e.g. mappings), packages, components, and artifacts."
MS_07D2 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 263,
Unused => 254,
Length => 254,
Value =>
(16#0049#, 16#006E#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#006E#,
16#0061#, 16#006D#, 16#0065#, 16#0073#,
16#0070#, 16#0061#, 16#0063#, 16#0065#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0061#, 16#0020#, 16#0063#, 16#006F#,
16#006D#, 16#0070#, 16#006F#, 16#006E#,
16#0065#, 16#006E#, 16#0074#, 16#002C#,
16#0020#, 16#0061#, 16#006C#, 16#006C#,
16#0020#, 16#006D#, 16#006F#, 16#0064#,
16#0065#, 16#006C#, 16#0020#, 16#0065#,
16#006C#, 16#0065#, 16#006D#, 16#0065#,
16#006E#, 16#0074#, 16#0073#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#0061#, 16#0072#, 16#0065#,
16#0020#, 16#0069#, 16#006E#, 16#0076#,
16#006F#, 16#006C#, 16#0076#, 16#0065#,
16#0064#, 16#0020#, 16#0069#, 16#006E#,
16#0020#, 16#006F#, 16#0072#, 16#0020#,
16#0072#, 16#0065#, 16#006C#, 16#0061#,
16#0074#, 16#0065#, 16#0064#, 16#0020#,
16#0074#, 16#006F#, 16#0020#, 16#0069#,
16#0074#, 16#0073#, 16#0020#, 16#0064#,
16#0065#, 16#0066#, 16#0069#, 16#006E#,
16#0069#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0061#, 16#0072#,
16#0065#, 16#0020#, 16#0065#, 16#0069#,
16#0074#, 16#0068#, 16#0065#, 16#0072#,
16#0020#, 16#006F#, 16#0077#, 16#006E#,
16#0065#, 16#0064#, 16#0020#, 16#006F#,
16#0072#, 16#0020#, 16#0069#, 16#006D#,
16#0070#, 16#006F#, 16#0072#, 16#0074#,
16#0065#, 16#0064#, 16#0020#, 16#0065#,
16#0078#, 16#0070#, 16#006C#, 16#0069#,
16#0063#, 16#0069#, 16#0074#, 16#006C#,
16#0079#, 16#002E#, 16#0020#, 16#0054#,
16#0068#, 16#0069#, 16#0073#, 16#0020#,
16#006D#, 16#0061#, 16#0079#, 16#0020#,
16#0069#, 16#006E#, 16#0063#, 16#006C#,
16#0075#, 16#0064#, 16#0065#, 16#002C#,
16#0020#, 16#0066#, 16#006F#, 16#0072#,
16#0020#, 16#0065#, 16#0078#, 16#0061#,
16#006D#, 16#0070#, 16#006C#, 16#0065#,
16#002C#, 16#0020#, 16#0075#, 16#0073#,
16#0065#, 16#0020#, 16#0063#, 16#0061#,
16#0073#, 16#0065#, 16#0073#, 16#0020#,
16#0061#, 16#006E#, 16#0064#, 16#0020#,
16#0064#, 16#0065#, 16#0070#, 16#0065#,
16#006E#, 16#0064#, 16#0065#, 16#006E#,
16#0063#, 16#0069#, 16#0065#, 16#0073#,
16#0020#, 16#0028#, 16#0065#, 16#002E#,
16#0067#, 16#002E#, 16#0020#, 16#006D#,
16#0061#, 16#0070#, 16#0070#, 16#0069#,
16#006E#, 16#0067#, 16#0073#, 16#0029#,
16#002C#, 16#0020#, 16#0070#, 16#0061#,
16#0063#, 16#006B#, 16#0061#, 16#0067#,
16#0065#, 16#0073#, 16#002C#, 16#0020#,
16#0063#, 16#006F#, 16#006D#, 16#0070#,
16#006F#, 16#006E#, 16#0065#, 16#006E#,
16#0074#, 16#0073#, 16#002C#, 16#0020#,
16#0061#, 16#006E#, 16#0064#, 16#0020#,
16#0061#, 16#0072#, 16#0074#, 16#0069#,
16#0066#, 16#0061#, 16#0063#, 16#0074#,
16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "An optional set of Constraints on the state of the system when the Operation is invoked."
MS_07D3 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 95,
Unused => 88,
Length => 88,
Value =>
(16#0041#, 16#006E#, 16#0020#, 16#006F#,
16#0070#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0061#, 16#006C#, 16#0020#,
16#0073#, 16#0065#, 16#0074#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0043#,
16#006F#, 16#006E#, 16#0073#, 16#0074#,
16#0072#, 16#0061#, 16#0069#, 16#006E#,
16#0074#, 16#0073#, 16#0020#, 16#006F#,
16#006E#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0073#, 16#0074#,
16#0061#, 16#0074#, 16#0065#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0073#,
16#0079#, 16#0073#, 16#0074#, 16#0065#,
16#006D#, 16#0020#, 16#0077#, 16#0068#,
16#0065#, 16#006E#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#004F#,
16#0070#, 16#0065#, 16#0072#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0069#, 16#006E#, 16#0076#, 16#006F#,
16#006B#, 16#0065#, 16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "CreateObjectAction"
MS_07D4 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 18,
Length => 18,
Value =>
(16#0043#, 16#0072#, 16#0065#, 16#0061#,
16#0074#, 16#0065#, 16#004F#, 16#0062#,
16#006A#, 16#0065#, 16#0063#, 16#0074#,
16#0041#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "The entry and exit pseudostates of a composite state. These can only be entry or exit Pseudostates, and they must have different names. They can only be defined for composite states."
MS_07D5 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 191,
Unused => 182,
Length => 182,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0065#, 16#006E#, 16#0074#, 16#0072#,
16#0079#, 16#0020#, 16#0061#, 16#006E#,
16#0064#, 16#0020#, 16#0065#, 16#0078#,
16#0069#, 16#0074#, 16#0020#, 16#0070#,
16#0073#, 16#0065#, 16#0075#, 16#0064#,
16#006F#, 16#0073#, 16#0074#, 16#0061#,
16#0074#, 16#0065#, 16#0073#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0061#,
16#0020#, 16#0063#, 16#006F#, 16#006D#,
16#0070#, 16#006F#, 16#0073#, 16#0069#,
16#0074#, 16#0065#, 16#0020#, 16#0073#,
16#0074#, 16#0061#, 16#0074#, 16#0065#,
16#002E#, 16#0020#, 16#0054#, 16#0068#,
16#0065#, 16#0073#, 16#0065#, 16#0020#,
16#0063#, 16#0061#, 16#006E#, 16#0020#,
16#006F#, 16#006E#, 16#006C#, 16#0079#,
16#0020#, 16#0062#, 16#0065#, 16#0020#,
16#0065#, 16#006E#, 16#0074#, 16#0072#,
16#0079#, 16#0020#, 16#006F#, 16#0072#,
16#0020#, 16#0065#, 16#0078#, 16#0069#,
16#0074#, 16#0020#, 16#0050#, 16#0073#,
16#0065#, 16#0075#, 16#0064#, 16#006F#,
16#0073#, 16#0074#, 16#0061#, 16#0074#,
16#0065#, 16#0073#, 16#002C#, 16#0020#,
16#0061#, 16#006E#, 16#0064#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0079#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#0068#, 16#0061#,
16#0076#, 16#0065#, 16#0020#, 16#0064#,
16#0069#, 16#0066#, 16#0066#, 16#0065#,
16#0072#, 16#0065#, 16#006E#, 16#0074#,
16#0020#, 16#006E#, 16#0061#, 16#006D#,
16#0065#, 16#0073#, 16#002E#, 16#0020#,
16#0054#, 16#0068#, 16#0065#, 16#0079#,
16#0020#, 16#0063#, 16#0061#, 16#006E#,
16#0020#, 16#006F#, 16#006E#, 16#006C#,
16#0079#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0064#, 16#0065#, 16#0066#,
16#0069#, 16#006E#, 16#0065#, 16#0064#,
16#0020#, 16#0066#, 16#006F#, 16#0072#,
16#0020#, 16#0063#, 16#006F#, 16#006D#,
16#0070#, 16#006F#, 16#0073#, 16#0069#,
16#0074#, 16#0065#, 16#0020#, 16#0073#,
16#0074#, 16#0061#, 16#0074#, 16#0065#,
16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "deep_or_shallow_history"
MS_07D6 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 23,
Length => 23,
Value =>
(16#0064#, 16#0065#, 16#0065#, 16#0070#,
16#005F#, 16#006F#, 16#0072#, 16#005F#,
16#0073#, 16#0068#, 16#0061#, 16#006C#,
16#006C#, 16#006F#, 16#0077#, 16#005F#,
16#0068#, 16#0069#, 16#0073#, 16#0074#,
16#006F#, 16#0072#, 16#0079#,
others => 16#0000#),
others => <>);
-- "The text of the expression, possibly in multiple languages."
MS_07D7 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 59,
Length => 59,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0074#, 16#0065#, 16#0078#, 16#0074#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0065#, 16#0078#, 16#0070#, 16#0072#,
16#0065#, 16#0073#, 16#0073#, 16#0069#,
16#006F#, 16#006E#, 16#002C#, 16#0020#,
16#0070#, 16#006F#, 16#0073#, 16#0073#,
16#0069#, 16#0062#, 16#006C#, 16#0079#,
16#0020#, 16#0069#, 16#006E#, 16#0020#,
16#006D#, 16#0075#, 16#006C#, 16#0074#,
16#0069#, 16#0070#, 16#006C#, 16#0065#,
16#0020#, 16#006C#, 16#0061#, 16#006E#,
16#0067#, 16#0075#, 16#0061#, 16#0067#,
16#0065#, 16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "event_on_reply_to_call_trigger"
MS_07D8 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 30,
Length => 30,
Value =>
(16#0065#, 16#0076#, 16#0065#, 16#006E#,
16#0074#, 16#005F#, 16#006F#, 16#006E#,
16#005F#, 16#0072#, 16#0065#, 16#0070#,
16#006C#, 16#0079#, 16#005F#, 16#0074#,
16#006F#, 16#005F#, 16#0063#, 16#0061#,
16#006C#, 16#006C#, 16#005F#, 16#0074#,
16#0072#, 16#0069#, 16#0067#, 16#0067#,
16#0065#, 16#0072#,
others => 16#0000#),
others => <>);
-- "featuringClassifier"
MS_07D9 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 19,
Length => 19,
Value =>
(16#0066#, 16#0065#, 16#0061#, 16#0074#,
16#0075#, 16#0072#, 16#0069#, 16#006E#,
16#0067#, 16#0043#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#,
others => 16#0000#),
others => <>);
-- "outgoing_pseudostates"
MS_07DA : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 21,
Length => 21,
Value =>
(16#006F#, 16#0075#, 16#0074#, 16#0067#,
16#006F#, 16#0069#, 16#006E#, 16#0067#,
16#005F#, 16#0070#, 16#0073#, 16#0065#,
16#0075#, 16#0064#, 16#006F#, 16#0073#,
16#0074#, 16#0061#, 16#0074#, 16#0065#,
16#0073#,
others => 16#0000#),
others => <>);
-- "This gives the superclasses of a class."
MS_07DB : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 47,
Unused => 39,
Length => 39,
Value =>
(16#0054#, 16#0068#, 16#0069#, 16#0073#,
16#0020#, 16#0067#, 16#0069#, 16#0076#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0073#,
16#0075#, 16#0070#, 16#0065#, 16#0072#,
16#0063#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#0065#, 16#0073#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0061#,
16#0020#, 16#0063#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "References the use cases owned by this classifier."
MS_07DC : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 50,
Length => 50,
Value =>
(16#0052#, 16#0065#, 16#0066#, 16#0065#,
16#0072#, 16#0065#, 16#006E#, 16#0063#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0075#,
16#0073#, 16#0065#, 16#0020#, 16#0063#,
16#0061#, 16#0073#, 16#0065#, 16#0073#,
16#0020#, 16#006F#, 16#0077#, 16#006E#,
16#0065#, 16#0064#, 16#0020#, 16#0062#,
16#0079#, 16#0020#, 16#0074#, 16#0068#,
16#0069#, 16#0073#, 16#0020#, 16#0063#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "readIsClassifiedObjectAction"
MS_07DD : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 28,
Length => 28,
Value =>
(16#0072#, 16#0065#, 16#0061#, 16#0064#,
16#0049#, 16#0073#, 16#0043#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0064#,
16#004F#, 16#0062#, 16#006A#, 16#0065#,
16#0063#, 16#0074#, 16#0041#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "isOrdered"
MS_07DE : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 9,
Length => 9,
Value =>
(16#0069#, 16#0073#, 16#004F#, 16#0072#,
16#0064#, 16#0065#, 16#0072#, 16#0065#,
16#0064#,
others => 16#0000#),
others => <>);
-- "The multiplicity of the input pin is 1..1"
MS_07DF : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 47,
Unused => 41,
Length => 41,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006D#, 16#0075#, 16#006C#, 16#0074#,
16#0069#, 16#0070#, 16#006C#, 16#0069#,
16#0063#, 16#0069#, 16#0074#, 16#0079#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0069#, 16#006E#, 16#0070#, 16#0075#,
16#0074#, 16#0020#, 16#0070#, 16#0069#,
16#006E#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0031#, 16#002E#, 16#002E#,
16#0031#,
others => 16#0000#),
others => <>);
-- "The non-owned end of an Extension is typed by a Class."
MS_07E0 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 54,
Length => 54,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006E#, 16#006F#, 16#006E#, 16#002D#,
16#006F#, 16#0077#, 16#006E#, 16#0065#,
16#0064#, 16#0020#, 16#0065#, 16#006E#,
16#0064#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0061#, 16#006E#, 16#0020#,
16#0045#, 16#0078#, 16#0074#, 16#0065#,
16#006E#, 16#0073#, 16#0069#, 16#006F#,
16#006E#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0074#, 16#0079#, 16#0070#,
16#0065#, 16#0064#, 16#0020#, 16#0062#,
16#0079#, 16#0020#, 16#0061#, 16#0020#,
16#0043#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "WriteLinkAction is an abstract class for link actions that create and destroy links."
MS_07E1 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 84,
Length => 84,
Value =>
(16#0057#, 16#0072#, 16#0069#, 16#0074#,
16#0065#, 16#004C#, 16#0069#, 16#006E#,
16#006B#, 16#0041#, 16#0063#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0069#, 16#0073#, 16#0020#, 16#0061#,
16#006E#, 16#0020#, 16#0061#, 16#0062#,
16#0073#, 16#0074#, 16#0072#, 16#0061#,
16#0063#, 16#0074#, 16#0020#, 16#0063#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#0020#, 16#0066#, 16#006F#, 16#0072#,
16#0020#, 16#006C#, 16#0069#, 16#006E#,
16#006B#, 16#0020#, 16#0061#, 16#0063#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0061#, 16#0074#, 16#0020#, 16#0063#,
16#0072#, 16#0065#, 16#0061#, 16#0074#,
16#0065#, 16#0020#, 16#0061#, 16#006E#,
16#0064#, 16#0020#, 16#0064#, 16#0065#,
16#0073#, 16#0074#, 16#0072#, 16#006F#,
16#0079#, 16#0020#, 16#006C#, 16#0069#,
16#006E#, 16#006B#, 16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A optional port of the receiver object on which the behavioral feature is invoked."
MS_07E2 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 87,
Unused => 82,
Length => 82,
Value =>
(16#0041#, 16#0020#, 16#006F#, 16#0070#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0061#, 16#006C#, 16#0020#, 16#0070#,
16#006F#, 16#0072#, 16#0074#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0072#,
16#0065#, 16#0063#, 16#0065#, 16#0069#,
16#0076#, 16#0065#, 16#0072#, 16#0020#,
16#006F#, 16#0062#, 16#006A#, 16#0065#,
16#0063#, 16#0074#, 16#0020#, 16#006F#,
16#006E#, 16#0020#, 16#0077#, 16#0068#,
16#0069#, 16#0063#, 16#0068#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0062#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#0061#, 16#006C#, 16#0020#, 16#0066#,
16#0065#, 16#0061#, 16#0074#, 16#0075#,
16#0072#, 16#0065#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#0069#, 16#006E#,
16#0076#, 16#006F#, 16#006B#, 16#0065#,
16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The open end must be navigable."
MS_07E3 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 31,
Length => 31,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006F#, 16#0070#, 16#0065#, 16#006E#,
16#0020#, 16#0065#, 16#006E#, 16#0064#,
16#0020#, 16#006D#, 16#0075#, 16#0073#,
16#0074#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#006E#, 16#0061#, 16#0076#,
16#0069#, 16#0067#, 16#0061#, 16#0062#,
16#006C#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "An exception handler is an element that specifies a body to execute in case the specified exception occurs during the execution of the protected node."
MS_07E4 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 159,
Unused => 150,
Length => 150,
Value =>
(16#0041#, 16#006E#, 16#0020#, 16#0065#,
16#0078#, 16#0063#, 16#0065#, 16#0070#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0068#, 16#0061#, 16#006E#,
16#0064#, 16#006C#, 16#0065#, 16#0072#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0061#, 16#006E#, 16#0020#, 16#0065#,
16#006C#, 16#0065#, 16#006D#, 16#0065#,
16#006E#, 16#0074#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0073#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0073#, 16#0020#, 16#0061#, 16#0020#,
16#0062#, 16#006F#, 16#0064#, 16#0079#,
16#0020#, 16#0074#, 16#006F#, 16#0020#,
16#0065#, 16#0078#, 16#0065#, 16#0063#,
16#0075#, 16#0074#, 16#0065#, 16#0020#,
16#0069#, 16#006E#, 16#0020#, 16#0063#,
16#0061#, 16#0073#, 16#0065#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0064#, 16#0020#, 16#0065#, 16#0078#,
16#0063#, 16#0065#, 16#0070#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#006F#, 16#0063#, 16#0063#, 16#0075#,
16#0072#, 16#0073#, 16#0020#, 16#0064#,
16#0075#, 16#0072#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0065#, 16#0078#,
16#0065#, 16#0063#, 16#0075#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0070#,
16#0072#, 16#006F#, 16#0074#, 16#0065#,
16#0063#, 16#0074#, 16#0065#, 16#0064#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "content"
MS_07E5 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 7,
Length => 7,
Value =>
(16#0063#, 16#006F#, 16#006E#, 16#0074#,
16#0065#, 16#006E#, 16#0074#,
others => 16#0000#),
others => <>);
-- "TimeObservation"
MS_07E6 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 15,
Length => 15,
Value =>
(16#0054#, 16#0069#, 16#006D#, 16#0065#,
16#004F#, 16#0062#, 16#0073#, 16#0065#,
16#0072#, 16#0076#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#,
others => 16#0000#),
others => <>);
-- "An optional set of Constraints specifying the state of the system when the Operation is completed."
MS_07E7 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 103,
Unused => 98,
Length => 98,
Value =>
(16#0041#, 16#006E#, 16#0020#, 16#006F#,
16#0070#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0061#, 16#006C#, 16#0020#,
16#0073#, 16#0065#, 16#0074#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0043#,
16#006F#, 16#006E#, 16#0073#, 16#0074#,
16#0072#, 16#0061#, 16#0069#, 16#006E#,
16#0074#, 16#0073#, 16#0020#, 16#0073#,
16#0070#, 16#0065#, 16#0063#, 16#0069#,
16#0066#, 16#0079#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0073#, 16#0074#,
16#0061#, 16#0074#, 16#0065#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0073#,
16#0079#, 16#0073#, 16#0074#, 16#0065#,
16#006D#, 16#0020#, 16#0077#, 16#0068#,
16#0065#, 16#006E#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#004F#,
16#0070#, 16#0065#, 16#0072#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0069#, 16#0073#, 16#0020#,
16#0063#, 16#006F#, 16#006D#, 16#0070#,
16#006C#, 16#0065#, 16#0074#, 16#0065#,
16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Designates the optional association end that owns a qualifier attribute."
MS_07E8 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 79,
Unused => 72,
Length => 72,
Value =>
(16#0044#, 16#0065#, 16#0073#, 16#0069#,
16#0067#, 16#006E#, 16#0061#, 16#0074#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#006F#,
16#0070#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0061#, 16#006C#, 16#0020#,
16#0061#, 16#0073#, 16#0073#, 16#006F#,
16#0063#, 16#0069#, 16#0061#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0065#, 16#006E#, 16#0064#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#006F#, 16#0077#, 16#006E#,
16#0073#, 16#0020#, 16#0061#, 16#0020#,
16#0071#, 16#0075#, 16#0061#, 16#006C#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#0020#, 16#0061#, 16#0074#,
16#0074#, 16#0072#, 16#0069#, 16#0062#,
16#0075#, 16#0074#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "An ordered set of executable nodes."
MS_07E9 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 39,
Unused => 35,
Length => 35,
Value =>
(16#0041#, 16#006E#, 16#0020#, 16#006F#,
16#0072#, 16#0064#, 16#0065#, 16#0072#,
16#0065#, 16#0064#, 16#0020#, 16#0073#,
16#0065#, 16#0074#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0065#, 16#0078#,
16#0065#, 16#0063#, 16#0075#, 16#0074#,
16#0061#, 16#0062#, 16#006C#, 16#0065#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#0073#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The object to be unmarshalled."
MS_07EA : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 30,
Length => 30,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#006F#, 16#0062#, 16#006A#, 16#0065#,
16#0063#, 16#0074#, 16#0020#, 16#0074#,
16#006F#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0075#, 16#006E#, 16#006D#,
16#0061#, 16#0072#, 16#0073#, 16#0068#,
16#0061#, 16#006C#, 16#006C#, 16#0065#,
16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A port is a property of a classifier that specifies a distinct interaction point between that classifier and its environment or between the (behavior of the) classifier and its internal parts. Ports are connected to properties of the classifier by connectors through which requests can be made to invoke the behavioral features of a classifier. A Port may specify the services a classifier provides (offers) to its environment as well as the services that a classifier expects (requires) of its environment."
MS_07EB : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 527,
Unused => 507,
Length => 507,
Value =>
(16#0041#, 16#0020#, 16#0070#, 16#006F#,
16#0072#, 16#0074#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#0061#, 16#0020#,
16#0070#, 16#0072#, 16#006F#, 16#0070#,
16#0065#, 16#0072#, 16#0074#, 16#0079#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0061#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#0020#, 16#0074#, 16#0068#, 16#0061#,
16#0074#, 16#0020#, 16#0073#, 16#0070#,
16#0065#, 16#0063#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0073#, 16#0020#,
16#0061#, 16#0020#, 16#0064#, 16#0069#,
16#0073#, 16#0074#, 16#0069#, 16#006E#,
16#0063#, 16#0074#, 16#0020#, 16#0069#,
16#006E#, 16#0074#, 16#0065#, 16#0072#,
16#0061#, 16#0063#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0070#,
16#006F#, 16#0069#, 16#006E#, 16#0074#,
16#0020#, 16#0062#, 16#0065#, 16#0074#,
16#0077#, 16#0065#, 16#0065#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0061#,
16#0074#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#0020#, 16#0061#, 16#006E#, 16#0064#,
16#0020#, 16#0069#, 16#0074#, 16#0073#,
16#0020#, 16#0065#, 16#006E#, 16#0076#,
16#0069#, 16#0072#, 16#006F#, 16#006E#,
16#006D#, 16#0065#, 16#006E#, 16#0074#,
16#0020#, 16#006F#, 16#0072#, 16#0020#,
16#0062#, 16#0065#, 16#0074#, 16#0077#,
16#0065#, 16#0065#, 16#006E#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0028#, 16#0062#, 16#0065#, 16#0068#,
16#0061#, 16#0076#, 16#0069#, 16#006F#,
16#0072#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0029#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#0020#, 16#0061#, 16#006E#, 16#0064#,
16#0020#, 16#0069#, 16#0074#, 16#0073#,
16#0020#, 16#0069#, 16#006E#, 16#0074#,
16#0065#, 16#0072#, 16#006E#, 16#0061#,
16#006C#, 16#0020#, 16#0070#, 16#0061#,
16#0072#, 16#0074#, 16#0073#, 16#002E#,
16#0020#, 16#0050#, 16#006F#, 16#0072#,
16#0074#, 16#0073#, 16#0020#, 16#0061#,
16#0072#, 16#0065#, 16#0020#, 16#0063#,
16#006F#, 16#006E#, 16#006E#, 16#0065#,
16#0063#, 16#0074#, 16#0065#, 16#0064#,
16#0020#, 16#0074#, 16#006F#, 16#0020#,
16#0070#, 16#0072#, 16#006F#, 16#0070#,
16#0065#, 16#0072#, 16#0074#, 16#0069#,
16#0065#, 16#0073#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#0020#, 16#0062#, 16#0079#, 16#0020#,
16#0063#, 16#006F#, 16#006E#, 16#006E#,
16#0065#, 16#0063#, 16#0074#, 16#006F#,
16#0072#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0072#, 16#006F#, 16#0075#,
16#0067#, 16#0068#, 16#0020#, 16#0077#,
16#0068#, 16#0069#, 16#0063#, 16#0068#,
16#0020#, 16#0072#, 16#0065#, 16#0071#,
16#0075#, 16#0065#, 16#0073#, 16#0074#,
16#0073#, 16#0020#, 16#0063#, 16#0061#,
16#006E#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#006D#, 16#0061#, 16#0064#,
16#0065#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0069#, 16#006E#, 16#0076#,
16#006F#, 16#006B#, 16#0065#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0062#, 16#0065#, 16#0068#, 16#0061#,
16#0076#, 16#0069#, 16#006F#, 16#0072#,
16#0061#, 16#006C#, 16#0020#, 16#0066#,
16#0065#, 16#0061#, 16#0074#, 16#0075#,
16#0072#, 16#0065#, 16#0073#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0061#,
16#0020#, 16#0063#, 16#006C#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#0066#,
16#0069#, 16#0065#, 16#0072#, 16#002E#,
16#0020#, 16#0041#, 16#0020#, 16#0050#,
16#006F#, 16#0072#, 16#0074#, 16#0020#,
16#006D#, 16#0061#, 16#0079#, 16#0020#,
16#0073#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0079#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0073#, 16#0065#, 16#0072#, 16#0076#,
16#0069#, 16#0063#, 16#0065#, 16#0073#,
16#0020#, 16#0061#, 16#0020#, 16#0063#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#0020#, 16#0070#, 16#0072#,
16#006F#, 16#0076#, 16#0069#, 16#0064#,
16#0065#, 16#0073#, 16#0020#, 16#0028#,
16#006F#, 16#0066#, 16#0066#, 16#0065#,
16#0072#, 16#0073#, 16#0029#, 16#0020#,
16#0074#, 16#006F#, 16#0020#, 16#0069#,
16#0074#, 16#0073#, 16#0020#, 16#0065#,
16#006E#, 16#0076#, 16#0069#, 16#0072#,
16#006F#, 16#006E#, 16#006D#, 16#0065#,
16#006E#, 16#0074#, 16#0020#, 16#0061#,
16#0073#, 16#0020#, 16#0077#, 16#0065#,
16#006C#, 16#006C#, 16#0020#, 16#0061#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0073#, 16#0065#,
16#0072#, 16#0076#, 16#0069#, 16#0063#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0061#, 16#0020#, 16#0063#, 16#006C#,
16#0061#, 16#0073#, 16#0073#, 16#0069#,
16#0066#, 16#0069#, 16#0065#, 16#0072#,
16#0020#, 16#0065#, 16#0078#, 16#0070#,
16#0065#, 16#0063#, 16#0074#, 16#0073#,
16#0020#, 16#0028#, 16#0072#, 16#0065#,
16#0071#, 16#0075#, 16#0069#, 16#0072#,
16#0065#, 16#0073#, 16#0029#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0069#,
16#0074#, 16#0073#, 16#0020#, 16#0065#,
16#006E#, 16#0076#, 16#0069#, 16#0072#,
16#006F#, 16#006E#, 16#006D#, 16#0065#,
16#006E#, 16#0074#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A derived union is derived."
MS_07EC : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 27,
Length => 27,
Value =>
(16#0041#, 16#0020#, 16#0064#, 16#0065#,
16#0072#, 16#0069#, 16#0076#, 16#0065#,
16#0064#, 16#0020#, 16#0075#, 16#006E#,
16#0069#, 16#006F#, 16#006E#, 16#0020#,
16#0069#, 16#0073#, 16#0020#, 16#0064#,
16#0065#, 16#0072#, 16#0069#, 16#0076#,
16#0065#, 16#0064#, 16#002E#,
others => 16#0000#),
others => <>);
-- "The input pin has no type."
MS_07ED : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 26,
Length => 26,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0069#, 16#006E#, 16#0070#, 16#0075#,
16#0074#, 16#0020#, 16#0070#, 16#0069#,
16#006E#, 16#0020#, 16#0068#, 16#0061#,
16#0073#, 16#0020#, 16#006E#, 16#006F#,
16#0020#, 16#0074#, 16#0079#, 16#0070#,
16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "ActivityFinalNode"
MS_07EE : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 17,
Length => 17,
Value =>
(16#0041#, 16#0063#, 16#0074#, 16#0069#,
16#0076#, 16#0069#, 16#0074#, 16#0079#,
16#0046#, 16#0069#, 16#006E#, 16#0061#,
16#006C#, 16#004E#, 16#006F#, 16#0064#,
16#0065#,
others => 16#0000#),
others => <>);
-- "A_body_clause"
MS_07EF : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 13,
Length => 13,
Value =>
(16#0041#, 16#005F#, 16#0062#, 16#006F#,
16#0064#, 16#0079#, 16#005F#, 16#0063#,
16#006C#, 16#0061#, 16#0075#, 16#0073#,
16#0065#,
others => 16#0000#),
others => <>);
-- "A Property can be a DeploymentTarget if it is a kind of Node and functions as a part in the internal structure of an encompassing Node."
MS_07F0 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 143,
Unused => 135,
Length => 135,
Value =>
(16#0041#, 16#0020#, 16#0050#, 16#0072#,
16#006F#, 16#0070#, 16#0065#, 16#0072#,
16#0074#, 16#0079#, 16#0020#, 16#0063#,
16#0061#, 16#006E#, 16#0020#, 16#0062#,
16#0065#, 16#0020#, 16#0061#, 16#0020#,
16#0044#, 16#0065#, 16#0070#, 16#006C#,
16#006F#, 16#0079#, 16#006D#, 16#0065#,
16#006E#, 16#0074#, 16#0054#, 16#0061#,
16#0072#, 16#0067#, 16#0065#, 16#0074#,
16#0020#, 16#0069#, 16#0066#, 16#0020#,
16#0069#, 16#0074#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#0061#, 16#0020#,
16#006B#, 16#0069#, 16#006E#, 16#0064#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#004E#, 16#006F#, 16#0064#, 16#0065#,
16#0020#, 16#0061#, 16#006E#, 16#0064#,
16#0020#, 16#0066#, 16#0075#, 16#006E#,
16#0063#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0073#, 16#0020#, 16#0061#,
16#0073#, 16#0020#, 16#0061#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0074#,
16#0020#, 16#0069#, 16#006E#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#0020#,
16#0069#, 16#006E#, 16#0074#, 16#0065#,
16#0072#, 16#006E#, 16#0061#, 16#006C#,
16#0020#, 16#0073#, 16#0074#, 16#0072#,
16#0075#, 16#0063#, 16#0074#, 16#0075#,
16#0072#, 16#0065#, 16#0020#, 16#006F#,
16#0066#, 16#0020#, 16#0061#, 16#006E#,
16#0020#, 16#0065#, 16#006E#, 16#0063#,
16#006F#, 16#006D#, 16#0070#, 16#0061#,
16#0073#, 16#0073#, 16#0069#, 16#006E#,
16#0067#, 16#0020#, 16#004E#, 16#006F#,
16#0064#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "A primitive type defines a predefined data type, without any relevant substructure (i.e., it has no parts in the context of UML). A primitive datatype may have an algebra and operations defined outside of UML, for example, mathematically."
MS_07F1 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 247,
Unused => 238,
Length => 238,
Value =>
(16#0041#, 16#0020#, 16#0070#, 16#0072#,
16#0069#, 16#006D#, 16#0069#, 16#0074#,
16#0069#, 16#0076#, 16#0065#, 16#0020#,
16#0074#, 16#0079#, 16#0070#, 16#0065#,
16#0020#, 16#0064#, 16#0065#, 16#0066#,
16#0069#, 16#006E#, 16#0065#, 16#0073#,
16#0020#, 16#0061#, 16#0020#, 16#0070#,
16#0072#, 16#0065#, 16#0064#, 16#0065#,
16#0066#, 16#0069#, 16#006E#, 16#0065#,
16#0064#, 16#0020#, 16#0064#, 16#0061#,
16#0074#, 16#0061#, 16#0020#, 16#0074#,
16#0079#, 16#0070#, 16#0065#, 16#002C#,
16#0020#, 16#0077#, 16#0069#, 16#0074#,
16#0068#, 16#006F#, 16#0075#, 16#0074#,
16#0020#, 16#0061#, 16#006E#, 16#0079#,
16#0020#, 16#0072#, 16#0065#, 16#006C#,
16#0065#, 16#0076#, 16#0061#, 16#006E#,
16#0074#, 16#0020#, 16#0073#, 16#0075#,
16#0062#, 16#0073#, 16#0074#, 16#0072#,
16#0075#, 16#0063#, 16#0074#, 16#0075#,
16#0072#, 16#0065#, 16#0020#, 16#0028#,
16#0069#, 16#002E#, 16#0065#, 16#002E#,
16#002C#, 16#0020#, 16#0069#, 16#0074#,
16#0020#, 16#0068#, 16#0061#, 16#0073#,
16#0020#, 16#006E#, 16#006F#, 16#0020#,
16#0070#, 16#0061#, 16#0072#, 16#0074#,
16#0073#, 16#0020#, 16#0069#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0063#, 16#006F#, 16#006E#,
16#0074#, 16#0065#, 16#0078#, 16#0074#,
16#0020#, 16#006F#, 16#0066#, 16#0020#,
16#0055#, 16#004D#, 16#004C#, 16#0029#,
16#002E#, 16#0020#, 16#0041#, 16#0020#,
16#0070#, 16#0072#, 16#0069#, 16#006D#,
16#0069#, 16#0074#, 16#0069#, 16#0076#,
16#0065#, 16#0020#, 16#0064#, 16#0061#,
16#0074#, 16#0061#, 16#0074#, 16#0079#,
16#0070#, 16#0065#, 16#0020#, 16#006D#,
16#0061#, 16#0079#, 16#0020#, 16#0068#,
16#0061#, 16#0076#, 16#0065#, 16#0020#,
16#0061#, 16#006E#, 16#0020#, 16#0061#,
16#006C#, 16#0067#, 16#0065#, 16#0062#,
16#0072#, 16#0061#, 16#0020#, 16#0061#,
16#006E#, 16#0064#, 16#0020#, 16#006F#,
16#0070#, 16#0065#, 16#0072#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0073#, 16#0020#, 16#0064#, 16#0065#,
16#0066#, 16#0069#, 16#006E#, 16#0065#,
16#0064#, 16#0020#, 16#006F#, 16#0075#,
16#0074#, 16#0073#, 16#0069#, 16#0064#,
16#0065#, 16#0020#, 16#006F#, 16#0066#,
16#0020#, 16#0055#, 16#004D#, 16#004C#,
16#002C#, 16#0020#, 16#0066#, 16#006F#,
16#0072#, 16#0020#, 16#0065#, 16#0078#,
16#0061#, 16#006D#, 16#0070#, 16#006C#,
16#0065#, 16#002C#, 16#0020#, 16#006D#,
16#0061#, 16#0074#, 16#0068#, 16#0065#,
16#006D#, 16#0061#, 16#0074#, 16#0069#,
16#0063#, 16#0061#, 16#006C#, 16#006C#,
16#0079#, 16#002E#,
others => 16#0000#),
others => <>);
-- "connector"
MS_07F2 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 9,
Length => 9,
Value =>
(16#0063#, 16#006F#, 16#006E#, 16#006E#,
16#0065#, 16#0063#, 16#0074#, 16#006F#,
16#0072#,
others => 16#0000#),
others => <>);
-- "If the protected node is a StructuredActivityNode with output pins, then the exception handler body must also be a StructuredActivityNode with output pins that correspond in number and types to those of the protected node."
MS_07F3 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 231,
Unused => 222,
Length => 222,
Value =>
(16#0049#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0070#,
16#0072#, 16#006F#, 16#0074#, 16#0065#,
16#0063#, 16#0074#, 16#0065#, 16#0064#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#0020#, 16#0069#, 16#0073#,
16#0020#, 16#0061#, 16#0020#, 16#0053#,
16#0074#, 16#0072#, 16#0075#, 16#0063#,
16#0074#, 16#0075#, 16#0072#, 16#0065#,
16#0064#, 16#0041#, 16#0063#, 16#0074#,
16#0069#, 16#0076#, 16#0069#, 16#0074#,
16#0079#, 16#004E#, 16#006F#, 16#0064#,
16#0065#, 16#0020#, 16#0077#, 16#0069#,
16#0074#, 16#0068#, 16#0020#, 16#006F#,
16#0075#, 16#0074#, 16#0070#, 16#0075#,
16#0074#, 16#0020#, 16#0070#, 16#0069#,
16#006E#, 16#0073#, 16#002C#, 16#0020#,
16#0074#, 16#0068#, 16#0065#, 16#006E#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#0065#, 16#0078#, 16#0063#,
16#0065#, 16#0070#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0068#,
16#0061#, 16#006E#, 16#0064#, 16#006C#,
16#0065#, 16#0072#, 16#0020#, 16#0062#,
16#006F#, 16#0064#, 16#0079#, 16#0020#,
16#006D#, 16#0075#, 16#0073#, 16#0074#,
16#0020#, 16#0061#, 16#006C#, 16#0073#,
16#006F#, 16#0020#, 16#0062#, 16#0065#,
16#0020#, 16#0061#, 16#0020#, 16#0053#,
16#0074#, 16#0072#, 16#0075#, 16#0063#,
16#0074#, 16#0075#, 16#0072#, 16#0065#,
16#0064#, 16#0041#, 16#0063#, 16#0074#,
16#0069#, 16#0076#, 16#0069#, 16#0074#,
16#0079#, 16#004E#, 16#006F#, 16#0064#,
16#0065#, 16#0020#, 16#0077#, 16#0069#,
16#0074#, 16#0068#, 16#0020#, 16#006F#,
16#0075#, 16#0074#, 16#0070#, 16#0075#,
16#0074#, 16#0020#, 16#0070#, 16#0069#,
16#006E#, 16#0073#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#0063#, 16#006F#, 16#0072#, 16#0072#,
16#0065#, 16#0073#, 16#0070#, 16#006F#,
16#006E#, 16#0064#, 16#0020#, 16#0069#,
16#006E#, 16#0020#, 16#006E#, 16#0075#,
16#006D#, 16#0062#, 16#0065#, 16#0072#,
16#0020#, 16#0061#, 16#006E#, 16#0064#,
16#0020#, 16#0074#, 16#0079#, 16#0070#,
16#0065#, 16#0073#, 16#0020#, 16#0074#,
16#006F#, 16#0020#, 16#0074#, 16#0068#,
16#006F#, 16#0073#, 16#0065#, 16#0020#,
16#006F#, 16#0066#, 16#0020#, 16#0074#,
16#0068#, 16#0065#, 16#0020#, 16#0070#,
16#0072#, 16#006F#, 16#0074#, 16#0065#,
16#0063#, 16#0074#, 16#0065#, 16#0064#,
16#0020#, 16#006E#, 16#006F#, 16#0064#,
16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Specifies the Namespace that imports the members from a Package."
MS_07F4 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 71,
Unused => 64,
Length => 64,
Value =>
(16#0053#, 16#0070#, 16#0065#, 16#0063#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0073#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#004E#, 16#0061#,
16#006D#, 16#0065#, 16#0073#, 16#0070#,
16#0061#, 16#0063#, 16#0065#, 16#0020#,
16#0074#, 16#0068#, 16#0061#, 16#0074#,
16#0020#, 16#0069#, 16#006D#, 16#0070#,
16#006F#, 16#0072#, 16#0074#, 16#0073#,
16#0020#, 16#0074#, 16#0068#, 16#0065#,
16#0020#, 16#006D#, 16#0065#, 16#006D#,
16#0062#, 16#0065#, 16#0072#, 16#0073#,
16#0020#, 16#0066#, 16#0072#, 16#006F#,
16#006D#, 16#0020#, 16#0061#, 16#0020#,
16#0050#, 16#0061#, 16#0063#, 16#006B#,
16#0061#, 16#0067#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "seq"
MS_07F5 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 7,
Unused => 3,
Length => 3,
Value =>
(16#0073#, 16#0065#, 16#0071#,
others => 16#0000#),
others => <>);
-- "A_loopVariable_loopNode"
MS_07F6 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 23,
Length => 23,
Value =>
(16#0041#, 16#005F#, 16#006C#, 16#006F#,
16#006F#, 16#0070#, 16#0056#, 16#0061#,
16#0072#, 16#0069#, 16#0061#, 16#0062#,
16#006C#, 16#0065#, 16#005F#, 16#006C#,
16#006F#, 16#006F#, 16#0070#, 16#004E#,
16#006F#, 16#0064#, 16#0065#,
others => 16#0000#),
others => <>);
-- "A_result_opaqueExpression"
MS_07F7 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 25,
Length => 25,
Value =>
(16#0041#, 16#005F#, 16#0072#, 16#0065#,
16#0073#, 16#0075#, 16#006C#, 16#0074#,
16#005F#, 16#006F#, 16#0070#, 16#0061#,
16#0071#, 16#0075#, 16#0065#, 16#0045#,
16#0078#, 16#0070#, 16#0072#, 16#0065#,
16#0073#, 16#0073#, 16#0069#, 16#006F#,
16#006E#,
others => 16#0000#),
others => <>);
-- "MessageEnd"
MS_07F8 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 15,
Unused => 10,
Length => 10,
Value =>
(16#004D#, 16#0065#, 16#0073#, 16#0073#,
16#0061#, 16#0067#, 16#0065#, 16#0045#,
16#006E#, 16#0064#,
others => 16#0000#),
others => <>);
-- "The isAccessibleBy() operation is not defined in standard UML. Implementations should define it to specify which actions can access a variable."
MS_07F9 : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 151,
Unused => 143,
Length => 143,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0069#, 16#0073#, 16#0041#, 16#0063#,
16#0063#, 16#0065#, 16#0073#, 16#0073#,
16#0069#, 16#0062#, 16#006C#, 16#0065#,
16#0042#, 16#0079#, 16#0028#, 16#0029#,
16#0020#, 16#006F#, 16#0070#, 16#0065#,
16#0072#, 16#0061#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0020#, 16#0069#,
16#0073#, 16#0020#, 16#006E#, 16#006F#,
16#0074#, 16#0020#, 16#0064#, 16#0065#,
16#0066#, 16#0069#, 16#006E#, 16#0065#,
16#0064#, 16#0020#, 16#0069#, 16#006E#,
16#0020#, 16#0073#, 16#0074#, 16#0061#,
16#006E#, 16#0064#, 16#0061#, 16#0072#,
16#0064#, 16#0020#, 16#0055#, 16#004D#,
16#004C#, 16#002E#, 16#0020#, 16#0049#,
16#006D#, 16#0070#, 16#006C#, 16#0065#,
16#006D#, 16#0065#, 16#006E#, 16#0074#,
16#0061#, 16#0074#, 16#0069#, 16#006F#,
16#006E#, 16#0073#, 16#0020#, 16#0073#,
16#0068#, 16#006F#, 16#0075#, 16#006C#,
16#0064#, 16#0020#, 16#0064#, 16#0065#,
16#0066#, 16#0069#, 16#006E#, 16#0065#,
16#0020#, 16#0069#, 16#0074#, 16#0020#,
16#0074#, 16#006F#, 16#0020#, 16#0073#,
16#0070#, 16#0065#, 16#0063#, 16#0069#,
16#0066#, 16#0079#, 16#0020#, 16#0077#,
16#0068#, 16#0069#, 16#0063#, 16#0068#,
16#0020#, 16#0061#, 16#0063#, 16#0074#,
16#0069#, 16#006F#, 16#006E#, 16#0073#,
16#0020#, 16#0063#, 16#0061#, 16#006E#,
16#0020#, 16#0061#, 16#0063#, 16#0063#,
16#0065#, 16#0073#, 16#0073#, 16#0020#,
16#0061#, 16#0020#, 16#0076#, 16#0061#,
16#0072#, 16#0069#, 16#0061#, 16#0062#,
16#006C#, 16#0065#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Signal"
MS_07FA : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 7,
Unused => 6,
Length => 6,
Value =>
(16#0053#, 16#0069#, 16#0067#, 16#006E#,
16#0061#, 16#006C#,
others => 16#0000#),
others => <>);
-- "applyingPackage"
MS_07FB : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 23,
Unused => 15,
Length => 15,
Value =>
(16#0061#, 16#0070#, 16#0070#, 16#006C#,
16#0079#, 16#0069#, 16#006E#, 16#0067#,
16#0050#, 16#0061#, 16#0063#, 16#006B#,
16#0061#, 16#0067#, 16#0065#,
others => 16#0000#),
others => <>);
-- "The classifier that owns this template signature."
MS_07FC : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 55,
Unused => 49,
Length => 49,
Value =>
(16#0054#, 16#0068#, 16#0065#, 16#0020#,
16#0063#, 16#006C#, 16#0061#, 16#0073#,
16#0073#, 16#0069#, 16#0066#, 16#0069#,
16#0065#, 16#0072#, 16#0020#, 16#0074#,
16#0068#, 16#0061#, 16#0074#, 16#0020#,
16#006F#, 16#0077#, 16#006E#, 16#0073#,
16#0020#, 16#0074#, 16#0068#, 16#0069#,
16#0073#, 16#0020#, 16#0074#, 16#0065#,
16#006D#, 16#0070#, 16#006C#, 16#0061#,
16#0074#, 16#0065#, 16#0020#, 16#0073#,
16#0069#, 16#0067#, 16#006E#, 16#0061#,
16#0074#, 16#0075#, 16#0072#, 16#0065#,
16#002E#,
others => 16#0000#),
others => <>);
-- "A_result_conditionalNode"
MS_07FD : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 31,
Unused => 24,
Length => 24,
Value =>
(16#0041#, 16#005F#, 16#0072#, 16#0065#,
16#0073#, 16#0075#, 16#006C#, 16#0074#,
16#005F#, 16#0063#, 16#006F#, 16#006E#,
16#0064#, 16#0069#, 16#0074#, 16#0069#,
16#006F#, 16#006E#, 16#0061#, 16#006C#,
16#004E#, 16#006F#, 16#0064#, 16#0065#,
others => 16#0000#),
others => <>);
-- "Every Generalization associated with a particular GeneralizationSet must have the same general Classifier."
MS_07FE : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 111,
Unused => 106,
Length => 106,
Value =>
(16#0045#, 16#0076#, 16#0065#, 16#0072#,
16#0079#, 16#0020#, 16#0047#, 16#0065#,
16#006E#, 16#0065#, 16#0072#, 16#0061#,
16#006C#, 16#0069#, 16#007A#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0020#, 16#0061#, 16#0073#, 16#0073#,
16#006F#, 16#0063#, 16#0069#, 16#0061#,
16#0074#, 16#0065#, 16#0064#, 16#0020#,
16#0077#, 16#0069#, 16#0074#, 16#0068#,
16#0020#, 16#0061#, 16#0020#, 16#0070#,
16#0061#, 16#0072#, 16#0074#, 16#0069#,
16#0063#, 16#0075#, 16#006C#, 16#0061#,
16#0072#, 16#0020#, 16#0047#, 16#0065#,
16#006E#, 16#0065#, 16#0072#, 16#0061#,
16#006C#, 16#0069#, 16#007A#, 16#0061#,
16#0074#, 16#0069#, 16#006F#, 16#006E#,
16#0053#, 16#0065#, 16#0074#, 16#0020#,
16#006D#, 16#0075#, 16#0073#, 16#0074#,
16#0020#, 16#0068#, 16#0061#, 16#0076#,
16#0065#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0073#, 16#0061#,
16#006D#, 16#0065#, 16#0020#, 16#0067#,
16#0065#, 16#006E#, 16#0065#, 16#0072#,
16#0061#, 16#006C#, 16#0020#, 16#0043#,
16#006C#, 16#0061#, 16#0073#, 16#0073#,
16#0069#, 16#0066#, 16#0069#, 16#0065#,
16#0072#, 16#002E#,
others => 16#0000#),
others => <>);
-- "Value to be added or removed from the structural feature."
MS_07FF : aliased Matreshka.Internals.Strings.Shared_String
:= (Capacity => 63,
Unused => 57,
Length => 57,
Value =>
(16#0056#, 16#0061#, 16#006C#, 16#0075#,
16#0065#, 16#0020#, 16#0074#, 16#006F#,
16#0020#, 16#0062#, 16#0065#, 16#0020#,
16#0061#, 16#0064#, 16#0064#, 16#0065#,
16#0064#, 16#0020#, 16#006F#, 16#0072#,
16#0020#, 16#0072#, 16#0065#, 16#006D#,
16#006F#, 16#0076#, 16#0065#, 16#0064#,
16#0020#, 16#0066#, 16#0072#, 16#006F#,
16#006D#, 16#0020#, 16#0074#, 16#0068#,
16#0065#, 16#0020#, 16#0073#, 16#0074#,
16#0072#, 16#0075#, 16#0063#, 16#0074#,
16#0075#, 16#0072#, 16#0061#, 16#006C#,
16#0020#, 16#0066#, 16#0065#, 16#0061#,
16#0074#, 16#0075#, 16#0072#, 16#0065#,
16#002E#,
others => 16#0000#),
others => <>);
end AMF.Internals.Tables.UML_String_Data_07;
| 42.574802
| 516
| 0.484832
|
8b1d4a15174a7f327c80b18adedf13f7bbe7f42f
| 2,650
|
adb
|
Ada
|
4-high/gel/applet/demo/distributed/gel_demo_server.adb
|
charlie5/lace-alire
|
9ace9682cf4daac7adb9f980c2868d6225b8111c
|
[
"0BSD"
] | 1
|
2022-01-20T07:13:42.000Z
|
2022-01-20T07:13:42.000Z
|
4-high/gel/applet/demo/distributed/gel_demo_server.adb
|
charlie5/lace-alire
|
9ace9682cf4daac7adb9f980c2868d6225b8111c
|
[
"0BSD"
] | null | null | null |
4-high/gel/applet/demo/distributed/gel_demo_server.adb
|
charlie5/lace-alire
|
9ace9682cf4daac7adb9f980c2868d6225b8111c
|
[
"0BSD"
] | null | null | null |
with
gel.Forge,
gel.Sprite,
Physics,
float_Math,
ada.Calendar,
ada.Text_IO,
ada.Exceptions;
package body gel_demo_Server
is
use ada.Calendar,
ada.Text_IO;
package Math renames float_Math;
task body Item
is
the_World : gel.World.server.view;
begin
accept start
do
the_World := gel.World.server.forge.new_World ("Server", 1, physics.Bullet, null);
the_server_World := the_World.all'Access;
end start;
the_World.start;
declare
-- use type math.Real;
the_Box : constant gel.Sprite.view := gel.Forge. new_box_Sprite (the_World.all'Access,
Site => math.Origin_3D,
Size => (20.0, 1.0, 20.0),
Mass => 0.0);
the_Ball : constant gel.Sprite.view := gel.Forge.new_ball_Sprite (the_World.all'Access,
Mass => 1.0);
next_render_Time : ada.calendar.Time;
Counter : Natural := 0;
Done : Boolean := False;
begin
--- Setup.
--
the_World.Gravity_is ((0.0, -10.0, 0.0));
the_World.add (the_Ball, and_Children => False);
the_Ball .Site_is ((0.0, 10.0, 0.0));
the_Ball.Solid.activate;
the_World.add (the_Box, and_Children => False);
the_Box.Site_is ((0.0, -1.0, 0.0));
--- Begin processing.
--
next_render_Time := ada.Calendar.clock;
delay 1.0;
while not Done
loop
select
accept stop
do
Done := True;
end stop;
else
null;
end select;
the_World.evolve;
Counter := Counter + 1;
if Counter = 5 * 60
then
Counter := 0;
the_Ball.Site_is ((0.0, 25.0, 0.0));
end if;
next_render_Time := next_render_Time + gel.World.evolve_Period;
delay until next_render_Time;
end loop;
--- Close
--
the_World.destroy;
end;
exception
when E : others =>
put_Line ("Server unhandled exception ...");
put_Line (ada.exceptions.Exception_Information (E));
put_Line ("Server has terminated !");
end Item;
end gel_demo_Server;
| 24.090909
| 101
| 0.460755
|
194f5bd30d57f2173f341aecbe7195cdb24e8cb2
| 517
|
adb
|
Ada
|
examples_rp2040/src/delay_provider.adb
|
hgrodriguez/eeprom_i2c_examples
|
4b1d064c342875aceac30e12de12140aa0df2136
|
[
"BSD-3-Clause"
] | null | null | null |
examples_rp2040/src/delay_provider.adb
|
hgrodriguez/eeprom_i2c_examples
|
4b1d064c342875aceac30e12de12140aa0df2136
|
[
"BSD-3-Clause"
] | null | null | null |
examples_rp2040/src/delay_provider.adb
|
hgrodriguez/eeprom_i2c_examples
|
4b1d064c342875aceac30e12de12140aa0df2136
|
[
"BSD-3-Clause"
] | null | null | null |
-----------------------------------------------------------------------------
-- Implementation of delay provider
--
-- Copyright 2022 (C) Holger Rodriguez
--
-- SPDX-License-Identifier: BSD-3-Clause
--
with RP.Timer;
package body Delay_Provider is
procedure Delay_MS (MS : Integer) is
My_Delay : RP.Timer.Delays;
begin
if MS > 0 then
RP.Timer.Delay_Milliseconds (This => My_Delay,
Ms => MS);
end if;
end Delay_MS;
end Delay_Provider;
| 23.5
| 77
| 0.510638
|
8ba5ff492c84b4edd0c04622ff6da749bda092d7
| 89,020
|
adb
|
Ada
|
Vivado_HLS_Tutorial/Introduction/lab3/fir_prj/solution2/.autopilot/db/fir.bind.adb
|
williambong/Vivado
|
68efafbc44b65c0bb047dbafc0ff7f1b56ee36bb
|
[
"MIT"
] | null | null | null |
Vivado_HLS_Tutorial/Introduction/lab3/fir_prj/solution2/.autopilot/db/fir.bind.adb
|
williambong/Vivado
|
68efafbc44b65c0bb047dbafc0ff7f1b56ee36bb
|
[
"MIT"
] | null | null | null |
Vivado_HLS_Tutorial/Introduction/lab3/fir_prj/solution2/.autopilot/db/fir.bind.adb
|
williambong/Vivado
|
68efafbc44b65c0bb047dbafc0ff7f1b56ee36bb
|
[
"MIT"
] | null | null | null |
<?xml version="1.0" encoding="UTF-8" standalone="yes" ?>
<!DOCTYPE boost_serialization>
<boost_serialization signature="serialization::archive" version="11">
<syndb class_id="0" tracking_level="0" version="0">
<userIPLatency>-1</userIPLatency>
<userIPName></userIPName>
<cdfg class_id="1" tracking_level="1" version="0" object_id="_0">
<name>fir</name>
<ret_bitwidth>0</ret_bitwidth>
<ports class_id="2" tracking_level="0" version="0">
<count>3</count>
<item_version>0</item_version>
<item class_id="3" tracking_level="1" version="0" object_id="_1">
<Value class_id="4" tracking_level="0" version="0">
<Obj class_id="5" tracking_level="0" version="0">
<type>1</type>
<id>1</id>
<name>y</name>
<fileName></fileName>
<fileDirectory></fileDirectory>
<lineNumber>0</lineNumber>
<contextFuncName></contextFuncName>
<inlineStackInfo class_id="6" tracking_level="0" version="0">
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName>y</originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<direction>1</direction>
<if_type>0</if_type>
<array_size>0</array_size>
<bit_vecs class_id="7" tracking_level="0" version="0">
<count>0</count>
<item_version>0</item_version>
</bit_vecs>
</item>
<item class_id_reference="3" object_id="_2">
<Value>
<Obj>
<type>1</type>
<id>2</id>
<name>c</name>
<fileName></fileName>
<fileDirectory></fileDirectory>
<lineNumber>0</lineNumber>
<contextFuncName></contextFuncName>
<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName>c</originalName>
<rtlName></rtlName>
<coreName>RAM_1P_BRAM</coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<direction>0</direction>
<if_type>1</if_type>
<array_size>11</array_size>
<bit_vecs>
<count>0</count>
<item_version>0</item_version>
</bit_vecs>
</item>
<item class_id_reference="3" object_id="_3">
<Value>
<Obj>
<type>1</type>
<id>3</id>
<name>x</name>
<fileName></fileName>
<fileDirectory></fileDirectory>
<lineNumber>0</lineNumber>
<contextFuncName></contextFuncName>
<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName>x</originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<direction>0</direction>
<if_type>0</if_type>
<array_size>0</array_size>
<bit_vecs>
<count>0</count>
<item_version>0</item_version>
</bit_vecs>
</item>
</ports>
<nodes class_id="8" tracking_level="0" version="0">
<count>30</count>
<item_version>0</item_version>
<item class_id="9" tracking_level="1" version="0" object_id="_4">
<Value>
<Obj>
<type>0</type>
<id>9</id>
<name>x_read</name>
<fileName></fileName>
<fileDirectory></fileDirectory>
<lineNumber>0</lineNumber>
<contextFuncName></contextFuncName>
<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName>x</originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<oprand_edges>
<count>2</count>
<item_version>0</item_version>
<item>52</item>
<item>53</item>
</oprand_edges>
<opcode>read</opcode>
</item>
<item class_id_reference="9" object_id="_5">
<Value>
<Obj>
<type>0</type>
<id>13</id>
<name></name>
<fileName>fir.c</fileName>
<fileDirectory>d:/opt/source/Vivado/Vivado_HLS_Tutorial/Introduction/lab3</fileDirectory>
<lineNumber>66</lineNumber>
<contextFuncName>fir</contextFuncName>
<inlineStackInfo>
<count>1</count>
<item_version>0</item_version>
<item class_id="11" tracking_level="0" version="0">
<first>d:/opt/source/Vivado/Vivado_HLS_Tutorial/Introduction/lab3</first>
<second class_id="12" tracking_level="0" version="0">
<count>1</count>
<item_version>0</item_version>
<item class_id="13" tracking_level="0" version="0">
<first class_id="14" tracking_level="0" version="0">
<first>fir.c</first>
<second>fir</second>
</first>
<second>66</second>
</item>
</second>
</item>
</inlineStackInfo>
<originalName></originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>0</bitwidth>
</Value>
<oprand_edges>
<count>1</count>
<item_version>0</item_version>
<item>54</item>
</oprand_edges>
<opcode>br</opcode>
</item>
<item class_id_reference="9" object_id="_6">
<Value>
<Obj>
<type>0</type>
<id>15</id>
<name>acc</name>
<fileName></fileName>
<fileDirectory></fileDirectory>
<lineNumber>0</lineNumber>
<contextFuncName></contextFuncName>
<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName>acc</originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<oprand_edges>
<count>4</count>
<item_version>0</item_version>
<item>56</item>
<item>57</item>
<item>58</item>
<item>59</item>
</oprand_edges>
<opcode>phi</opcode>
</item>
<item class_id_reference="9" object_id="_7">
<Value>
<Obj>
<type>0</type>
<id>16</id>
<name>i</name>
<fileName></fileName>
<fileDirectory></fileDirectory>
<lineNumber>0</lineNumber>
<contextFuncName></contextFuncName>
<inlineStackInfo>
<count>0</count>
<item_version>0</item_version>
</inlineStackInfo>
<originalName>i</originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>5</bitwidth>
</Value>
<oprand_edges>
<count>4</count>
<item_version>0</item_version>
<item>61</item>
<item>62</item>
<item>63</item>
<item>64</item>
</oprand_edges>
<opcode>phi</opcode>
</item>
<item class_id_reference="9" object_id="_8">
<Value>
<Obj>
<type>0</type>
<id>17</id>
<name>i_cast</name>
<fileName>fir.c</fileName>
<fileDirectory>d:/opt/source/Vivado/Vivado_HLS_Tutorial/Introduction/lab3</fileDirectory>
<lineNumber>66</lineNumber>
<contextFuncName>fir</contextFuncName>
<inlineStackInfo>
<count>1</count>
<item_version>0</item_version>
<item>
<first>d:/opt/source/Vivado/Vivado_HLS_Tutorial/Introduction/lab3</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>
<first>
<first>fir.c</first>
<second>fir</second>
</first>
<second>66</second>
</item>
</second>
</item>
</inlineStackInfo>
<originalName></originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>32</bitwidth>
</Value>
<oprand_edges>
<count>1</count>
<item_version>0</item_version>
<item>65</item>
</oprand_edges>
<opcode>sext</opcode>
</item>
<item class_id_reference="9" object_id="_9">
<Value>
<Obj>
<type>0</type>
<id>18</id>
<name>tmp</name>
<fileName>fir.c</fileName>
<fileDirectory>d:/opt/source/Vivado/Vivado_HLS_Tutorial/Introduction/lab3</fileDirectory>
<lineNumber>66</lineNumber>
<contextFuncName>fir</contextFuncName>
<inlineStackInfo>
<count>1</count>
<item_version>0</item_version>
<item>
<first>d:/opt/source/Vivado/Vivado_HLS_Tutorial/Introduction/lab3</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>
<first>
<first>fir.c</first>
<second>fir</second>
</first>
<second>66</second>
</item>
</second>
</item>
</inlineStackInfo>
<originalName></originalName>
<rtlName></rtlName>
<coreName></coreName>
</Obj>
<bitwidth>1</bitwidth>
</Value>
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<second>0</second>
</second>
</item>
<item>
<first>36</first>
<second>
<first>1</first>
<second>0</second>
</second>
</item>
<item>
<first>37</first>
<second>
<first>1</first>
<second>0</second>
</second>
</item>
<item>
<first>39</first>
<second>
<first>3</first>
<second>0</second>
</second>
</item>
<item>
<first>40</first>
<second>
<first>2</first>
<second>0</second>
</second>
</item>
<item>
<first>41</first>
<second>
<first>2</first>
<second>0</second>
</second>
</item>
<item>
<first>42</first>
<second>
<first>2</first>
<second>1</second>
</second>
</item>
<item>
<first>43</first>
<second>
<first>4</first>
<second>2</second>
</second>
</item>
<item>
<first>44</first>
<second>
<first>7</first>
<second>0</second>
</second>
</item>
<item>
<first>45</first>
<second>
<first>2</first>
<second>0</second>
</second>
</item>
<item>
<first>46</first>
<second>
<first>7</first>
<second>0</second>
</second>
</item>
<item>
<first>48</first>
<second>
<first>1</first>
<second>0</second>
</second>
</item>
<item>
<first>49</first>
<second>
<first>1</first>
<second>0</second>
</second>
</item>
</node_label_latency>
<bblk_ent_exit class_id="42" tracking_level="0" version="0">
<count>7</count>
<item_version>0</item_version>
<item class_id="43" tracking_level="0" version="0">
<first>14</first>
<second class_id="44" tracking_level="0" version="0">
<first>0</first>
<second>0</second>
</second>
</item>
<item>
<first>21</first>
<second>
<first>1</first>
<second>1</second>
</second>
</item>
<item>
<first>25</first>
<second>
<first>1</first>
<second>1</second>
</second>
</item>
<item>
<first>35</first>
<second>
<first>1</first>
<second>2</second>
</second>
</item>
<item>
<first>38</first>
<second>
<first>1</first>
<second>1</second>
</second>
</item>
<item>
<first>47</first>
<second>
<first>2</first>
<second>7</second>
</second>
</item>
<item>
<first>50</first>
<second>
<first>1</first>
<second>1</second>
</second>
</item>
</bblk_ent_exit>
<regions class_id="45" tracking_level="0" version="0">
<count>0</count>
<item_version>0</item_version>
</regions>
<dp_fu_nodes class_id="46" tracking_level="0" version="0">
<count>21</count>
<item_version>0</item_version>
<item class_id="47" tracking_level="0" version="0">
<first>56</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>9</item>
</second>
</item>
<item>
<first>62</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>48</item>
</second>
</item>
<item>
<first>69</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>29</item>
</second>
</item>
<item>
<first>76</first>
<second>
<count>4</count>
<item_version>0</item_version>
<item>30</item>
<item>30</item>
<item>36</item>
<item>33</item>
</second>
</item>
<item>
<first>82</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>32</item>
</second>
</item>
<item>
<first>91</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>41</item>
</second>
</item>
<item>
<first>98</first>
<second>
<count>2</count>
<item_version>0</item_version>
<item>42</item>
<item>42</item>
</second>
</item>
<item>
<first>107</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>15</item>
</second>
</item>
<item>
<first>120</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>16</item>
</second>
</item>
<item>
<first>131</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>39</item>
</second>
</item>
<item>
<first>138</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>17</item>
</second>
</item>
<item>
<first>142</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>18</item>
</second>
</item>
<item>
<first>150</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>23</item>
</second>
</item>
<item>
<first>156</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>26</item>
</second>
</item>
<item>
<first>160</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>27</item>
</second>
</item>
<item>
<first>166</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>28</item>
</second>
</item>
<item>
<first>171</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>31</item>
</second>
</item>
<item>
<first>175</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>40</item>
</second>
</item>
<item>
<first>179</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>45</item>
</second>
</item>
<item>
<first>185</first>
<second>
<count>3</count>
<item_version>0</item_version>
<item>43</item>
<item>43</item>
<item>43</item>
</second>
</item>
<item>
<first>190</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>44</item>
</second>
</item>
</dp_fu_nodes>
<dp_fu_nodes_expression class_id="49" tracking_level="0" version="0">
<count>16</count>
<item_version>0</item_version>
<item class_id="50" tracking_level="0" version="0">
<first>acc_1_fu_190</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>44</item>
</second>
</item>
<item>
<first>acc_phi_fu_107</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>15</item>
</second>
</item>
<item>
<first>c_addr_gep_fu_91</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>41</item>
</second>
</item>
<item>
<first>data1_phi_fu_131</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>39</item>
</second>
</item>
<item>
<first>i_1_fu_179</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>45</item>
</second>
</item>
<item>
<first>i_cast_fu_138</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>17</item>
</second>
</item>
<item>
<first>i_phi_fu_120</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>16</item>
</second>
</item>
<item>
<first>shift_reg_addr_1_gep_fu_82</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>32</item>
</second>
</item>
<item>
<first>shift_reg_addr_gep_fu_69</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>29</item>
</second>
</item>
<item>
<first>tmp_1_fu_150</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>23</item>
</second>
</item>
<item>
<first>tmp_2_fu_160</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>27</item>
</second>
</item>
<item>
<first>tmp_3_fu_166</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>28</item>
</second>
</item>
<item>
<first>tmp_4_fu_171</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>31</item>
</second>
</item>
<item>
<first>tmp_5_fu_175</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>40</item>
</second>
</item>
<item>
<first>tmp_7_fu_156</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>26</item>
</second>
</item>
<item>
<first>tmp_fu_142</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>18</item>
</second>
</item>
</dp_fu_nodes_expression>
<dp_fu_nodes_module>
<count>1</count>
<item_version>0</item_version>
<item>
<first>grp_fu_185</first>
<second>
<count>3</count>
<item_version>0</item_version>
<item>43</item>
<item>43</item>
<item>43</item>
</second>
</item>
</dp_fu_nodes_module>
<dp_fu_nodes_io>
<count>2</count>
<item_version>0</item_version>
<item>
<first>stg_34_write_fu_62</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>48</item>
</second>
</item>
<item>
<first>x_read_read_fu_56</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>9</item>
</second>
</item>
</dp_fu_nodes_io>
<return_ports>
<count>0</count>
<item_version>0</item_version>
</return_ports>
<dp_mem_port_nodes class_id="51" tracking_level="0" version="0">
<count>2</count>
<item_version>0</item_version>
<item class_id="52" tracking_level="0" version="0">
<first class_id="53" tracking_level="0" version="0">
<first>c</first>
<second>0</second>
</first>
<second>
<count>2</count>
<item_version>0</item_version>
<item>42</item>
<item>42</item>
</second>
</item>
<item>
<first>
<first>shift_reg</first>
<second>0</second>
</first>
<second>
<count>4</count>
<item_version>0</item_version>
<item>30</item>
<item>30</item>
<item>36</item>
<item>33</item>
</second>
</item>
</dp_mem_port_nodes>
<dp_reg_nodes>
<count>13</count>
<item_version>0</item_version>
<item>
<first>103</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>15</item>
</second>
</item>
<item>
<first>116</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>16</item>
</second>
</item>
<item>
<first>128</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>39</item>
</second>
</item>
<item>
<first>195</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>9</item>
</second>
</item>
<item>
<first>201</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>17</item>
</second>
</item>
<item>
<first>210</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>23</item>
</second>
</item>
<item>
<first>214</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>29</item>
</second>
</item>
<item>
<first>219</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>30</item>
</second>
</item>
<item>
<first>224</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>41</item>
</second>
</item>
<item>
<first>229</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>45</item>
</second>
</item>
<item>
<first>234</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>42</item>
</second>
</item>
<item>
<first>239</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>43</item>
</second>
</item>
<item>
<first>244</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>44</item>
</second>
</item>
</dp_reg_nodes>
<dp_regname_nodes>
<count>13</count>
<item_version>0</item_version>
<item>
<first>acc_1_reg_244</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>44</item>
</second>
</item>
<item>
<first>acc_reg_103</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>15</item>
</second>
</item>
<item>
<first>c_addr_reg_224</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>41</item>
</second>
</item>
<item>
<first>c_load_reg_234</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>42</item>
</second>
</item>
<item>
<first>data1_reg_128</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>39</item>
</second>
</item>
<item>
<first>data_reg_219</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>30</item>
</second>
</item>
<item>
<first>i_1_reg_229</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>45</item>
</second>
</item>
<item>
<first>i_cast_reg_201</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>17</item>
</second>
</item>
<item>
<first>i_reg_116</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>16</item>
</second>
</item>
<item>
<first>shift_reg_addr_reg_214</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>29</item>
</second>
</item>
<item>
<first>tmp_1_reg_210</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>23</item>
</second>
</item>
<item>
<first>tmp_6_reg_239</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>43</item>
</second>
</item>
<item>
<first>x_read_reg_195</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>9</item>
</second>
</item>
</dp_regname_nodes>
<dp_reg_phi>
<count>3</count>
<item_version>0</item_version>
<item>
<first>103</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>15</item>
</second>
</item>
<item>
<first>116</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>16</item>
</second>
</item>
<item>
<first>128</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>39</item>
</second>
</item>
</dp_reg_phi>
<dp_regname_phi>
<count>3</count>
<item_version>0</item_version>
<item>
<first>acc_reg_103</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>15</item>
</second>
</item>
<item>
<first>data1_reg_128</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>39</item>
</second>
</item>
<item>
<first>i_reg_116</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>16</item>
</second>
</item>
</dp_regname_phi>
<dp_port_io_nodes class_id="54" tracking_level="0" version="0">
<count>3</count>
<item_version>0</item_version>
<item class_id="55" tracking_level="0" version="0">
<first>c(p0)</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>
<first>load</first>
<second>
<count>2</count>
<item_version>0</item_version>
<item>42</item>
<item>42</item>
</second>
</item>
</second>
</item>
<item>
<first>x</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>
<first>read</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>9</item>
</second>
</item>
</second>
</item>
<item>
<first>y</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>
<first>write</first>
<second>
<count>1</count>
<item_version>0</item_version>
<item>48</item>
</second>
</item>
</second>
</item>
</dp_port_io_nodes>
<port2core class_id="56" tracking_level="0" version="0">
<count>1</count>
<item_version>0</item_version>
<item class_id="57" tracking_level="0" version="0">
<first>2</first>
<second>RAM_1P_BRAM</second>
</item>
</port2core>
<node2core>
<count>0</count>
<item_version>0</item_version>
</node2core>
</syndb>
</boost_serialization>
| 24.707188
| 95
| 0.582802
|
5e1213b9bd4ed78a3108d87a4f247db888b8c153
| 1,738
|
adb
|
Ada
|
src/gdb/gdb-7.11/gdb/testsuite/gdb.ada/mi_task_info/task_switch.adb
|
alrooney/unum-sdk
|
bbccb10b0cd3500feccbbef22e27ea111c3d18eb
|
[
"Apache-2.0"
] | 31
|
2018-08-01T21:25:24.000Z
|
2022-02-14T07:52:34.000Z
|
src/gdb/gdb-7.11/gdb/testsuite/gdb.ada/mi_task_info/task_switch.adb
|
alrooney/unum-sdk
|
bbccb10b0cd3500feccbbef22e27ea111c3d18eb
|
[
"Apache-2.0"
] | 40
|
2018-12-03T19:48:52.000Z
|
2021-03-10T06:34:26.000Z
|
src/gdb/gdb-7.11/gdb/testsuite/gdb.ada/mi_task_info/task_switch.adb
|
alrooney/unum-sdk
|
bbccb10b0cd3500feccbbef22e27ea111c3d18eb
|
[
"Apache-2.0"
] | 20
|
2018-11-16T21:19:22.000Z
|
2021-10-18T23:08:24.000Z
|
-- Copyright 2011-2016 Free Software Foundation, Inc.
--
-- This program is free software; you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation; either version 3 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with this program. If not, see <http://www.gnu.org/licenses/>.
procedure Task_Switch is
-------------------
-- Declaractions --
-------------------
task type Callee is
entry Finito;
end Callee;
type Callee_Ptr is access Callee;
task type Caller is
end Caller;
type Caller_Ptr is access Caller;
procedure Break_Me;
My_Caller : Caller_Ptr;
My_Callee : Callee_Ptr;
------------
-- Bodies --
------------
task body Callee is
begin
-- Just wait until we are told to terminate this task.
-- This is just to maintain this task alive.
accept Finito do
null;
end Finito;
end Callee;
task body Caller is
begin
Break_Me;
My_Callee.Finito;
end Caller;
procedure Break_Me is
begin
null;
end Break_Me;
begin
-- Make sure to create the Callee task first... And then give it
-- enough time to complete its activation phase before we start
-- the Caller task.
My_Callee := new Callee;
delay 0.1;
My_Caller := new Caller;
end Task_Switch;
| 24.478873
| 73
| 0.6542
|
585b24d2f4798ee15bb94e167f5c3edcd77e7c5e
| 1,514
|
ads
|
Ada
|
resources/scripts/api/threatcrowd.ads
|
mzpqnxow/Amass
|
798f0f113cd44b59fe950d5020b394d6804839f0
|
[
"Apache-2.0"
] | 11
|
2020-08-19T01:01:42.000Z
|
2022-02-12T08:36:53.000Z
|
resources/scripts/api/threatcrowd.ads
|
mzpqnxow/Amass
|
798f0f113cd44b59fe950d5020b394d6804839f0
|
[
"Apache-2.0"
] | null | null | null |
resources/scripts/api/threatcrowd.ads
|
mzpqnxow/Amass
|
798f0f113cd44b59fe950d5020b394d6804839f0
|
[
"Apache-2.0"
] | 2
|
2020-11-10T17:13:54.000Z
|
2021-01-23T07:23:24.000Z
|
-- Copyright 2017 Jeff Foley. All rights reserved.
-- Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.
local json = require("json")
name = "ThreatCrowd"
type = "api"
function start()
setratelimit(10)
end
function vertical(ctx, domain)
local resp
local hdrs = {['Content-Type']="application/json"}
-- Check if the response data is in the graph database
if (api ~= nil and api.ttl ~= nil and api.ttl > 0) then
resp = obtain_response(domain, api.ttl)
end
if (resp == nil or resp == "") then
local err
resp, err = request({
url=buildurl(domain),
headers=hdrs,
})
if (err ~= nil and err ~= "") then
return
end
if (api ~= nil and api.ttl ~= nil and api.ttl > 0) then
cache_response(domain, resp)
end
end
local d = json.decode(resp)
if (d == nil or d.response_code ~= "1" or #(d.subdomains) == 0) then
return
end
for i, sub in pairs(d.subdomains) do
sendnames(ctx, sub)
end
for i, tb in pairs(d.resolutions) do
newaddr(ctx, tb.ip_address, domain)
end
end
function buildurl(domain)
return "https://www.threatcrowd.org/searchApi/v2/domain/report/?domain=" .. domain
end
function sendnames(ctx, content)
local names = find(content, subdomainre)
if names == nil then
return
end
for i, v in pairs(names) do
newname(ctx, v)
end
end
| 23.292308
| 97
| 0.599075
|
8bcb7a412acfc43303cbdd4088d4ff29396fde43
| 10,249
|
adb
|
Ada
|
Ada95/samples/ncurses2-getch_test.adb
|
neverware-mirrors/ncurses
|
931939e0d2765af13962820e59cb6629df3ee638
|
[
"X11"
] | 269
|
2015-03-01T21:34:42.000Z
|
2022-03-30T23:07:18.000Z
|
Ada95/samples/ncurses2-getch_test.adb
|
neverware-mirrors/ncurses
|
931939e0d2765af13962820e59cb6629df3ee638
|
[
"X11"
] | 3
|
2020-10-09T15:00:37.000Z
|
2020-10-09T15:05:19.000Z
|
Ada95/samples/ncurses2-getch_test.adb
|
neverware-mirrors/ncurses
|
931939e0d2765af13962820e59cb6629df3ee638
|
[
"X11"
] | 97
|
2016-04-25T06:22:54.000Z
|
2022-03-30T23:07:19.000Z
|
------------------------------------------------------------------------------
-- --
-- GNAT ncurses Binding Samples --
-- --
-- ncurses --
-- --
-- B O D Y --
-- --
------------------------------------------------------------------------------
-- Copyright 2020 Thomas E. Dickey --
-- Copyright 2000-2009,2014 Free Software Foundation, Inc. --
-- --
-- Permission is hereby granted, free of charge, to any person obtaining a --
-- copy of this software and associated documentation files (the --
-- "Software"), to deal in the Software without restriction, including --
-- without limitation the rights to use, copy, modify, merge, publish, --
-- distribute, distribute with modifications, sublicense, and/or sell --
-- copies of the Software, and to permit persons to whom the Software is --
-- furnished to do so, subject to the following conditions: --
-- --
-- The above copyright notice and this permission notice shall be included --
-- in all copies or substantial portions of the Software. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS --
-- OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF --
-- MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. --
-- IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, --
-- DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR --
-- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR --
-- THE USE OR OTHER DEALINGS IN THE SOFTWARE. --
-- --
-- Except as contained in this notice, the name(s) of the above copyright --
-- holders shall not be used in advertising or otherwise to promote the --
-- sale, use or other dealings in this Software without prior written --
-- authorization. --
------------------------------------------------------------------------------
-- Author: Eugene V. Melaragno <aldomel@ix.netcom.com> 2000
-- Version Control
-- $Revision: 1.10 $
-- $Date: 2020/02/02 23:34:34 $
-- Binding Version 01.00
------------------------------------------------------------------------------
-- Character input test
-- test the keypad feature
with ncurses2.util; use ncurses2.util;
with Terminal_Interface.Curses; use Terminal_Interface.Curses;
with Terminal_Interface.Curses.Mouse; use Terminal_Interface.Curses.Mouse;
with Ada.Characters.Handling;
with Ada.Strings.Bounded;
with ncurses2.genericPuts;
procedure ncurses2.getch_test is
use Int_IO;
function mouse_decode (ep : Mouse_Event) return String;
function mouse_decode (ep : Mouse_Event) return String is
Y : Line_Position;
X : Column_Position;
Button : Mouse_Button;
State : Button_State;
package BS is new Ada.Strings.Bounded.Generic_Bounded_Length (200);
use BS;
buf : Bounded_String := To_Bounded_String ("");
begin
-- Note that these bindings do not allow
-- two button states,
-- The C version can print {click-1, click-3} for example.
-- They also don't have the 'id' or z coordinate.
Get_Event (ep, Y, X, Button, State);
-- TODO Append (buf, "id "); from C version
Append (buf, "at (");
Append (buf, Column_Position'Image (X));
Append (buf, ", ");
Append (buf, Line_Position'Image (Y));
Append (buf, ") state");
Append (buf, Mouse_Button'Image (Button));
Append (buf, " = ");
Append (buf, Button_State'Image (State));
return To_String (buf);
end mouse_decode;
buf : String (1 .. 1024); -- TODO was BUFSIZE
n : Integer;
c : Key_Code;
blockflag : Timeout_Mode := Blocking;
firsttime : Boolean := True;
tmp2 : Event_Mask;
tmp6 : String (1 .. 6);
tmp20 : String (1 .. 20);
x : Column_Position;
y : Line_Position;
tmpx : Integer;
incount : Integer := 0;
begin
Refresh;
tmp2 := Start_Mouse (All_Events);
Add (Str => "Delay in 10ths of a second (<CR> for blocking input)? ");
Set_Echo_Mode (SwitchOn => True);
Get (Str => buf);
Set_Echo_Mode (SwitchOn => False);
Set_NL_Mode (SwitchOn => False);
if Ada.Characters.Handling.Is_Digit (buf (1)) then
Get (Item => n, From => buf, Last => tmpx);
Set_Timeout_Mode (Mode => Delayed, Amount => n * 100);
blockflag := Delayed;
end if;
c := Character'Pos ('?');
Set_Raw_Mode (SwitchOn => True);
loop
if not firsttime then
Add (Str => "Key pressed: ");
Put (tmp6, Integer (c), 8);
Add (Str => tmp6);
Add (Ch => ' ');
if c = Key_Mouse then
declare
event : Mouse_Event;
begin
event := Get_Mouse;
Add (Str => "KEY_MOUSE, ");
Add (Str => mouse_decode (event));
Add (Ch => newl);
end;
elsif c >= Key_Min then
Key_Name (c, tmp20);
Add (Str => tmp20);
-- I used tmp and got bitten by the length problem:->
Add (Ch => newl);
elsif c > 16#80# then -- TODO fix, use constant if possible
declare
c2 : constant Character := Character'Val (c mod 16#80#);
begin
if Ada.Characters.Handling.Is_Graphic (c2) then
Add (Str => "M-");
Add (Ch => c2);
else
Add (Str => "M-");
Add (Str => Un_Control ((Ch => c2,
Color => Color_Pair'First,
Attr => Normal_Video)));
end if;
Add (Str => " (high-half character)");
Add (Ch => newl);
end;
else
declare
c2 : constant Character := Character'Val (c mod 16#80#);
begin
if Ada.Characters.Handling.Is_Graphic (c2) then
Add (Ch => c2);
Add (Str => " (ASCII printable character)");
Add (Ch => newl);
else
Add (Str => Un_Control ((Ch => c2,
Color => Color_Pair'First,
Attr => Normal_Video)));
Add (Str => " (ASCII control character)");
Add (Ch => newl);
end if;
end;
end if;
-- TODO I am not sure why this was in the C version
-- the delay statement scroll anyway.
Get_Cursor_Position (Line => y, Column => x);
if y >= Lines - 1 then
Move_Cursor (Line => 0, Column => 0);
end if;
Clear_To_End_Of_Line;
end if;
firsttime := False;
if c = Character'Pos ('g') then
declare
package p is new ncurses2.genericPuts (1024);
use p;
use p.BS;
timedout : Boolean := False;
boundedbuf : Bounded_String;
begin
Add (Str => "getstr test: ");
Set_Echo_Mode (SwitchOn => True);
-- Note that if delay mode is set
-- Get can raise an exception.
-- The C version would print the string it had so far
-- also TODO get longer length string, like the C version
declare begin
myGet (Str => boundedbuf);
exception when Curses_Exception =>
Add (Str => "Timed out.");
Add (Ch => newl);
timedout := True;
end;
-- note that the Ada Get will stop reading at 1024.
if not timedout then
Set_Echo_Mode (SwitchOn => False);
Add (Str => " I saw '");
myAdd (Str => boundedbuf);
Add (Str => "'.");
Add (Ch => newl);
end if;
end;
elsif c = Character'Pos ('s') then
ShellOut (True);
elsif c = Character'Pos ('x') or
c = Character'Pos ('q') or
(c = Key_None and blockflag = Blocking)
then
exit;
elsif c = Character'Pos ('?') then
Add (Str => "Type any key to see its keypad value. Also:");
Add (Ch => newl);
Add (Str => "g -- triggers a getstr test");
Add (Ch => newl);
Add (Str => "s -- shell out");
Add (Ch => newl);
Add (Str => "q -- quit");
Add (Ch => newl);
Add (Str => "? -- repeats this help message");
Add (Ch => newl);
end if;
loop
c := Getchar;
exit when c /= Key_None;
if blockflag /= Blocking then
Put (tmp6, incount); -- argh string length!
Add (Str => tmp6);
Add (Str => ": input timed out");
Add (Ch => newl);
else
Put (tmp6, incount);
Add (Str => tmp6);
Add (Str => ": input error");
Add (Ch => newl);
exit;
end if;
incount := incount + 1;
end loop;
end loop;
End_Mouse (tmp2);
Set_Timeout_Mode (Mode => Blocking, Amount => 0); -- amount is ignored
Set_Raw_Mode (SwitchOn => False);
Set_NL_Mode (SwitchOn => True);
Erase;
End_Windows;
end ncurses2.getch_test;
| 39.724806
| 78
| 0.468631
|
1edaabbd0bac6813d8bf64cbe5f9830b0501f29d
| 14,046
|
ads
|
Ada
|
gyak/gyak1-2/b__eukl.ads
|
balintsoos/LearnAda
|
9d2fc76209f6e15b4fa91b4b39107ae6cc7e7114
|
[
"MIT"
] | null | null | null |
gyak/gyak1-2/b__eukl.ads
|
balintsoos/LearnAda
|
9d2fc76209f6e15b4fa91b4b39107ae6cc7e7114
|
[
"MIT"
] | null | null | null |
gyak/gyak1-2/b__eukl.ads
|
balintsoos/LearnAda
|
9d2fc76209f6e15b4fa91b4b39107ae6cc7e7114
|
[
"MIT"
] | 1
|
2021-07-16T16:15:11.000Z
|
2021-07-16T16:15:11.000Z
|
pragma Ada_95;
with System;
package ada_main is
pragma Warnings (Off);
gnat_argc : Integer;
gnat_argv : System.Address;
gnat_envp : System.Address;
pragma Import (C, gnat_argc);
pragma Import (C, gnat_argv);
pragma Import (C, gnat_envp);
gnat_exit_status : Integer;
pragma Import (C, gnat_exit_status);
GNAT_Version : constant String :=
"GNAT Version: GPL 2015 (20150428-49)" & ASCII.NUL;
pragma Export (C, GNAT_Version, "__gnat_version");
Ada_Main_Program_Name : constant String := "_ada_eukl" & ASCII.NUL;
pragma Export (C, Ada_Main_Program_Name, "__gnat_ada_main_program_name");
procedure adainit;
pragma Export (C, adainit, "adainit");
procedure adafinal;
pragma Export (C, adafinal, "adafinal");
function main
(argc : Integer;
argv : System.Address;
envp : System.Address)
return Integer;
pragma Export (C, main, "main");
type Version_32 is mod 2 ** 32;
u00001 : constant Version_32 := 16#0de222b4#;
pragma Export (C, u00001, "euklB");
u00002 : constant Version_32 := 16#fbff4c67#;
pragma Export (C, u00002, "system__standard_libraryB");
u00003 : constant Version_32 := 16#f72f352b#;
pragma Export (C, u00003, "system__standard_libraryS");
u00004 : constant Version_32 := 16#3ffc8e18#;
pragma Export (C, u00004, "adaS");
u00005 : constant Version_32 := 16#f64b89a4#;
pragma Export (C, u00005, "ada__integer_text_ioB");
u00006 : constant Version_32 := 16#f1daf268#;
pragma Export (C, u00006, "ada__integer_text_ioS");
u00007 : constant Version_32 := 16#b612ca65#;
pragma Export (C, u00007, "ada__exceptionsB");
u00008 : constant Version_32 := 16#1d190453#;
pragma Export (C, u00008, "ada__exceptionsS");
u00009 : constant Version_32 := 16#a46739c0#;
pragma Export (C, u00009, "ada__exceptions__last_chance_handlerB");
u00010 : constant Version_32 := 16#3aac8c92#;
pragma Export (C, u00010, "ada__exceptions__last_chance_handlerS");
u00011 : constant Version_32 := 16#f4ce8c3a#;
pragma Export (C, u00011, "systemS");
u00012 : constant Version_32 := 16#a207fefe#;
pragma Export (C, u00012, "system__soft_linksB");
u00013 : constant Version_32 := 16#af945ded#;
pragma Export (C, u00013, "system__soft_linksS");
u00014 : constant Version_32 := 16#b01dad17#;
pragma Export (C, u00014, "system__parametersB");
u00015 : constant Version_32 := 16#8ae48145#;
pragma Export (C, u00015, "system__parametersS");
u00016 : constant Version_32 := 16#b19b6653#;
pragma Export (C, u00016, "system__secondary_stackB");
u00017 : constant Version_32 := 16#5faf4353#;
pragma Export (C, u00017, "system__secondary_stackS");
u00018 : constant Version_32 := 16#39a03df9#;
pragma Export (C, u00018, "system__storage_elementsB");
u00019 : constant Version_32 := 16#d90dc63e#;
pragma Export (C, u00019, "system__storage_elementsS");
u00020 : constant Version_32 := 16#41837d1e#;
pragma Export (C, u00020, "system__stack_checkingB");
u00021 : constant Version_32 := 16#7a71e7d2#;
pragma Export (C, u00021, "system__stack_checkingS");
u00022 : constant Version_32 := 16#393398c1#;
pragma Export (C, u00022, "system__exception_tableB");
u00023 : constant Version_32 := 16#5ad7ea2f#;
pragma Export (C, u00023, "system__exception_tableS");
u00024 : constant Version_32 := 16#ce4af020#;
pragma Export (C, u00024, "system__exceptionsB");
u00025 : constant Version_32 := 16#9cade1cc#;
pragma Export (C, u00025, "system__exceptionsS");
u00026 : constant Version_32 := 16#37d758f1#;
pragma Export (C, u00026, "system__exceptions__machineS");
u00027 : constant Version_32 := 16#b895431d#;
pragma Export (C, u00027, "system__exceptions_debugB");
u00028 : constant Version_32 := 16#472c9584#;
pragma Export (C, u00028, "system__exceptions_debugS");
u00029 : constant Version_32 := 16#570325c8#;
pragma Export (C, u00029, "system__img_intB");
u00030 : constant Version_32 := 16#f6156cf8#;
pragma Export (C, u00030, "system__img_intS");
u00031 : constant Version_32 := 16#b98c3e16#;
pragma Export (C, u00031, "system__tracebackB");
u00032 : constant Version_32 := 16#6af355e1#;
pragma Export (C, u00032, "system__tracebackS");
u00033 : constant Version_32 := 16#9ed49525#;
pragma Export (C, u00033, "system__traceback_entriesB");
u00034 : constant Version_32 := 16#f4957a4a#;
pragma Export (C, u00034, "system__traceback_entriesS");
u00035 : constant Version_32 := 16#8c33a517#;
pragma Export (C, u00035, "system__wch_conB");
u00036 : constant Version_32 := 16#efb3aee8#;
pragma Export (C, u00036, "system__wch_conS");
u00037 : constant Version_32 := 16#9721e840#;
pragma Export (C, u00037, "system__wch_stwB");
u00038 : constant Version_32 := 16#c2a282e9#;
pragma Export (C, u00038, "system__wch_stwS");
u00039 : constant Version_32 := 16#92b797cb#;
pragma Export (C, u00039, "system__wch_cnvB");
u00040 : constant Version_32 := 16#e004141b#;
pragma Export (C, u00040, "system__wch_cnvS");
u00041 : constant Version_32 := 16#6033a23f#;
pragma Export (C, u00041, "interfacesS");
u00042 : constant Version_32 := 16#ece6fdb6#;
pragma Export (C, u00042, "system__wch_jisB");
u00043 : constant Version_32 := 16#60740d3a#;
pragma Export (C, u00043, "system__wch_jisS");
u00044 : constant Version_32 := 16#28f088c2#;
pragma Export (C, u00044, "ada__text_ioB");
u00045 : constant Version_32 := 16#1a9b0017#;
pragma Export (C, u00045, "ada__text_ioS");
u00046 : constant Version_32 := 16#10558b11#;
pragma Export (C, u00046, "ada__streamsB");
u00047 : constant Version_32 := 16#2e6701ab#;
pragma Export (C, u00047, "ada__streamsS");
u00048 : constant Version_32 := 16#db5c917c#;
pragma Export (C, u00048, "ada__io_exceptionsS");
u00049 : constant Version_32 := 16#12c8cd7d#;
pragma Export (C, u00049, "ada__tagsB");
u00050 : constant Version_32 := 16#ce72c228#;
pragma Export (C, u00050, "ada__tagsS");
u00051 : constant Version_32 := 16#c3335bfd#;
pragma Export (C, u00051, "system__htableB");
u00052 : constant Version_32 := 16#700c3fd0#;
pragma Export (C, u00052, "system__htableS");
u00053 : constant Version_32 := 16#089f5cd0#;
pragma Export (C, u00053, "system__string_hashB");
u00054 : constant Version_32 := 16#d25254ae#;
pragma Export (C, u00054, "system__string_hashS");
u00055 : constant Version_32 := 16#699628fa#;
pragma Export (C, u00055, "system__unsigned_typesS");
u00056 : constant Version_32 := 16#b44f9ae7#;
pragma Export (C, u00056, "system__val_unsB");
u00057 : constant Version_32 := 16#793ec5c1#;
pragma Export (C, u00057, "system__val_unsS");
u00058 : constant Version_32 := 16#27b600b2#;
pragma Export (C, u00058, "system__val_utilB");
u00059 : constant Version_32 := 16#586e3ac4#;
pragma Export (C, u00059, "system__val_utilS");
u00060 : constant Version_32 := 16#d1060688#;
pragma Export (C, u00060, "system__case_utilB");
u00061 : constant Version_32 := 16#d0c7e5ed#;
pragma Export (C, u00061, "system__case_utilS");
u00062 : constant Version_32 := 16#84a27f0d#;
pragma Export (C, u00062, "interfaces__c_streamsB");
u00063 : constant Version_32 := 16#8bb5f2c0#;
pragma Export (C, u00063, "interfaces__c_streamsS");
u00064 : constant Version_32 := 16#845f5a34#;
pragma Export (C, u00064, "system__crtlS");
u00065 : constant Version_32 := 16#431faf3c#;
pragma Export (C, u00065, "system__file_ioB");
u00066 : constant Version_32 := 16#53bf6d5f#;
pragma Export (C, u00066, "system__file_ioS");
u00067 : constant Version_32 := 16#b7ab275c#;
pragma Export (C, u00067, "ada__finalizationB");
u00068 : constant Version_32 := 16#19f764ca#;
pragma Export (C, u00068, "ada__finalizationS");
u00069 : constant Version_32 := 16#95817ed8#;
pragma Export (C, u00069, "system__finalization_rootB");
u00070 : constant Version_32 := 16#bb3cffaa#;
pragma Export (C, u00070, "system__finalization_rootS");
u00071 : constant Version_32 := 16#769e25e6#;
pragma Export (C, u00071, "interfaces__cB");
u00072 : constant Version_32 := 16#4a38bedb#;
pragma Export (C, u00072, "interfaces__cS");
u00073 : constant Version_32 := 16#ee0f26dd#;
pragma Export (C, u00073, "system__os_libB");
u00074 : constant Version_32 := 16#d7b69782#;
pragma Export (C, u00074, "system__os_libS");
u00075 : constant Version_32 := 16#1a817b8e#;
pragma Export (C, u00075, "system__stringsB");
u00076 : constant Version_32 := 16#8a719d5c#;
pragma Export (C, u00076, "system__stringsS");
u00077 : constant Version_32 := 16#09511692#;
pragma Export (C, u00077, "system__file_control_blockS");
u00078 : constant Version_32 := 16#f6fdca1c#;
pragma Export (C, u00078, "ada__text_io__integer_auxB");
u00079 : constant Version_32 := 16#b9793d30#;
pragma Export (C, u00079, "ada__text_io__integer_auxS");
u00080 : constant Version_32 := 16#181dc502#;
pragma Export (C, u00080, "ada__text_io__generic_auxB");
u00081 : constant Version_32 := 16#a6c327d3#;
pragma Export (C, u00081, "ada__text_io__generic_auxS");
u00082 : constant Version_32 := 16#18d57884#;
pragma Export (C, u00082, "system__img_biuB");
u00083 : constant Version_32 := 16#afb4a0b7#;
pragma Export (C, u00083, "system__img_biuS");
u00084 : constant Version_32 := 16#e7d8734f#;
pragma Export (C, u00084, "system__img_llbB");
u00085 : constant Version_32 := 16#ee73b049#;
pragma Export (C, u00085, "system__img_llbS");
u00086 : constant Version_32 := 16#9777733a#;
pragma Export (C, u00086, "system__img_lliB");
u00087 : constant Version_32 := 16#e581d9eb#;
pragma Export (C, u00087, "system__img_lliS");
u00088 : constant Version_32 := 16#0e8808d4#;
pragma Export (C, u00088, "system__img_llwB");
u00089 : constant Version_32 := 16#471f93df#;
pragma Export (C, u00089, "system__img_llwS");
u00090 : constant Version_32 := 16#428b07f8#;
pragma Export (C, u00090, "system__img_wiuB");
u00091 : constant Version_32 := 16#c1f52725#;
pragma Export (C, u00091, "system__img_wiuS");
u00092 : constant Version_32 := 16#7ebd8839#;
pragma Export (C, u00092, "system__val_intB");
u00093 : constant Version_32 := 16#bc6ba605#;
pragma Export (C, u00093, "system__val_intS");
u00094 : constant Version_32 := 16#b3aa7b17#;
pragma Export (C, u00094, "system__val_lliB");
u00095 : constant Version_32 := 16#6eea6a9a#;
pragma Export (C, u00095, "system__val_lliS");
u00096 : constant Version_32 := 16#06052bd0#;
pragma Export (C, u00096, "system__val_lluB");
u00097 : constant Version_32 := 16#13647f88#;
pragma Export (C, u00097, "system__val_lluS");
u00098 : constant Version_32 := 16#2bce1226#;
pragma Export (C, u00098, "system__memoryB");
u00099 : constant Version_32 := 16#adb3ea0e#;
pragma Export (C, u00099, "system__memoryS");
-- BEGIN ELABORATION ORDER
-- ada%s
-- interfaces%s
-- system%s
-- system.case_util%s
-- system.case_util%b
-- system.htable%s
-- system.img_int%s
-- system.img_int%b
-- system.img_lli%s
-- system.img_lli%b
-- system.parameters%s
-- system.parameters%b
-- system.crtl%s
-- interfaces.c_streams%s
-- interfaces.c_streams%b
-- system.standard_library%s
-- system.exceptions_debug%s
-- system.exceptions_debug%b
-- system.storage_elements%s
-- system.storage_elements%b
-- system.stack_checking%s
-- system.stack_checking%b
-- system.string_hash%s
-- system.string_hash%b
-- system.htable%b
-- system.strings%s
-- system.strings%b
-- system.os_lib%s
-- system.traceback_entries%s
-- system.traceback_entries%b
-- ada.exceptions%s
-- system.soft_links%s
-- system.unsigned_types%s
-- system.img_biu%s
-- system.img_biu%b
-- system.img_llb%s
-- system.img_llb%b
-- system.img_llw%s
-- system.img_llw%b
-- system.img_wiu%s
-- system.img_wiu%b
-- system.val_int%s
-- system.val_lli%s
-- system.val_llu%s
-- system.val_uns%s
-- system.val_util%s
-- system.val_util%b
-- system.val_uns%b
-- system.val_llu%b
-- system.val_lli%b
-- system.val_int%b
-- system.wch_con%s
-- system.wch_con%b
-- system.wch_cnv%s
-- system.wch_jis%s
-- system.wch_jis%b
-- system.wch_cnv%b
-- system.wch_stw%s
-- system.wch_stw%b
-- ada.exceptions.last_chance_handler%s
-- ada.exceptions.last_chance_handler%b
-- system.exception_table%s
-- system.exception_table%b
-- ada.io_exceptions%s
-- ada.tags%s
-- ada.streams%s
-- ada.streams%b
-- interfaces.c%s
-- system.exceptions%s
-- system.exceptions%b
-- system.exceptions.machine%s
-- system.file_control_block%s
-- system.file_io%s
-- system.finalization_root%s
-- system.finalization_root%b
-- ada.finalization%s
-- ada.finalization%b
-- system.memory%s
-- system.memory%b
-- system.standard_library%b
-- system.secondary_stack%s
-- system.file_io%b
-- interfaces.c%b
-- ada.tags%b
-- system.soft_links%b
-- system.os_lib%b
-- system.secondary_stack%b
-- system.traceback%s
-- ada.exceptions%b
-- system.traceback%b
-- ada.text_io%s
-- ada.text_io%b
-- ada.text_io.generic_aux%s
-- ada.text_io.generic_aux%b
-- ada.text_io.integer_aux%s
-- ada.text_io.integer_aux%b
-- ada.integer_text_io%s
-- ada.integer_text_io%b
-- eukl%b
-- END ELABORATION ORDER
end ada_main;
| 41.311765
| 77
| 0.669158
|
a077bbfcc8311363e71066a60140428ae604e91c
| 7,178
|
adb
|
Ada
|
ada-python-test/obj/b__ada_module.adb
|
kylelk/ada-examples
|
990af2923efcf16a035054fd83ab9ac603fe9613
|
[
"MIT"
] | 1
|
2021-06-28T11:11:09.000Z
|
2021-06-28T11:11:09.000Z
|
ada-python-test/obj/b__ada_module.adb
|
kylelk/ada-examples
|
990af2923efcf16a035054fd83ab9ac603fe9613
|
[
"MIT"
] | null | null | null |
ada-python-test/obj/b__ada_module.adb
|
kylelk/ada-examples
|
990af2923efcf16a035054fd83ab9ac603fe9613
|
[
"MIT"
] | null | null | null |
pragma Ada_95;
pragma Source_File_Name (ada_modulemain, Spec_File_Name => "b__ada_module.ads");
pragma Source_File_Name (ada_modulemain, Body_File_Name => "b__ada_module.adb");
pragma Suppress (Overflow_Check);
with Ada.Exceptions;
package body ada_modulemain is
pragma Warnings (Off);
E73 : Short_Integer; pragma Import (Ada, E73, "system__os_lib_E");
E14 : Short_Integer; pragma Import (Ada, E14, "system__soft_links_E");
E24 : Short_Integer; pragma Import (Ada, E24, "system__exception_table_E");
E47 : Short_Integer; pragma Import (Ada, E47, "ada__io_exceptions_E");
E49 : Short_Integer; pragma Import (Ada, E49, "ada__tags_E");
E46 : Short_Integer; pragma Import (Ada, E46, "ada__streams_E");
E71 : Short_Integer; pragma Import (Ada, E71, "interfaces__c_E");
E26 : Short_Integer; pragma Import (Ada, E26, "system__exceptions_E");
E76 : Short_Integer; pragma Import (Ada, E76, "system__file_control_block_E");
E65 : Short_Integer; pragma Import (Ada, E65, "system__file_io_E");
E69 : Short_Integer; pragma Import (Ada, E69, "system__finalization_root_E");
E67 : Short_Integer; pragma Import (Ada, E67, "ada__finalization_E");
E18 : Short_Integer; pragma Import (Ada, E18, "system__secondary_stack_E");
E07 : Short_Integer; pragma Import (Ada, E07, "ada__text_io_E");
E02 : Short_Integer; pragma Import (Ada, E02, "ada_module_E");
Local_Priority_Specific_Dispatching : constant String := "";
Local_Interrupt_States : constant String := "";
Is_Elaborated : Boolean := False;
procedure finalize_library is
begin
E07 := E07 - 1;
declare
procedure F1;
pragma Import (Ada, F1, "ada__text_io__finalize_spec");
begin
if E07 = 0 then
F1;
end if;
end;
declare
procedure F2;
pragma Import (Ada, F2, "system__file_io__finalize_body");
begin
E65 := E65 - 1;
if E65 = 0 then
F2;
end if;
end;
declare
procedure Reraise_Library_Exception_If_Any;
pragma Import (Ada, Reraise_Library_Exception_If_Any, "__gnat_reraise_library_exception_if_any");
begin
Reraise_Library_Exception_If_Any;
end;
end finalize_library;
procedure ada_modulefinal is
procedure Runtime_Finalize;
pragma Import (C, Runtime_Finalize, "__gnat_runtime_finalize");
begin
if not Is_Elaborated then
return;
end if;
Is_Elaborated := False;
Runtime_Finalize;
finalize_library;
end ada_modulefinal;
type No_Param_Proc is access procedure;
procedure ada_moduleinit is
Main_Priority : Integer;
pragma Import (C, Main_Priority, "__gl_main_priority");
Time_Slice_Value : Integer;
pragma Import (C, Time_Slice_Value, "__gl_time_slice_val");
WC_Encoding : Character;
pragma Import (C, WC_Encoding, "__gl_wc_encoding");
Locking_Policy : Character;
pragma Import (C, Locking_Policy, "__gl_locking_policy");
Queuing_Policy : Character;
pragma Import (C, Queuing_Policy, "__gl_queuing_policy");
Task_Dispatching_Policy : Character;
pragma Import (C, Task_Dispatching_Policy, "__gl_task_dispatching_policy");
Priority_Specific_Dispatching : System.Address;
pragma Import (C, Priority_Specific_Dispatching, "__gl_priority_specific_dispatching");
Num_Specific_Dispatching : Integer;
pragma Import (C, Num_Specific_Dispatching, "__gl_num_specific_dispatching");
Main_CPU : Integer;
pragma Import (C, Main_CPU, "__gl_main_cpu");
Interrupt_States : System.Address;
pragma Import (C, Interrupt_States, "__gl_interrupt_states");
Num_Interrupt_States : Integer;
pragma Import (C, Num_Interrupt_States, "__gl_num_interrupt_states");
Unreserve_All_Interrupts : Integer;
pragma Import (C, Unreserve_All_Interrupts, "__gl_unreserve_all_interrupts");
Detect_Blocking : Integer;
pragma Import (C, Detect_Blocking, "__gl_detect_blocking");
Default_Stack_Size : Integer;
pragma Import (C, Default_Stack_Size, "__gl_default_stack_size");
Leap_Seconds_Support : Integer;
pragma Import (C, Leap_Seconds_Support, "__gl_leap_seconds_support");
procedure Runtime_Initialize (Install_Handler : Integer);
pragma Import (C, Runtime_Initialize, "__gnat_runtime_initialize");
Finalize_Library_Objects : No_Param_Proc;
pragma Import (C, Finalize_Library_Objects, "__gnat_finalize_library_objects");
begin
if Is_Elaborated then
return;
end if;
Is_Elaborated := True;
Main_Priority := -1;
Time_Slice_Value := -1;
WC_Encoding := 'b';
Locking_Policy := ' ';
Queuing_Policy := ' ';
Task_Dispatching_Policy := ' ';
Priority_Specific_Dispatching :=
Local_Priority_Specific_Dispatching'Address;
Num_Specific_Dispatching := 0;
Main_CPU := -1;
Interrupt_States := Local_Interrupt_States'Address;
Num_Interrupt_States := 0;
Unreserve_All_Interrupts := 0;
Detect_Blocking := 0;
Default_Stack_Size := -1;
Leap_Seconds_Support := 0;
Runtime_Initialize (1);
if E14 = 0 then
System.Soft_Links'Elab_Spec;
end if;
if E24 = 0 then
System.Exception_Table'Elab_Body;
end if;
E24 := E24 + 1;
if E47 = 0 then
Ada.Io_Exceptions'Elab_Spec;
end if;
E47 := E47 + 1;
if E49 = 0 then
Ada.Tags'Elab_Spec;
end if;
if E46 = 0 then
Ada.Streams'Elab_Spec;
end if;
E46 := E46 + 1;
if E71 = 0 then
Interfaces.C'Elab_Spec;
end if;
if E26 = 0 then
System.Exceptions'Elab_Spec;
end if;
E26 := E26 + 1;
if E76 = 0 then
System.File_Control_Block'Elab_Spec;
end if;
E76 := E76 + 1;
if E69 = 0 then
System.Finalization_Root'Elab_Spec;
end if;
E69 := E69 + 1;
if E67 = 0 then
Ada.Finalization'Elab_Spec;
end if;
E67 := E67 + 1;
if E65 = 0 then
System.File_Io'Elab_Body;
end if;
E65 := E65 + 1;
E71 := E71 + 1;
if E49 = 0 then
Ada.Tags'Elab_Body;
end if;
E49 := E49 + 1;
if E14 = 0 then
System.Soft_Links'Elab_Body;
end if;
E14 := E14 + 1;
if E73 = 0 then
System.Os_Lib'Elab_Body;
end if;
E73 := E73 + 1;
if E18 = 0 then
System.Secondary_Stack'Elab_Body;
end if;
E18 := E18 + 1;
if E07 = 0 then
Ada.Text_Io'Elab_Spec;
end if;
if E07 = 0 then
Ada.Text_Io'Elab_Body;
end if;
E07 := E07 + 1;
E02 := E02 + 1;
end ada_moduleinit;
-- BEGIN Object file/option list
-- /Users/kylekersey/app-tests/ada/ada-examples/ada-python-test/obj/ada_module.o
-- -L/Users/kylekersey/app-tests/ada/ada-examples/ada-python-test/obj/
-- -L/usr/local/gnat/lib/gcc/x86_64-apple-darwin13.4.0/4.9.3/adalib/
-- -static
-- -lgnat
-- END Object file/option list
end ada_modulemain;
| 33.699531
| 109
| 0.648649
|
4b4de32bd67859909b5f69afcdffbbcaa4098218
| 3,132
|
ads
|
Ada
|
bb-runtimes/runtimes/ravenscar-full-stm32f3x4/gnat/s-valuns.ads
|
JCGobbi/Nucleo-STM32F334R8
|
2a0b1b4b2664c92773703ac5e95dcb71979d051c
|
[
"BSD-3-Clause"
] | null | null | null |
bb-runtimes/runtimes/ravenscar-full-stm32f3x4/gnat/s-valuns.ads
|
JCGobbi/Nucleo-STM32F334R8
|
2a0b1b4b2664c92773703ac5e95dcb71979d051c
|
[
"BSD-3-Clause"
] | null | null | null |
bb-runtimes/runtimes/ravenscar-full-stm32f3x4/gnat/s-valuns.ads
|
JCGobbi/Nucleo-STM32F334R8
|
2a0b1b4b2664c92773703ac5e95dcb71979d051c
|
[
"BSD-3-Clause"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- S Y S T E M . V A L _ U N S --
-- --
-- S p e c --
-- --
-- Copyright (C) 1992-2021, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- --
-- --
-- --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- This package contains routines for scanning modular Unsigned
-- values for use in Text_IO.Modular_IO, and the Value attribute.
with System.Unsigned_Types;
with System.Value_U;
package System.Val_Uns is
pragma Preelaborate;
subtype Unsigned is Unsigned_Types.Unsigned;
package Impl is new Value_U (Unsigned);
function Scan_Raw_Unsigned
(Str : String;
Ptr : not null access Integer;
Max : Integer) return Unsigned
renames Impl.Scan_Raw_Unsigned;
function Scan_Unsigned
(Str : String;
Ptr : not null access Integer;
Max : Integer) return Unsigned
renames Impl.Scan_Unsigned;
function Value_Unsigned
(Str : String) return Unsigned
renames Impl.Value_Unsigned;
end System.Val_Uns;
| 50.516129
| 78
| 0.399106
|
03846727ee33a1a98e7b09993b923c991e48527c
| 16,404
|
ads
|
Ada
|
wayland_client_ada/src/wayland-api.ads
|
onox/wayland-ada
|
9317b87482af03a650e02543a3cb46f20bb747d0
|
[
"Apache-2.0"
] | 5
|
2021-01-11T01:32:16.000Z
|
2022-02-03T00:08:11.000Z
|
wayland_client_ada/src/wayland-api.ads
|
onox/wayland-ada
|
9317b87482af03a650e02543a3cb46f20bb747d0
|
[
"Apache-2.0"
] | 11
|
2021-01-11T20:12:20.000Z
|
2022-02-04T09:47:13.000Z
|
wayland_client_ada/src/wayland-api.ads
|
onox/wayland-ada
|
9317b87482af03a650e02543a3cb46f20bb747d0
|
[
"Apache-2.0"
] | null | null | null |
-- SPDX-License-Identifier: Apache-2.0
--
-- Copyright (c) 2018 - 2019 Joakim Strandberg <joakim@mequinox.se>
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
with Interfaces.C.Strings;
-- This package was generated with:
--
-- gcc -fdump-ada-spec /usr/include/wayland-client-core.h
--
-- and then manually modified to make it a bit higher-level.
private package Wayland.API is
pragma Preelaborate;
pragma Linker_Options ("-lwayland-client");
type Proxy is limited private;
type Proxy_Ptr is access all Proxy
with Convention => C;
type Display_Ptr is new Proxy_Ptr;
type Interface_T;
type Interface_Ptr is access constant Interface_T;
type Interface_Ptr_Array is array (Positive range <>) of aliased Interface_Ptr;
type Message is limited record
Name : Interfaces.C.Strings.char_array_access;
Signature : Interfaces.C.Strings.char_array_access;
Types : access Interface_Ptr;
end record
with Convention => C_Pass_By_Copy;
type Message_Array is array (Natural range <>) of aliased Message
with Convention => C;
type Message_Array_Ptr is access constant Message_Array
with Size => Standard'Address_Size;
type Interface_T is limited record
Name : Interfaces.C.Strings.char_array_access;
Version : Interfaces.C.int;
Method_Count : Interfaces.C.int;
Methods : Message_Array_Ptr;
Event_Count : Interfaces.C.int;
Events : Message_Array_Ptr;
end record
with Convention => C_Pass_By_Copy;
-----------------------------------------------------------------------------
-- wl_proxy_create is not task-safe
-- See https://gitlab.freedesktop.org/wayland/wayland/-/issues/182
-- function Proxy_Create
-- (Factory : in out Proxy;
-- Interface : in out Interface) return access Proxy
-- with Import, Convention => C, External_Name => "wl_proxy_create";
-- function Proxy_Create_wrapper (Proxy : System.Address) return System.Address
-- with Import, Convention => C, External_Name => "wl_proxy_create_wrapper";
-- procedure Proxy_Wrapper_destroy (Proxy_Wrapper : System.Address)
-- with Import, Convention => C, External_Name => "wl_proxy_wrapper_destroy";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Integer)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Unsigned_32)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Unsigned_32;
Arg_2 : Interfaces.C.Strings.chars_ptr)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Unsigned_32;
Arg_2 : Unsigned_32)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Interfaces.C.Strings.chars_ptr)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Interfaces.C.Strings.chars_ptr;
Arg_2 : File_Descriptor)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Integer;
Arg_2 : Integer)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Fixed;
Arg_2 : Fixed)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Proxy_Ptr)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Proxy_Ptr;
Arg_2 : Unsigned_32)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Proxy_Ptr;
Arg_2 : Unsigned_32;
Arg_3 : Unsigned_32)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Proxy_Ptr;
Arg_2 : Integer;
Arg_3 : Integer)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Proxy_Ptr;
Arg_2 : Unsigned_32;
Arg_3 : Integer;
Arg_4 : Integer)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Integer;
Arg_2 : Integer;
Arg_3 : Integer;
Arg_4 : Integer)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Fixed;
Arg_2 : Fixed;
Arg_3 : Fixed;
Arg_4 : Fixed)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Proxy_Ptr;
Arg_2 : Integer;
Arg_3 : Integer;
Arg_4 : Unsigned_32)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Proxy_Ptr;
Arg_2 : Proxy_Ptr;
Arg_3 : Proxy_Ptr;
Arg_4 : Unsigned_32)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
procedure Proxy_Marshal
(Object : in out Proxy;
Opcode : Unsigned_32;
Arg_1 : Unsigned_32;
Arg_2 : Proxy_Ptr;
Arg_3 : Integer;
Arg_4 : Integer)
with Import, Convention => C, External_Name => "wl_proxy_marshal";
function Proxy_Marshal_Constructor
(Object : in out Proxy;
Opcode : Unsigned_32;
Subject : Interface_Ptr;
New_ID : Unsigned_32) return Proxy_Ptr
with Import, Convention => C, External_Name => "wl_proxy_marshal_constructor";
function Proxy_Marshal_Constructor
(Object : in out Proxy;
Opcode : Unsigned_32;
Subject : Interface_Ptr;
New_ID : Unsigned_32;
Offset : Integer;
Width : Integer;
Height : Integer;
Stride : Integer;
Format : Unsigned_32) return Proxy_Ptr
with Import, Convention => C, External_Name => "wl_proxy_marshal_constructor";
function Proxy_Marshal_Constructor
(Object : in out Proxy;
Opcode : Unsigned_32;
Subject : Interface_Ptr;
Offset : Proxy_Ptr;
New_ID : Unsigned_32) return Proxy_Ptr
with Import, Convention => C, External_Name => "wl_proxy_marshal_constructor";
function Proxy_Marshal_Constructor
(Object : in out Proxy;
Opcode : Unsigned_32;
Subject : Interface_Ptr;
New_ID : Unsigned_32;
Offset : Proxy_Ptr) return Proxy_Ptr
with Import, Convention => C, External_Name => "wl_proxy_marshal_constructor";
function Proxy_Marshal_Constructor
(Object : in out Proxy;
Opcode : Unsigned_32;
Subject : Interface_Ptr;
New_ID : Unsigned_32;
Arg_1 : File_Descriptor;
Arg_2 : Integer) return Proxy_Ptr
with Import, Convention => C, External_Name => "wl_proxy_marshal_constructor";
function Proxy_Marshal_Constructor
(Object : in out Proxy;
Opcode : Unsigned_32;
Subject : Interface_Ptr;
New_ID : Unsigned_32;
Arg_1 : Proxy_Ptr;
Arg_2 : Proxy_Ptr) return Proxy_Ptr
with Import, Convention => C, External_Name => "wl_proxy_marshal_constructor";
function Proxy_Marshal_Constructor
(Object : in out Proxy;
Opcode : Unsigned_32;
Subject : Interface_Ptr;
New_ID : Unsigned_32;
Arg_1 : Proxy_Ptr;
Arg_2 : Proxy_Ptr;
Arg_3 : Proxy_Ptr;
Arg_4 : Unsigned_32) return Proxy_Ptr
with Import, Convention => C, External_Name => "wl_proxy_marshal_constructor";
function Proxy_Marshal_Constructor_Versioned
(Object : in out Proxy;
Opcode : Unsigned_32;
Subject : Interface_Ptr;
New_ID_1 : Unsigned_32;
Name : Unsigned_32;
Iface_Name : Interfaces.C.Strings.char_array_access;
New_ID_2 : Unsigned_32;
Version : Unsigned_32) return Proxy_Ptr
with Import, Convention => C, External_Name => "wl_proxy_marshal_constructor_versioned";
-- procedure Proxy_Marshal_Array
-- (Object : in out Proxy;
-- Opcode : Unsigned_32;
-- Args : access wayland_util_h.wl_argument) -- TODO Array
-- with Import, Convention => C, External_Name => "wl_proxy_marshal_array";
-- function Proxy_Marshal_Array_Constructor
-- (Object : in out Proxy;
-- Opcode : Unsigned_32;
-- Args : access wayland_util_h.wl_argument;
-- Interface : in out Interface) return access Proxy
-- with Import, Convention => C, External_Name => "wl_proxy_marshal_array_constructor";
-- function Proxy_Marshal_Array_Constructor_Versioned
-- (Object : in out Proxy;
-- Opcode : Unsigned_32;
-- Args : access wayland_util_h.wl_argument;
-- Interface : in out Interface;
-- Version : Unsigned_32) return access Proxy
-- with Import, Convention => C, External_Name => "wl_proxy_marshal_array_constructor_versioned";
procedure Proxy_Destroy (Object : in out Proxy)
with Import, Convention => C, External_Name => "wl_proxy_destroy";
function Proxy_Add_Listener
(Object : in out Proxy;
Subject : Void_Ptr;
Data : Void_Ptr) return Interfaces.C.int
with Import, Convention => C, External_Name => "wl_proxy_add_listener";
-- Returns 0 on success, otherwise -1 on failure
-- function Proxy_Get_Listener (Object : in out Proxy) return Listener
-- with Import, Convention => C, External_Name => "wl_proxy_get_listener";
-- function Proxy_Add_Dispatcher
-- (Object : in out Proxy;
-- Dispatcher_Func : wayland_util_h.wl_dispatcher_func_t;
-- Dispatcher_Data : System.Address;
-- Data : System.Address) return int
-- with Import, Convention => C, External_Name => "wl_proxy_add_dispatcher";
procedure Proxy_Set_User_Data (Object : in out Proxy; User_Data : Void_Ptr)
with Import, Convention => C, External_Name => "wl_proxy_set_user_data";
function Proxy_Get_User_Data (Object : in out Proxy) return Void_Ptr
with Import, Convention => C, External_Name => "wl_proxy_get_user_data";
function Proxy_Get_Version (Object : in out Proxy) return Unsigned_32
with Import, Convention => C, External_Name => "wl_proxy_get_version";
function Proxy_Get_Id (Object : in out Proxy) return Unsigned_32
with Import, Convention => C, External_Name => "wl_proxy_get_id";
-- function Proxy_Get_Class (Object : in out Proxy) return Interfaces.C.Strings.chars_ptr
-- with Import, Convention => C, External_Name => "wl_proxy_get_class";
-----------------------------------------------------------------------------
-- Connection Handling --
-----------------------------------------------------------------------------
function Display_Connect (Name : Interfaces.C.Strings.chars_ptr) return Display_Ptr
with Import, Convention => C, External_Name => "wl_display_connect";
-- function Display_Connect_To_FD (FD : int) return Display_Ptr
-- with Import, Convention => C, External_Name => "wl_display_connect_to_fd";
procedure Display_Disconnect (Object : Display_Ptr)
with Import, Convention => C, External_Name => "wl_display_disconnect";
function Display_Get_File_Descriptor (Object : Display_Ptr) return File_Descriptor
with Import, Convention => C, External_Name => "wl_display_get_fd";
-- function Display_Get_Error (Object : Display_Ptr) return Integer
-- with Import, Convention => C, External_Name => "wl_display_get_error";
-- function Display_Get_Protocol_Error
-- (Object : Display_Ptr;
-- Interface_V : out Interface_Ptr;
-- ID : out Unsigned_32) return Unsigned_32
-- with Import, Convention => C, External_Name => "wl_display_get_protocol_error";
-- procedure Log_Set_Handler_Client (Arg1 : Wayland_Util_H.WL_Log_Func_T)
-- with Import, Convention => C, External_Name => "wl_log_set_handler_client";
function Display_Flush (Object : Display_Ptr) return Integer
with Import, Convention => C, External_Name => "wl_display_flush";
-----------------------------------------------------------------------------
-- Default Event Queue --
-----------------------------------------------------------------------------
function Display_Dispatch (Object : Display_Ptr) return Integer
with Import, Convention => C, External_Name => "wl_display_dispatch";
function Display_Dispatch_Pending (Object : Display_Ptr) return Integer
with Import, Convention => C, External_Name => "wl_display_dispatch_pending";
function Display_Roundtrip (Object : Display_Ptr) return Integer
with Import, Convention => C, External_Name => "wl_display_roundtrip";
function Display_Prepare_Read (Object : Display_Ptr) return Integer
with Import, Convention => C, External_Name => "wl_display_prepare_read";
-- Returns 0 on success or -1 if event queue was not empty
procedure Display_Cancel_Read (Object : Display_Ptr)
with Import, Convention => C, External_Name => "wl_display_cancel_read";
function Display_Read_Events (Object : Display_Ptr) return Integer
with Import, Convention => C, External_Name => "wl_display_read_events";
-----------------------------------------------------------------------------
-- Event Queue --
-----------------------------------------------------------------------------
-- function Display_Create_Queue (Object : Display_Ptr) return System.Address
-- with Import, Convention => C, External_Name => "wl_display_create_queue";
-- function Display_Dispatch_Queue
-- (Object : Display_Ptr;
-- Queue : System.Address) return int
-- with Import, Convention => C, External_Name => "wl_display_dispatch_queue";
-- function Display_Dispatch_Queue_Pending
-- (Object : Display_Ptr;
-- Queue : System.Address) return int
-- with Import, Convention => C, External_Name => "wl_display_dispatch_queue_pending";
-- function Display_Roundtrip_Queue (Object : Display_Ptr; Queue : System.Address) return int
-- with Import, Convention => C, External_Name => "wl_display_roundtrip_queue";
-- function Display_Prepare_Read_Queue (Object : Display_Ptr; Queue : System.Address) return int
-- with Import, Convention => C, External_Name => "wl_display_prepare_read_queue";
-- procedure Proxy_Set_Queue (Object : in out Proxy; Queue : access Event_Queue)
-- with Import, Convention => C, External_Name => "wl_proxy_set_queue";
-- procedure Event_Queue_Destroy (Object : in out Event_Queue)
-- with Import, Convention => C, External_Name => "wl_event_queue_destroy";
private
type Proxy is limited null record;
end Wayland.API;
| 37.113122
| 99
| 0.658315
|
38863716770e57879f7c4b946fda13ebf3d3c082
| 24,961
|
ads
|
Ada
|
src/gnat/uintp.ads
|
Letractively/ada-gen
|
d06d03821057f9177f2350e32dd09e467df08612
|
[
"Apache-2.0"
] | null | null | null |
src/gnat/uintp.ads
|
Letractively/ada-gen
|
d06d03821057f9177f2350e32dd09e467df08612
|
[
"Apache-2.0"
] | null | null | null |
src/gnat/uintp.ads
|
Letractively/ada-gen
|
d06d03821057f9177f2350e32dd09e467df08612
|
[
"Apache-2.0"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- U I N T P --
-- --
-- S p e c --
-- --
-- Copyright (C) 1992-2010, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception, --
-- version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- Support for universal integer arithmetic
-- WARNING: There is a C version of this package. Any changes to this
-- source file must be properly reflected in the C header file sinfo.h
with Alloc;
with Table;
pragma Elaborate_All (Table);
with Types; use Types;
package Uintp is
-------------------------------------------------
-- Basic Types and Constants for Uintp Package --
-------------------------------------------------
type Uint is private;
-- The basic universal integer type
No_Uint : constant Uint;
-- A constant value indicating a missing or unset Uint value
Uint_0 : constant Uint;
Uint_1 : constant Uint;
Uint_2 : constant Uint;
Uint_3 : constant Uint;
Uint_4 : constant Uint;
Uint_5 : constant Uint;
Uint_6 : constant Uint;
Uint_7 : constant Uint;
Uint_8 : constant Uint;
Uint_9 : constant Uint;
Uint_10 : constant Uint;
Uint_11 : constant Uint;
Uint_12 : constant Uint;
Uint_13 : constant Uint;
Uint_14 : constant Uint;
Uint_15 : constant Uint;
Uint_16 : constant Uint;
Uint_24 : constant Uint;
Uint_32 : constant Uint;
Uint_63 : constant Uint;
Uint_64 : constant Uint;
Uint_80 : constant Uint;
Uint_128 : constant Uint;
Uint_Minus_1 : constant Uint;
Uint_Minus_2 : constant Uint;
Uint_Minus_3 : constant Uint;
Uint_Minus_4 : constant Uint;
Uint_Minus_5 : constant Uint;
Uint_Minus_6 : constant Uint;
Uint_Minus_7 : constant Uint;
Uint_Minus_8 : constant Uint;
Uint_Minus_9 : constant Uint;
Uint_Minus_12 : constant Uint;
Uint_Minus_36 : constant Uint;
Uint_Minus_63 : constant Uint;
Uint_Minus_80 : constant Uint;
Uint_Minus_128 : constant Uint;
-----------------
-- Subprograms --
-----------------
procedure Initialize;
-- Initialize Uint tables. Note that Initialize must not be called if
-- Tree_Read is used. Note also that there is no lock routine in this
-- unit, these are among the few tables that can be expanded during
-- gigi processing.
procedure Tree_Read;
-- Initializes internal tables from current tree file using the relevant
-- Table.Tree_Read routines. Note that Initialize should not be called if
-- Tree_Read is used. Tree_Read includes all necessary initialization.
procedure Tree_Write;
-- Writes out internal tables to current tree file using the relevant
-- Table.Tree_Write routines.
function UI_Abs (Right : Uint) return Uint;
pragma Inline (UI_Abs);
-- Returns abs function of universal integer
function UI_Add (Left : Uint; Right : Uint) return Uint;
function UI_Add (Left : Int; Right : Uint) return Uint;
function UI_Add (Left : Uint; Right : Int) return Uint;
-- Returns sum of two integer values
function UI_Decimal_Digits_Hi (U : Uint) return Nat;
-- Returns an estimate of the number of decimal digits required to
-- represent the absolute value of U. This estimate is correct or high,
-- i.e. it never returns a value that is too low. The accuracy of the
-- estimate affects only the effectiveness of comparison optimizations
-- in Urealp.
function UI_Decimal_Digits_Lo (U : Uint) return Nat;
-- Returns an estimate of the number of decimal digits required to
-- represent the absolute value of U. This estimate is correct or low,
-- i.e. it never returns a value that is too high. The accuracy of the
-- estimate affects only the effectiveness of comparison optimizations
-- in Urealp.
function UI_Div (Left : Uint; Right : Uint) return Uint;
function UI_Div (Left : Int; Right : Uint) return Uint;
function UI_Div (Left : Uint; Right : Int) return Uint;
-- Returns quotient of two integer values. Fatal error if Right = 0
function UI_Eq (Left : Uint; Right : Uint) return Boolean;
function UI_Eq (Left : Int; Right : Uint) return Boolean;
function UI_Eq (Left : Uint; Right : Int) return Boolean;
pragma Inline (UI_Eq);
-- Compares integer values for equality
function UI_Expon (Left : Uint; Right : Uint) return Uint;
function UI_Expon (Left : Int; Right : Uint) return Uint;
function UI_Expon (Left : Uint; Right : Int) return Uint;
function UI_Expon (Left : Int; Right : Int) return Uint;
-- Returns result of exponentiating two integer values.
-- Fatal error if Right is negative.
function UI_GCD (Uin, Vin : Uint) return Uint;
-- Computes GCD of input values. Assumes Uin >= Vin >= 0
function UI_Ge (Left : Uint; Right : Uint) return Boolean;
function UI_Ge (Left : Int; Right : Uint) return Boolean;
function UI_Ge (Left : Uint; Right : Int) return Boolean;
pragma Inline (UI_Ge);
-- Compares integer values for greater than or equal
function UI_Gt (Left : Uint; Right : Uint) return Boolean;
function UI_Gt (Left : Int; Right : Uint) return Boolean;
function UI_Gt (Left : Uint; Right : Int) return Boolean;
pragma Inline (UI_Gt);
-- Compares integer values for greater than
function UI_Is_In_Int_Range (Input : Uint) return Boolean;
pragma Inline (UI_Is_In_Int_Range);
-- Determines if universal integer is in Int range
function UI_Le (Left : Uint; Right : Uint) return Boolean;
function UI_Le (Left : Int; Right : Uint) return Boolean;
function UI_Le (Left : Uint; Right : Int) return Boolean;
pragma Inline (UI_Le);
-- Compares integer values for less than or equal
function UI_Lt (Left : Uint; Right : Uint) return Boolean;
function UI_Lt (Left : Int; Right : Uint) return Boolean;
function UI_Lt (Left : Uint; Right : Int) return Boolean;
-- Compares integer values for less than
function UI_Max (Left : Uint; Right : Uint) return Uint;
function UI_Max (Left : Int; Right : Uint) return Uint;
function UI_Max (Left : Uint; Right : Int) return Uint;
-- Returns maximum of two integer values
function UI_Min (Left : Uint; Right : Uint) return Uint;
function UI_Min (Left : Int; Right : Uint) return Uint;
function UI_Min (Left : Uint; Right : Int) return Uint;
-- Returns minimum of two integer values
function UI_Mod (Left : Uint; Right : Uint) return Uint;
function UI_Mod (Left : Int; Right : Uint) return Uint;
function UI_Mod (Left : Uint; Right : Int) return Uint;
pragma Inline (UI_Mod);
-- Returns mod function of two integer values
function UI_Mul (Left : Uint; Right : Uint) return Uint;
function UI_Mul (Left : Int; Right : Uint) return Uint;
function UI_Mul (Left : Uint; Right : Int) return Uint;
-- Returns product of two integer values
function UI_Ne (Left : Uint; Right : Uint) return Boolean;
function UI_Ne (Left : Int; Right : Uint) return Boolean;
function UI_Ne (Left : Uint; Right : Int) return Boolean;
pragma Inline (UI_Ne);
-- Compares integer values for inequality
function UI_Negate (Right : Uint) return Uint;
pragma Inline (UI_Negate);
-- Returns negative of universal integer
function UI_Rem (Left : Uint; Right : Uint) return Uint;
function UI_Rem (Left : Int; Right : Uint) return Uint;
function UI_Rem (Left : Uint; Right : Int) return Uint;
-- Returns rem of two integer values
function UI_Sub (Left : Uint; Right : Uint) return Uint;
function UI_Sub (Left : Int; Right : Uint) return Uint;
function UI_Sub (Left : Uint; Right : Int) return Uint;
pragma Inline (UI_Sub);
-- Returns difference of two integer values
function UI_Modular_Exponentiation
(B : Uint;
E : Uint;
Modulo : Uint) return Uint;
-- Efficiently compute (B ** E) rem Modulo
function UI_Modular_Inverse (N : Uint; Modulo : Uint) return Uint;
-- Compute the multiplicative inverse of N in modular arithmetics with the
-- given Modulo (uses Euclid's algorithm). Note: the call is considered
-- to be erroneous (and the behavior is undefined) if n is not invertible.
function UI_From_Int (Input : Int) return Uint;
-- Converts Int value to universal integer form
function UI_From_CC (Input : Char_Code) return Uint;
-- Converts Char_Code value to universal integer form
function UI_To_Int (Input : Uint) return Int;
-- Converts universal integer value to Int. Fatal error if value is not in
-- appropriate range.
function UI_To_CC (Input : Uint) return Char_Code;
-- Converts universal integer value to Char_Code. Fatal error if value is
-- not in Char_Code range.
function Num_Bits (Input : Uint) return Nat;
-- Approximate number of binary bits in given universal integer.
-- This function is used for capacity checks, and it can be one
-- bit off without affecting its usage.
---------------------
-- Output Routines --
---------------------
type UI_Format is (Hex, Decimal, Auto);
-- Used to determine whether UI_Image/UI_Write output is in hexadecimal
-- or decimal format. Auto, the default setting, lets the routine make
-- a decision based on the value.
UI_Image_Max : constant := 48; -- Enough for a 128-bit number
UI_Image_Buffer : String (1 .. UI_Image_Max);
UI_Image_Length : Natural;
-- Buffer used for UI_Image as described below
procedure UI_Image (Input : Uint; Format : UI_Format := Auto);
-- Places a representation of Uint, consisting of a possible minus sign,
-- followed by the value in UI_Image_Buffer. The form of the value is an
-- integer literal in either decimal (no base) or hexadecimal (base 16)
-- format. If Hex is True on entry, then hex mode is forced, otherwise
-- UI_Image makes a guess at which output format is more convenient. The
-- value must fit in UI_Image_Buffer. If necessary, the result is an
-- approximation of the proper value, using an exponential format. The
-- image of No_Uint is output as a single question mark.
procedure UI_Write (Input : Uint; Format : UI_Format := Auto);
-- Writes a representation of Uint, consisting of a possible minus sign,
-- followed by the value to the output file. The form of the value is an
-- integer literal in either decimal (no base) or hexadecimal (base 16)
-- format as appropriate. UI_Format shows which format to use. Auto,
-- the default, asks UI_Write to make a guess at which output format
-- will be more convenient to read.
procedure pid (Input : Uint);
pragma Export (Ada, pid);
-- Writes representation of Uint in decimal with a terminating line
-- return. This is intended for use from the debugger.
procedure pih (Input : Uint);
pragma Export (Ada, pih);
-- Writes representation of Uint in hex with a terminating line return.
-- This is intended for use from the debugger.
------------------------
-- Operator Renamings --
------------------------
function "+" (Left : Uint; Right : Uint) return Uint renames UI_Add;
function "+" (Left : Int; Right : Uint) return Uint renames UI_Add;
function "+" (Left : Uint; Right : Int) return Uint renames UI_Add;
function "/" (Left : Uint; Right : Uint) return Uint renames UI_Div;
function "/" (Left : Int; Right : Uint) return Uint renames UI_Div;
function "/" (Left : Uint; Right : Int) return Uint renames UI_Div;
function "*" (Left : Uint; Right : Uint) return Uint renames UI_Mul;
function "*" (Left : Int; Right : Uint) return Uint renames UI_Mul;
function "*" (Left : Uint; Right : Int) return Uint renames UI_Mul;
function "-" (Left : Uint; Right : Uint) return Uint renames UI_Sub;
function "-" (Left : Int; Right : Uint) return Uint renames UI_Sub;
function "-" (Left : Uint; Right : Int) return Uint renames UI_Sub;
function "**" (Left : Uint; Right : Uint) return Uint renames UI_Expon;
function "**" (Left : Uint; Right : Int) return Uint renames UI_Expon;
function "**" (Left : Int; Right : Uint) return Uint renames UI_Expon;
function "**" (Left : Int; Right : Int) return Uint renames UI_Expon;
function "abs" (Real : Uint) return Uint renames UI_Abs;
function "mod" (Left : Uint; Right : Uint) return Uint renames UI_Mod;
function "mod" (Left : Int; Right : Uint) return Uint renames UI_Mod;
function "mod" (Left : Uint; Right : Int) return Uint renames UI_Mod;
function "rem" (Left : Uint; Right : Uint) return Uint renames UI_Rem;
function "rem" (Left : Int; Right : Uint) return Uint renames UI_Rem;
function "rem" (Left : Uint; Right : Int) return Uint renames UI_Rem;
function "-" (Real : Uint) return Uint renames UI_Negate;
function "=" (Left : Uint; Right : Uint) return Boolean renames UI_Eq;
function "=" (Left : Int; Right : Uint) return Boolean renames UI_Eq;
function "=" (Left : Uint; Right : Int) return Boolean renames UI_Eq;
function ">=" (Left : Uint; Right : Uint) return Boolean renames UI_Ge;
function ">=" (Left : Int; Right : Uint) return Boolean renames UI_Ge;
function ">=" (Left : Uint; Right : Int) return Boolean renames UI_Ge;
function ">" (Left : Uint; Right : Uint) return Boolean renames UI_Gt;
function ">" (Left : Int; Right : Uint) return Boolean renames UI_Gt;
function ">" (Left : Uint; Right : Int) return Boolean renames UI_Gt;
function "<=" (Left : Uint; Right : Uint) return Boolean renames UI_Le;
function "<=" (Left : Int; Right : Uint) return Boolean renames UI_Le;
function "<=" (Left : Uint; Right : Int) return Boolean renames UI_Le;
function "<" (Left : Uint; Right : Uint) return Boolean renames UI_Lt;
function "<" (Left : Int; Right : Uint) return Boolean renames UI_Lt;
function "<" (Left : Uint; Right : Int) return Boolean renames UI_Lt;
-----------------------------
-- Mark/Release Processing --
-----------------------------
-- The space used by Uint data is not automatically reclaimed. However,
-- a mark-release regime is implemented which allows storage to be
-- released back to a previously noted mark. This is used for example
-- when doing comparisons, where only intermediate results get stored
-- that do not need to be saved for future use.
type Save_Mark is private;
function Mark return Save_Mark;
-- Note mark point for future release
procedure Release (M : Save_Mark);
-- Release storage allocated since mark was noted
procedure Release_And_Save (M : Save_Mark; UI : in out Uint);
-- Like Release, except that the given Uint value (which is typically
-- among the data being released) is recopied after the release, so
-- that it is the most recent item, and UI is updated to point to
-- its copied location.
procedure Release_And_Save (M : Save_Mark; UI1, UI2 : in out Uint);
-- Like Release, except that the given Uint values (which are typically
-- among the data being released) are recopied after the release, so
-- that they are the most recent items, and UI1 and UI2 are updated if
-- necessary to point to the copied locations. This routine is careful
-- to do things in the right order, so that the values do not clobber
-- one another.
-----------------------------------
-- Representation of Uint Values --
-----------------------------------
private
type Uint is new Int range Uint_Low_Bound .. Uint_High_Bound;
for Uint'Size use 32;
No_Uint : constant Uint := Uint (Uint_Low_Bound);
-- Uint values are represented as multiple precision integers stored in
-- a multi-digit format using Base as the base. This value is chosen so
-- that the product Base*Base is within the range of allowed Int values.
-- Base is defined to allow efficient execution of the primitive operations
-- (a0, b0, c0) defined in the section "The Classical Algorithms"
-- (sec. 4.3.1) of Donald Knuth's "The Art of Computer Programming",
-- Vol. 2. These algorithms are used in this package. In particular,
-- the product of two single digits in this base fits in a 32-bit integer.
Base_Bits : constant := 15;
-- Number of bits in base value
Base : constant Int := 2 ** Base_Bits;
-- Values in the range -(Base+1) .. Max_Direct are encoded directly as
-- Uint values by adding a bias value. The value of Max_Direct is chosen
-- so that a directly represented number always fits in two digits when
-- represented in base format.
Min_Direct : constant Int := -(Base - 1);
Max_Direct : constant Int := (Base - 1) * (Base - 1);
-- The following values define the bias used to store Uint values which
-- are in this range, as well as the biased values for the first and last
-- values in this range. We use a new derived type for these constants to
-- avoid accidental use of Uint arithmetic on these values, which is never
-- correct.
type Ctrl is range Int'First .. Int'Last;
Uint_Direct_Bias : constant Ctrl := Ctrl (Uint_Low_Bound) + Ctrl (Base);
Uint_Direct_First : constant Ctrl := Uint_Direct_Bias + Ctrl (Min_Direct);
Uint_Direct_Last : constant Ctrl := Uint_Direct_Bias + Ctrl (Max_Direct);
Uint_0 : constant Uint := Uint (Uint_Direct_Bias);
Uint_1 : constant Uint := Uint (Uint_Direct_Bias + 1);
Uint_2 : constant Uint := Uint (Uint_Direct_Bias + 2);
Uint_3 : constant Uint := Uint (Uint_Direct_Bias + 3);
Uint_4 : constant Uint := Uint (Uint_Direct_Bias + 4);
Uint_5 : constant Uint := Uint (Uint_Direct_Bias + 5);
Uint_6 : constant Uint := Uint (Uint_Direct_Bias + 6);
Uint_7 : constant Uint := Uint (Uint_Direct_Bias + 7);
Uint_8 : constant Uint := Uint (Uint_Direct_Bias + 8);
Uint_9 : constant Uint := Uint (Uint_Direct_Bias + 9);
Uint_10 : constant Uint := Uint (Uint_Direct_Bias + 10);
Uint_11 : constant Uint := Uint (Uint_Direct_Bias + 11);
Uint_12 : constant Uint := Uint (Uint_Direct_Bias + 12);
Uint_13 : constant Uint := Uint (Uint_Direct_Bias + 13);
Uint_14 : constant Uint := Uint (Uint_Direct_Bias + 14);
Uint_15 : constant Uint := Uint (Uint_Direct_Bias + 15);
Uint_16 : constant Uint := Uint (Uint_Direct_Bias + 16);
Uint_24 : constant Uint := Uint (Uint_Direct_Bias + 24);
Uint_32 : constant Uint := Uint (Uint_Direct_Bias + 32);
Uint_63 : constant Uint := Uint (Uint_Direct_Bias + 63);
Uint_64 : constant Uint := Uint (Uint_Direct_Bias + 64);
Uint_80 : constant Uint := Uint (Uint_Direct_Bias + 80);
Uint_128 : constant Uint := Uint (Uint_Direct_Bias + 128);
Uint_Minus_1 : constant Uint := Uint (Uint_Direct_Bias - 1);
Uint_Minus_2 : constant Uint := Uint (Uint_Direct_Bias - 2);
Uint_Minus_3 : constant Uint := Uint (Uint_Direct_Bias - 3);
Uint_Minus_4 : constant Uint := Uint (Uint_Direct_Bias - 4);
Uint_Minus_5 : constant Uint := Uint (Uint_Direct_Bias - 5);
Uint_Minus_6 : constant Uint := Uint (Uint_Direct_Bias - 6);
Uint_Minus_7 : constant Uint := Uint (Uint_Direct_Bias - 7);
Uint_Minus_8 : constant Uint := Uint (Uint_Direct_Bias - 8);
Uint_Minus_9 : constant Uint := Uint (Uint_Direct_Bias - 9);
Uint_Minus_12 : constant Uint := Uint (Uint_Direct_Bias - 12);
Uint_Minus_36 : constant Uint := Uint (Uint_Direct_Bias - 36);
Uint_Minus_63 : constant Uint := Uint (Uint_Direct_Bias - 63);
Uint_Minus_80 : constant Uint := Uint (Uint_Direct_Bias - 80);
Uint_Minus_128 : constant Uint := Uint (Uint_Direct_Bias - 128);
Uint_Max_Simple_Mul : constant := Uint_Direct_Bias + 2 ** 15;
-- If two values are directly represented and less than or equal to this
-- value, then we know the product fits in a 32-bit integer. This allows
-- UI_Mul to efficiently compute the product in this case.
type Save_Mark is record
Save_Uint : Uint;
Save_Udigit : Int;
end record;
-- Values outside the range that is represented directly are stored using
-- two tables. The secondary table Udigits contains sequences of Int values
-- consisting of the digits of the number in a radix Base system. The
-- digits are stored from most significant to least significant with the
-- first digit only carrying the sign.
-- There is one entry in the primary Uints table for each distinct Uint
-- value. This table entry contains the length (number of digits) and
-- a starting offset of the value in the Udigits table.
Uint_First_Entry : constant Uint := Uint (Uint_Table_Start);
-- Some subprograms defined in this package manipulate the Udigits table
-- directly, while for others it is more convenient to work with locally
-- defined arrays of the digits of the Universal Integers. The type
-- UI_Vector is defined for this purpose and some internal subprograms
-- used for converting from one to the other are defined.
type UI_Vector is array (Pos range <>) of Int;
-- Vector containing the integer values of a Uint value
-- Note: An earlier version of this package used pointers of arrays
-- of Ints (dynamically allocated) for the Uint type. The change
-- leads to a few less natural idioms used throughout this code, but
-- eliminates all uses of the heap except for the table package itself.
-- For example, Uint parameters are often converted to UI_Vectors for
-- internal manipulation. This is done by creating the local UI_Vector
-- using the function N_Digits on the Uint to find the size needed for
-- the vector, and then calling Init_Operand to copy the values out
-- of the table into the vector.
type Uint_Entry is record
Length : Pos;
-- Length of entry in Udigits table in digits (i.e. in words)
Loc : Int;
-- Starting location in Udigits table of this Uint value
end record;
package Uints is new Table.Table (
Table_Component_Type => Uint_Entry,
Table_Index_Type => Uint'Base,
Table_Low_Bound => Uint_First_Entry,
Table_Initial => Alloc.Uints_Initial,
Table_Increment => Alloc.Uints_Increment,
Table_Name => "Uints");
package Udigits is new Table.Table (
Table_Component_Type => Int,
Table_Index_Type => Int,
Table_Low_Bound => 0,
Table_Initial => Alloc.Udigits_Initial,
Table_Increment => Alloc.Udigits_Increment,
Table_Name => "Udigits");
-- Note: the reason these tables are defined here in the private part of
-- the spec, rather than in the body, is that they are referenced directly
-- by gigi.
end Uintp;
| 46.138632
| 79
| 0.646689
|
4ba4bdc9cab2da031c6e02988348484048fe9034
| 31,483
|
adb
|
Ada
|
tools-src/gnu/gcc/gcc/ada/5ztaprop.adb
|
modern-tomato/tomato
|
96f09fab4929c6ddde5c9113f1b2476ad37133c4
|
[
"FSFAP"
] | 80
|
2015-01-02T10:14:04.000Z
|
2021-06-07T06:29:49.000Z
|
tools-src/gnu/gcc/gcc/ada/5ztaprop.adb
|
modern-tomato/tomato
|
96f09fab4929c6ddde5c9113f1b2476ad37133c4
|
[
"FSFAP"
] | 9
|
2015-05-14T11:03:12.000Z
|
2018-01-04T07:12:58.000Z
|
tools-src/gnu/gcc/gcc/ada/5ztaprop.adb
|
modern-tomato/tomato
|
96f09fab4929c6ddde5c9113f1b2476ad37133c4
|
[
"FSFAP"
] | 69
|
2015-01-02T10:45:56.000Z
|
2021-09-06T07:52:13.000Z
|
------------------------------------------------------------------------------
-- --
-- GNU ADA RUN-TIME LIBRARY (GNARL) COMPONENTS --
-- --
-- S Y S T E M . T A S K _ P R I M I T I V E S . O P E R A T I O N S --
-- --
-- B o d y --
-- --
-- $Revision$
-- --
-- Copyright (C) 1991-2001 Florida State University --
-- --
-- GNARL is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNARL is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNARL; see file COPYING. If not, write --
-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
-- MA 02111-1307, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNARL was developed by the GNARL team at Florida State University. It is --
-- now maintained by Ada Core Technologies Inc. in cooperation with Florida --
-- State University (http://www.gnat.com). --
-- --
------------------------------------------------------------------------------
-- This is the VxWorks version of this package
-- This package contains all the GNULL primitives that interface directly
-- with the underlying OS.
pragma Polling (Off);
-- Turn off polling, we do not want ATC polling to take place during
-- tasking operations. It causes infinite loops and other problems.
with System.Tasking.Debug;
-- used for Known_Tasks
with Interfaces.C;
-- used for int
-- size_t
with System.Interrupt_Management;
-- used for Keep_Unmasked
-- Abort_Task_Interrupt
-- Interrupt_ID
-- Initialize_Interrupts
with System.Soft_Links;
-- used for Defer/Undefer_Abort
-- Note that we do not use System.Tasking.Initialization directly since
-- this is a higher level package that we shouldn't depend on. For example
-- when using the restricted run time, it is replaced by
-- System.Tasking.Restricted.Initialization
with System.OS_Interface;
-- used for various type, constant, and operations
with System.Parameters;
-- used for Size_Type
with System.Tasking;
-- used for Ada_Task_Control_Block
-- Task_ID
-- ATCB components and types
with System.Task_Info;
-- used for Task_Image
with System.OS_Primitives;
-- used for Delay_Modes
with System.VxWorks;
-- used for TASK_DESC
with Unchecked_Conversion;
with Unchecked_Deallocation;
package body System.Task_Primitives.Operations is
use System.Tasking.Debug;
use System.Tasking;
use System.Task_Info;
use Interfaces.C;
use System.OS_Interface;
use System.Parameters;
use System.OS_Primitives;
package SSL renames System.Soft_Links;
------------------
-- Local Data --
------------------
-- The followings are logically constants, but need to be initialized
-- at run time.
ATCB_Key : aliased pthread_key_t;
-- Key used to find the Ada Task_ID associated with a VxWorks task.
All_Tasks_L : aliased System.Task_Primitives.RTS_Lock;
-- See comments on locking rules in System.Tasking (spec).
Environment_Task_ID : Task_ID;
-- A variable to hold Task_ID for the environment task.
Unblocked_Signal_Mask : aliased sigset_t;
-- The set of signals that should unblocked in all tasks
-- The followings are internal configuration constants needed.
Time_Slice_Val : Integer;
pragma Import (C, Time_Slice_Val, "__gl_time_slice_val");
Locking_Policy : Character;
pragma Import (C, Locking_Policy, "__gl_locking_policy");
Dispatching_Policy : Character;
pragma Import (C, Dispatching_Policy, "__gl_task_dispatching_policy");
FIFO_Within_Priorities : constant Boolean := Dispatching_Policy = 'F';
-- Indicates whether FIFO_Within_Priorities is set.
Mutex_Protocol : Interfaces.C.int;
Stack_Limit : aliased System.Address;
pragma Import (C, Stack_Limit, "__gnat_stack_limit");
-----------------------
-- Local Subprograms --
-----------------------
procedure Abort_Handler (signo : Signal);
function To_Task_ID is new Unchecked_Conversion (System.Address, Task_ID);
function To_Address is new Unchecked_Conversion (Task_ID, System.Address);
-------------------
-- Abort_Handler --
-------------------
procedure Abort_Handler (signo : Signal) is
Self_ID : constant Task_ID := Self;
Result : Interfaces.C.int;
Old_Set : aliased sigset_t;
begin
if Self_ID.Deferral_Level = 0
and then Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level and then
not Self_ID.Aborting
then
Self_ID.Aborting := True;
-- Make sure signals used for RTS internal purpose are unmasked
Result := pthread_sigmask (SIG_UNBLOCK,
Unblocked_Signal_Mask'Unchecked_Access, Old_Set'Unchecked_Access);
pragma Assert (Result = 0);
raise Standard'Abort_Signal;
end if;
end Abort_Handler;
-----------------
-- Stack_Guard --
-----------------
procedure Stack_Guard (T : ST.Task_ID; On : Boolean) is
Task_Descriptor : aliased System.VxWorks.TASK_DESC;
Result : Interfaces.C.int;
begin
if On then
Result := taskInfoGet (T.Common.LL.Thread,
Task_Descriptor'Unchecked_Access);
pragma Assert (Result = 0);
Stack_Limit := Task_Descriptor.td_pStackLimit;
end if;
end Stack_Guard;
-------------------
-- Get_Thread_Id --
-------------------
function Get_Thread_Id (T : ST.Task_ID) return OSI.Thread_Id is
begin
return T.Common.LL.Thread;
end Get_Thread_Id;
----------
-- Self --
----------
function Self return Task_ID is
Result : System.Address;
begin
Result := pthread_getspecific (ATCB_Key);
pragma Assert (Result /= System.Null_Address);
return To_Task_ID (Result);
end Self;
-----------------------------
-- Install_Signal_Handlers --
-----------------------------
procedure Install_Signal_Handlers;
pragma Inline (Install_Signal_Handlers);
procedure Install_Signal_Handlers is
act : aliased struct_sigaction;
old_act : aliased struct_sigaction;
Tmp_Set : aliased sigset_t;
Result : Interfaces.C.int;
begin
act.sa_flags := 0;
act.sa_handler := Abort_Handler'Address;
Result := sigemptyset (Tmp_Set'Access);
pragma Assert (Result = 0);
act.sa_mask := Tmp_Set;
Result :=
sigaction
(Signal (Interrupt_Management.Abort_Task_Interrupt),
act'Unchecked_Access,
old_act'Unchecked_Access);
pragma Assert (Result = 0);
Interrupt_Management.Initialize_Interrupts;
end Install_Signal_Handlers;
---------------------
-- Initialize_Lock --
---------------------
-- Note: mutexes and cond_variables needed per-task basis are
-- initialized in Initialize_TCB and the Storage_Error is
-- handled. Other mutexes (such as All_Tasks_Lock, Memory_Lock...)
-- used in RTS is initialized before any status change of RTS.
-- Therefore rasing Storage_Error in the following routines
-- should be able to be handled safely.
procedure Initialize_Lock
(Prio : System.Any_Priority;
L : access Lock)
is
Attributes : aliased pthread_mutexattr_t;
Result : Interfaces.C.int;
begin
Result := pthread_mutexattr_init (Attributes'Access);
pragma Assert (Result = 0 or else Result = ENOMEM);
if Result = ENOMEM then
raise Storage_Error;
end if;
Result := pthread_mutexattr_setprotocol
(Attributes'Access, Mutex_Protocol);
pragma Assert (Result = 0);
Result := pthread_mutexattr_setprioceiling
(Attributes'Access, Interfaces.C.int (Prio));
pragma Assert (Result = 0);
Result := pthread_mutex_init (L, Attributes'Access);
pragma Assert (Result = 0 or else Result = ENOMEM);
if Result = ENOMEM then
raise Storage_Error;
end if;
Result := pthread_mutexattr_destroy (Attributes'Access);
pragma Assert (Result = 0);
end Initialize_Lock;
procedure Initialize_Lock (L : access RTS_Lock; Level : Lock_Level) is
Attributes : aliased pthread_mutexattr_t;
Result : Interfaces.C.int;
begin
Result := pthread_mutexattr_init (Attributes'Access);
pragma Assert (Result = 0 or else Result = ENOMEM);
if Result = ENOMEM then
raise Storage_Error;
end if;
Result := pthread_mutexattr_setprotocol
(Attributes'Access, Mutex_Protocol);
pragma Assert (Result = 0);
Result := pthread_mutexattr_setprioceiling
(Attributes'Access,
Interfaces.C.int (System.Any_Priority'Last));
pragma Assert (Result = 0);
Result := pthread_mutex_init (L, Attributes'Access);
pragma Assert (Result = 0 or else Result = ENOMEM);
if Result = ENOMEM then
raise Storage_Error;
end if;
Result := pthread_mutexattr_destroy (Attributes'Access);
pragma Assert (Result = 0);
end Initialize_Lock;
-------------------
-- Finalize_Lock --
-------------------
procedure Finalize_Lock (L : access Lock) is
Result : Interfaces.C.int;
begin
Result := pthread_mutex_destroy (L);
pragma Assert (Result = 0);
end Finalize_Lock;
procedure Finalize_Lock (L : access RTS_Lock) is
Result : Interfaces.C.int;
begin
Result := pthread_mutex_destroy (L);
pragma Assert (Result = 0);
end Finalize_Lock;
----------------
-- Write_Lock --
----------------
procedure Write_Lock (L : access Lock; Ceiling_Violation : out Boolean) is
Result : Interfaces.C.int;
begin
Result := pthread_mutex_lock (L);
-- Assume that the cause of EINVAL is a priority ceiling violation
Ceiling_Violation := (Result = EINVAL);
pragma Assert (Result = 0 or else Result = EINVAL);
end Write_Lock;
procedure Write_Lock (L : access RTS_Lock) is
Result : Interfaces.C.int;
begin
Result := pthread_mutex_lock (L);
pragma Assert (Result = 0);
end Write_Lock;
procedure Write_Lock (T : Task_ID) is
Result : Interfaces.C.int;
begin
Result := pthread_mutex_lock (T.Common.LL.L'Access);
pragma Assert (Result = 0);
end Write_Lock;
---------------
-- Read_Lock --
---------------
procedure Read_Lock (L : access Lock; Ceiling_Violation : out Boolean) is
begin
Write_Lock (L, Ceiling_Violation);
end Read_Lock;
------------
-- Unlock --
------------
procedure Unlock (L : access Lock) is
Result : Interfaces.C.int;
begin
Result := pthread_mutex_unlock (L);
pragma Assert (Result = 0);
end Unlock;
procedure Unlock (L : access RTS_Lock) is
Result : Interfaces.C.int;
begin
Result := pthread_mutex_unlock (L);
pragma Assert (Result = 0);
end Unlock;
procedure Unlock (T : Task_ID) is
Result : Interfaces.C.int;
begin
Result := pthread_mutex_unlock (T.Common.LL.L'Access);
pragma Assert (Result = 0);
end Unlock;
-------------
-- Sleep --
-------------
procedure Sleep (Self_ID : Task_ID;
Reason : System.Tasking.Task_States) is
Result : Interfaces.C.int;
begin
pragma Assert (Self_ID = Self);
Result := pthread_cond_wait (Self_ID.Common.LL.CV'Access,
Self_ID.Common.LL.L'Access);
-- EINTR is not considered a failure.
pragma Assert (Result = 0 or else Result = EINTR);
end Sleep;
-----------------
-- Timed_Sleep --
-----------------
-- This is for use within the run-time system, so abort is
-- assumed to be already deferred, and the caller should be
-- holding its own ATCB lock.
procedure Timed_Sleep
(Self_ID : Task_ID;
Time : Duration;
Mode : ST.Delay_Modes;
Reason : System.Tasking.Task_States;
Timedout : out Boolean;
Yielded : out Boolean)
is
Check_Time : constant Duration := Monotonic_Clock;
Abs_Time : Duration;
Request : aliased timespec;
Result : Interfaces.C.int;
begin
Timedout := True;
Yielded := False;
if Mode = Relative then
Abs_Time := Duration'Min (Time, Max_Sensible_Delay) + Check_Time;
else
Abs_Time := Duration'Min (Check_Time + Max_Sensible_Delay, Time);
end if;
if Abs_Time > Check_Time then
Request := To_Timespec (Abs_Time);
loop
exit when Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level
or else Self_ID.Pending_Priority_Change;
Result := pthread_cond_timedwait (Self_ID.Common.LL.CV'Access,
Self_ID.Common.LL.L'Access, Request'Access);
Yielded := True;
exit when Abs_Time <= Monotonic_Clock;
if Result = 0 or Result = EINTR then
-- Somebody may have called Wakeup for us
Timedout := False;
exit;
end if;
pragma Assert (Result = ETIMEDOUT);
end loop;
end if;
end Timed_Sleep;
-----------------
-- Timed_Delay --
-----------------
-- This is for use in implementing delay statements, so
-- we assume the caller is abort-deferred but is holding
-- no locks.
procedure Timed_Delay
(Self_ID : Task_ID;
Time : Duration;
Mode : ST.Delay_Modes)
is
Check_Time : constant Duration := Monotonic_Clock;
Abs_Time : Duration;
Request : aliased timespec;
Result : Interfaces.C.int;
Yielded : Boolean := False;
begin
-- Only the little window between deferring abort and
-- locking Self_ID is the reason we need to
-- check for pending abort and priority change below! :(
SSL.Abort_Defer.all;
Write_Lock (Self_ID);
if Mode = Relative then
Abs_Time := Time + Check_Time;
else
Abs_Time := Duration'Min (Check_Time + Max_Sensible_Delay, Time);
end if;
if Abs_Time > Check_Time then
Request := To_Timespec (Abs_Time);
Self_ID.Common.State := Delay_Sleep;
loop
if Self_ID.Pending_Priority_Change then
Self_ID.Pending_Priority_Change := False;
Self_ID.Common.Base_Priority := Self_ID.New_Base_Priority;
Set_Priority (Self_ID, Self_ID.Common.Base_Priority);
end if;
exit when Self_ID.Pending_ATC_Level < Self_ID.ATC_Nesting_Level;
Result := pthread_cond_timedwait (Self_ID.Common.LL.CV'Access,
Self_ID.Common.LL.L'Access, Request'Access);
Yielded := True;
exit when Abs_Time <= Monotonic_Clock;
pragma Assert (Result = 0
or else Result = ETIMEDOUT
or else Result = EINTR);
end loop;
Self_ID.Common.State := Runnable;
end if;
Unlock (Self_ID);
if not Yielded then
Result := sched_yield;
end if;
SSL.Abort_Undefer.all;
end Timed_Delay;
---------------------
-- Monotonic_Clock --
---------------------
function Monotonic_Clock return Duration is
TS : aliased timespec;
Result : Interfaces.C.int;
begin
Result := clock_gettime (CLOCK_REALTIME, TS'Unchecked_Access);
pragma Assert (Result = 0);
return To_Duration (TS);
end Monotonic_Clock;
-------------------
-- RT_Resolution --
-------------------
function RT_Resolution return Duration is
begin
return 10#1.0#E-6;
end RT_Resolution;
------------
-- Wakeup --
------------
procedure Wakeup (T : Task_ID; Reason : System.Tasking.Task_States) is
Result : Interfaces.C.int;
begin
Result := pthread_cond_signal (T.Common.LL.CV'Access);
pragma Assert (Result = 0);
end Wakeup;
-----------
-- Yield --
-----------
procedure Yield (Do_Yield : Boolean := True) is
Result : Interfaces.C.int;
begin
Result := sched_yield;
end Yield;
------------------
-- Set_Priority --
------------------
type Prio_Array_Type is array (System.Any_Priority) of Integer;
pragma Atomic_Components (Prio_Array_Type);
Prio_Array : Prio_Array_Type;
-- Global array containing the id of the currently running task for
-- each priority.
--
-- Note: we assume that we are on a single processor with run-til-blocked
-- scheduling.
procedure Set_Priority
(T : Task_ID;
Prio : System.Any_Priority;
Loss_Of_Inheritance : Boolean := False)
is
Param : aliased struct_sched_param;
Array_Item : Integer;
Result : Interfaces.C.int;
begin
Param.sched_priority := Interfaces.C.int (Prio);
if Time_Slice_Val <= 0 then
Result := pthread_setschedparam
(T.Common.LL.Thread, SCHED_FIFO, Param'Access);
else
Result := pthread_setschedparam
(T.Common.LL.Thread, SCHED_RR, Param'Access);
end if;
pragma Assert (Result = 0);
if FIFO_Within_Priorities then
-- Annex D requirement [RM D.2.2 par. 9]:
-- If the task drops its priority due to the loss of inherited
-- priority, it is added at the head of the ready queue for its
-- new active priority.
if Loss_Of_Inheritance
and then Prio < T.Common.Current_Priority
then
Array_Item := Prio_Array (T.Common.Base_Priority) + 1;
Prio_Array (T.Common.Base_Priority) := Array_Item;
loop
-- Let some processes a chance to arrive
Yield;
-- Then wait for our turn to proceed
exit when Array_Item = Prio_Array (T.Common.Base_Priority)
or else Prio_Array (T.Common.Base_Priority) = 1;
end loop;
Prio_Array (T.Common.Base_Priority) :=
Prio_Array (T.Common.Base_Priority) - 1;
end if;
end if;
T.Common.Current_Priority := Prio;
end Set_Priority;
------------------
-- Get_Priority --
------------------
function Get_Priority (T : Task_ID) return System.Any_Priority is
begin
return T.Common.Current_Priority;
end Get_Priority;
----------------
-- Enter_Task --
----------------
procedure Enter_Task (Self_ID : Task_ID) is
Result : Interfaces.C.int;
procedure Init_Float;
pragma Import (C, Init_Float, "__gnat_init_float");
-- Properly initializes the FPU for PPC/MIPS systems.
begin
Self_ID.Common.LL.Thread := pthread_self;
Result := pthread_setspecific (ATCB_Key, To_Address (Self_ID));
pragma Assert (Result = 0);
Init_Float;
-- Install the signal handlers.
-- This is called for each task since there is no signal inheritance
-- between VxWorks tasks.
Install_Signal_Handlers;
Lock_All_Tasks_List;
for T in Known_Tasks'Range loop
if Known_Tasks (T) = null then
Known_Tasks (T) := Self_ID;
Self_ID.Known_Tasks_Index := T;
exit;
end if;
end loop;
Unlock_All_Tasks_List;
end Enter_Task;
--------------
-- New_ATCB --
--------------
function New_ATCB (Entry_Num : Task_Entry_Index) return Task_ID is
begin
return new Ada_Task_Control_Block (Entry_Num);
end New_ATCB;
----------------------
-- Initialize_TCB --
----------------------
procedure Initialize_TCB (Self_ID : Task_ID; Succeeded : out Boolean) is
Mutex_Attr : aliased pthread_mutexattr_t;
Result : Interfaces.C.int;
Cond_Attr : aliased pthread_condattr_t;
begin
Self_ID.Common.LL.Thread := null_pthread;
Result := pthread_mutexattr_init (Mutex_Attr'Access);
pragma Assert (Result = 0 or else Result = ENOMEM);
if Result /= 0 then
Succeeded := False;
return;
end if;
Result := pthread_mutexattr_setprotocol
(Mutex_Attr'Access, Mutex_Protocol);
pragma Assert (Result = 0);
Result := pthread_mutexattr_setprioceiling
(Mutex_Attr'Access, Interfaces.C.int (System.Any_Priority'Last));
pragma Assert (Result = 0);
Result := pthread_mutex_init (Self_ID.Common.LL.L'Access,
Mutex_Attr'Access);
pragma Assert (Result = 0 or else Result = ENOMEM);
if Result /= 0 then
Succeeded := False;
return;
end if;
Result := pthread_mutexattr_destroy (Mutex_Attr'Access);
pragma Assert (Result = 0);
Result := pthread_condattr_init (Cond_Attr'Access);
pragma Assert (Result = 0 or else Result = ENOMEM);
if Result /= 0 then
Result := pthread_mutex_destroy (Self_ID.Common.LL.L'Access);
pragma Assert (Result = 0);
Succeeded := False;
return;
end if;
Result := pthread_cond_init (Self_ID.Common.LL.CV'Access,
Cond_Attr'Access);
pragma Assert (Result = 0 or else Result = ENOMEM);
if Result = 0 then
Succeeded := True;
else
Result := pthread_mutex_destroy (Self_ID.Common.LL.L'Access);
pragma Assert (Result = 0);
Succeeded := False;
end if;
Result := pthread_condattr_destroy (Cond_Attr'Access);
pragma Assert (Result = 0);
end Initialize_TCB;
-----------------
-- Create_Task --
-----------------
procedure Create_Task
(T : Task_ID;
Wrapper : System.Address;
Stack_Size : System.Parameters.Size_Type;
Priority : System.Any_Priority;
Succeeded : out Boolean)
is
use type System.Task_Info.Task_Image_Type;
Adjusted_Stack_Size : Interfaces.C.size_t;
Attributes : aliased pthread_attr_t;
Result : Interfaces.C.int;
function Thread_Body_Access is new
Unchecked_Conversion (System.Address, Thread_Body);
begin
if Stack_Size = Unspecified_Size then
Adjusted_Stack_Size := Interfaces.C.size_t (Default_Stack_Size);
elsif Stack_Size < Minimum_Stack_Size then
Adjusted_Stack_Size := Interfaces.C.size_t (Minimum_Stack_Size);
else
Adjusted_Stack_Size := Interfaces.C.size_t (Stack_Size);
end if;
-- Ask for 4 extra bytes of stack space so that the ATCB
-- pointer can be stored below the stack limit, plus extra
-- space for the frame of Task_Wrapper. This is so the user
-- gets the amount of stack requested exclusive of the needs
-- of the runtime.
--
-- We also have to allocate 10 more bytes for the task name
-- storage and enough space for the Wind Task Control Block
-- which is around 0x778 bytes. VxWorks also seems to carve out
-- additional space, so use 2048 as a nice round number.
-- We might want to increment to the nearest page size in
-- case we ever support VxVMI.
--
-- XXX - we should come back and visit this so we can
-- set the task name to something appropriate.
Adjusted_Stack_Size := Adjusted_Stack_Size + 2048;
Result := pthread_attr_init (Attributes'Access);
pragma Assert (Result = 0 or else Result = ENOMEM);
if Result /= 0 then
Succeeded := False;
return;
end if;
Result := pthread_attr_setdetachstate
(Attributes'Access, PTHREAD_CREATE_DETACHED);
pragma Assert (Result = 0);
Result := pthread_attr_setstacksize
(Attributes'Access, Adjusted_Stack_Size);
pragma Assert (Result = 0);
-- Let's check to see if the task has an image string and
-- use that as the VxWorks task name.
if T.Common.Task_Image /= null then
declare
Task_Name : aliased constant String :=
T.Common.Task_Image.all & ASCII.NUL;
begin
Result := pthread_attr_setname_np
(Attributes'Access, Task_Name'Address);
-- Since the initial signal mask of a thread is inherited from the
-- creator, and the Environment task has all its signals masked,
-- we do not need to manipulate caller's signal mask at this
-- point. All tasks in RTS will have All_Tasks_Mask initially.
Result := pthread_create
(T.Common.LL.Thread'Access,
Attributes'Access,
Thread_Body_Access (Wrapper),
To_Address (T));
end;
else
-- No specified task name
Result := pthread_create
(T.Common.LL.Thread'Access,
Attributes'Access,
Thread_Body_Access (Wrapper),
To_Address (T));
end if;
pragma Assert (Result = 0);
Succeeded := Result = 0;
Result := pthread_attr_destroy (Attributes'Access);
pragma Assert (Result = 0);
Task_Creation_Hook (T.Common.LL.Thread);
Set_Priority (T, Priority);
end Create_Task;
------------------
-- Finalize_TCB --
------------------
procedure Finalize_TCB (T : Task_ID) is
Result : Interfaces.C.int;
Tmp : Task_ID := T;
procedure Free is new
Unchecked_Deallocation (Ada_Task_Control_Block, Task_ID);
begin
T.Common.LL.Thread := null_pthread;
Result := pthread_mutex_destroy (T.Common.LL.L'Access);
pragma Assert (Result = 0);
Result := pthread_cond_destroy (T.Common.LL.CV'Access);
pragma Assert (Result = 0);
if T.Known_Tasks_Index /= -1 then
Known_Tasks (T.Known_Tasks_Index) := null;
end if;
Free (Tmp);
end Finalize_TCB;
---------------
-- Exit_Task --
---------------
procedure Exit_Task is
begin
Task_Termination_Hook;
pthread_exit (System.Null_Address);
end Exit_Task;
----------------
-- Abort_Task --
----------------
procedure Abort_Task (T : Task_ID) is
Result : Interfaces.C.int;
begin
Result := kill (T.Common.LL.Thread,
Signal (Interrupt_Management.Abort_Task_Interrupt));
pragma Assert (Result = 0);
end Abort_Task;
----------------
-- Check_Exit --
----------------
-- Dummy versions. The only currently working versions is for solaris
-- (native).
function Check_Exit (Self_ID : ST.Task_ID) return Boolean is
begin
return True;
end Check_Exit;
--------------------
-- Check_No_Locks --
--------------------
function Check_No_Locks (Self_ID : ST.Task_ID) return Boolean is
begin
return True;
end Check_No_Locks;
----------------------
-- Environment_Task --
----------------------
function Environment_Task return Task_ID is
begin
return Environment_Task_ID;
end Environment_Task;
-------------------------
-- Lock_All_Tasks_List --
-------------------------
procedure Lock_All_Tasks_List is
begin
Write_Lock (All_Tasks_L'Access);
end Lock_All_Tasks_List;
---------------------------
-- Unlock_All_Tasks_List --
---------------------------
procedure Unlock_All_Tasks_List is
begin
Unlock (All_Tasks_L'Access);
end Unlock_All_Tasks_List;
------------------
-- Suspend_Task --
------------------
function Suspend_Task
(T : ST.Task_ID;
Thread_Self : Thread_Id) return Boolean is
begin
if T.Common.LL.Thread /= null_pthread
and then T.Common.LL.Thread /= Thread_Self
then
return taskSuspend (T.Common.LL.Thread) = 0;
else
return True;
end if;
end Suspend_Task;
-----------------
-- Resume_Task --
-----------------
function Resume_Task
(T : ST.Task_ID;
Thread_Self : Thread_Id) return Boolean is
begin
if T.Common.LL.Thread /= null_pthread
and then T.Common.LL.Thread /= Thread_Self
then
return taskResume (T.Common.LL.Thread) = 0;
else
return True;
end if;
end Resume_Task;
----------------
-- Initialize --
----------------
procedure Initialize (Environment_Task : Task_ID) is
begin
Environment_Task_ID := Environment_Task;
-- Initialize the lock used to synchronize chain of all ATCBs.
Initialize_Lock (All_Tasks_L'Access, All_Tasks_Level);
Enter_Task (Environment_Task);
end Initialize;
begin
declare
Result : Interfaces.C.int;
begin
if Locking_Policy = 'C' then
Mutex_Protocol := PTHREAD_PRIO_PROTECT;
else
-- We default to VxWorks native priority inheritence
-- and inversion safe mutexes with no ceiling checks.
Mutex_Protocol := PTHREAD_PRIO_INHERIT;
end if;
if Time_Slice_Val > 0 then
Result := pthread_sched_rr_set_interval
(Interfaces.C.int (Time_Slice_Val));
end if;
-- Prepare the set of signals that should unblocked in all tasks
Result := sigemptyset (Unblocked_Signal_Mask'Access);
pragma Assert (Result = 0);
for J in Interrupt_Management.Interrupt_ID loop
if Interrupt_Management.Keep_Unmasked (J) then
Result := sigaddset (Unblocked_Signal_Mask'Access, Signal (J));
pragma Assert (Result = 0);
end if;
end loop;
Result := pthread_key_create (ATCB_Key'Access, null);
pragma Assert (Result = 0);
Result := taskVarAdd (getpid, Stack_Limit'Access);
pragma Assert (Result = 0);
end;
end System.Task_Primitives.Operations;
| 29.31378
| 79
| 0.587619
|
8bf5889a05aa39a781c1b03410127e2d1500de20
| 483,067
|
adb
|
Ada
|
Validation/pyFrame3DD-master/gcc-master/gcc/ada/sem_ch6.adb
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
Validation/pyFrame3DD-master/gcc-master/gcc/ada/sem_ch6.adb
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
Validation/pyFrame3DD-master/gcc-master/gcc/ada/sem_ch6.adb
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- S E M _ C H 6 --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2020, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING3. If not, go to --
-- http://www.gnu.org/licenses for a complete copy of the license. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Aspects; use Aspects;
with Atree; use Atree;
with Checks; use Checks;
with Contracts; use Contracts;
with Debug; use Debug;
with Einfo; use Einfo;
with Elists; use Elists;
with Errout; use Errout;
with Expander; use Expander;
with Exp_Ch3; use Exp_Ch3;
with Exp_Ch6; use Exp_Ch6;
with Exp_Ch7; use Exp_Ch7;
with Exp_Ch9; use Exp_Ch9;
with Exp_Dbug; use Exp_Dbug;
with Exp_Tss; use Exp_Tss;
with Exp_Util; use Exp_Util;
with Freeze; use Freeze;
with Ghost; use Ghost;
with Inline; use Inline;
with Itypes; use Itypes;
with Lib.Xref; use Lib.Xref;
with Layout; use Layout;
with Namet; use Namet;
with Lib; use Lib;
with Nlists; use Nlists;
with Nmake; use Nmake;
with Opt; use Opt;
with Output; use Output;
with Restrict; use Restrict;
with Rtsfind; use Rtsfind;
with Sem; use Sem;
with Sem_Aux; use Sem_Aux;
with Sem_Cat; use Sem_Cat;
with Sem_Ch3; use Sem_Ch3;
with Sem_Ch4; use Sem_Ch4;
with Sem_Ch5; use Sem_Ch5;
with Sem_Ch8; use Sem_Ch8;
with Sem_Ch9; use Sem_Ch9;
with Sem_Ch10; use Sem_Ch10;
with Sem_Ch12; use Sem_Ch12;
with Sem_Ch13; use Sem_Ch13;
with Sem_Dim; use Sem_Dim;
with Sem_Disp; use Sem_Disp;
with Sem_Dist; use Sem_Dist;
with Sem_Elim; use Sem_Elim;
with Sem_Eval; use Sem_Eval;
with Sem_Mech; use Sem_Mech;
with Sem_Prag; use Sem_Prag;
with Sem_Res; use Sem_Res;
with Sem_Util; use Sem_Util;
with Sem_Type; use Sem_Type;
with Sem_Warn; use Sem_Warn;
with Sinput; use Sinput;
with Stand; use Stand;
with Sinfo; use Sinfo;
with Sinfo.CN; use Sinfo.CN;
with Snames; use Snames;
with Stringt; use Stringt;
with Style;
with Stylesw; use Stylesw;
with Tbuild; use Tbuild;
with Uintp; use Uintp;
with Urealp; use Urealp;
with Validsw; use Validsw;
package body Sem_Ch6 is
May_Hide_Profile : Boolean := False;
-- This flag is used to indicate that two formals in two subprograms being
-- checked for conformance differ only in that one is an access parameter
-- while the other is of a general access type with the same designated
-- type. In this case, if the rest of the signatures match, a call to
-- either subprogram may be ambiguous, which is worth a warning. The flag
-- is set in Compatible_Types, and the warning emitted in
-- New_Overloaded_Entity.
-----------------------
-- Local Subprograms --
-----------------------
procedure Analyze_Function_Return (N : Node_Id);
-- Subsidiary to Analyze_Return_Statement. Called when the return statement
-- applies to a [generic] function.
procedure Analyze_Generic_Subprogram_Body (N : Node_Id; Gen_Id : Entity_Id);
-- Analyze a generic subprogram body. N is the body to be analyzed, and
-- Gen_Id is the defining entity Id for the corresponding spec.
procedure Analyze_Null_Procedure
(N : Node_Id;
Is_Completion : out Boolean);
-- A null procedure can be a declaration or (Ada 2012) a completion
procedure Analyze_Return_Statement (N : Node_Id);
-- Common processing for simple and extended return statements
procedure Analyze_Return_Type (N : Node_Id);
-- Subsidiary to Process_Formals: analyze subtype mark in function
-- specification in a context where the formals are visible and hide
-- outer homographs.
procedure Analyze_Subprogram_Body_Helper (N : Node_Id);
-- Does all the real work of Analyze_Subprogram_Body. This is split out so
-- that we can use RETURN but not skip the debug output at the end.
function Can_Override_Operator (Subp : Entity_Id) return Boolean;
-- Returns true if Subp can override a predefined operator.
procedure Check_Conformance
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Ctype : Conformance_Type;
Errmsg : Boolean;
Conforms : out Boolean;
Err_Loc : Node_Id := Empty;
Get_Inst : Boolean := False;
Skip_Controlling_Formals : Boolean := False);
-- Given two entities, this procedure checks that the profiles associated
-- with these entities meet the conformance criterion given by the third
-- parameter. If they conform, Conforms is set True and control returns
-- to the caller. If they do not conform, Conforms is set to False, and
-- in addition, if Errmsg is True on the call, proper messages are output
-- to complain about the conformance failure. If Err_Loc is non_Empty
-- the error messages are placed on Err_Loc, if Err_Loc is empty, then
-- error messages are placed on the appropriate part of the construct
-- denoted by New_Id. If Get_Inst is true, then this is a mode conformance
-- against a formal access-to-subprogram type so Get_Instance_Of must
-- be called.
procedure Check_Formal_Subprogram_Conformance
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Err_Loc : Node_Id;
Errmsg : Boolean;
Conforms : out Boolean);
-- Core implementation of Check_Formal_Subprogram_Conformance from spec.
-- Errmsg can be set to False to not emit error messages.
-- Conforms is set to True if there is conformance, False otherwise.
procedure Check_Limited_Return
(N : Node_Id;
Expr : Node_Id;
R_Type : Entity_Id);
-- Check the appropriate (Ada 95 or Ada 2005) rules for returning limited
-- types. Used only for simple return statements. Expr is the expression
-- returned.
procedure Check_Subprogram_Order (N : Node_Id);
-- N is the N_Subprogram_Body node for a subprogram. This routine applies
-- the alpha ordering rule for N if this ordering requirement applicable.
procedure Check_Returns
(HSS : Node_Id;
Mode : Character;
Err : out Boolean;
Proc : Entity_Id := Empty);
-- Called to check for missing return statements in a function body, or for
-- returns present in a procedure body which has No_Return set. HSS is the
-- handled statement sequence for the subprogram body. This procedure
-- checks all flow paths to make sure they either have return (Mode = 'F',
-- used for functions) or do not have a return (Mode = 'P', used for
-- No_Return procedures). The flag Err is set if there are any control
-- paths not explicitly terminated by a return in the function case, and is
-- True otherwise. Proc is the entity for the procedure case and is used
-- in posting the warning message.
procedure Check_Untagged_Equality (Eq_Op : Entity_Id);
-- In Ada 2012, a primitive equality operator on an untagged record type
-- must appear before the type is frozen, and have the same visibility as
-- that of the type. This procedure checks that this rule is met, and
-- otherwise emits an error on the subprogram declaration and a warning
-- on the earlier freeze point if it is easy to locate. In Ada 2012 mode,
-- this routine outputs errors (or warnings if -gnatd.E is set). In earlier
-- versions of Ada, warnings are output if Warn_On_Ada_2012_Incompatibility
-- is set, otherwise the call has no effect.
procedure Enter_Overloaded_Entity (S : Entity_Id);
-- This procedure makes S, a new overloaded entity, into the first visible
-- entity with that name.
function Is_Non_Overriding_Operation
(Prev_E : Entity_Id;
New_E : Entity_Id) return Boolean;
-- Enforce the rule given in 12.3(18): a private operation in an instance
-- overrides an inherited operation only if the corresponding operation
-- was overriding in the generic. This needs to be checked for primitive
-- operations of types derived (in the generic unit) from formal private
-- or formal derived types.
procedure Make_Inequality_Operator (S : Entity_Id);
-- Create the declaration for an inequality operator that is implicitly
-- created by a user-defined equality operator that yields a boolean.
procedure Preanalyze_Formal_Expression (N : Node_Id; T : Entity_Id);
-- Preanalysis of default expressions of subprogram formals. N is the
-- expression to be analyzed and T is the expected type.
procedure Set_Formal_Validity (Formal_Id : Entity_Id);
-- Formal_Id is an formal parameter entity. This procedure deals with
-- setting the proper validity status for this entity, which depends on
-- the kind of parameter and the validity checking mode.
---------------------------------------------
-- Analyze_Abstract_Subprogram_Declaration --
---------------------------------------------
procedure Analyze_Abstract_Subprogram_Declaration (N : Node_Id) is
Scop : constant Entity_Id := Current_Scope;
Subp_Id : constant Entity_Id :=
Analyze_Subprogram_Specification (Specification (N));
begin
Generate_Definition (Subp_Id);
-- Set the SPARK mode from the current context (may be overwritten later
-- with explicit pragma).
Set_SPARK_Pragma (Subp_Id, SPARK_Mode_Pragma);
Set_SPARK_Pragma_Inherited (Subp_Id);
-- Preserve relevant elaboration-related attributes of the context which
-- are no longer available or very expensive to recompute once analysis,
-- resolution, and expansion are over.
Mark_Elaboration_Attributes
(N_Id => Subp_Id,
Checks => True,
Warnings => True);
Set_Is_Abstract_Subprogram (Subp_Id);
New_Overloaded_Entity (Subp_Id);
Check_Delayed_Subprogram (Subp_Id);
Set_Categorization_From_Scope (Subp_Id, Scop);
if Ekind (Scope (Subp_Id)) = E_Protected_Type then
Error_Msg_N ("abstract subprogram not allowed in protected type", N);
-- Issue a warning if the abstract subprogram is neither a dispatching
-- operation nor an operation that overrides an inherited subprogram or
-- predefined operator, since this most likely indicates a mistake.
elsif Warn_On_Redundant_Constructs
and then not Is_Dispatching_Operation (Subp_Id)
and then not Present (Overridden_Operation (Subp_Id))
and then (not Is_Operator_Symbol_Name (Chars (Subp_Id))
or else Scop /= Scope (Etype (First_Formal (Subp_Id))))
then
Error_Msg_N
("abstract subprogram is not dispatching or overriding?r?", N);
end if;
Generate_Reference_To_Formals (Subp_Id);
Check_Eliminated (Subp_Id);
if Has_Aspects (N) then
Analyze_Aspect_Specifications (N, Subp_Id);
end if;
end Analyze_Abstract_Subprogram_Declaration;
---------------------------------
-- Analyze_Expression_Function --
---------------------------------
procedure Analyze_Expression_Function (N : Node_Id) is
Expr : constant Node_Id := Expression (N);
Loc : constant Source_Ptr := Sloc (N);
LocX : constant Source_Ptr := Sloc (Expr);
Spec : constant Node_Id := Specification (N);
-- Local variables
Asp : Node_Id;
New_Body : Node_Id;
New_Spec : Node_Id;
Orig_N : Node_Id;
Ret : Node_Id;
Def_Id : Entity_Id := Empty;
Prev : Entity_Id;
-- If the expression is a completion, Prev is the entity whose
-- declaration is completed. Def_Id is needed to analyze the spec.
begin
-- This is one of the occasions on which we transform the tree during
-- semantic analysis. If this is a completion, transform the expression
-- function into an equivalent subprogram body, and analyze it.
-- Expression functions are inlined unconditionally. The back-end will
-- determine whether this is possible.
Inline_Processing_Required := True;
-- Create a specification for the generated body. This must be done
-- prior to the analysis of the initial declaration.
New_Spec := Copy_Subprogram_Spec (Spec);
Prev := Current_Entity_In_Scope (Defining_Entity (Spec));
-- If there are previous overloadable entities with the same name,
-- check whether any of them is completed by the expression function.
-- In a generic context a formal subprogram has no completion.
if Present (Prev)
and then Is_Overloadable (Prev)
and then not Is_Formal_Subprogram (Prev)
then
Def_Id := Analyze_Subprogram_Specification (Spec);
Prev := Find_Corresponding_Spec (N);
-- The previous entity may be an expression function as well, in
-- which case the redeclaration is illegal.
if Present (Prev)
and then Nkind (Original_Node (Unit_Declaration_Node (Prev))) =
N_Expression_Function
then
Error_Msg_Sloc := Sloc (Prev);
Error_Msg_N ("& conflicts with declaration#", Def_Id);
return;
end if;
end if;
Ret := Make_Simple_Return_Statement (LocX, Expr);
New_Body :=
Make_Subprogram_Body (Loc,
Specification => New_Spec,
Declarations => Empty_List,
Handled_Statement_Sequence =>
Make_Handled_Sequence_Of_Statements (LocX,
Statements => New_List (Ret)));
Set_Was_Expression_Function (New_Body);
-- If the expression completes a generic subprogram, we must create a
-- separate node for the body, because at instantiation the original
-- node of the generic copy must be a generic subprogram body, and
-- cannot be a expression function. Otherwise we just rewrite the
-- expression with the non-generic body.
if Present (Prev) and then Ekind (Prev) = E_Generic_Function then
Insert_After (N, New_Body);
-- Propagate any aspects or pragmas that apply to the expression
-- function to the proper body when the expression function acts
-- as a completion.
if Has_Aspects (N) then
Move_Aspects (N, To => New_Body);
end if;
Relocate_Pragmas_To_Body (New_Body);
Rewrite (N, Make_Null_Statement (Loc));
Set_Has_Completion (Prev, False);
Analyze (N);
Analyze (New_Body);
Set_Is_Inlined (Prev);
-- If the expression function is a completion, the previous declaration
-- must come from source. We know already that it appears in the current
-- scope. The entity itself may be internally created if within a body
-- to be inlined.
elsif Present (Prev)
and then Is_Overloadable (Prev)
and then not Is_Formal_Subprogram (Prev)
and then Comes_From_Source (Parent (Prev))
then
Set_Has_Completion (Prev, False);
Set_Is_Inlined (Prev);
-- AI12-0103: Expression functions that are a completion freeze their
-- expression but don't freeze anything else (unlike regular bodies).
-- Note that we cannot defer this freezing to the analysis of the
-- expression itself, because a freeze node might appear in a nested
-- scope, leading to an elaboration order issue in gigi.
-- As elsewhere, we do not emit freeze nodes within a generic unit.
if not Inside_A_Generic then
Freeze_Expr_Types
(Def_Id => Def_Id,
Typ => Etype (Def_Id),
Expr => Expr,
N => N);
end if;
-- For navigation purposes, indicate that the function is a body
Generate_Reference (Prev, Defining_Entity (N), 'b', Force => True);
Rewrite (N, New_Body);
-- Remove any existing aspects from the original node because the act
-- of rewriting causes the list to be shared between the two nodes.
Orig_N := Original_Node (N);
Remove_Aspects (Orig_N);
-- Propagate any pragmas that apply to expression function to the
-- proper body when the expression function acts as a completion.
-- Aspects are automatically transfered because of node rewriting.
Relocate_Pragmas_To_Body (N);
Analyze (N);
-- Prev is the previous entity with the same name, but it is can
-- be an unrelated spec that is not completed by the expression
-- function. In that case the relevant entity is the one in the body.
-- Not clear that the backend can inline it in this case ???
if Has_Completion (Prev) then
-- The formals of the expression function are body formals,
-- and do not appear in the ali file, which will only contain
-- references to the formals of the original subprogram spec.
declare
F1 : Entity_Id;
F2 : Entity_Id;
begin
F1 := First_Formal (Def_Id);
F2 := First_Formal (Prev);
while Present (F1) loop
Set_Spec_Entity (F1, F2);
Next_Formal (F1);
Next_Formal (F2);
end loop;
end;
else
Set_Is_Inlined (Defining_Entity (New_Body));
end if;
-- If this is not a completion, create both a declaration and a body, so
-- that the expression can be inlined whenever possible.
else
-- An expression function that is not a completion is not a
-- subprogram declaration, and thus cannot appear in a protected
-- definition.
if Nkind (Parent (N)) = N_Protected_Definition then
Error_Msg_N
("an expression function is not a legal protected operation", N);
end if;
Rewrite (N, Make_Subprogram_Declaration (Loc, Specification => Spec));
-- Remove any existing aspects from the original node because the act
-- of rewriting causes the list to be shared between the two nodes.
Orig_N := Original_Node (N);
Remove_Aspects (Orig_N);
Analyze (N);
-- If aspect SPARK_Mode was specified on the body, it needs to be
-- repeated both on the generated spec and the body.
Asp := Find_Aspect (Defining_Unit_Name (Spec), Aspect_SPARK_Mode);
if Present (Asp) then
Asp := New_Copy_Tree (Asp);
Set_Analyzed (Asp, False);
Set_Aspect_Specifications (New_Body, New_List (Asp));
end if;
Def_Id := Defining_Entity (N);
Set_Is_Inlined (Def_Id);
-- Establish the linkages between the spec and the body. These are
-- used when the expression function acts as the prefix of attribute
-- 'Access in order to freeze the original expression which has been
-- moved to the generated body.
Set_Corresponding_Body (N, Defining_Entity (New_Body));
Set_Corresponding_Spec (New_Body, Def_Id);
-- Within a generic preanalyze the original expression for name
-- capture. The body is also generated but plays no role in
-- this because it is not part of the original source.
-- If this is an ignored Ghost entity, analysis of the generated
-- body is needed to hide external references (as is done in
-- Analyze_Subprogram_Body) after which the the subprogram profile
-- can be frozen, which is needed to expand calls to such an ignored
-- Ghost subprogram.
if Inside_A_Generic then
Set_Has_Completion (Def_Id, not Is_Ignored_Ghost_Entity (Def_Id));
Push_Scope (Def_Id);
Install_Formals (Def_Id);
Preanalyze_Spec_Expression (Expr, Etype (Def_Id));
End_Scope;
end if;
-- To prevent premature freeze action, insert the new body at the end
-- of the current declarations, or at the end of the package spec.
-- However, resolve usage names now, to prevent spurious visibility
-- on later entities. Note that the function can now be called in
-- the current declarative part, which will appear to be prior to
-- the presence of the body in the code. There are nevertheless no
-- order of elaboration issues because all name resolution has taken
-- place at the point of declaration.
declare
Decls : List_Id := List_Containing (N);
Expr : constant Node_Id := Expression (Ret);
Par : constant Node_Id := Parent (Decls);
Typ : constant Entity_Id := Etype (Def_Id);
begin
-- If this is a wrapper created for in an instance for a formal
-- subprogram, insert body after declaration, to be analyzed when
-- the enclosing instance is analyzed.
if GNATprove_Mode
and then Is_Generic_Actual_Subprogram (Def_Id)
then
Insert_After (N, New_Body);
else
if Nkind (Par) = N_Package_Specification
and then Decls = Visible_Declarations (Par)
and then Present (Private_Declarations (Par))
and then not Is_Empty_List (Private_Declarations (Par))
then
Decls := Private_Declarations (Par);
end if;
Insert_After (Last (Decls), New_Body);
-- Preanalyze the expression if not already done above
if not Inside_A_Generic then
Push_Scope (Def_Id);
Install_Formals (Def_Id);
Preanalyze_Formal_Expression (Expr, Typ);
Check_Limited_Return (Original_Node (N), Expr, Typ);
End_Scope;
end if;
-- In the case of an expression function marked with the
-- aspect Static, we need to check the requirement that the
-- function's expression is a potentially static expression.
-- This is done by making a full copy of the expression tree
-- and performing a special preanalysis on that tree with
-- the global flag Checking_Potentially_Static_Expression
-- enabled. If the resulting expression is static, then it's
-- OK, but if not, that means the expression violates the
-- requirements of the Ada 202x RM in 4.9(3.2/5-3.4/5) and
-- we flag an error.
if Is_Static_Function (Def_Id) then
if not Is_Static_Expression (Expr) then
declare
Exp_Copy : constant Node_Id := New_Copy_Tree (Expr);
begin
Set_Checking_Potentially_Static_Expression (True);
Preanalyze_Formal_Expression (Exp_Copy, Typ);
if not Is_Static_Expression (Exp_Copy) then
Error_Msg_N
("static expression function requires "
& "potentially static expression", Expr);
end if;
Set_Checking_Potentially_Static_Expression (False);
end;
end if;
-- We also make an additional copy of the expression and
-- replace the expression of the expression function with
-- this copy, because the currently present expression is
-- now associated with the body created for the static
-- expression function, which will later be analyzed and
-- possibly rewritten, and we need to have the separate
-- unanalyzed copy available for use with later static
-- calls.
Set_Expression
(Original_Node (Subprogram_Spec (Def_Id)),
New_Copy_Tree (Expr));
-- Mark static expression functions as inlined, to ensure
-- that even calls with nonstatic actuals will be inlined.
Set_Has_Pragma_Inline (Def_Id);
Set_Is_Inlined (Def_Id);
end if;
end if;
end;
end if;
-- Check incorrect use of dynamically tagged expression. This doesn't
-- fall out automatically when analyzing the generated function body,
-- because Check_Dynamically_Tagged_Expression deliberately ignores
-- nodes that don't come from source.
if Present (Def_Id)
and then Nkind (Def_Id) in N_Has_Etype
and then Is_Tagged_Type (Etype (Def_Id))
then
Check_Dynamically_Tagged_Expression
(Expr => Expr,
Typ => Etype (Def_Id),
Related_Nod => Original_Node (N));
end if;
-- We must enforce checks for unreferenced formals in our newly
-- generated function, so we propagate the referenced flag from the
-- original spec to the new spec as well as setting Comes_From_Source.
if Present (Parameter_Specifications (New_Spec)) then
declare
Form_New_Def : Entity_Id;
Form_New_Spec : Entity_Id;
Form_Old_Def : Entity_Id;
Form_Old_Spec : Entity_Id;
begin
Form_New_Spec := First (Parameter_Specifications (New_Spec));
Form_Old_Spec := First (Parameter_Specifications (Spec));
while Present (Form_New_Spec) and then Present (Form_Old_Spec) loop
Form_New_Def := Defining_Identifier (Form_New_Spec);
Form_Old_Def := Defining_Identifier (Form_Old_Spec);
Set_Comes_From_Source (Form_New_Def, True);
-- Because of the usefulness of unreferenced controlling
-- formals we exempt them from unreferenced warnings by marking
-- them as always referenced.
Set_Referenced (Form_Old_Def,
(Is_Formal (Form_Old_Def)
and then Is_Controlling_Formal (Form_Old_Def))
or else Referenced (Form_Old_Def));
Next (Form_New_Spec);
Next (Form_Old_Spec);
end loop;
end;
end if;
end Analyze_Expression_Function;
---------------------------------------
-- Analyze_Extended_Return_Statement --
---------------------------------------
procedure Analyze_Extended_Return_Statement (N : Node_Id) is
begin
Check_Compiler_Unit ("extended return statement", N);
Analyze_Return_Statement (N);
end Analyze_Extended_Return_Statement;
----------------------------
-- Analyze_Function_Call --
----------------------------
procedure Analyze_Function_Call (N : Node_Id) is
Actuals : constant List_Id := Parameter_Associations (N);
Func_Nam : constant Node_Id := Name (N);
Actual : Node_Id;
begin
Analyze (Func_Nam);
-- A call of the form A.B (X) may be an Ada 2005 call, which is
-- rewritten as B (A, X). If the rewriting is successful, the call
-- has been analyzed and we just return.
if Nkind (Func_Nam) = N_Selected_Component
and then Name (N) /= Func_Nam
and then Is_Rewrite_Substitution (N)
and then Present (Etype (N))
then
return;
end if;
-- If error analyzing name, then set Any_Type as result type and return
if Etype (Func_Nam) = Any_Type then
Set_Etype (N, Any_Type);
return;
end if;
-- Otherwise analyze the parameters
if Present (Actuals) then
Actual := First (Actuals);
while Present (Actual) loop
Analyze (Actual);
Check_Parameterless_Call (Actual);
Next (Actual);
end loop;
end if;
Analyze_Call (N);
end Analyze_Function_Call;
-----------------------------
-- Analyze_Function_Return --
-----------------------------
procedure Analyze_Function_Return (N : Node_Id) is
Loc : constant Source_Ptr := Sloc (N);
Stm_Entity : constant Entity_Id := Return_Statement_Entity (N);
Scope_Id : constant Entity_Id := Return_Applies_To (Stm_Entity);
R_Type : constant Entity_Id := Etype (Scope_Id);
-- Function result subtype
procedure Check_No_Return_Expression (Return_Expr : Node_Id);
-- Ada 2020: Check that the return expression in a No_Return function
-- meets the conditions specified by RM 6.5.1(5.1/5).
procedure Check_Return_Construct_Accessibility (Return_Stmt : Node_Id);
-- Apply legality rule of 6.5 (5.9) to the access discriminants of an
-- aggregate in a return statement.
procedure Check_Return_Subtype_Indication (Obj_Decl : Node_Id);
-- Check that the return_subtype_indication properly matches the result
-- subtype of the function, as required by RM-6.5(5.1/2-5.3/2).
--------------------------------
-- Check_No_Return_Expression --
--------------------------------
procedure Check_No_Return_Expression (Return_Expr : Node_Id) is
Kind : constant Node_Kind := Nkind (Return_Expr);
begin
if Kind = N_Raise_Expression then
return;
elsif Kind = N_Function_Call
and then Is_Entity_Name (Name (Return_Expr))
and then Ekind (Entity (Name (Return_Expr))) in
E_Function | E_Generic_Function
and then No_Return (Entity (Name (Return_Expr)))
then
return;
end if;
Error_Msg_N
("illegal expression in RETURN statement of No_Return function",
Return_Expr);
Error_Msg_N
("\must be raise expression or call to No_Return (RM 6.5.1(5.1/5))",
Return_Expr);
end Check_No_Return_Expression;
------------------------------------------
-- Check_Return_Construct_Accessibility --
------------------------------------------
procedure Check_Return_Construct_Accessibility (Return_Stmt : Node_Id) is
Assoc : Node_Id;
Agg : Node_Id := Empty;
Discr : Entity_Id;
Expr : Node_Id;
Obj : Node_Id;
Process_Exprs : Boolean := False;
Return_Con : Node_Id;
begin
-- Only perform checks on record types with access discriminants and
-- non-internally generated functions.
if not Is_Record_Type (R_Type)
or else not Has_Discriminants (R_Type)
or else not Comes_From_Source (Return_Stmt)
then
return;
end if;
-- We are only interested in return statements
if Nkind (Return_Stmt) not in
N_Extended_Return_Statement | N_Simple_Return_Statement
then
return;
end if;
-- Fetch the object from the return statement, in the case of a
-- simple return statement the expression is part of the node.
if Nkind (Return_Stmt) = N_Extended_Return_Statement then
-- Obtain the object definition from the expanded extended return
Return_Con := First (Return_Object_Declarations (Return_Stmt));
while Present (Return_Con) loop
-- Inspect the original node to avoid object declarations
-- expanded into renamings.
if Nkind (Original_Node (Return_Con)) = N_Object_Declaration
and then Comes_From_Source (Original_Node (Return_Con))
then
exit;
end if;
Nlists.Next (Return_Con);
end loop;
pragma Assert (Present (Return_Con));
-- Could be dealing with a renaming
Return_Con := Original_Node (Return_Con);
else
Return_Con := Return_Stmt;
end if;
-- We may need to check an aggregate or a subtype indication
-- depending on how the discriminants were specified and whether
-- we are looking at an extended return statement.
if Nkind (Return_Con) = N_Object_Declaration
and then Nkind (Object_Definition (Return_Con))
= N_Subtype_Indication
then
Assoc := Original_Node
(First
(Constraints
(Constraint (Object_Definition (Return_Con)))));
else
-- Qualified expressions may be nested
Agg := Original_Node (Expression (Return_Con));
while Nkind (Agg) = N_Qualified_Expression loop
Agg := Original_Node (Expression (Agg));
end loop;
-- If we are looking at an aggregate instead of a function call we
-- can continue checking accessibility for the supplied
-- discriminant associations.
if Nkind (Agg) = N_Aggregate then
if Present (Expressions (Agg)) then
Assoc := First (Expressions (Agg));
Process_Exprs := True;
else
Assoc := First (Component_Associations (Agg));
end if;
-- Otherwise the expression is not of interest ???
else
return;
end if;
end if;
-- Move through the discriminants checking the accessibility level
-- of each co-extension's associated expression.
Discr := First_Discriminant (R_Type);
while Present (Discr) loop
if Ekind (Etype (Discr)) = E_Anonymous_Access_Type then
if Nkind (Assoc) = N_Attribute_Reference then
Expr := Assoc;
elsif Nkind (Assoc) in
N_Component_Association | N_Discriminant_Association
then
Expr := Expression (Assoc);
else
Expr := Empty;
end if;
-- This anonymous access discriminant has an associated
-- expression which needs checking.
if Present (Expr)
and then Nkind (Expr) = N_Attribute_Reference
and then Attribute_Name (Expr) /= Name_Unrestricted_Access
then
-- Obtain the object to perform static checks on by moving
-- up the prefixes in the expression taking into account
-- named access types and renamed objects within the
-- expression.
-- Note, this loop duplicates some of the logic in
-- Object_Access_Level since we have to check special rules
-- based on the context we are in (a return aggregate)
-- relating to formals of the current function.
Obj := Original_Node (Prefix (Expr));
loop
while Nkind (Obj) in N_Explicit_Dereference
| N_Indexed_Component
| N_Selected_Component
loop
-- When we encounter a named access type then we can
-- ignore accessibility checks on the dereference.
if Ekind (Etype (Original_Node (Prefix (Obj))))
in E_Access_Type ..
E_Access_Protected_Subprogram_Type
then
if Nkind (Obj) = N_Selected_Component then
Obj := Selector_Name (Obj);
else
Obj := Original_Node (Prefix (Obj));
end if;
exit;
end if;
Obj := Original_Node (Prefix (Obj));
end loop;
if Nkind (Obj) = N_Selected_Component then
Obj := Selector_Name (Obj);
end if;
-- Check for renamings
pragma Assert (Is_Entity_Name (Obj));
if Present (Renamed_Object (Entity (Obj))) then
Obj := Renamed_Object (Entity (Obj));
else
exit;
end if;
end loop;
-- Do not check aliased formals statically
if Is_Formal (Entity (Obj))
and then (Is_Aliased (Entity (Obj))
or else Ekind (Etype (Entity (Obj))) =
E_Anonymous_Access_Type)
then
null;
-- Otherwise, handle the expression normally, avoiding the
-- special logic above, and call Object_Access_Level with
-- the original expression.
elsif Object_Access_Level (Expr) >
Scope_Depth (Scope (Scope_Id))
then
Error_Msg_N
("access discriminant in return aggregate would "
& "be a dangling reference", Obj);
end if;
end if;
end if;
Next_Discriminant (Discr);
if not Is_List_Member (Assoc) then
Assoc := Empty;
else
Nlists.Next (Assoc);
end if;
-- After aggregate expressions, examine component associations if
-- present.
if No (Assoc) then
if Present (Agg)
and then Process_Exprs
and then Present (Component_Associations (Agg))
then
Assoc := First (Component_Associations (Agg));
Process_Exprs := False;
else
exit;
end if;
end if;
end loop;
end Check_Return_Construct_Accessibility;
-------------------------------------
-- Check_Return_Subtype_Indication --
-------------------------------------
procedure Check_Return_Subtype_Indication (Obj_Decl : Node_Id) is
Return_Obj : constant Node_Id := Defining_Identifier (Obj_Decl);
R_Stm_Type : constant Entity_Id := Etype (Return_Obj);
-- Subtype given in the extended return statement (must match R_Type)
Subtype_Ind : constant Node_Id :=
Object_Definition (Original_Node (Obj_Decl));
procedure Error_No_Match (N : Node_Id);
-- Output error messages for case where types do not statically
-- match. N is the location for the messages.
--------------------
-- Error_No_Match --
--------------------
procedure Error_No_Match (N : Node_Id) is
begin
Error_Msg_N
("subtype must statically match function result subtype", N);
if not Predicates_Match (R_Stm_Type, R_Type) then
Error_Msg_Node_2 := R_Type;
Error_Msg_NE
("\predicate of& does not match predicate of&",
N, R_Stm_Type);
end if;
end Error_No_Match;
-- Start of processing for Check_Return_Subtype_Indication
begin
-- First, avoid cascaded errors
if Error_Posted (Obj_Decl) or else Error_Posted (Subtype_Ind) then
return;
end if;
-- "return access T" case; check that the return statement also has
-- "access T", and that the subtypes statically match:
-- if this is an access to subprogram the signatures must match.
if Is_Anonymous_Access_Type (R_Type) then
if Is_Anonymous_Access_Type (R_Stm_Type) then
if Ekind (Designated_Type (R_Stm_Type)) /= E_Subprogram_Type
then
if Base_Type (Designated_Type (R_Stm_Type)) /=
Base_Type (Designated_Type (R_Type))
or else not Subtypes_Statically_Match (R_Stm_Type, R_Type)
then
Error_No_Match (Subtype_Mark (Subtype_Ind));
end if;
else
-- For two anonymous access to subprogram types, the types
-- themselves must be type conformant.
if not Conforming_Types
(R_Stm_Type, R_Type, Fully_Conformant)
then
Error_No_Match (Subtype_Ind);
end if;
end if;
else
Error_Msg_N ("must use anonymous access type", Subtype_Ind);
end if;
-- If the return object is of an anonymous access type, then report
-- an error if the function's result type is not also anonymous.
elsif Is_Anonymous_Access_Type (R_Stm_Type) then
pragma Assert (not Is_Anonymous_Access_Type (R_Type));
Error_Msg_N
("anonymous access not allowed for function with named access "
& "result", Subtype_Ind);
-- Subtype indication case: check that the return object's type is
-- covered by the result type, and that the subtypes statically match
-- when the result subtype is constrained. Also handle record types
-- with unknown discriminants for which we have built the underlying
-- record view. Coverage is needed to allow specific-type return
-- objects when the result type is class-wide (see AI05-32).
elsif Covers (Base_Type (R_Type), Base_Type (R_Stm_Type))
or else (Is_Underlying_Record_View (Base_Type (R_Stm_Type))
and then
Covers
(Base_Type (R_Type),
Underlying_Record_View (Base_Type (R_Stm_Type))))
then
-- A null exclusion may be present on the return type, on the
-- function specification, on the object declaration or on the
-- subtype itself.
if Is_Access_Type (R_Type)
and then
(Can_Never_Be_Null (R_Type)
or else Null_Exclusion_Present (Parent (Scope_Id))) /=
Can_Never_Be_Null (R_Stm_Type)
then
Error_No_Match (Subtype_Ind);
end if;
-- AI05-103: for elementary types, subtypes must statically match
if Is_Constrained (R_Type) or else Is_Access_Type (R_Type) then
if not Subtypes_Statically_Match (R_Stm_Type, R_Type) then
Error_No_Match (Subtype_Ind);
end if;
end if;
-- All remaining cases are illegal
-- Note: previous versions of this subprogram allowed the return
-- value to be the ancestor of the return type if the return type
-- was a null extension. This was plainly incorrect.
else
Error_Msg_N
("wrong type for return_subtype_indication", Subtype_Ind);
end if;
end Check_Return_Subtype_Indication;
---------------------
-- Local Variables --
---------------------
Expr : Node_Id;
Obj_Decl : Node_Id := Empty;
-- Start of processing for Analyze_Function_Return
begin
Set_Return_Present (Scope_Id);
if Nkind (N) = N_Simple_Return_Statement then
Expr := Expression (N);
-- Guard against a malformed expression. The parser may have tried to
-- recover but the node is not analyzable.
if Nkind (Expr) = N_Error then
Set_Etype (Expr, Any_Type);
Expander_Mode_Save_And_Set (False);
return;
else
-- The resolution of a controlled [extension] aggregate associated
-- with a return statement creates a temporary which needs to be
-- finalized on function exit. Wrap the return statement inside a
-- block so that the finalization machinery can detect this case.
-- This early expansion is done only when the return statement is
-- not part of a handled sequence of statements.
if Nkind (Expr) in N_Aggregate | N_Extension_Aggregate
and then Needs_Finalization (R_Type)
and then Nkind (Parent (N)) /= N_Handled_Sequence_Of_Statements
then
Rewrite (N,
Make_Block_Statement (Loc,
Handled_Statement_Sequence =>
Make_Handled_Sequence_Of_Statements (Loc,
Statements => New_List (Relocate_Node (N)))));
Analyze (N);
return;
end if;
Analyze (Expr);
-- Ada 2005 (AI-251): If the type of the returned object is
-- an access to an interface type then we add an implicit type
-- conversion to force the displacement of the "this" pointer to
-- reference the secondary dispatch table. We cannot delay the
-- generation of this implicit conversion until the expansion
-- because in this case the type resolution changes the decoration
-- of the expression node to match R_Type; by contrast, if the
-- returned object is a class-wide interface type then it is too
-- early to generate here the implicit conversion since the return
-- statement may be rewritten by the expander into an extended
-- return statement whose expansion takes care of adding the
-- implicit type conversion to displace the pointer to the object.
if Expander_Active
and then Serious_Errors_Detected = 0
and then Is_Access_Type (R_Type)
and then Nkind (Expr) not in N_Null | N_Raise_Expression
and then Is_Interface (Designated_Type (R_Type))
and then Is_Progenitor (Designated_Type (R_Type),
Designated_Type (Etype (Expr)))
then
Rewrite (Expr, Convert_To (R_Type, Relocate_Node (Expr)));
Analyze (Expr);
end if;
Resolve (Expr, R_Type);
Check_Limited_Return (N, Expr, R_Type);
Check_Return_Construct_Accessibility (N);
-- Ada 2020 (AI12-0269): Any return statement that applies to a
-- nonreturning function shall be a simple_return_statement with
-- an expression that is a raise_expression, or else a call on a
-- nonreturning function, or else a parenthesized expression of
-- one of these.
if Ada_Version >= Ada_2020
and then No_Return (Scope_Id)
and then Comes_From_Source (N)
then
Check_No_Return_Expression (Original_Node (Expr));
end if;
end if;
else
Obj_Decl := Last (Return_Object_Declarations (N));
-- Analyze parts specific to extended_return_statement:
declare
Has_Aliased : constant Boolean := Aliased_Present (Obj_Decl);
HSS : constant Node_Id := Handled_Statement_Sequence (N);
begin
Expr := Expression (Obj_Decl);
-- Note: The check for OK_For_Limited_Init will happen in
-- Analyze_Object_Declaration; we treat it as a normal
-- object declaration.
Set_Is_Return_Object (Defining_Identifier (Obj_Decl));
-- Returning a build-in-place unconstrained array type we defer
-- the full analysis of the returned object to avoid generating
-- the corresponding constrained subtype; otherwise the bounds
-- would be created in the stack and a dangling reference would
-- be returned pointing to the bounds. We perform its preanalysis
-- to report errors on the initializing aggregate now (if any);
-- we also ensure its activation chain and Master variable are
-- defined (if tasks are being declared) since they are generated
-- as part of the analysis and expansion of the object declaration
-- at this stage.
if Is_Array_Type (R_Type)
and then not Is_Constrained (R_Type)
and then Is_Build_In_Place_Function (Scope_Id)
and then Needs_BIP_Alloc_Form (Scope_Id)
and then Nkind (Expr) in N_Aggregate | N_Extension_Aggregate
then
Preanalyze (Obj_Decl);
if Expander_Active then
Ensure_Activation_Chain_And_Master (Obj_Decl);
end if;
else
Analyze (Obj_Decl);
end if;
Check_Return_Subtype_Indication (Obj_Decl);
if Present (HSS) then
Analyze (HSS);
if Present (Exception_Handlers (HSS)) then
-- ???Has_Nested_Block_With_Handler needs to be set.
-- Probably by creating an actual N_Block_Statement.
-- Probably in Expand.
null;
end if;
end if;
-- Mark the return object as referenced, since the return is an
-- implicit reference of the object.
Set_Referenced (Defining_Identifier (Obj_Decl));
Check_References (Stm_Entity);
Check_Return_Construct_Accessibility (N);
-- Check RM 6.5 (5.9/3)
if Has_Aliased then
if Ada_Version < Ada_2012 then
-- Shouldn't this test Warn_On_Ada_2012_Compatibility ???
-- Can it really happen (extended return???)
Error_Msg_N
("aliased only allowed for limited return objects "
& "in Ada 2012??", N);
elsif not Is_Limited_View (R_Type) then
Error_Msg_N
("aliased only allowed for limited return objects", N);
end if;
end if;
-- Ada 2020 (AI12-0269): Any return statement that applies to a
-- nonreturning function shall be a simple_return_statement.
if Ada_Version >= Ada_2020
and then No_Return (Scope_Id)
and then Comes_From_Source (N)
then
Error_Msg_N
("extended RETURN statement not allowed in No_Return "
& "function", N);
end if;
end;
end if;
-- Case of Expr present
if Present (Expr) then
-- Defend against previous errors
if Nkind (Expr) = N_Empty
or else No (Etype (Expr))
then
return;
end if;
-- Apply constraint check. Note that this is done before the implicit
-- conversion of the expression done for anonymous access types to
-- ensure correct generation of the null-excluding check associated
-- with null-excluding expressions found in return statements. We
-- don't need a check if the subtype of the return object is the
-- same as the result subtype of the function.
if Nkind (N) /= N_Extended_Return_Statement
or else Nkind (Obj_Decl) /= N_Object_Declaration
or else Nkind (Object_Definition (Obj_Decl)) not in N_Has_Entity
or else Entity (Object_Definition (Obj_Decl)) /= R_Type
then
Apply_Constraint_Check (Expr, R_Type);
end if;
-- The return value is converted to the return type of the function,
-- which implies a predicate check if the return type is predicated.
-- We do not apply the check for an extended return statement because
-- Analyze_Object_Declaration has already done it on Obj_Decl above.
-- We do not apply the check to a case expression because it will
-- be expanded into a series of return statements, each of which
-- will receive a predicate check.
if Nkind (N) /= N_Extended_Return_Statement
and then Nkind (Expr) /= N_Case_Expression
then
Apply_Predicate_Check (Expr, R_Type);
end if;
-- Ada 2005 (AI-318-02): When the result type is an anonymous access
-- type, apply an implicit conversion of the expression to that type
-- to force appropriate static and run-time accessibility checks.
-- But we want to apply the checks to an extended return statement
-- only once, i.e. not to the simple return statement generated at
-- the end of its expansion because, prior to leaving the function,
-- the accessibility level of the return object changes to be a level
-- determined by the point of call (RM 3.10.2(10.8/3)).
if Ada_Version >= Ada_2005
and then Ekind (R_Type) = E_Anonymous_Access_Type
and then (Nkind (N) = N_Extended_Return_Statement
or else not Comes_From_Extended_Return_Statement (N))
then
Rewrite (Expr, Convert_To (R_Type, Relocate_Node (Expr)));
Analyze_And_Resolve (Expr, R_Type);
-- If this is a local anonymous access to subprogram, the
-- accessibility check can be applied statically. The return is
-- illegal if the access type of the return expression is declared
-- inside of the subprogram (except if it is the subtype indication
-- of an extended return statement).
elsif Ekind (R_Type) = E_Anonymous_Access_Subprogram_Type then
if not Comes_From_Source (Current_Scope)
or else Ekind (Current_Scope) = E_Return_Statement
then
null;
elsif
Scope_Depth (Scope (Etype (Expr))) >= Scope_Depth (Scope_Id)
then
Error_Msg_N ("cannot return local access to subprogram", N);
end if;
-- The expression cannot be of a formal incomplete type
elsif Ekind (Etype (Expr)) = E_Incomplete_Type
and then Is_Generic_Type (Etype (Expr))
then
Error_Msg_N
("cannot return expression of a formal incomplete type", N);
end if;
-- If the result type is class-wide, then check that the return
-- expression's type is not declared at a deeper level than the
-- function (RM05-6.5(5.6/2)).
if Ada_Version >= Ada_2005
and then Is_Class_Wide_Type (R_Type)
then
if Type_Access_Level (Etype (Expr)) >
Subprogram_Access_Level (Scope_Id)
then
Error_Msg_N
("level of return expression type is deeper than "
& "class-wide function!", Expr);
end if;
end if;
-- Check incorrect use of dynamically tagged expression
if Is_Tagged_Type (R_Type) then
Check_Dynamically_Tagged_Expression
(Expr => Expr,
Typ => R_Type,
Related_Nod => N);
end if;
-- ??? A real run-time accessibility check is needed in cases
-- involving dereferences of access parameters. For now we just
-- check the static cases.
if (Ada_Version < Ada_2005 or else Debug_Flag_Dot_L)
and then Is_Limited_View (Etype (Scope_Id))
and then Object_Access_Level (Expr) >
Subprogram_Access_Level (Scope_Id)
then
-- Suppress the message in a generic, where the rewriting
-- is irrelevant.
if Inside_A_Generic then
null;
else
Rewrite (N,
Make_Raise_Program_Error (Loc,
Reason => PE_Accessibility_Check_Failed));
Analyze (N);
Error_Msg_Warn := SPARK_Mode /= On;
Error_Msg_N ("cannot return a local value by reference<<", N);
Error_Msg_NE ("\& [<<", N, Standard_Program_Error);
end if;
end if;
if Known_Null (Expr)
and then Nkind (Parent (Scope_Id)) = N_Function_Specification
and then Null_Exclusion_Present (Parent (Scope_Id))
then
Apply_Compile_Time_Constraint_Error
(N => Expr,
Msg => "(Ada 2005) null not allowed for "
& "null-excluding return??",
Reason => CE_Null_Not_Allowed);
end if;
-- RM 6.5 (5.4/3): accessibility checks also apply if the return object
-- has no initializing expression.
elsif Ada_Version > Ada_2005 and then Is_Class_Wide_Type (R_Type) then
if Type_Access_Level (Etype (Defining_Identifier (Obj_Decl))) >
Subprogram_Access_Level (Scope_Id)
then
Error_Msg_N
("level of return expression type is deeper than "
& "class-wide function!", Obj_Decl);
end if;
end if;
end Analyze_Function_Return;
-------------------------------------
-- Analyze_Generic_Subprogram_Body --
-------------------------------------
procedure Analyze_Generic_Subprogram_Body
(N : Node_Id;
Gen_Id : Entity_Id)
is
Gen_Decl : constant Node_Id := Unit_Declaration_Node (Gen_Id);
Kind : constant Entity_Kind := Ekind (Gen_Id);
Body_Id : Entity_Id;
New_N : Node_Id;
Spec : Node_Id;
begin
-- Copy body and disable expansion while analyzing the generic For a
-- stub, do not copy the stub (which would load the proper body), this
-- will be done when the proper body is analyzed.
if Nkind (N) /= N_Subprogram_Body_Stub then
New_N := Copy_Generic_Node (N, Empty, Instantiating => False);
Rewrite (N, New_N);
-- Once the contents of the generic copy and the template are
-- swapped, do the same for their respective aspect specifications.
Exchange_Aspects (N, New_N);
-- Collect all contract-related source pragmas found within the
-- template and attach them to the contract of the subprogram body.
-- This contract is used in the capture of global references within
-- annotations.
Create_Generic_Contract (N);
Start_Generic;
end if;
Spec := Specification (N);
-- Within the body of the generic, the subprogram is callable, and
-- behaves like the corresponding non-generic unit.
Body_Id := Defining_Entity (Spec);
if Kind = E_Generic_Procedure
and then Nkind (Spec) /= N_Procedure_Specification
then
Error_Msg_N ("invalid body for generic procedure ", Body_Id);
return;
elsif Kind = E_Generic_Function
and then Nkind (Spec) /= N_Function_Specification
then
Error_Msg_N ("invalid body for generic function ", Body_Id);
return;
end if;
Set_Corresponding_Body (Gen_Decl, Body_Id);
if Has_Completion (Gen_Id)
and then Nkind (Parent (N)) /= N_Subunit
then
Error_Msg_N ("duplicate generic body", N);
return;
else
Set_Has_Completion (Gen_Id);
end if;
if Nkind (N) = N_Subprogram_Body_Stub then
Set_Ekind (Defining_Entity (Specification (N)), Kind);
else
Set_Corresponding_Spec (N, Gen_Id);
end if;
if Nkind (Parent (N)) = N_Compilation_Unit then
Set_Cunit_Entity (Current_Sem_Unit, Defining_Entity (N));
end if;
-- Make generic parameters immediately visible in the body. They are
-- needed to process the formals declarations. Then make the formals
-- visible in a separate step.
Push_Scope (Gen_Id);
declare
E : Entity_Id;
First_Ent : Entity_Id;
begin
First_Ent := First_Entity (Gen_Id);
E := First_Ent;
while Present (E) and then not Is_Formal (E) loop
Install_Entity (E);
Next_Entity (E);
end loop;
Set_Use (Generic_Formal_Declarations (Gen_Decl));
-- Now generic formals are visible, and the specification can be
-- analyzed, for subsequent conformance check.
Body_Id := Analyze_Subprogram_Specification (Spec);
-- Make formal parameters visible
if Present (E) then
-- E is the first formal parameter, we loop through the formals
-- installing them so that they will be visible.
Set_First_Entity (Gen_Id, E);
while Present (E) loop
Install_Entity (E);
Next_Formal (E);
end loop;
end if;
-- Visible generic entity is callable within its own body
Set_Ekind (Gen_Id, Ekind (Body_Id));
Set_Ekind (Body_Id, E_Subprogram_Body);
Set_Convention (Body_Id, Convention (Gen_Id));
Set_Is_Obsolescent (Body_Id, Is_Obsolescent (Gen_Id));
Set_Scope (Body_Id, Scope (Gen_Id));
Check_Fully_Conformant (Body_Id, Gen_Id, Body_Id);
if Nkind (N) = N_Subprogram_Body_Stub then
-- No body to analyze, so restore state of generic unit
Set_Ekind (Gen_Id, Kind);
Set_Ekind (Body_Id, Kind);
if Present (First_Ent) then
Set_First_Entity (Gen_Id, First_Ent);
end if;
End_Scope;
return;
end if;
-- If this is a compilation unit, it must be made visible explicitly,
-- because the compilation of the declaration, unlike other library
-- unit declarations, does not. If it is not a unit, the following
-- is redundant but harmless.
Set_Is_Immediately_Visible (Gen_Id);
Reference_Body_Formals (Gen_Id, Body_Id);
if Is_Child_Unit (Gen_Id) then
Generate_Reference (Gen_Id, Scope (Gen_Id), 'k', False);
end if;
Set_Actual_Subtypes (N, Current_Scope);
Set_SPARK_Pragma (Body_Id, SPARK_Mode_Pragma);
Set_SPARK_Pragma_Inherited (Body_Id);
-- Analyze any aspect specifications that appear on the generic
-- subprogram body.
if Has_Aspects (N) then
Analyze_Aspects_On_Subprogram_Body_Or_Stub (N);
end if;
Analyze_Declarations (Declarations (N));
Check_Completion;
-- Process the contract of the subprogram body after all declarations
-- have been analyzed. This ensures that any contract-related pragmas
-- are available through the N_Contract node of the body.
Analyze_Entry_Or_Subprogram_Body_Contract (Body_Id);
Analyze (Handled_Statement_Sequence (N));
Save_Global_References (Original_Node (N));
-- Prior to exiting the scope, include generic formals again (if any
-- are present) in the set of local entities.
if Present (First_Ent) then
Set_First_Entity (Gen_Id, First_Ent);
end if;
Check_References (Gen_Id);
end;
Process_End_Label (Handled_Statement_Sequence (N), 't', Current_Scope);
Update_Use_Clause_Chain;
Validate_Categorization_Dependency (N, Gen_Id);
End_Scope;
Check_Subprogram_Order (N);
-- Outside of its body, unit is generic again
Set_Ekind (Gen_Id, Kind);
Generate_Reference (Gen_Id, Body_Id, 'b', Set_Ref => False);
if Style_Check then
Style.Check_Identifier (Body_Id, Gen_Id);
end if;
End_Generic;
end Analyze_Generic_Subprogram_Body;
----------------------------
-- Analyze_Null_Procedure --
----------------------------
-- WARNING: This routine manages Ghost regions. Return statements must be
-- replaced by gotos that jump to the end of the routine and restore the
-- Ghost mode.
procedure Analyze_Null_Procedure
(N : Node_Id;
Is_Completion : out Boolean)
is
Loc : constant Source_Ptr := Sloc (N);
Spec : constant Node_Id := Specification (N);
Saved_GM : constant Ghost_Mode_Type := Ghost_Mode;
Saved_IGR : constant Node_Id := Ignored_Ghost_Region;
Saved_ISMP : constant Boolean :=
Ignore_SPARK_Mode_Pragmas_In_Instance;
-- Save the Ghost and SPARK mode-related data to restore on exit
Designator : Entity_Id;
Form : Node_Id;
Null_Body : Node_Id := Empty;
Null_Stmt : Node_Id := Null_Statement (Spec);
Prev : Entity_Id;
begin
Prev := Current_Entity_In_Scope (Defining_Entity (Spec));
-- A null procedure is Ghost when it is stand-alone and is subject to
-- pragma Ghost, or when the corresponding spec is Ghost. Set the mode
-- now, to ensure that any nodes generated during analysis and expansion
-- are properly marked as Ghost.
if Present (Prev) then
Mark_And_Set_Ghost_Body (N, Prev);
end if;
-- Capture the profile of the null procedure before analysis, for
-- expansion at the freeze point and at each point of call. The body is
-- used if the procedure has preconditions, or if it is a completion. In
-- the first case the body is analyzed at the freeze point, in the other
-- it replaces the null procedure declaration.
-- For a null procedure that comes from source, a NULL statement is
-- provided by the parser, which carries the source location of the
-- NULL keyword, and has Comes_From_Source set. For a null procedure
-- from expansion, create one now.
if No (Null_Stmt) then
Null_Stmt := Make_Null_Statement (Loc);
end if;
Null_Body :=
Make_Subprogram_Body (Loc,
Specification => New_Copy_Tree (Spec),
Declarations => New_List,
Handled_Statement_Sequence =>
Make_Handled_Sequence_Of_Statements (Loc,
Statements => New_List (Null_Stmt)));
-- Create new entities for body and formals
Set_Defining_Unit_Name (Specification (Null_Body),
Make_Defining_Identifier
(Sloc (Defining_Entity (N)),
Chars (Defining_Entity (N))));
Form := First (Parameter_Specifications (Specification (Null_Body)));
while Present (Form) loop
Set_Defining_Identifier (Form,
Make_Defining_Identifier
(Sloc (Defining_Identifier (Form)),
Chars (Defining_Identifier (Form))));
Next (Form);
end loop;
-- Determine whether the null procedure may be a completion of a generic
-- suprogram, in which case we use the new null body as the completion
-- and set minimal semantic information on the original declaration,
-- which is rewritten as a null statement.
if Present (Prev) and then Is_Generic_Subprogram (Prev) then
Insert_Before (N, Null_Body);
Set_Ekind (Defining_Entity (N), Ekind (Prev));
Rewrite (N, Make_Null_Statement (Loc));
Analyze_Generic_Subprogram_Body (Null_Body, Prev);
Is_Completion := True;
goto Leave;
else
-- Resolve the types of the formals now, because the freeze point may
-- appear in a different context, e.g. an instantiation.
Form := First (Parameter_Specifications (Specification (Null_Body)));
while Present (Form) loop
if Nkind (Parameter_Type (Form)) /= N_Access_Definition then
Find_Type (Parameter_Type (Form));
elsif No (Access_To_Subprogram_Definition
(Parameter_Type (Form)))
then
Find_Type (Subtype_Mark (Parameter_Type (Form)));
-- The case of a null procedure with a formal that is an
-- access-to-subprogram type, and that is used as an actual
-- in an instantiation is left to the enthusiastic reader.
else
null;
end if;
Next (Form);
end loop;
end if;
-- If there are previous overloadable entities with the same name, check
-- whether any of them is completed by the null procedure.
if Present (Prev) and then Is_Overloadable (Prev) then
Designator := Analyze_Subprogram_Specification (Spec);
Prev := Find_Corresponding_Spec (N);
end if;
if No (Prev) or else not Comes_From_Source (Prev) then
Designator := Analyze_Subprogram_Specification (Spec);
Set_Has_Completion (Designator);
-- Signal to caller that this is a procedure declaration
Is_Completion := False;
-- Null procedures are always inlined, but generic formal subprograms
-- which appear as such in the internal instance of formal packages,
-- need no completion and are not marked Inline.
if Expander_Active
and then Nkind (N) /= N_Formal_Concrete_Subprogram_Declaration
then
Set_Corresponding_Body (N, Defining_Entity (Null_Body));
Set_Body_To_Inline (N, Null_Body);
Set_Is_Inlined (Designator);
end if;
else
-- The null procedure is a completion. We unconditionally rewrite
-- this as a null body (even if expansion is not active), because
-- there are various error checks that are applied on this body
-- when it is analyzed (e.g. correct aspect placement).
if Has_Completion (Prev) then
Error_Msg_Sloc := Sloc (Prev);
Error_Msg_NE ("duplicate body for & declared#", N, Prev);
end if;
Check_Previous_Null_Procedure (N, Prev);
Is_Completion := True;
Rewrite (N, Null_Body);
Analyze (N);
end if;
<<Leave>>
Ignore_SPARK_Mode_Pragmas_In_Instance := Saved_ISMP;
Restore_Ghost_Region (Saved_GM, Saved_IGR);
end Analyze_Null_Procedure;
-----------------------------
-- Analyze_Operator_Symbol --
-----------------------------
-- An operator symbol such as "+" or "and" may appear in context where the
-- literal denotes an entity name, such as "+"(x, y) or in context when it
-- is just a string, as in (conjunction = "or"). In these cases the parser
-- generates this node, and the semantics does the disambiguation. Other
-- such case are actuals in an instantiation, the generic unit in an
-- instantiation, and pragma arguments.
procedure Analyze_Operator_Symbol (N : Node_Id) is
Par : constant Node_Id := Parent (N);
begin
if (Nkind (Par) = N_Function_Call and then N = Name (Par))
or else Nkind (Par) = N_Function_Instantiation
or else (Nkind (Par) = N_Indexed_Component and then N = Prefix (Par))
or else (Nkind (Par) = N_Pragma_Argument_Association
and then not Is_Pragma_String_Literal (Par))
or else Nkind (Par) = N_Subprogram_Renaming_Declaration
or else (Nkind (Par) = N_Attribute_Reference
and then Attribute_Name (Par) /= Name_Value)
then
Find_Direct_Name (N);
else
Change_Operator_Symbol_To_String_Literal (N);
Analyze (N);
end if;
end Analyze_Operator_Symbol;
-----------------------------------
-- Analyze_Parameter_Association --
-----------------------------------
procedure Analyze_Parameter_Association (N : Node_Id) is
begin
Analyze (Explicit_Actual_Parameter (N));
end Analyze_Parameter_Association;
----------------------------
-- Analyze_Procedure_Call --
----------------------------
-- WARNING: This routine manages Ghost regions. Return statements must be
-- replaced by gotos that jump to the end of the routine and restore the
-- Ghost mode.
procedure Analyze_Procedure_Call (N : Node_Id) is
procedure Analyze_Call_And_Resolve;
-- Do Analyze and Resolve calls for procedure call. At the end, check
-- for illegal order dependence.
-- ??? where is the check for illegal order dependencies?
------------------------------
-- Analyze_Call_And_Resolve --
------------------------------
procedure Analyze_Call_And_Resolve is
begin
if Nkind (N) = N_Procedure_Call_Statement then
Analyze_Call (N);
Resolve (N, Standard_Void_Type);
else
Analyze (N);
end if;
end Analyze_Call_And_Resolve;
-- Local variables
Actuals : constant List_Id := Parameter_Associations (N);
Loc : constant Source_Ptr := Sloc (N);
P : constant Node_Id := Name (N);
Saved_GM : constant Ghost_Mode_Type := Ghost_Mode;
Saved_IGR : constant Node_Id := Ignored_Ghost_Region;
-- Save the Ghost-related attributes to restore on exit
Actual : Node_Id;
New_N : Node_Id;
-- Start of processing for Analyze_Procedure_Call
begin
-- The syntactic construct: PREFIX ACTUAL_PARAMETER_PART can denote
-- a procedure call or an entry call. The prefix may denote an access
-- to subprogram type, in which case an implicit dereference applies.
-- If the prefix is an indexed component (without implicit dereference)
-- then the construct denotes a call to a member of an entire family.
-- If the prefix is a simple name, it may still denote a call to a
-- parameterless member of an entry family. Resolution of these various
-- interpretations is delicate.
-- Do not analyze machine code statements to avoid rejecting them in
-- CodePeer mode.
if CodePeer_Mode and then Nkind (P) = N_Qualified_Expression then
Set_Etype (P, Standard_Void_Type);
else
Analyze (P);
end if;
-- If this is a call of the form Obj.Op, the call may have been analyzed
-- and possibly rewritten into a block, in which case we are done.
if Analyzed (N) then
return;
-- If there is an error analyzing the name (which may have been
-- rewritten if the original call was in prefix notation) then error
-- has been emitted already, mark node and return.
elsif Error_Posted (N) or else Etype (Name (N)) = Any_Type then
Set_Etype (N, Any_Type);
return;
end if;
-- A procedure call is Ghost when its name denotes a Ghost procedure.
-- Set the mode now to ensure that any nodes generated during analysis
-- and expansion are properly marked as Ghost.
Mark_And_Set_Ghost_Procedure_Call (N);
-- Otherwise analyze the parameters
if Present (Actuals) then
Actual := First (Actuals);
while Present (Actual) loop
Analyze (Actual);
Check_Parameterless_Call (Actual);
Next (Actual);
end loop;
end if;
-- Special processing for Elab_Spec, Elab_Body and Elab_Subp_Body calls
if Nkind (P) = N_Attribute_Reference
and then Attribute_Name (P) in Name_Elab_Spec
| Name_Elab_Body
| Name_Elab_Subp_Body
then
if Present (Actuals) then
Error_Msg_N
("no parameters allowed for this call", First (Actuals));
goto Leave;
end if;
Set_Etype (N, Standard_Void_Type);
Set_Analyzed (N);
elsif Is_Entity_Name (P)
and then Is_Record_Type (Etype (Entity (P)))
and then Remote_AST_I_Dereference (P)
then
goto Leave;
elsif Is_Entity_Name (P)
and then Ekind (Entity (P)) /= E_Entry_Family
then
if Is_Access_Type (Etype (P))
and then Ekind (Designated_Type (Etype (P))) = E_Subprogram_Type
and then No (Actuals)
and then Comes_From_Source (N)
then
Error_Msg_N ("missing explicit dereference in call", N);
elsif Ekind (Entity (P)) = E_Operator then
Error_Msg_Name_1 := Chars (P);
Error_Msg_N ("operator % cannot be used as a procedure", N);
end if;
Analyze_Call_And_Resolve;
-- If the prefix is the simple name of an entry family, this is a
-- parameterless call from within the task body itself.
elsif Is_Entity_Name (P)
and then Nkind (P) = N_Identifier
and then Ekind (Entity (P)) = E_Entry_Family
and then Present (Actuals)
and then No (Next (First (Actuals)))
then
-- Can be call to parameterless entry family. What appears to be the
-- sole argument is in fact the entry index. Rewrite prefix of node
-- accordingly. Source representation is unchanged by this
-- transformation.
New_N :=
Make_Indexed_Component (Loc,
Prefix =>
Make_Selected_Component (Loc,
Prefix => New_Occurrence_Of (Scope (Entity (P)), Loc),
Selector_Name => New_Occurrence_Of (Entity (P), Loc)),
Expressions => Actuals);
Set_Name (N, New_N);
Set_Etype (New_N, Standard_Void_Type);
Set_Parameter_Associations (N, No_List);
Analyze_Call_And_Resolve;
elsif Nkind (P) = N_Explicit_Dereference then
if Ekind (Etype (P)) = E_Subprogram_Type then
Analyze_Call_And_Resolve;
else
Error_Msg_N ("expect access to procedure in call", P);
end if;
-- The name can be a selected component or an indexed component that
-- yields an access to subprogram. Such a prefix is legal if the call
-- has parameter associations.
elsif Is_Access_Type (Etype (P))
and then Ekind (Designated_Type (Etype (P))) = E_Subprogram_Type
then
if Present (Actuals) then
Analyze_Call_And_Resolve;
else
Error_Msg_N ("missing explicit dereference in call ", N);
end if;
-- If not an access to subprogram, then the prefix must resolve to the
-- name of an entry, entry family, or protected operation.
-- For the case of a simple entry call, P is a selected component where
-- the prefix is the task and the selector name is the entry. A call to
-- a protected procedure will have the same syntax. If the protected
-- object contains overloaded operations, the entity may appear as a
-- function, the context will select the operation whose type is Void.
elsif Nkind (P) = N_Selected_Component
and then Ekind (Entity (Selector_Name (P)))
in E_Entry | E_Function | E_Procedure
then
-- When front-end inlining is enabled, as with SPARK_Mode, a call
-- in prefix notation may still be missing its controlling argument,
-- so perform the transformation now.
if SPARK_Mode = On and then In_Inlined_Body then
declare
Subp : constant Entity_Id := Entity (Selector_Name (P));
Typ : constant Entity_Id := Etype (Prefix (P));
begin
if Is_Tagged_Type (Typ)
and then Present (First_Formal (Subp))
and then (Etype (First_Formal (Subp)) = Typ
or else
Class_Wide_Type (Etype (First_Formal (Subp))) = Typ)
and then Try_Object_Operation (P)
then
return;
else
Analyze_Call_And_Resolve;
end if;
end;
else
Analyze_Call_And_Resolve;
end if;
elsif Nkind (P) = N_Selected_Component
and then Ekind (Entity (Selector_Name (P))) = E_Entry_Family
and then Present (Actuals)
and then No (Next (First (Actuals)))
then
-- Can be call to parameterless entry family. What appears to be the
-- sole argument is in fact the entry index. Rewrite prefix of node
-- accordingly. Source representation is unchanged by this
-- transformation.
New_N :=
Make_Indexed_Component (Loc,
Prefix => New_Copy (P),
Expressions => Actuals);
Set_Name (N, New_N);
Set_Etype (New_N, Standard_Void_Type);
Set_Parameter_Associations (N, No_List);
Analyze_Call_And_Resolve;
-- For the case of a reference to an element of an entry family, P is
-- an indexed component whose prefix is a selected component (task and
-- entry family), and whose index is the entry family index.
elsif Nkind (P) = N_Indexed_Component
and then Nkind (Prefix (P)) = N_Selected_Component
and then Ekind (Entity (Selector_Name (Prefix (P)))) = E_Entry_Family
then
Analyze_Call_And_Resolve;
-- If the prefix is the name of an entry family, it is a call from
-- within the task body itself.
elsif Nkind (P) = N_Indexed_Component
and then Nkind (Prefix (P)) = N_Identifier
and then Ekind (Entity (Prefix (P))) = E_Entry_Family
then
New_N :=
Make_Selected_Component (Loc,
Prefix =>
New_Occurrence_Of (Scope (Entity (Prefix (P))), Loc),
Selector_Name => New_Occurrence_Of (Entity (Prefix (P)), Loc));
Rewrite (Prefix (P), New_N);
Analyze (P);
Analyze_Call_And_Resolve;
-- In Ada 2012. a qualified expression is a name, but it cannot be a
-- procedure name, so the construct can only be a qualified expression.
elsif Nkind (P) = N_Qualified_Expression
and then Ada_Version >= Ada_2012
then
Rewrite (N, Make_Code_Statement (Loc, Expression => P));
Analyze (N);
-- Anything else is an error
else
Error_Msg_N ("invalid procedure or entry call", N);
end if;
<<Leave>>
Restore_Ghost_Region (Saved_GM, Saved_IGR);
end Analyze_Procedure_Call;
------------------------------
-- Analyze_Return_Statement --
------------------------------
procedure Analyze_Return_Statement (N : Node_Id) is
pragma Assert
(Nkind (N) in N_Extended_Return_Statement | N_Simple_Return_Statement);
Returns_Object : constant Boolean :=
Nkind (N) = N_Extended_Return_Statement
or else
(Nkind (N) = N_Simple_Return_Statement
and then Present (Expression (N)));
-- True if we're returning something; that is, "return <expression>;"
-- or "return Result : T [:= ...]". False for "return;". Used for error
-- checking: If Returns_Object is True, N should apply to a function
-- body; otherwise N should apply to a procedure body, entry body,
-- accept statement, or extended return statement.
function Find_What_It_Applies_To return Entity_Id;
-- Find the entity representing the innermost enclosing body, accept
-- statement, or extended return statement. If the result is a callable
-- construct or extended return statement, then this will be the value
-- of the Return_Applies_To attribute. Otherwise, the program is
-- illegal. See RM-6.5(4/2).
-----------------------------
-- Find_What_It_Applies_To --
-----------------------------
function Find_What_It_Applies_To return Entity_Id is
Result : Entity_Id := Empty;
begin
-- Loop outward through the Scope_Stack, skipping blocks, loops,
-- and postconditions.
for J in reverse 0 .. Scope_Stack.Last loop
Result := Scope_Stack.Table (J).Entity;
exit when Ekind (Result) not in E_Block | E_Loop
and then Chars (Result) /= Name_uPostconditions;
end loop;
pragma Assert (Present (Result));
return Result;
end Find_What_It_Applies_To;
-- Local declarations
Scope_Id : constant Entity_Id := Find_What_It_Applies_To;
Kind : constant Entity_Kind := Ekind (Scope_Id);
Loc : constant Source_Ptr := Sloc (N);
Stm_Entity : constant Entity_Id :=
New_Internal_Entity
(E_Return_Statement, Current_Scope, Loc, 'R');
-- Start of processing for Analyze_Return_Statement
begin
Set_Return_Statement_Entity (N, Stm_Entity);
Set_Etype (Stm_Entity, Standard_Void_Type);
Set_Return_Applies_To (Stm_Entity, Scope_Id);
-- Place Return entity on scope stack, to simplify enforcement of 6.5
-- (4/2): an inner return statement will apply to this extended return.
if Nkind (N) = N_Extended_Return_Statement then
Push_Scope (Stm_Entity);
end if;
-- Check that pragma No_Return is obeyed. Don't complain about the
-- implicitly-generated return that is placed at the end.
if No_Return (Scope_Id)
and then Kind in E_Procedure | E_Generic_Procedure
and then Comes_From_Source (N)
then
Error_Msg_N
("RETURN statement not allowed in No_Return procedure", N);
end if;
-- Warn on any unassigned OUT parameters if in procedure
if Ekind (Scope_Id) = E_Procedure then
Warn_On_Unassigned_Out_Parameter (N, Scope_Id);
end if;
-- Check that functions return objects, and other things do not
if Kind in E_Function | E_Generic_Function then
if not Returns_Object then
Error_Msg_N ("missing expression in return from function", N);
end if;
elsif Kind in E_Procedure | E_Generic_Procedure then
if Returns_Object then
Error_Msg_N ("procedure cannot return value (use function)", N);
end if;
elsif Kind in E_Entry | E_Entry_Family then
if Returns_Object then
if Is_Protected_Type (Scope (Scope_Id)) then
Error_Msg_N ("entry body cannot return value", N);
else
Error_Msg_N ("accept statement cannot return value", N);
end if;
end if;
elsif Kind = E_Return_Statement then
-- We are nested within another return statement, which must be an
-- extended_return_statement.
if Returns_Object then
if Nkind (N) = N_Extended_Return_Statement then
Error_Msg_N
("extended return statement cannot be nested (use `RETURN;`)",
N);
-- Case of a simple return statement with a value inside extended
-- return statement.
else
Error_Msg_N
("return nested in extended return statement cannot return "
& "value (use `RETURN;`)", N);
end if;
end if;
else
Error_Msg_N ("illegal context for return statement", N);
end if;
if Kind in E_Function | E_Generic_Function then
Analyze_Function_Return (N);
elsif Kind in E_Procedure | E_Generic_Procedure then
Set_Return_Present (Scope_Id);
end if;
if Nkind (N) = N_Extended_Return_Statement then
End_Scope;
end if;
Kill_Current_Values (Last_Assignment_Only => True);
Check_Unreachable_Code (N);
Analyze_Dimension (N);
end Analyze_Return_Statement;
-------------------------------------
-- Analyze_Simple_Return_Statement --
-------------------------------------
procedure Analyze_Simple_Return_Statement (N : Node_Id) is
begin
if Present (Expression (N)) then
Mark_Coextensions (N, Expression (N));
end if;
Analyze_Return_Statement (N);
end Analyze_Simple_Return_Statement;
-------------------------
-- Analyze_Return_Type --
-------------------------
procedure Analyze_Return_Type (N : Node_Id) is
Designator : constant Entity_Id := Defining_Entity (N);
Typ : Entity_Id := Empty;
begin
-- Normal case where result definition does not indicate an error
if Result_Definition (N) /= Error then
if Nkind (Result_Definition (N)) = N_Access_Definition then
-- Ada 2005 (AI-254): Handle anonymous access to subprograms
declare
AD : constant Node_Id :=
Access_To_Subprogram_Definition (Result_Definition (N));
begin
if Present (AD) and then Protected_Present (AD) then
Typ := Replace_Anonymous_Access_To_Protected_Subprogram (N);
else
Typ := Access_Definition (N, Result_Definition (N));
end if;
end;
Set_Parent (Typ, Result_Definition (N));
Set_Is_Local_Anonymous_Access (Typ);
Set_Etype (Designator, Typ);
-- Ada 2005 (AI-231): Ensure proper usage of null exclusion
Null_Exclusion_Static_Checks (N);
-- Subtype_Mark case
else
Find_Type (Result_Definition (N));
Typ := Entity (Result_Definition (N));
Set_Etype (Designator, Typ);
-- Ada 2005 (AI-231): Ensure proper usage of null exclusion
Null_Exclusion_Static_Checks (N);
-- If a null exclusion is imposed on the result type, then create
-- a null-excluding itype (an access subtype) and use it as the
-- function's Etype. Note that the null exclusion checks are done
-- right before this, because they don't get applied to types that
-- do not come from source.
if Is_Access_Type (Typ) and then Null_Exclusion_Present (N) then
Set_Etype (Designator,
Create_Null_Excluding_Itype
(T => Typ,
Related_Nod => N,
Scope_Id => Scope (Current_Scope)));
-- The new subtype must be elaborated before use because
-- it is visible outside of the function. However its base
-- type may not be frozen yet, so the reference that will
-- force elaboration must be attached to the freezing of
-- the base type.
-- If the return specification appears on a proper body,
-- the subtype will have been created already on the spec.
if Is_Frozen (Typ) then
if Nkind (Parent (N)) = N_Subprogram_Body
and then Nkind (Parent (Parent (N))) = N_Subunit
then
null;
else
Build_Itype_Reference (Etype (Designator), Parent (N));
end if;
else
Ensure_Freeze_Node (Typ);
declare
IR : constant Node_Id := Make_Itype_Reference (Sloc (N));
begin
Set_Itype (IR, Etype (Designator));
Append_Freeze_Actions (Typ, New_List (IR));
end;
end if;
else
Set_Etype (Designator, Typ);
end if;
if Ekind (Typ) = E_Incomplete_Type
or else (Is_Class_Wide_Type (Typ)
and then Ekind (Root_Type (Typ)) = E_Incomplete_Type)
then
-- AI05-0151: Tagged incomplete types are allowed in all formal
-- parts. Untagged incomplete types are not allowed in bodies.
-- As a consequence, limited views cannot appear in a basic
-- declaration that is itself within a body, because there is
-- no point at which the non-limited view will become visible.
if Ada_Version >= Ada_2012 then
if From_Limited_With (Typ) and then In_Package_Body then
Error_Msg_NE
("invalid use of incomplete type&",
Result_Definition (N), Typ);
-- The return type of a subprogram body cannot be of a
-- formal incomplete type.
elsif Is_Generic_Type (Typ)
and then Nkind (Parent (N)) = N_Subprogram_Body
then
Error_Msg_N
("return type cannot be a formal incomplete type",
Result_Definition (N));
elsif Is_Class_Wide_Type (Typ)
and then Is_Generic_Type (Root_Type (Typ))
and then Nkind (Parent (N)) = N_Subprogram_Body
then
Error_Msg_N
("return type cannot be a formal incomplete type",
Result_Definition (N));
elsif Is_Tagged_Type (Typ) then
null;
-- Use is legal in a thunk generated for an operation
-- inherited from a progenitor.
elsif Is_Thunk (Designator)
and then Present (Non_Limited_View (Typ))
then
null;
elsif Nkind (Parent (N)) = N_Subprogram_Body
or else Nkind (Parent (Parent (N))) in
N_Accept_Statement | N_Entry_Body
then
Error_Msg_NE
("invalid use of untagged incomplete type&",
Designator, Typ);
end if;
-- The type must be completed in the current package. This
-- is checked at the end of the package declaration when
-- Taft-amendment types are identified. If the return type
-- is class-wide, there is no required check, the type can
-- be a bona fide TAT.
if Ekind (Scope (Current_Scope)) = E_Package
and then In_Private_Part (Scope (Current_Scope))
and then not Is_Class_Wide_Type (Typ)
then
Append_Elmt (Designator, Private_Dependents (Typ));
end if;
else
Error_Msg_NE
("invalid use of incomplete type&", Designator, Typ);
end if;
end if;
end if;
-- Case where result definition does indicate an error
else
Set_Etype (Designator, Any_Type);
end if;
end Analyze_Return_Type;
-----------------------------
-- Analyze_Subprogram_Body --
-----------------------------
procedure Analyze_Subprogram_Body (N : Node_Id) is
Loc : constant Source_Ptr := Sloc (N);
Body_Spec : constant Node_Id := Specification (N);
Body_Id : constant Entity_Id := Defining_Entity (Body_Spec);
begin
if Debug_Flag_C then
Write_Str ("==> subprogram body ");
Write_Name (Chars (Body_Id));
Write_Str (" from ");
Write_Location (Loc);
Write_Eol;
Indent;
end if;
Trace_Scope (N, Body_Id, " Analyze subprogram: ");
-- The real work is split out into the helper, so it can do "return;"
-- without skipping the debug output:
Analyze_Subprogram_Body_Helper (N);
if Debug_Flag_C then
Outdent;
Write_Str ("<== subprogram body ");
Write_Name (Chars (Body_Id));
Write_Str (" from ");
Write_Location (Loc);
Write_Eol;
end if;
end Analyze_Subprogram_Body;
------------------------------------
-- Analyze_Subprogram_Body_Helper --
------------------------------------
-- This procedure is called for regular subprogram bodies, generic bodies,
-- and for subprogram stubs of both kinds. In the case of stubs, only the
-- specification matters, and is used to create a proper declaration for
-- the subprogram, or to perform conformance checks.
-- WARNING: This routine manages Ghost regions. Return statements must be
-- replaced by gotos that jump to the end of the routine and restore the
-- Ghost mode.
procedure Analyze_Subprogram_Body_Helper (N : Node_Id) is
Body_Spec : Node_Id := Specification (N);
Body_Id : Entity_Id := Defining_Entity (Body_Spec);
Loc : constant Source_Ptr := Sloc (N);
Prev_Id : constant Entity_Id := Current_Entity_In_Scope (Body_Id);
Conformant : Boolean;
Desig_View : Entity_Id := Empty;
Exch_Views : Elist_Id := No_Elist;
HSS : Node_Id;
Mask_Types : Elist_Id := No_Elist;
Prot_Typ : Entity_Id := Empty;
Spec_Decl : Node_Id := Empty;
Spec_Id : Entity_Id;
Last_Real_Spec_Entity : Entity_Id := Empty;
-- When we analyze a separate spec, the entity chain ends up containing
-- the formals, as well as any itypes generated during analysis of the
-- default expressions for parameters, or the arguments of associated
-- precondition/postcondition pragmas (which are analyzed in the context
-- of the spec since they have visibility on formals).
--
-- These entities belong with the spec and not the body. However we do
-- the analysis of the body in the context of the spec (again to obtain
-- visibility to the formals), and all the entities generated during
-- this analysis end up also chained to the entity chain of the spec.
-- But they really belong to the body, and there is circuitry to move
-- them from the spec to the body.
--
-- However, when we do this move, we don't want to move the real spec
-- entities (first para above) to the body. The Last_Real_Spec_Entity
-- variable points to the last real spec entity, so we only move those
-- chained beyond that point. It is initialized to Empty to deal with
-- the case where there is no separate spec.
function Body_Has_Contract return Boolean;
-- Check whether unanalyzed body has an aspect or pragma that may
-- generate a SPARK contract.
function Body_Has_SPARK_Mode_On return Boolean;
-- Check whether SPARK_Mode On applies to the subprogram body, either
-- because it is specified directly on the body, or because it is
-- inherited from the enclosing subprogram or package.
function Build_Internal_Protected_Declaration
(N : Node_Id) return Entity_Id;
-- A subprogram body without a previous spec that appears in a protected
-- body must be expanded separately to create a subprogram declaration
-- for it, in order to resolve internal calls to it from other protected
-- operations.
--
-- Possibly factor this with Exp_Dist.Copy_Specification ???
procedure Build_Subprogram_Declaration;
-- Create a matching subprogram declaration for subprogram body N
procedure Check_Anonymous_Return;
-- Ada 2005: if a function returns an access type that denotes a task,
-- or a type that contains tasks, we must create a master entity for
-- the anonymous type, which typically will be used in an allocator
-- in the body of the function.
procedure Check_Inline_Pragma (Spec : in out Node_Id);
-- Look ahead to recognize a pragma that may appear after the body.
-- If there is a previous spec, check that it appears in the same
-- declarative part. If the pragma is Inline_Always, perform inlining
-- unconditionally, otherwise only if Front_End_Inlining is requested.
-- If the body acts as a spec, and inlining is required, we create a
-- subprogram declaration for it, in order to attach the body to inline.
-- If pragma does not appear after the body, check whether there is
-- an inline pragma before any local declarations.
procedure Check_Missing_Return;
-- Checks for a function with a no return statements, and also performs
-- the warning checks implemented by Check_Returns. In formal mode, also
-- verify that a function ends with a RETURN and that a procedure does
-- not contain any RETURN.
function Disambiguate_Spec return Entity_Id;
-- When a primitive is declared between the private view and the full
-- view of a concurrent type which implements an interface, a special
-- mechanism is used to find the corresponding spec of the primitive
-- body.
function Exchange_Limited_Views (Subp_Id : Entity_Id) return Elist_Id;
-- Ada 2012 (AI05-0151): Detect whether the profile of Subp_Id contains
-- incomplete types coming from a limited context and replace their
-- limited views with the non-limited ones. Return the list of changes
-- to be used to undo the transformation.
function Is_Private_Concurrent_Primitive
(Subp_Id : Entity_Id) return Boolean;
-- Determine whether subprogram Subp_Id is a primitive of a concurrent
-- type that implements an interface and has a private view.
function Mask_Unfrozen_Types (Spec_Id : Entity_Id) return Elist_Id;
-- N is the body generated for an expression function that is not a
-- completion and Spec_Id the defining entity of its spec. Mark all
-- the not-yet-frozen types referenced by the simple return statement
-- of the function as formally frozen.
procedure Move_Pragmas (From : Node_Id; To : Node_Id);
-- Find all suitable source pragmas at the top of subprogram body
-- From's declarations and move them after arbitrary node To.
-- One exception is pragma SPARK_Mode which is copied rather than moved,
-- as it applies to the body too.
procedure Restore_Limited_Views (Restore_List : Elist_Id);
-- Undo the transformation done by Exchange_Limited_Views.
procedure Set_Trivial_Subprogram (N : Node_Id);
-- Sets the Is_Trivial_Subprogram flag in both spec and body of the
-- subprogram whose body is being analyzed. N is the statement node
-- causing the flag to be set, if the following statement is a return
-- of an entity, we mark the entity as set in source to suppress any
-- warning on the stylized use of function stubs with a dummy return.
procedure Unmask_Unfrozen_Types (Unmask_List : Elist_Id);
-- Undo the transformation done by Mask_Unfrozen_Types
procedure Verify_Overriding_Indicator;
-- If there was a previous spec, the entity has been entered in the
-- current scope previously. If the body itself carries an overriding
-- indicator, check that it is consistent with the known status of the
-- entity.
-----------------------
-- Body_Has_Contract --
-----------------------
function Body_Has_Contract return Boolean is
Decls : constant List_Id := Declarations (N);
Item : Node_Id;
begin
-- Check for aspects that may generate a contract
if Present (Aspect_Specifications (N)) then
Item := First (Aspect_Specifications (N));
while Present (Item) loop
if Is_Subprogram_Contract_Annotation (Item) then
return True;
end if;
Next (Item);
end loop;
end if;
-- Check for pragmas that may generate a contract
if Present (Decls) then
Item := First (Decls);
while Present (Item) loop
if Nkind (Item) = N_Pragma
and then Is_Subprogram_Contract_Annotation (Item)
then
return True;
end if;
Next (Item);
end loop;
end if;
return False;
end Body_Has_Contract;
----------------------------
-- Body_Has_SPARK_Mode_On --
----------------------------
function Body_Has_SPARK_Mode_On return Boolean is
Decls : constant List_Id := Declarations (N);
Item : Node_Id;
begin
-- Check for SPARK_Mode aspect
if Present (Aspect_Specifications (N)) then
Item := First (Aspect_Specifications (N));
while Present (Item) loop
if Get_Aspect_Id (Item) = Aspect_SPARK_Mode then
return Get_SPARK_Mode_From_Annotation (Item) = On;
end if;
Next (Item);
end loop;
end if;
-- Check for SPARK_Mode pragma
if Present (Decls) then
Item := First (Decls);
while Present (Item) loop
-- Pragmas that apply to a subprogram body are usually grouped
-- together. Look for a potential pragma SPARK_Mode among them.
if Nkind (Item) = N_Pragma then
if Get_Pragma_Id (Item) = Pragma_SPARK_Mode then
return Get_SPARK_Mode_From_Annotation (Item) = On;
end if;
-- Otherwise the first non-pragma declarative item terminates
-- the region where pragma SPARK_Mode may appear.
else
exit;
end if;
Next (Item);
end loop;
end if;
-- Otherwise, the applicable SPARK_Mode is inherited from the
-- enclosing subprogram or package.
return SPARK_Mode = On;
end Body_Has_SPARK_Mode_On;
------------------------------------------
-- Build_Internal_Protected_Declaration --
------------------------------------------
function Build_Internal_Protected_Declaration
(N : Node_Id) return Entity_Id
is
procedure Analyze_Pragmas (From : Node_Id);
-- Analyze all pragmas which follow arbitrary node From
---------------------
-- Analyze_Pragmas --
---------------------
procedure Analyze_Pragmas (From : Node_Id) is
Decl : Node_Id;
begin
Decl := Next (From);
while Present (Decl) loop
if Nkind (Decl) = N_Pragma then
Analyze_Pragma (Decl);
-- No candidate pragmas are available for analysis
else
exit;
end if;
Next (Decl);
end loop;
end Analyze_Pragmas;
-- Local variables
Body_Id : constant Entity_Id := Defining_Entity (N);
Loc : constant Source_Ptr := Sloc (N);
Decl : Node_Id;
Formal : Entity_Id;
Formals : List_Id;
Spec : Node_Id;
Spec_Id : Entity_Id;
-- Start of processing for Build_Internal_Protected_Declaration
begin
Formal := First_Formal (Body_Id);
-- The protected operation always has at least one formal, namely the
-- object itself, but it is only placed in the parameter list if
-- expansion is enabled.
if Present (Formal) or else Expander_Active then
Formals := Copy_Parameter_List (Body_Id);
else
Formals := No_List;
end if;
Spec_Id :=
Make_Defining_Identifier (Sloc (Body_Id),
Chars => Chars (Body_Id));
-- Indicate that the entity comes from source, to ensure that cross-
-- reference information is properly generated. The body itself is
-- rewritten during expansion, and the body entity will not appear in
-- calls to the operation.
Set_Comes_From_Source (Spec_Id, True);
if Nkind (Specification (N)) = N_Procedure_Specification then
Spec :=
Make_Procedure_Specification (Loc,
Defining_Unit_Name => Spec_Id,
Parameter_Specifications => Formals);
else
Spec :=
Make_Function_Specification (Loc,
Defining_Unit_Name => Spec_Id,
Parameter_Specifications => Formals,
Result_Definition =>
New_Occurrence_Of (Etype (Body_Id), Loc));
end if;
Decl := Make_Subprogram_Declaration (Loc, Specification => Spec);
Set_Corresponding_Body (Decl, Body_Id);
Set_Corresponding_Spec (N, Spec_Id);
Insert_Before (N, Decl);
-- Associate all aspects and pragmas of the body with the spec. This
-- ensures that these annotations apply to the initial declaration of
-- the subprogram body.
Move_Aspects (From => N, To => Decl);
Move_Pragmas (From => N, To => Decl);
Analyze (Decl);
-- The analysis of the spec may generate pragmas which require manual
-- analysis. Since the generation of the spec and the relocation of
-- the annotations is driven by the expansion of the stand-alone
-- body, the pragmas will not be analyzed in a timely manner. Do this
-- now.
Analyze_Pragmas (Decl);
-- This subprogram has convention Intrinsic as per RM 6.3.1(10/2)
-- ensuring in particular that 'Access is illegal.
Set_Convention (Spec_Id, Convention_Intrinsic);
Set_Has_Completion (Spec_Id);
return Spec_Id;
end Build_Internal_Protected_Declaration;
----------------------------------
-- Build_Subprogram_Declaration --
----------------------------------
procedure Build_Subprogram_Declaration is
Decl : Node_Id;
Subp_Decl : Node_Id;
begin
-- Create a matching subprogram spec using the profile of the body.
-- The structure of the tree is identical, but has new entities for
-- the defining unit name and formal parameters.
Subp_Decl :=
Make_Subprogram_Declaration (Loc,
Specification => Copy_Subprogram_Spec (Body_Spec));
Set_Comes_From_Source (Subp_Decl, True);
-- Also mark parameters as coming from source
if Present (Parameter_Specifications (Specification (Subp_Decl))) then
declare
Form : Entity_Id;
begin
Form :=
First (Parameter_Specifications (Specification (Subp_Decl)));
while Present (Form) loop
Set_Comes_From_Source (Defining_Identifier (Form), True);
Next (Form);
end loop;
end;
end if;
-- Relocate the aspects and relevant pragmas from the subprogram body
-- to the generated spec because it acts as the initial declaration.
Insert_Before (N, Subp_Decl);
Move_Aspects (N, To => Subp_Decl);
Move_Pragmas (N, To => Subp_Decl);
-- Ensure that the generated corresponding spec and original body
-- share the same SPARK_Mode pragma or aspect. As a result, both have
-- the same SPARK_Mode attributes, and the global SPARK_Mode value is
-- correctly set for local subprograms.
Copy_SPARK_Mode_Aspect (Subp_Decl, To => N);
Analyze (Subp_Decl);
-- Propagate the attributes Rewritten_For_C and Corresponding_Proc to
-- the body since the expander may generate calls using that entity.
-- Required to ensure that Expand_Call rewrites calls to this
-- function by calls to the built procedure.
if Modify_Tree_For_C
and then Nkind (Body_Spec) = N_Function_Specification
and then
Rewritten_For_C (Defining_Entity (Specification (Subp_Decl)))
then
Set_Rewritten_For_C (Defining_Entity (Body_Spec));
Set_Corresponding_Procedure (Defining_Entity (Body_Spec),
Corresponding_Procedure
(Defining_Entity (Specification (Subp_Decl))));
end if;
-- Analyze any relocated source pragmas or pragmas created for aspect
-- specifications.
Decl := Next (Subp_Decl);
while Present (Decl) loop
-- Stop the search for pragmas once the body has been reached as
-- this terminates the region where pragmas may appear.
if Decl = N then
exit;
elsif Nkind (Decl) = N_Pragma then
Analyze (Decl);
end if;
Next (Decl);
end loop;
Spec_Id := Defining_Entity (Subp_Decl);
Set_Corresponding_Spec (N, Spec_Id);
-- Mark the generated spec as a source construct to ensure that all
-- calls to it are properly registered in ALI files for GNATprove.
Set_Comes_From_Source (Spec_Id, True);
-- Ensure that the specs of the subprogram declaration and its body
-- are identical, otherwise they will appear non-conformant due to
-- rewritings in the default values of formal parameters.
Body_Spec := Copy_Subprogram_Spec (Body_Spec);
Set_Specification (N, Body_Spec);
Body_Id := Analyze_Subprogram_Specification (Body_Spec);
end Build_Subprogram_Declaration;
----------------------------
-- Check_Anonymous_Return --
----------------------------
procedure Check_Anonymous_Return is
Decl : Node_Id;
Par : Node_Id;
Scop : Entity_Id;
begin
if Present (Spec_Id) then
Scop := Spec_Id;
else
Scop := Body_Id;
end if;
if Ekind (Scop) = E_Function
and then Ekind (Etype (Scop)) = E_Anonymous_Access_Type
and then not Is_Thunk (Scop)
-- Skip internally built functions which handle the case of
-- a null access (see Expand_Interface_Conversion)
and then not (Is_Interface (Designated_Type (Etype (Scop)))
and then not Comes_From_Source (Parent (Scop)))
and then (Has_Task (Designated_Type (Etype (Scop)))
or else
(Is_Class_Wide_Type (Designated_Type (Etype (Scop)))
and then
Is_Limited_Record (Designated_Type (Etype (Scop)))))
and then Expander_Active
then
Decl := Build_Master_Declaration (Loc);
if Present (Declarations (N)) then
Prepend (Decl, Declarations (N));
else
Set_Declarations (N, New_List (Decl));
end if;
Set_Master_Id (Etype (Scop), Defining_Identifier (Decl));
Set_Has_Master_Entity (Scop);
-- Now mark the containing scope as a task master
Par := N;
while Nkind (Par) /= N_Compilation_Unit loop
Par := Parent (Par);
pragma Assert (Present (Par));
-- If we fall off the top, we are at the outer level, and
-- the environment task is our effective master, so nothing
-- to mark.
if Nkind (Par)
in N_Task_Body | N_Block_Statement | N_Subprogram_Body
then
Set_Is_Task_Master (Par, True);
exit;
end if;
end loop;
end if;
end Check_Anonymous_Return;
-------------------------
-- Check_Inline_Pragma --
-------------------------
procedure Check_Inline_Pragma (Spec : in out Node_Id) is
Prag : Node_Id;
Plist : List_Id;
function Is_Inline_Pragma (N : Node_Id) return Boolean;
-- True when N is a pragma Inline or Inline_Always that applies
-- to this subprogram.
-----------------------
-- Is_Inline_Pragma --
-----------------------
function Is_Inline_Pragma (N : Node_Id) return Boolean is
begin
if Nkind (N) = N_Pragma
and then
(Pragma_Name_Unmapped (N) = Name_Inline_Always
or else (Pragma_Name_Unmapped (N) = Name_Inline
and then
(Front_End_Inlining or else Optimization_Level > 0)))
and then Present (Pragma_Argument_Associations (N))
then
declare
Pragma_Arg : Node_Id :=
Expression (First (Pragma_Argument_Associations (N)));
begin
if Nkind (Pragma_Arg) = N_Selected_Component then
Pragma_Arg := Selector_Name (Pragma_Arg);
end if;
return Chars (Pragma_Arg) = Chars (Body_Id);
end;
else
return False;
end if;
end Is_Inline_Pragma;
-- Start of processing for Check_Inline_Pragma
begin
if not Expander_Active then
return;
end if;
if Is_List_Member (N)
and then Present (Next (N))
and then Is_Inline_Pragma (Next (N))
then
Prag := Next (N);
elsif Nkind (N) /= N_Subprogram_Body_Stub
and then Present (Declarations (N))
and then Is_Inline_Pragma (First (Declarations (N)))
then
Prag := First (Declarations (N));
else
Prag := Empty;
end if;
if Present (Prag) then
if Present (Spec_Id) then
if Is_List_Member (N)
and then Is_List_Member (Unit_Declaration_Node (Spec_Id))
and then In_Same_List (N, Unit_Declaration_Node (Spec_Id))
then
Analyze (Prag);
end if;
else
-- Create a subprogram declaration, to make treatment uniform.
-- Make the sloc of the subprogram name that of the entity in
-- the body, so that style checks find identical strings.
declare
Subp : constant Entity_Id :=
Make_Defining_Identifier
(Sloc (Body_Id), Chars (Body_Id));
Decl : constant Node_Id :=
Make_Subprogram_Declaration (Loc,
Specification =>
New_Copy_Tree (Specification (N)));
begin
-- Link the body and the generated spec
Set_Corresponding_Body (Decl, Body_Id);
Set_Corresponding_Spec (N, Subp);
Set_Defining_Unit_Name (Specification (Decl), Subp);
-- To ensure proper coverage when body is inlined, indicate
-- whether the subprogram comes from source.
Preserve_Comes_From_Source (Subp, N);
if Present (First_Formal (Body_Id)) then
Plist := Copy_Parameter_List (Body_Id);
Set_Parameter_Specifications
(Specification (Decl), Plist);
end if;
-- Move aspects to the new spec
if Has_Aspects (N) then
Move_Aspects (N, To => Decl);
end if;
Insert_Before (N, Decl);
Analyze (Decl);
Analyze (Prag);
Set_Has_Pragma_Inline (Subp);
if Pragma_Name (Prag) = Name_Inline_Always then
Set_Is_Inlined (Subp);
Set_Has_Pragma_Inline_Always (Subp);
end if;
-- Prior to copying the subprogram body to create a template
-- for it for subsequent inlining, remove the pragma from
-- the current body so that the copy that will produce the
-- new body will start from a completely unanalyzed tree.
if Nkind (Parent (Prag)) = N_Subprogram_Body then
Rewrite (Prag, Make_Null_Statement (Sloc (Prag)));
end if;
Spec := Subp;
end;
end if;
end if;
end Check_Inline_Pragma;
--------------------------
-- Check_Missing_Return --
--------------------------
procedure Check_Missing_Return is
Id : Entity_Id;
Missing_Ret : Boolean;
begin
if Nkind (Body_Spec) = N_Function_Specification then
if Present (Spec_Id) then
Id := Spec_Id;
else
Id := Body_Id;
end if;
if Return_Present (Id) then
Check_Returns (HSS, 'F', Missing_Ret);
if Missing_Ret then
Set_Has_Missing_Return (Id);
end if;
-- Within a premature instantiation of a package with no body, we
-- build completions of the functions therein, with a Raise
-- statement. No point in complaining about a missing return in
-- this case.
elsif Ekind (Id) = E_Function
and then In_Instance
and then Present (Statements (HSS))
and then Nkind (First (Statements (HSS))) = N_Raise_Program_Error
then
null;
elsif Is_Generic_Subprogram (Id)
or else not Is_Machine_Code_Subprogram (Id)
then
Error_Msg_N ("missing RETURN statement in function body", N);
end if;
-- If procedure with No_Return, check returns
elsif Nkind (Body_Spec) = N_Procedure_Specification then
if Present (Spec_Id) then
Id := Spec_Id;
else
Id := Body_Id;
end if;
if No_Return (Id) then
Check_Returns (HSS, 'P', Missing_Ret, Id);
end if;
end if;
end Check_Missing_Return;
-----------------------
-- Disambiguate_Spec --
-----------------------
function Disambiguate_Spec return Entity_Id is
Priv_Spec : Entity_Id;
Spec_N : Entity_Id;
procedure Replace_Types (To_Corresponding : Boolean);
-- Depending on the flag, replace the type of formal parameters of
-- Body_Id if it is a concurrent type implementing interfaces with
-- the corresponding record type or the other way around.
procedure Replace_Types (To_Corresponding : Boolean) is
Formal : Entity_Id;
Formal_Typ : Entity_Id;
begin
Formal := First_Formal (Body_Id);
while Present (Formal) loop
Formal_Typ := Etype (Formal);
if Is_Class_Wide_Type (Formal_Typ) then
Formal_Typ := Root_Type (Formal_Typ);
end if;
-- From concurrent type to corresponding record
if To_Corresponding then
if Is_Concurrent_Type (Formal_Typ)
and then Present (Corresponding_Record_Type (Formal_Typ))
and then
Present (Interfaces
(Corresponding_Record_Type (Formal_Typ)))
then
Set_Etype (Formal,
Corresponding_Record_Type (Formal_Typ));
end if;
-- From corresponding record to concurrent type
else
if Is_Concurrent_Record_Type (Formal_Typ)
and then Present (Interfaces (Formal_Typ))
then
Set_Etype (Formal,
Corresponding_Concurrent_Type (Formal_Typ));
end if;
end if;
Next_Formal (Formal);
end loop;
end Replace_Types;
-- Start of processing for Disambiguate_Spec
begin
-- Try to retrieve the specification of the body as is. All error
-- messages are suppressed because the body may not have a spec in
-- its current state.
Spec_N := Find_Corresponding_Spec (N, False);
-- It is possible that this is the body of a primitive declared
-- between a private and a full view of a concurrent type. The
-- controlling parameter of the spec carries the concurrent type,
-- not the corresponding record type as transformed by Analyze_
-- Subprogram_Specification. In such cases, we undo the change
-- made by the analysis of the specification and try to find the
-- spec again.
-- Note that wrappers already have their corresponding specs and
-- bodies set during their creation, so if the candidate spec is
-- a wrapper, then we definitely need to swap all types to their
-- original concurrent status.
if No (Spec_N)
or else Is_Primitive_Wrapper (Spec_N)
then
-- Restore all references of corresponding record types to the
-- original concurrent types.
Replace_Types (To_Corresponding => False);
Priv_Spec := Find_Corresponding_Spec (N, False);
-- The current body truly belongs to a primitive declared between
-- a private and a full view. We leave the modified body as is,
-- and return the true spec.
if Present (Priv_Spec)
and then Is_Private_Primitive (Priv_Spec)
then
return Priv_Spec;
end if;
-- In case that this is some sort of error, restore the original
-- state of the body.
Replace_Types (To_Corresponding => True);
end if;
return Spec_N;
end Disambiguate_Spec;
----------------------------
-- Exchange_Limited_Views --
----------------------------
function Exchange_Limited_Views (Subp_Id : Entity_Id) return Elist_Id is
Result : Elist_Id := No_Elist;
procedure Detect_And_Exchange (Id : Entity_Id);
-- Determine whether Id's type denotes an incomplete type associated
-- with a limited with clause and exchange the limited view with the
-- non-limited one when available. Note that the non-limited view
-- may exist because of a with_clause in another unit in the context,
-- but cannot be used because the current view of the enclosing unit
-- is still a limited view.
-------------------------
-- Detect_And_Exchange --
-------------------------
procedure Detect_And_Exchange (Id : Entity_Id) is
Typ : constant Entity_Id := Etype (Id);
begin
if From_Limited_With (Typ)
and then Has_Non_Limited_View (Typ)
and then not From_Limited_With (Scope (Typ))
then
if No (Result) then
Result := New_Elmt_List;
end if;
Prepend_Elmt (Typ, Result);
Prepend_Elmt (Id, Result);
Set_Etype (Id, Non_Limited_View (Typ));
end if;
end Detect_And_Exchange;
-- Local variables
Formal : Entity_Id;
-- Start of processing for Exchange_Limited_Views
begin
-- Do not process subprogram bodies as they already use the non-
-- limited view of types.
if Ekind (Subp_Id) not in E_Function | E_Procedure then
return No_Elist;
end if;
-- Examine all formals and swap views when applicable
Formal := First_Formal (Subp_Id);
while Present (Formal) loop
Detect_And_Exchange (Formal);
Next_Formal (Formal);
end loop;
-- Process the return type of a function
if Ekind (Subp_Id) = E_Function then
Detect_And_Exchange (Subp_Id);
end if;
return Result;
end Exchange_Limited_Views;
-------------------------------------
-- Is_Private_Concurrent_Primitive --
-------------------------------------
function Is_Private_Concurrent_Primitive
(Subp_Id : Entity_Id) return Boolean
is
Formal_Typ : Entity_Id;
begin
if Present (First_Formal (Subp_Id)) then
Formal_Typ := Etype (First_Formal (Subp_Id));
if Is_Concurrent_Record_Type (Formal_Typ) then
if Is_Class_Wide_Type (Formal_Typ) then
Formal_Typ := Root_Type (Formal_Typ);
end if;
Formal_Typ := Corresponding_Concurrent_Type (Formal_Typ);
end if;
-- The type of the first formal is a concurrent tagged type with
-- a private view.
return
Is_Concurrent_Type (Formal_Typ)
and then Is_Tagged_Type (Formal_Typ)
and then Has_Private_Declaration (Formal_Typ);
end if;
return False;
end Is_Private_Concurrent_Primitive;
-------------------------
-- Mask_Unfrozen_Types --
-------------------------
function Mask_Unfrozen_Types (Spec_Id : Entity_Id) return Elist_Id is
Result : Elist_Id := No_Elist;
function Mask_Type_Refs (Node : Node_Id) return Traverse_Result;
-- Mask all types referenced in the subtree rooted at Node
--------------------
-- Mask_Type_Refs --
--------------------
function Mask_Type_Refs (Node : Node_Id) return Traverse_Result is
procedure Mask_Type (Typ : Entity_Id);
-- ??? what does this do?
---------------
-- Mask_Type --
---------------
procedure Mask_Type (Typ : Entity_Id) is
begin
-- Skip Itypes created by the preanalysis
if Is_Itype (Typ)
and then Scope_Within_Or_Same (Scope (Typ), Spec_Id)
then
return;
end if;
if not Is_Frozen (Typ) then
if Scope (Typ) /= Current_Scope then
Set_Is_Frozen (Typ);
Append_New_Elmt (Typ, Result);
else
Freeze_Before (N, Typ);
end if;
end if;
end Mask_Type;
-- Start of processing for Mask_Type_Refs
begin
if Is_Entity_Name (Node) and then Present (Entity (Node)) then
Mask_Type (Etype (Entity (Node)));
if Ekind (Entity (Node)) in E_Component | E_Discriminant then
Mask_Type (Scope (Entity (Node)));
end if;
elsif Nkind (Node) in N_Aggregate | N_Null | N_Type_Conversion
and then Present (Etype (Node))
then
Mask_Type (Etype (Node));
end if;
return OK;
end Mask_Type_Refs;
procedure Mask_References is new Traverse_Proc (Mask_Type_Refs);
-- Local variables
Return_Stmt : constant Node_Id :=
First (Statements (Handled_Statement_Sequence (N)));
-- Start of processing for Mask_Unfrozen_Types
begin
pragma Assert (Nkind (Return_Stmt) = N_Simple_Return_Statement);
Mask_References (Expression (Return_Stmt));
return Result;
end Mask_Unfrozen_Types;
------------------
-- Move_Pragmas --
------------------
procedure Move_Pragmas (From : Node_Id; To : Node_Id) is
Decl : Node_Id;
Insert_Nod : Node_Id;
Next_Decl : Node_Id;
begin
pragma Assert (Nkind (From) = N_Subprogram_Body);
-- The pragmas are moved in an order-preserving fashion
Insert_Nod := To;
-- Inspect the declarations of the subprogram body and relocate all
-- candidate pragmas.
Decl := First (Declarations (From));
while Present (Decl) loop
-- Preserve the following declaration for iteration purposes, due
-- to possible relocation of a pragma.
Next_Decl := Next (Decl);
if Nkind (Decl) = N_Pragma then
-- Copy pragma SPARK_Mode if present in the declarative list
-- of subprogram body From and insert it after node To. This
-- pragma should not be moved, as it applies to the body too.
if Pragma_Name_Unmapped (Decl) = Name_SPARK_Mode then
Insert_After (Insert_Nod, New_Copy_Tree (Decl));
-- Move relevant pragmas to the spec
elsif Pragma_Name_Unmapped (Decl) in Name_Depends
| Name_Ghost
| Name_Global
| Name_Pre
| Name_Precondition
| Name_Post
| Name_Refined_Depends
| Name_Refined_Global
| Name_Refined_Post
| Name_Inline
| Name_Pure_Function
| Name_Volatile_Function
then
Remove (Decl);
Insert_After (Insert_Nod, Decl);
Insert_Nod := Decl;
end if;
-- Skip internally generated code
elsif not Comes_From_Source (Decl) then
null;
-- No candidate pragmas are available for relocation
else
exit;
end if;
Decl := Next_Decl;
end loop;
end Move_Pragmas;
---------------------------
-- Restore_Limited_Views --
---------------------------
procedure Restore_Limited_Views (Restore_List : Elist_Id) is
Elmt : Elmt_Id := First_Elmt (Restore_List);
Id : Entity_Id;
begin
while Present (Elmt) loop
Id := Node (Elmt);
Next_Elmt (Elmt);
Set_Etype (Id, Node (Elmt));
Next_Elmt (Elmt);
end loop;
end Restore_Limited_Views;
----------------------------
-- Set_Trivial_Subprogram --
----------------------------
procedure Set_Trivial_Subprogram (N : Node_Id) is
Nxt : constant Node_Id := Next (N);
begin
Set_Is_Trivial_Subprogram (Body_Id);
if Present (Spec_Id) then
Set_Is_Trivial_Subprogram (Spec_Id);
end if;
if Present (Nxt)
and then Nkind (Nxt) = N_Simple_Return_Statement
and then No (Next (Nxt))
and then Present (Expression (Nxt))
and then Is_Entity_Name (Expression (Nxt))
then
Set_Never_Set_In_Source (Entity (Expression (Nxt)), False);
end if;
end Set_Trivial_Subprogram;
---------------------------
-- Unmask_Unfrozen_Types --
---------------------------
procedure Unmask_Unfrozen_Types (Unmask_List : Elist_Id) is
Elmt : Elmt_Id := First_Elmt (Unmask_List);
begin
while Present (Elmt) loop
Set_Is_Frozen (Node (Elmt), False);
Next_Elmt (Elmt);
end loop;
end Unmask_Unfrozen_Types;
---------------------------------
-- Verify_Overriding_Indicator --
---------------------------------
procedure Verify_Overriding_Indicator is
begin
if Must_Override (Body_Spec) then
if Nkind (Spec_Id) = N_Defining_Operator_Symbol
and then Operator_Matches_Spec (Spec_Id, Spec_Id)
then
null;
-- Overridden controlled primitives may have had their
-- Overridden_Operation field cleared according to the setting of
-- the Is_Hidden flag. An issue arises, however, when analyzing
-- an instance that may have manipulated the flag during
-- expansion. As a result, we add an exception for this case.
elsif not Present (Overridden_Operation (Spec_Id))
and then not (Chars (Spec_Id) in Name_Adjust
| Name_Finalize
| Name_Initialize
and then In_Instance)
then
Error_Msg_NE
("subprogram& is not overriding", Body_Spec, Spec_Id);
-- Overriding indicators aren't allowed for protected subprogram
-- bodies (see the Confirmation in Ada Comment AC95-00213). Change
-- this to a warning if -gnatd.E is enabled.
elsif Ekind (Scope (Spec_Id)) = E_Protected_Type then
Error_Msg_Warn := Error_To_Warning;
Error_Msg_N
("<<overriding indicator not allowed for protected "
& "subprogram body", Body_Spec);
end if;
elsif Must_Not_Override (Body_Spec) then
if Present (Overridden_Operation (Spec_Id)) then
Error_Msg_NE
("subprogram& overrides inherited operation",
Body_Spec, Spec_Id);
elsif Nkind (Spec_Id) = N_Defining_Operator_Symbol
and then Operator_Matches_Spec (Spec_Id, Spec_Id)
then
Error_Msg_NE
("subprogram& overrides predefined operator ",
Body_Spec, Spec_Id);
-- Overriding indicators aren't allowed for protected subprogram
-- bodies (see the Confirmation in Ada Comment AC95-00213). Change
-- this to a warning if -gnatd.E is enabled.
elsif Ekind (Scope (Spec_Id)) = E_Protected_Type then
Error_Msg_Warn := Error_To_Warning;
Error_Msg_N
("<<overriding indicator not allowed "
& "for protected subprogram body", Body_Spec);
-- If this is not a primitive operation, then the overriding
-- indicator is altogether illegal.
elsif not Is_Primitive (Spec_Id) then
Error_Msg_N
("overriding indicator only allowed "
& "if subprogram is primitive", Body_Spec);
end if;
-- If checking the style rule and the operation overrides, then
-- issue a warning about a missing overriding_indicator. Protected
-- subprogram bodies are excluded from this style checking, since
-- they aren't primitives (even though their declarations can
-- override) and aren't allowed to have an overriding_indicator.
elsif Style_Check
and then Present (Overridden_Operation (Spec_Id))
and then Ekind (Scope (Spec_Id)) /= E_Protected_Type
then
pragma Assert (Unit_Declaration_Node (Body_Id) = N);
Style.Missing_Overriding (N, Body_Id);
elsif Style_Check
and then Can_Override_Operator (Spec_Id)
and then not In_Predefined_Unit (Spec_Id)
then
pragma Assert (Unit_Declaration_Node (Body_Id) = N);
Style.Missing_Overriding (N, Body_Id);
end if;
end Verify_Overriding_Indicator;
-- Local variables
Body_Nod : Node_Id := Empty;
Minimum_Acc_Objs : List_Id := No_List;
Saved_GM : constant Ghost_Mode_Type := Ghost_Mode;
Saved_IGR : constant Node_Id := Ignored_Ghost_Region;
Saved_EA : constant Boolean := Expander_Active;
Saved_ISMP : constant Boolean :=
Ignore_SPARK_Mode_Pragmas_In_Instance;
-- Save the Ghost and SPARK mode-related data to restore on exit
-- Start of processing for Analyze_Subprogram_Body_Helper
begin
-- A [generic] subprogram body freezes the contract of the nearest
-- enclosing package body and all other contracts encountered in the
-- same declarative part up to and excluding the subprogram body:
-- package body Nearest_Enclosing_Package
-- with Refined_State => (State => Constit)
-- is
-- Constit : ...;
-- procedure Freezes_Enclosing_Package_Body
-- with Refined_Depends => (Input => Constit) ...
-- This ensures that any annotations referenced by the contract of the
-- [generic] subprogram body are available. This form of freezing is
-- decoupled from the usual Freeze_xxx mechanism because it must also
-- work in the context of generics where normal freezing is disabled.
-- Only bodies coming from source should cause this type of freezing.
-- Expression functions that act as bodies and complete an initial
-- declaration must be included in this category, hence the use of
-- Original_Node.
if Comes_From_Source (Original_Node (N)) then
Freeze_Previous_Contracts (N);
end if;
-- Generic subprograms are handled separately. They always have a
-- generic specification. Determine whether current scope has a
-- previous declaration.
-- If the subprogram body is defined within an instance of the same
-- name, the instance appears as a package renaming, and will be hidden
-- within the subprogram.
if Present (Prev_Id)
and then not Is_Overloadable (Prev_Id)
and then (Nkind (Parent (Prev_Id)) /= N_Package_Renaming_Declaration
or else Comes_From_Source (Prev_Id))
then
if Is_Generic_Subprogram (Prev_Id) then
Spec_Id := Prev_Id;
-- A subprogram body is Ghost when it is stand-alone and subject
-- to pragma Ghost or when the corresponding spec is Ghost. Set
-- the mode now to ensure that any nodes generated during analysis
-- and expansion are properly marked as Ghost.
Mark_And_Set_Ghost_Body (N, Spec_Id);
-- If the body completes the initial declaration of a compilation
-- unit which is subject to pragma Elaboration_Checks, set the
-- model specified by the pragma because it applies to all parts
-- of the unit.
Install_Elaboration_Model (Spec_Id);
Set_Is_Compilation_Unit (Body_Id, Is_Compilation_Unit (Spec_Id));
Set_Is_Child_Unit (Body_Id, Is_Child_Unit (Spec_Id));
Analyze_Generic_Subprogram_Body (N, Spec_Id);
if Nkind (N) = N_Subprogram_Body then
HSS := Handled_Statement_Sequence (N);
Check_Missing_Return;
end if;
goto Leave;
-- Otherwise a previous entity conflicts with the subprogram name.
-- Attempting to enter name will post error.
else
Enter_Name (Body_Id);
goto Leave;
end if;
-- Non-generic case, find the subprogram declaration, if one was seen,
-- or enter new overloaded entity in the current scope. If the
-- Current_Entity is the Body_Id itself, the unit is being analyzed as
-- part of the context of one of its subunits. No need to redo the
-- analysis.
elsif Prev_Id = Body_Id and then Has_Completion (Body_Id) then
goto Leave;
else
Body_Id := Analyze_Subprogram_Specification (Body_Spec);
if Nkind (N) = N_Subprogram_Body_Stub
or else No (Corresponding_Spec (N))
then
if Is_Private_Concurrent_Primitive (Body_Id) then
Spec_Id := Disambiguate_Spec;
-- A subprogram body is Ghost when it is stand-alone and
-- subject to pragma Ghost or when the corresponding spec is
-- Ghost. Set the mode now to ensure that any nodes generated
-- during analysis and expansion are properly marked as Ghost.
Mark_And_Set_Ghost_Body (N, Spec_Id);
-- If the body completes a compilation unit which is subject
-- to pragma Elaboration_Checks, set the model specified by
-- the pragma because it applies to all parts of the unit.
Install_Elaboration_Model (Spec_Id);
else
Spec_Id := Find_Corresponding_Spec (N);
-- A subprogram body is Ghost when it is stand-alone and
-- subject to pragma Ghost or when the corresponding spec is
-- Ghost. Set the mode now to ensure that any nodes generated
-- during analysis and expansion are properly marked as Ghost.
Mark_And_Set_Ghost_Body (N, Spec_Id);
-- If the body completes a compilation unit which is subject
-- to pragma Elaboration_Checks, set the model specified by
-- the pragma because it applies to all parts of the unit.
Install_Elaboration_Model (Spec_Id);
-- In GNATprove mode, if the body has no previous spec, create
-- one so that the inlining machinery can operate properly.
-- Transfer aspects, if any, to the new spec, so that they
-- are legal and can be processed ahead of the body.
-- We make two copies of the given spec, one for the new
-- declaration, and one for the body.
-- ??? This should be conditioned on front-end inlining rather
-- than GNATprove_Mode.
if No (Spec_Id) and then GNATprove_Mode
-- Inlining does not apply during preanalysis of code
and then Full_Analysis
-- Inlining only applies to full bodies, not stubs
and then Nkind (N) /= N_Subprogram_Body_Stub
-- Inlining only applies to bodies in the source code, not to
-- those generated by the compiler. In particular, expression
-- functions, whose body is generated by the compiler, are
-- treated specially by GNATprove.
and then Comes_From_Source (Body_Id)
-- This cannot be done for a compilation unit, which is not
-- in a context where we can insert a new spec.
and then Is_List_Member (N)
-- Inlining only applies to subprograms without contracts,
-- as a contract is a sign that GNATprove should perform a
-- modular analysis of the subprogram instead of a contextual
-- analysis at each call site. The same test is performed in
-- Inline.Can_Be_Inlined_In_GNATprove_Mode. It is repeated
-- here in another form (because the contract has not been
-- attached to the body) to avoid front-end errors in case
-- pragmas are used instead of aspects, because the
-- corresponding pragmas in the body would not be transferred
-- to the spec, leading to legality errors.
and then not Body_Has_Contract
and then not Inside_A_Generic
then
Build_Subprogram_Declaration;
-- If this is a function that returns a constrained array, and
-- we are generating C code, create subprogram declaration
-- to simplify subsequent C generation.
elsif No (Spec_Id)
and then Modify_Tree_For_C
and then Nkind (Body_Spec) = N_Function_Specification
and then Is_Array_Type (Etype (Body_Id))
and then Is_Constrained (Etype (Body_Id))
then
Build_Subprogram_Declaration;
end if;
end if;
-- If this is a duplicate body, no point in analyzing it
if Error_Posted (N) then
goto Leave;
end if;
-- A subprogram body should cause freezing of its own declaration,
-- but if there was no previous explicit declaration, then the
-- subprogram will get frozen too late (there may be code within
-- the body that depends on the subprogram having been frozen,
-- such as uses of extra formals), so we force it to be frozen
-- here. Same holds if the body and spec are compilation units.
-- Finally, if the return type is an anonymous access to protected
-- subprogram, it must be frozen before the body because its
-- expansion has generated an equivalent type that is used when
-- elaborating the body.
-- An exception in the case of Ada 2012, AI05-177: The bodies
-- created for expression functions do not freeze.
if No (Spec_Id)
and then Nkind (Original_Node (N)) /= N_Expression_Function
then
Freeze_Before (N, Body_Id);
elsif Nkind (Parent (N)) = N_Compilation_Unit then
Freeze_Before (N, Spec_Id);
elsif Is_Access_Subprogram_Type (Etype (Body_Id)) then
Freeze_Before (N, Etype (Body_Id));
end if;
else
Spec_Id := Corresponding_Spec (N);
-- A subprogram body is Ghost when it is stand-alone and subject
-- to pragma Ghost or when the corresponding spec is Ghost. Set
-- the mode now to ensure that any nodes generated during analysis
-- and expansion are properly marked as Ghost.
Mark_And_Set_Ghost_Body (N, Spec_Id);
-- If the body completes the initial declaration of a compilation
-- unit which is subject to pragma Elaboration_Checks, set the
-- model specified by the pragma because it applies to all parts
-- of the unit.
Install_Elaboration_Model (Spec_Id);
end if;
end if;
-- Deactivate expansion inside the body of ignored Ghost entities,
-- as this code will ultimately be ignored. This avoids requiring the
-- presence of run-time units which are not needed. Only do this for
-- user entities, as internally generated entitities might still need
-- to be expanded (e.g. those generated for types).
if Present (Ignored_Ghost_Region)
and then Comes_From_Source (Body_Id)
then
Expander_Active := False;
end if;
-- Previously we scanned the body to look for nested subprograms, and
-- rejected an inline directive if nested subprograms were present,
-- because the back-end would generate conflicting symbols for the
-- nested bodies. This is now unnecessary.
-- Look ahead to recognize a pragma Inline that appears after the body
Check_Inline_Pragma (Spec_Id);
-- Deal with special case of a fully private operation in the body of
-- the protected type. We must create a declaration for the subprogram,
-- in order to attach the subprogram that will be used in internal
-- calls. We exclude compiler generated bodies from the expander since
-- the issue does not arise for those cases.
if No (Spec_Id)
and then Comes_From_Source (N)
and then Is_Protected_Type (Current_Scope)
then
Spec_Id := Build_Internal_Protected_Declaration (N);
end if;
-- If we are generating C and this is a function returning a constrained
-- array type for which we must create a procedure with an extra out
-- parameter, build and analyze the body now. The procedure declaration
-- has already been created. We reuse the source body of the function,
-- because in an instance it may contain global references that cannot
-- be reanalyzed. The source function itself is not used any further,
-- so we mark it as having a completion. If the subprogram is a stub the
-- transformation is done later, when the proper body is analyzed.
if Expander_Active
and then Modify_Tree_For_C
and then Present (Spec_Id)
and then Ekind (Spec_Id) = E_Function
and then Nkind (N) /= N_Subprogram_Body_Stub
and then Rewritten_For_C (Spec_Id)
then
Set_Has_Completion (Spec_Id);
Rewrite (N, Build_Procedure_Body_Form (Spec_Id, N));
Analyze (N);
-- The entity for the created procedure must remain invisible, so it
-- does not participate in resolution of subsequent references to the
-- function.
Set_Is_Immediately_Visible (Corresponding_Spec (N), False);
goto Leave;
end if;
-- If a separate spec is present, then deal with freezing issues
if Present (Spec_Id) then
Spec_Decl := Unit_Declaration_Node (Spec_Id);
Verify_Overriding_Indicator;
-- In general, the spec will be frozen when we start analyzing the
-- body. However, for internally generated operations, such as
-- wrapper functions for inherited operations with controlling
-- results, the spec may not have been frozen by the time we expand
-- the freeze actions that include the bodies. In particular, extra
-- formals for accessibility or for return-in-place may need to be
-- generated. Freeze nodes, if any, are inserted before the current
-- body. These freeze actions are also needed in Compile_Only mode to
-- enable the proper back-end type annotations.
-- They are necessary in any case to ensure proper elaboration order
-- in gigi.
if Nkind (N) = N_Subprogram_Body
and then Was_Expression_Function (N)
and then not Has_Completion (Spec_Id)
and then Serious_Errors_Detected = 0
and then (Expander_Active
or else Operating_Mode = Check_Semantics
or else Is_Ignored_Ghost_Entity (Spec_Id))
then
-- The body generated for an expression function that is not a
-- completion is a freeze point neither for the profile nor for
-- anything else. That's why, in order to prevent any freezing
-- during analysis, we need to mask types declared outside the
-- expression (and in an outer scope) that are not yet frozen.
-- This also needs to be done in the case of an ignored Ghost
-- expression function, where the expander isn't active.
Set_Is_Frozen (Spec_Id);
Mask_Types := Mask_Unfrozen_Types (Spec_Id);
elsif not Is_Frozen (Spec_Id)
and then Serious_Errors_Detected = 0
then
Set_Has_Delayed_Freeze (Spec_Id);
Freeze_Before (N, Spec_Id);
end if;
end if;
-- If the subprogram has a class-wide clone, build its body as a copy
-- of the original body, and rewrite body of original subprogram as a
-- wrapper that calls the clone. If N is a stub, this construction will
-- take place when the proper body is analyzed. No action needed if this
-- subprogram has been eliminated.
if Present (Spec_Id)
and then Present (Class_Wide_Clone (Spec_Id))
and then (Comes_From_Source (N) or else Was_Expression_Function (N))
and then Nkind (N) /= N_Subprogram_Body_Stub
and then not (Expander_Active and then Is_Eliminated (Spec_Id))
then
Build_Class_Wide_Clone_Body (Spec_Id, N);
-- This is the new body for the existing primitive operation
Rewrite (N, Build_Class_Wide_Clone_Call
(Sloc (N), New_List, Spec_Id, Parent (Spec_Id)));
Set_Has_Completion (Spec_Id, False);
Analyze (N);
return;
end if;
-- Place subprogram on scope stack, and make formals visible. If there
-- is a spec, the visible entity remains that of the spec.
if Present (Spec_Id) then
Generate_Reference (Spec_Id, Body_Id, 'b', Set_Ref => False);
if Is_Child_Unit (Spec_Id) then
Generate_Reference (Spec_Id, Scope (Spec_Id), 'k', False);
end if;
if Style_Check then
Style.Check_Identifier (Body_Id, Spec_Id);
end if;
Set_Is_Compilation_Unit (Body_Id, Is_Compilation_Unit (Spec_Id));
Set_Is_Child_Unit (Body_Id, Is_Child_Unit (Spec_Id));
if Is_Abstract_Subprogram (Spec_Id) then
Error_Msg_N ("an abstract subprogram cannot have a body", N);
goto Leave;
else
Set_Convention (Body_Id, Convention (Spec_Id));
Set_Has_Completion (Spec_Id);
if Is_Protected_Type (Scope (Spec_Id)) then
Prot_Typ := Scope (Spec_Id);
end if;
-- If this is a body generated for a renaming, do not check for
-- full conformance. The check is redundant, because the spec of
-- the body is a copy of the spec in the renaming declaration,
-- and the test can lead to spurious errors on nested defaults.
if Present (Spec_Decl)
and then not Comes_From_Source (N)
and then
(Nkind (Original_Node (Spec_Decl)) =
N_Subprogram_Renaming_Declaration
or else (Present (Corresponding_Body (Spec_Decl))
and then
Nkind (Unit_Declaration_Node
(Corresponding_Body (Spec_Decl))) =
N_Subprogram_Renaming_Declaration))
then
Conformant := True;
-- Conversely, the spec may have been generated for specless body
-- with an inline pragma. The entity comes from source, which is
-- both semantically correct and necessary for proper inlining.
-- The subprogram declaration itself is not in the source.
elsif Comes_From_Source (N)
and then Present (Spec_Decl)
and then not Comes_From_Source (Spec_Decl)
and then Has_Pragma_Inline (Spec_Id)
then
Conformant := True;
else
Check_Conformance
(Body_Id, Spec_Id,
Fully_Conformant, True, Conformant, Body_Id);
end if;
-- If the body is not fully conformant, we have to decide if we
-- should analyze it or not. If it has a really messed up profile
-- then we probably should not analyze it, since we will get too
-- many bogus messages.
-- Our decision is to go ahead in the non-fully conformant case
-- only if it is at least mode conformant with the spec. Note
-- that the call to Check_Fully_Conformant has issued the proper
-- error messages to complain about the lack of conformance.
if not Conformant
and then not Mode_Conformant (Body_Id, Spec_Id)
then
goto Leave;
end if;
end if;
-- In the case we are dealing with an expression function we check
-- the formals attached to the spec instead of the body - so we don't
-- reference body formals.
if Spec_Id /= Body_Id
and then not Is_Expression_Function (Spec_Id)
then
Reference_Body_Formals (Spec_Id, Body_Id);
end if;
Set_Ekind (Body_Id, E_Subprogram_Body);
if Nkind (N) = N_Subprogram_Body_Stub then
Set_Corresponding_Spec_Of_Stub (N, Spec_Id);
-- Regular body
else
Set_Corresponding_Spec (N, Spec_Id);
-- Ada 2005 (AI-345): If the operation is a primitive operation
-- of a concurrent type, the type of the first parameter has been
-- replaced with the corresponding record, which is the proper
-- run-time structure to use. However, within the body there may
-- be uses of the formals that depend on primitive operations
-- of the type (in particular calls in prefixed form) for which
-- we need the original concurrent type. The operation may have
-- several controlling formals, so the replacement must be done
-- for all of them.
if Comes_From_Source (Spec_Id)
and then Present (First_Entity (Spec_Id))
and then Ekind (Etype (First_Entity (Spec_Id))) = E_Record_Type
and then Is_Tagged_Type (Etype (First_Entity (Spec_Id)))
and then Present (Interfaces (Etype (First_Entity (Spec_Id))))
and then Present (Corresponding_Concurrent_Type
(Etype (First_Entity (Spec_Id))))
then
declare
Typ : constant Entity_Id := Etype (First_Entity (Spec_Id));
Form : Entity_Id;
begin
Form := First_Formal (Spec_Id);
while Present (Form) loop
if Etype (Form) = Typ then
Set_Etype (Form, Corresponding_Concurrent_Type (Typ));
end if;
Next_Formal (Form);
end loop;
end;
end if;
-- Make the formals visible, and place subprogram on scope stack.
-- This is also the point at which we set Last_Real_Spec_Entity
-- to mark the entities which will not be moved to the body.
Install_Formals (Spec_Id);
Last_Real_Spec_Entity := Last_Entity (Spec_Id);
-- Within an instance, add local renaming declarations so that
-- gdb can retrieve the values of actuals more easily. This is
-- only relevant if generating code.
if Is_Generic_Instance (Spec_Id)
and then Is_Wrapper_Package (Current_Scope)
and then Expander_Active
then
Build_Subprogram_Instance_Renamings (N, Current_Scope);
end if;
Push_Scope (Spec_Id);
-- Make sure that the subprogram is immediately visible. For
-- child units that have no separate spec this is indispensable.
-- Otherwise it is safe albeit redundant.
Set_Is_Immediately_Visible (Spec_Id);
end if;
Set_Corresponding_Body (Unit_Declaration_Node (Spec_Id), Body_Id);
Set_Is_Obsolescent (Body_Id, Is_Obsolescent (Spec_Id));
Set_Scope (Body_Id, Scope (Spec_Id));
-- Case of subprogram body with no previous spec
else
-- Check for style warning required
if Style_Check
-- Only apply check for source level subprograms for which checks
-- have not been suppressed.
and then Comes_From_Source (Body_Id)
and then not Suppress_Style_Checks (Body_Id)
-- No warnings within an instance
and then not In_Instance
-- No warnings for expression functions
and then Nkind (Original_Node (N)) /= N_Expression_Function
then
Style.Body_With_No_Spec (N);
end if;
New_Overloaded_Entity (Body_Id);
if Nkind (N) /= N_Subprogram_Body_Stub then
Set_Acts_As_Spec (N);
Generate_Definition (Body_Id);
Generate_Reference
(Body_Id, Body_Id, 'b', Set_Ref => False, Force => True);
-- If the body is an entry wrapper created for an entry with
-- preconditions, it must be compiled in the context of the
-- enclosing synchronized object, because it may mention other
-- operations of the type.
if Is_Entry_Wrapper (Body_Id) then
declare
Prot : constant Entity_Id := Etype (First_Entity (Body_Id));
begin
Push_Scope (Prot);
Install_Declarations (Prot);
end;
end if;
Install_Formals (Body_Id);
Push_Scope (Body_Id);
end if;
-- For stubs and bodies with no previous spec, generate references to
-- formals.
Generate_Reference_To_Formals (Body_Id);
end if;
-- Entry barrier functions are generated outside the protected type and
-- should not carry the SPARK_Mode of the enclosing context.
if Nkind (N) = N_Subprogram_Body
and then Is_Entry_Barrier_Function (N)
then
null;
-- The body is generated as part of expression function expansion. When
-- the expression function appears in the visible declarations of a
-- package, the body is added to the private declarations. Since both
-- declarative lists may be subject to a different SPARK_Mode, inherit
-- the mode of the spec.
-- package P with SPARK_Mode is
-- function Expr_Func ... is (...); -- original
-- [function Expr_Func ...;] -- generated spec
-- -- mode is ON
-- private
-- pragma SPARK_Mode (Off);
-- [function Expr_Func ... is return ...;] -- generated body
-- end P; -- mode is ON
elsif not Comes_From_Source (N)
and then Present (Spec_Id)
and then Is_Expression_Function (Spec_Id)
then
Set_SPARK_Pragma (Body_Id, SPARK_Pragma (Spec_Id));
Set_SPARK_Pragma_Inherited
(Body_Id, SPARK_Pragma_Inherited (Spec_Id));
-- Set the SPARK_Mode from the current context (may be overwritten later
-- with explicit pragma). Exclude the case where the SPARK_Mode appears
-- initially on a stand-alone subprogram body, but is then relocated to
-- a generated corresponding spec. In this scenario the mode is shared
-- between the spec and body.
elsif No (SPARK_Pragma (Body_Id)) then
Set_SPARK_Pragma (Body_Id, SPARK_Mode_Pragma);
Set_SPARK_Pragma_Inherited (Body_Id);
end if;
-- A subprogram body may be instantiated or inlined at a later pass.
-- Restore the state of Ignore_SPARK_Mode_Pragmas_In_Instance when it
-- applied to the initial declaration of the body.
if Present (Spec_Id) then
if Ignore_SPARK_Mode_Pragmas (Spec_Id) then
Ignore_SPARK_Mode_Pragmas_In_Instance := True;
end if;
else
-- Save the state of flag Ignore_SPARK_Mode_Pragmas_In_Instance in
-- case the body is instantiated or inlined later and out of context.
-- The body uses this attribute to restore the value of the global
-- flag.
if Ignore_SPARK_Mode_Pragmas_In_Instance then
Set_Ignore_SPARK_Mode_Pragmas (Body_Id);
elsif Ignore_SPARK_Mode_Pragmas (Body_Id) then
Ignore_SPARK_Mode_Pragmas_In_Instance := True;
end if;
end if;
-- Preserve relevant elaboration-related attributes of the context which
-- are no longer available or very expensive to recompute once analysis,
-- resolution, and expansion are over.
if No (Spec_Id) then
Mark_Elaboration_Attributes
(N_Id => Body_Id,
Checks => True,
Warnings => True);
end if;
-- If this is the proper body of a stub, we must verify that the stub
-- conforms to the body, and to the previous spec if one was present.
-- We know already that the body conforms to that spec. This test is
-- only required for subprograms that come from source.
if Nkind (Parent (N)) = N_Subunit
and then Comes_From_Source (N)
and then not Error_Posted (Body_Id)
and then Nkind (Corresponding_Stub (Parent (N))) =
N_Subprogram_Body_Stub
then
declare
Old_Id : constant Entity_Id :=
Defining_Entity
(Specification (Corresponding_Stub (Parent (N))));
Conformant : Boolean := False;
begin
if No (Spec_Id) then
Check_Fully_Conformant (Body_Id, Old_Id);
else
Check_Conformance
(Body_Id, Old_Id, Fully_Conformant, False, Conformant);
if not Conformant then
-- The stub was taken to be a new declaration. Indicate that
-- it lacks a body.
Set_Has_Completion (Old_Id, False);
end if;
end if;
end;
end if;
Set_Has_Completion (Body_Id);
Check_Eliminated (Body_Id);
-- Analyze any aspect specifications that appear on the subprogram body
-- stub. Stop the analysis now as the stub does not have a declarative
-- or a statement part, and it cannot be inlined.
if Nkind (N) = N_Subprogram_Body_Stub then
if Has_Aspects (N) then
Analyze_Aspects_On_Subprogram_Body_Or_Stub (N);
end if;
goto Leave;
end if;
-- Handle inlining
if Expander_Active
and then Serious_Errors_Detected = 0
and then Present (Spec_Id)
and then Has_Pragma_Inline (Spec_Id)
then
-- Legacy implementation (relying on front-end inlining)
if not Back_End_Inlining then
if Has_Pragma_Inline_Always (Spec_Id)
or else (Front_End_Inlining
and then not Opt.Disable_FE_Inline)
then
Build_Body_To_Inline (N, Spec_Id);
end if;
-- New implementation (relying on back-end inlining)
else
if Has_Pragma_Inline_Always (Spec_Id)
or else Optimization_Level > 0
then
-- Handle function returning an unconstrained type
if Comes_From_Source (Body_Id)
and then Ekind (Spec_Id) = E_Function
and then Returns_Unconstrained_Type (Spec_Id)
-- If function builds in place, i.e. returns a limited type,
-- inlining cannot be done.
and then not Is_Limited_Type (Etype (Spec_Id))
then
Check_And_Split_Unconstrained_Function (N, Spec_Id, Body_Id);
else
declare
Subp_Body : constant Node_Id :=
Unit_Declaration_Node (Body_Id);
Subp_Decl : constant List_Id := Declarations (Subp_Body);
begin
-- Do not pass inlining to the backend if the subprogram
-- has declarations or statements which cannot be inlined
-- by the backend. This check is done here to emit an
-- error instead of the generic warning message reported
-- by the GCC backend (ie. "function might not be
-- inlinable").
if Present (Subp_Decl)
and then Has_Excluded_Declaration (Spec_Id, Subp_Decl)
then
null;
elsif Has_Excluded_Statement
(Spec_Id,
Statements
(Handled_Statement_Sequence (Subp_Body)))
then
null;
-- If the backend inlining is available then at this
-- stage we only have to mark the subprogram as inlined.
-- The expander will take care of registering it in the
-- table of subprograms inlined by the backend a part of
-- processing calls to it (cf. Expand_Call)
else
Set_Is_Inlined (Spec_Id);
end if;
end;
end if;
end if;
end if;
-- In GNATprove mode, inline only when there is a separate subprogram
-- declaration for now, as inlining of subprogram bodies acting as
-- declarations, or subprogram stubs, are not supported by front-end
-- inlining. This inlining should occur after analysis of the body, so
-- that it is known whether the value of SPARK_Mode, which can be
-- defined by a pragma inside the body, is applicable to the body.
-- Inlining can be disabled with switch -gnatdm
elsif GNATprove_Mode
and then Full_Analysis
and then not Inside_A_Generic
and then Present (Spec_Id)
and then
Nkind (Unit_Declaration_Node (Spec_Id)) = N_Subprogram_Declaration
and then Body_Has_SPARK_Mode_On
and then Can_Be_Inlined_In_GNATprove_Mode (Spec_Id, Body_Id)
and then not Body_Has_Contract
and then not Debug_Flag_M
then
Build_Body_To_Inline (N, Spec_Id);
end if;
-- When generating code, inherited pre/postconditions are handled when
-- expanding the corresponding contract.
-- Ada 2005 (AI-262): In library subprogram bodies, after the analysis
-- of the specification we have to install the private withed units.
-- This holds for child units as well.
if Is_Compilation_Unit (Body_Id)
or else Nkind (Parent (N)) = N_Compilation_Unit
then
Install_Private_With_Clauses (Body_Id);
end if;
Check_Anonymous_Return;
-- Set the Protected_Formal field of each extra formal of the protected
-- subprogram to reference the corresponding extra formal of the
-- subprogram that implements it. For regular formals this occurs when
-- the protected subprogram's declaration is expanded, but the extra
-- formals don't get created until the subprogram is frozen. We need to
-- do this before analyzing the protected subprogram's body so that any
-- references to the original subprogram's extra formals will be changed
-- refer to the implementing subprogram's formals (see Expand_Formal).
if Present (Spec_Id)
and then Is_Protected_Type (Scope (Spec_Id))
and then Present (Protected_Body_Subprogram (Spec_Id))
then
declare
Impl_Subp : constant Entity_Id :=
Protected_Body_Subprogram (Spec_Id);
Prot_Ext_Formal : Entity_Id := Extra_Formals (Spec_Id);
Impl_Ext_Formal : Entity_Id := Extra_Formals (Impl_Subp);
begin
while Present (Prot_Ext_Formal) loop
pragma Assert (Present (Impl_Ext_Formal));
Set_Protected_Formal (Prot_Ext_Formal, Impl_Ext_Formal);
Next_Formal_With_Extras (Prot_Ext_Formal);
Next_Formal_With_Extras (Impl_Ext_Formal);
end loop;
end;
end if;
-- Generate minimum accessibility local objects to correspond with
-- any extra formal added for anonymous access types. This new local
-- object can then be used instead of the formal in case it is used
-- in an actual to a call to a nested subprogram.
-- This method is used to supplement our "small integer model" for
-- accessibility-check generation (for more information see
-- Dynamic_Accessibility_Level).
-- Because we allow accessibility values greater than our expected value
-- passing along the same extra accessibility formal as an actual
-- to a nested subprogram becomes a problem because high values mean
-- different things to the callee even though they are the same to the
-- caller. So, as described in the first section, we create a local
-- object representing the minimum of the accessibility level value that
-- is passed in and the accessibility level of the callee's parameter
-- and locals and use it in the case of a call to a nested subprogram.
-- This generated object is refered to as a "minimum accessiblity
-- level."
if Present (Spec_Id) or else Present (Body_Id) then
Body_Nod := Unit_Declaration_Node (Body_Id);
declare
Form : Entity_Id;
begin
-- Grab the appropriate formal depending on whether there exists
-- an actual spec for the subprogram or whether we are dealing
-- with a protected subprogram.
if Present (Spec_Id) then
if Present (Protected_Body_Subprogram (Spec_Id)) then
Form := First_Formal (Protected_Body_Subprogram (Spec_Id));
else
Form := First_Formal (Spec_Id);
end if;
else
Form := First_Formal (Body_Id);
end if;
-- Loop through formals if the subprogram is capable of accepting
-- a generated local object. If it is not then it is also not
-- capable of having local subprograms meaning it would not need
-- a minimum accessibility level object anyway.
if Present (Body_Nod)
and then Has_Declarations (Body_Nod)
and then Nkind (Body_Nod) /= N_Package_Specification
then
while Present (Form) loop
if Present (Extra_Accessibility (Form))
and then No (Minimum_Accessibility (Form))
then
-- Generate the minimum accessibility level object
-- A60b : natural := natural'min(1, paramL);
declare
Loc : constant Source_Ptr := Sloc (Body_Nod);
Obj_Node : constant Node_Id :=
Make_Object_Declaration (Loc,
Defining_Identifier =>
Make_Temporary
(Loc, 'A', Extra_Accessibility (Form)),
Object_Definition => New_Occurrence_Of
(Standard_Natural, Loc),
Expression =>
Make_Attribute_Reference (Loc,
Prefix => New_Occurrence_Of
(Standard_Natural, Loc),
Attribute_Name => Name_Min,
Expressions => New_List (
Make_Integer_Literal (Loc,
Object_Access_Level (Form)),
New_Occurrence_Of
(Extra_Accessibility (Form), Loc))));
begin
-- Add the new local object to the Minimum_Acc_Obj to
-- be later prepended to the subprogram's list of
-- declarations after we are sure all expansion is
-- done.
if Present (Minimum_Acc_Objs) then
Prepend (Obj_Node, Minimum_Acc_Objs);
else
Minimum_Acc_Objs := New_List (Obj_Node);
end if;
-- Register the object and analyze it
Set_Minimum_Accessibility
(Form, Defining_Identifier (Obj_Node));
Analyze (Obj_Node);
end;
end if;
Next_Formal (Form);
end loop;
end if;
end;
end if;
-- Now we can go on to analyze the body
HSS := Handled_Statement_Sequence (N);
Set_Actual_Subtypes (N, Current_Scope);
-- Add a declaration for the Protection object, renaming declarations
-- for discriminals and privals and finally a declaration for the entry
-- family index (if applicable). This form of early expansion is done
-- when the Expander is active because Install_Private_Data_Declarations
-- references entities which were created during regular expansion. The
-- subprogram entity must come from source, and not be an internally
-- generated subprogram.
if Expander_Active
and then Present (Prot_Typ)
and then Present (Spec_Id)
and then Comes_From_Source (Spec_Id)
and then not Is_Eliminated (Spec_Id)
then
Install_Private_Data_Declarations
(Sloc (N), Spec_Id, Prot_Typ, N, Declarations (N));
end if;
-- Ada 2012 (AI05-0151): Incomplete types coming from a limited context
-- may now appear in parameter and result profiles. Since the analysis
-- of a subprogram body may use the parameter and result profile of the
-- spec, swap any limited views with their non-limited counterpart.
if Ada_Version >= Ada_2012 and then Present (Spec_Id) then
Exch_Views := Exchange_Limited_Views (Spec_Id);
end if;
-- If the return type is an anonymous access type whose designated type
-- is the limited view of a class-wide type and the non-limited view is
-- available, update the return type accordingly.
if Ada_Version >= Ada_2005 and then Present (Spec_Id) then
declare
Etyp : Entity_Id;
Rtyp : Entity_Id;
begin
Rtyp := Etype (Spec_Id);
if Ekind (Rtyp) = E_Anonymous_Access_Type then
Etyp := Directly_Designated_Type (Rtyp);
if Is_Class_Wide_Type (Etyp)
and then From_Limited_With (Etyp)
then
Desig_View := Etyp;
Set_Directly_Designated_Type (Rtyp, Available_View (Etyp));
end if;
end if;
end;
end if;
-- Analyze any aspect specifications that appear on the subprogram body
if Has_Aspects (N) then
Analyze_Aspects_On_Subprogram_Body_Or_Stub (N);
end if;
Analyze_Declarations (Declarations (N));
-- Verify that the SPARK_Mode of the body agrees with that of its spec
if Present (Spec_Id) and then Present (SPARK_Pragma (Body_Id)) then
if Present (SPARK_Pragma (Spec_Id)) then
if Get_SPARK_Mode_From_Annotation (SPARK_Pragma (Spec_Id)) = Off
and then
Get_SPARK_Mode_From_Annotation (SPARK_Pragma (Body_Id)) = On
then
Error_Msg_Sloc := Sloc (SPARK_Pragma (Body_Id));
Error_Msg_N ("incorrect application of SPARK_Mode#", N);
Error_Msg_Sloc := Sloc (SPARK_Pragma (Spec_Id));
Error_Msg_NE
("\value Off was set for SPARK_Mode on & #", N, Spec_Id);
end if;
elsif Nkind (Parent (Parent (Spec_Id))) = N_Subprogram_Body_Stub then
null;
-- SPARK_Mode Off could complete no SPARK_Mode in a generic, either
-- as specified in source code, or because SPARK_Mode On is ignored
-- in an instance where the context is SPARK_Mode Off/Auto.
elsif Get_SPARK_Mode_From_Annotation (SPARK_Pragma (Body_Id)) = Off
and then (Is_Generic_Unit (Spec_Id) or else In_Instance)
then
null;
else
Error_Msg_Sloc := Sloc (SPARK_Pragma (Body_Id));
Error_Msg_N ("incorrect application of SPARK_Mode #", N);
Error_Msg_Sloc := Sloc (Spec_Id);
Error_Msg_NE
("\no value was set for SPARK_Mode on & #", N, Spec_Id);
end if;
end if;
-- A subprogram body freezes its own contract. Analyze the contract
-- after the declarations of the body have been processed as pragmas
-- are now chained on the contract of the subprogram body.
Analyze_Entry_Or_Subprogram_Body_Contract (Body_Id);
-- Check completion, and analyze the statements
Check_Completion;
Inspect_Deferred_Constant_Completion (Declarations (N));
Analyze (HSS);
-- Add the generated minimum accessibility objects to the subprogram
-- body's list of declarations after analysis of the statements and
-- contracts.
while Is_Non_Empty_List (Minimum_Acc_Objs) loop
if Present (Declarations (Body_Nod)) then
Prepend (Remove_Head (Minimum_Acc_Objs), Declarations (Body_Nod));
else
Set_Declarations
(Body_Nod, New_List (Remove_Head (Minimum_Acc_Objs)));
end if;
end loop;
-- Deal with end of scope processing for the body
Process_End_Label (HSS, 't', Current_Scope);
Update_Use_Clause_Chain;
End_Scope;
-- If we are compiling an entry wrapper, remove the enclosing
-- synchronized object from the stack.
if Is_Entry_Wrapper (Body_Id) then
End_Scope;
end if;
Check_Subprogram_Order (N);
Set_Analyzed (Body_Id);
-- If we have a separate spec, then the analysis of the declarations
-- caused the entities in the body to be chained to the spec id, but
-- we want them chained to the body id. Only the formal parameters
-- end up chained to the spec id in this case.
if Present (Spec_Id) then
-- We must conform to the categorization of our spec
Validate_Categorization_Dependency (N, Spec_Id);
-- And if this is a child unit, the parent units must conform
if Is_Child_Unit (Spec_Id) then
Validate_Categorization_Dependency
(Unit_Declaration_Node (Spec_Id), Spec_Id);
end if;
-- Here is where we move entities from the spec to the body
-- Case where there are entities that stay with the spec
if Present (Last_Real_Spec_Entity) then
-- No body entities (happens when the only real spec entities come
-- from precondition and postcondition pragmas).
if No (Last_Entity (Body_Id)) then
Set_First_Entity (Body_Id, Next_Entity (Last_Real_Spec_Entity));
-- Body entities present (formals), so chain stuff past them
else
Link_Entities
(Last_Entity (Body_Id), Next_Entity (Last_Real_Spec_Entity));
end if;
Set_Next_Entity (Last_Real_Spec_Entity, Empty);
Set_Last_Entity (Body_Id, Last_Entity (Spec_Id));
Set_Last_Entity (Spec_Id, Last_Real_Spec_Entity);
-- Case where there are no spec entities, in this case there can be
-- no body entities either, so just move everything.
-- If the body is generated for an expression function, it may have
-- been preanalyzed already, if 'access was applied to it.
else
if Nkind (Original_Node (Unit_Declaration_Node (Spec_Id))) /=
N_Expression_Function
then
pragma Assert (No (Last_Entity (Body_Id)));
null;
end if;
Set_First_Entity (Body_Id, First_Entity (Spec_Id));
Set_Last_Entity (Body_Id, Last_Entity (Spec_Id));
Set_First_Entity (Spec_Id, Empty);
Set_Last_Entity (Spec_Id, Empty);
end if;
-- Otherwise the body does not complete a previous declaration. Check
-- the categorization of the body against the units it withs.
else
Validate_Categorization_Dependency (N, Body_Id);
end if;
Check_Missing_Return;
-- Now we are going to check for variables that are never modified in
-- the body of the procedure. But first we deal with a special case
-- where we want to modify this check. If the body of the subprogram
-- starts with a raise statement or its equivalent, or if the body
-- consists entirely of a null statement, then it is pretty obvious that
-- it is OK to not reference the parameters. For example, this might be
-- the following common idiom for a stubbed function: statement of the
-- procedure raises an exception. In particular this deals with the
-- common idiom of a stubbed function, which appears something like:
-- function F (A : Integer) return Some_Type;
-- X : Some_Type;
-- begin
-- raise Program_Error;
-- return X;
-- end F;
-- Here the purpose of X is simply to satisfy the annoying requirement
-- in Ada that there be at least one return, and we certainly do not
-- want to go posting warnings on X that it is not initialized. On
-- the other hand, if X is entirely unreferenced that should still
-- get a warning.
-- What we do is to detect these cases, and if we find them, flag the
-- subprogram as being Is_Trivial_Subprogram and then use that flag to
-- suppress unwanted warnings. For the case of the function stub above
-- we have a special test to set X as apparently assigned to suppress
-- the warning.
declare
Stm : Node_Id;
begin
-- Skip call markers installed by the ABE mechanism, labels, and
-- Push_xxx_Error_Label to find the first real statement.
Stm := First (Statements (HSS));
while Nkind (Stm) in N_Call_Marker | N_Label | N_Push_xxx_Label loop
Next (Stm);
end loop;
-- Do the test on the original statement before expansion
declare
Ostm : constant Node_Id := Original_Node (Stm);
begin
-- If explicit raise statement, turn on flag
if Nkind (Ostm) = N_Raise_Statement then
Set_Trivial_Subprogram (Stm);
-- If null statement, and no following statements, turn on flag
elsif Nkind (Stm) = N_Null_Statement
and then Comes_From_Source (Stm)
and then No (Next (Stm))
then
Set_Trivial_Subprogram (Stm);
-- Check for explicit call cases which likely raise an exception
elsif Nkind (Ostm) = N_Procedure_Call_Statement then
if Is_Entity_Name (Name (Ostm)) then
declare
Ent : constant Entity_Id := Entity (Name (Ostm));
begin
-- If the procedure is marked No_Return, then likely it
-- raises an exception, but in any case it is not coming
-- back here, so turn on the flag.
if Present (Ent)
and then Ekind (Ent) = E_Procedure
and then No_Return (Ent)
then
Set_Trivial_Subprogram (Stm);
end if;
end;
end if;
end if;
end;
end;
-- Check for variables that are never modified
declare
E1 : Entity_Id;
E2 : Entity_Id;
begin
-- If there is a separate spec, then transfer Never_Set_In_Source
-- flags from out parameters to the corresponding entities in the
-- body. The reason we do that is we want to post error flags on
-- the body entities, not the spec entities.
if Present (Spec_Id) then
E1 := First_Entity (Spec_Id);
while Present (E1) loop
if Ekind (E1) = E_Out_Parameter then
E2 := First_Entity (Body_Id);
while Present (E2) loop
exit when Chars (E1) = Chars (E2);
Next_Entity (E2);
end loop;
if Present (E2) then
Set_Never_Set_In_Source (E2, Never_Set_In_Source (E1));
end if;
end if;
Next_Entity (E1);
end loop;
end if;
-- Check references of the subprogram spec when we are dealing with
-- an expression function due to it having a generated body.
-- Otherwise, we simply check the formals of the subprogram body.
if Present (Spec_Id)
and then Is_Expression_Function (Spec_Id)
then
Check_References (Spec_Id);
else
Check_References (Body_Id);
end if;
end;
-- Check for nested subprogram, and mark outer level subprogram if so
declare
Ent : Entity_Id;
begin
if Present (Spec_Id) then
Ent := Spec_Id;
else
Ent := Body_Id;
end if;
loop
Ent := Enclosing_Subprogram (Ent);
exit when No (Ent) or else Is_Subprogram (Ent);
end loop;
if Present (Ent) then
Set_Has_Nested_Subprogram (Ent);
end if;
end;
-- Restore the limited views in the spec, if any, to let the back end
-- process it without running into circularities.
if Exch_Views /= No_Elist then
Restore_Limited_Views (Exch_Views);
end if;
if Mask_Types /= No_Elist then
Unmask_Unfrozen_Types (Mask_Types);
end if;
if Present (Desig_View) then
Set_Directly_Designated_Type (Etype (Spec_Id), Desig_View);
end if;
<<Leave>>
if Present (Ignored_Ghost_Region) then
Expander_Active := Saved_EA;
end if;
Ignore_SPARK_Mode_Pragmas_In_Instance := Saved_ISMP;
Restore_Ghost_Region (Saved_GM, Saved_IGR);
end Analyze_Subprogram_Body_Helper;
------------------------------------
-- Analyze_Subprogram_Declaration --
------------------------------------
procedure Analyze_Subprogram_Declaration (N : Node_Id) is
Scop : constant Entity_Id := Current_Scope;
Designator : Entity_Id;
Is_Completion : Boolean;
-- Indicates whether a null procedure declaration is a completion
begin
-- Null procedures are not allowed in SPARK
if Nkind (Specification (N)) = N_Procedure_Specification
and then Null_Present (Specification (N))
then
-- Null procedures are allowed in protected types, following the
-- recent AI12-0147.
if Is_Protected_Type (Current_Scope)
and then Ada_Version < Ada_2012
then
Error_Msg_N ("protected operation cannot be a null procedure", N);
end if;
Analyze_Null_Procedure (N, Is_Completion);
-- The null procedure acts as a body, nothing further is needed
if Is_Completion then
return;
end if;
end if;
Designator := Analyze_Subprogram_Specification (Specification (N));
-- A reference may already have been generated for the unit name, in
-- which case the following call is redundant. However it is needed for
-- declarations that are the rewriting of an expression function.
Generate_Definition (Designator);
-- Set the SPARK mode from the current context (may be overwritten later
-- with explicit pragma). This is not done for entry barrier functions
-- because they are generated outside the protected type and should not
-- carry the mode of the enclosing context.
if Nkind (N) = N_Subprogram_Declaration
and then Is_Entry_Barrier_Function (N)
then
null;
else
Set_SPARK_Pragma (Designator, SPARK_Mode_Pragma);
Set_SPARK_Pragma_Inherited (Designator);
end if;
-- Save the state of flag Ignore_SPARK_Mode_Pragmas_In_Instance in case
-- the body of this subprogram is instantiated or inlined later and out
-- of context. The body uses this attribute to restore the value of the
-- global flag.
if Ignore_SPARK_Mode_Pragmas_In_Instance then
Set_Ignore_SPARK_Mode_Pragmas (Designator);
end if;
-- Preserve relevant elaboration-related attributes of the context which
-- are no longer available or very expensive to recompute once analysis,
-- resolution, and expansion are over.
Mark_Elaboration_Attributes
(N_Id => Designator,
Checks => True,
Warnings => True);
if Debug_Flag_C then
Write_Str ("==> subprogram spec ");
Write_Name (Chars (Designator));
Write_Str (" from ");
Write_Location (Sloc (N));
Write_Eol;
Indent;
end if;
Validate_RCI_Subprogram_Declaration (N);
New_Overloaded_Entity (Designator);
Check_Delayed_Subprogram (Designator);
-- If the type of the first formal of the current subprogram is a non-
-- generic tagged private type, mark the subprogram as being a private
-- primitive. Ditto if this is a function with controlling result, and
-- the return type is currently private. In both cases, the type of the
-- controlling argument or result must be in the current scope for the
-- operation to be primitive.
if Has_Controlling_Result (Designator)
and then Is_Private_Type (Etype (Designator))
and then Scope (Etype (Designator)) = Current_Scope
and then not Is_Generic_Actual_Type (Etype (Designator))
then
Set_Is_Private_Primitive (Designator);
elsif Present (First_Formal (Designator)) then
declare
Formal_Typ : constant Entity_Id :=
Etype (First_Formal (Designator));
begin
Set_Is_Private_Primitive (Designator,
Is_Tagged_Type (Formal_Typ)
and then Scope (Formal_Typ) = Current_Scope
and then Is_Private_Type (Formal_Typ)
and then not Is_Generic_Actual_Type (Formal_Typ));
end;
end if;
-- Ada 2005 (AI-251): Abstract interface primitives must be abstract
-- or null.
if Ada_Version >= Ada_2005
and then Comes_From_Source (N)
and then Is_Dispatching_Operation (Designator)
then
declare
E : Entity_Id;
Etyp : Entity_Id;
begin
if Has_Controlling_Result (Designator) then
Etyp := Etype (Designator);
else
E := First_Entity (Designator);
while Present (E)
and then Is_Formal (E)
and then not Is_Controlling_Formal (E)
loop
Next_Entity (E);
end loop;
Etyp := Etype (E);
end if;
if Is_Access_Type (Etyp) then
Etyp := Directly_Designated_Type (Etyp);
end if;
if Is_Interface (Etyp)
and then not Is_Abstract_Subprogram (Designator)
and then not (Ekind (Designator) = E_Procedure
and then Null_Present (Specification (N)))
then
Error_Msg_Name_1 := Chars (Defining_Entity (N));
-- Specialize error message based on procedures vs. functions,
-- since functions can't be null subprograms.
if Ekind (Designator) = E_Procedure then
Error_Msg_N
("interface procedure % must be abstract or null", N);
else
Error_Msg_N
("interface function % must be abstract", N);
end if;
end if;
end;
end if;
-- What is the following code for, it used to be
-- ??? Set_Suppress_Elaboration_Checks
-- ??? (Designator, Elaboration_Checks_Suppressed (Designator));
-- The following seems equivalent, but a bit dubious
if Elaboration_Checks_Suppressed (Designator) then
Set_Kill_Elaboration_Checks (Designator);
end if;
-- For a compilation unit, set body required. This flag will only be
-- reset if a valid Import or Interface pragma is processed later on.
if Nkind (Parent (N)) = N_Compilation_Unit then
Set_Body_Required (Parent (N), True);
if Ada_Version >= Ada_2005
and then Nkind (Specification (N)) = N_Procedure_Specification
and then Null_Present (Specification (N))
then
Error_Msg_N
("null procedure cannot be declared at library level", N);
end if;
end if;
Generate_Reference_To_Formals (Designator);
Check_Eliminated (Designator);
if Debug_Flag_C then
Outdent;
Write_Str ("<== subprogram spec ");
Write_Name (Chars (Designator));
Write_Str (" from ");
Write_Location (Sloc (N));
Write_Eol;
end if;
-- Indicate that this is a protected operation, because it may be used
-- in subsequent declarations within the protected type.
if Is_Protected_Type (Current_Scope) then
Set_Convention (Designator, Convention_Protected);
end if;
List_Inherited_Pre_Post_Aspects (Designator);
-- Process the aspects before establishing the proper categorization in
-- case the subprogram is a compilation unit and one of its aspects is
-- converted into a categorization pragma.
if Has_Aspects (N) then
Analyze_Aspect_Specifications (N, Designator);
end if;
if Scop /= Standard_Standard and then not Is_Child_Unit (Designator) then
Set_Categorization_From_Scope (Designator, Scop);
-- Otherwise the unit is a compilation unit and/or a child unit. Set the
-- proper categorization of the unit based on its pragmas.
else
Push_Scope (Designator);
Set_Categorization_From_Pragmas (N);
Validate_Categorization_Dependency (N, Designator);
Pop_Scope;
end if;
end Analyze_Subprogram_Declaration;
--------------------------------------
-- Analyze_Subprogram_Specification --
--------------------------------------
-- Reminder: N here really is a subprogram specification (not a subprogram
-- declaration). This procedure is called to analyze the specification in
-- both subprogram bodies and subprogram declarations (specs).
function Analyze_Subprogram_Specification (N : Node_Id) return Entity_Id is
function Is_Invariant_Procedure_Or_Body (E : Entity_Id) return Boolean;
-- Determine whether entity E denotes the spec or body of an invariant
-- procedure.
------------------------------------
-- Is_Invariant_Procedure_Or_Body --
------------------------------------
function Is_Invariant_Procedure_Or_Body (E : Entity_Id) return Boolean is
Decl : constant Node_Id := Unit_Declaration_Node (E);
Spec : Entity_Id;
begin
if Nkind (Decl) = N_Subprogram_Body then
Spec := Corresponding_Spec (Decl);
else
Spec := E;
end if;
return
Present (Spec)
and then Ekind (Spec) = E_Procedure
and then (Is_Partial_Invariant_Procedure (Spec)
or else Is_Invariant_Procedure (Spec));
end Is_Invariant_Procedure_Or_Body;
-- Local variables
Designator : constant Entity_Id := Defining_Entity (N);
Formals : constant List_Id := Parameter_Specifications (N);
-- Start of processing for Analyze_Subprogram_Specification
begin
-- Proceed with analysis. Do not emit a cross-reference entry if the
-- specification comes from an expression function, because it may be
-- the completion of a previous declaration. If it is not, the cross-
-- reference entry will be emitted for the new subprogram declaration.
if Nkind (Parent (N)) /= N_Expression_Function then
Generate_Definition (Designator);
end if;
if Nkind (N) = N_Function_Specification then
Set_Ekind (Designator, E_Function);
Set_Mechanism (Designator, Default_Mechanism);
else
Set_Ekind (Designator, E_Procedure);
Set_Etype (Designator, Standard_Void_Type);
end if;
-- Flag Is_Inlined_Always is True by default, and reversed to False for
-- those subprograms which could be inlined in GNATprove mode (because
-- Body_To_Inline is non-Empty) but should not be inlined.
if GNATprove_Mode then
Set_Is_Inlined_Always (Designator);
end if;
-- Introduce new scope for analysis of the formals and the return type
Set_Scope (Designator, Current_Scope);
if Present (Formals) then
Push_Scope (Designator);
Process_Formals (Formals, N);
-- Check dimensions in N for formals with default expression
Analyze_Dimension_Formals (N, Formals);
-- Ada 2005 (AI-345): If this is an overriding operation of an
-- inherited interface operation, and the controlling type is
-- a synchronized type, replace the type with its corresponding
-- record, to match the proper signature of an overriding operation.
-- Same processing for an access parameter whose designated type is
-- derived from a synchronized interface.
-- This modification is not done for invariant procedures because
-- the corresponding record may not necessarely be visible when the
-- concurrent type acts as the full view of a private type.
-- package Pack is
-- type Prot is private with Type_Invariant => ...;
-- procedure ConcInvariant (Obj : Prot);
-- private
-- protected type Prot is ...;
-- type Concurrent_Record_Prot is record ...;
-- procedure ConcInvariant (Obj : Prot) is
-- ...
-- end ConcInvariant;
-- end Pack;
-- In the example above, both the spec and body of the invariant
-- procedure must utilize the private type as the controlling type.
if Ada_Version >= Ada_2005
and then not Is_Invariant_Procedure_Or_Body (Designator)
then
declare
Formal : Entity_Id;
Formal_Typ : Entity_Id;
Rec_Typ : Entity_Id;
Desig_Typ : Entity_Id;
begin
Formal := First_Formal (Designator);
while Present (Formal) loop
Formal_Typ := Etype (Formal);
if Is_Concurrent_Type (Formal_Typ)
and then Present (Corresponding_Record_Type (Formal_Typ))
then
Rec_Typ := Corresponding_Record_Type (Formal_Typ);
if Present (Interfaces (Rec_Typ)) then
Set_Etype (Formal, Rec_Typ);
end if;
elsif Ekind (Formal_Typ) = E_Anonymous_Access_Type then
Desig_Typ := Designated_Type (Formal_Typ);
if Is_Concurrent_Type (Desig_Typ)
and then Present (Corresponding_Record_Type (Desig_Typ))
then
Rec_Typ := Corresponding_Record_Type (Desig_Typ);
if Present (Interfaces (Rec_Typ)) then
Set_Directly_Designated_Type (Formal_Typ, Rec_Typ);
end if;
end if;
end if;
Next_Formal (Formal);
end loop;
end;
end if;
End_Scope;
-- The subprogram scope is pushed and popped around the processing of
-- the return type for consistency with call above to Process_Formals
-- (which itself can call Analyze_Return_Type), and to ensure that any
-- itype created for the return type will be associated with the proper
-- scope.
elsif Nkind (N) = N_Function_Specification then
Push_Scope (Designator);
Analyze_Return_Type (N);
End_Scope;
end if;
-- Function case
if Nkind (N) = N_Function_Specification then
-- Deal with operator symbol case
if Nkind (Designator) = N_Defining_Operator_Symbol then
Valid_Operator_Definition (Designator);
end if;
May_Need_Actuals (Designator);
-- Ada 2005 (AI-251): If the return type is abstract, verify that
-- the subprogram is abstract also. This does not apply to renaming
-- declarations, where abstractness is inherited, and to subprogram
-- bodies generated for stream operations, which become renamings as
-- bodies.
-- In case of primitives associated with abstract interface types
-- the check is applied later (see Analyze_Subprogram_Declaration).
if Nkind (Original_Node (Parent (N))) not in
N_Abstract_Subprogram_Declaration |
N_Formal_Abstract_Subprogram_Declaration |
N_Subprogram_Renaming_Declaration
then
if Is_Abstract_Type (Etype (Designator)) then
Error_Msg_N
("function that returns abstract type must be abstract", N);
-- Ada 2012 (AI-0073): Extend this test to subprograms with an
-- access result whose designated type is abstract.
elsif Ada_Version >= Ada_2012
and then Nkind (Result_Definition (N)) = N_Access_Definition
and then
not Is_Class_Wide_Type (Designated_Type (Etype (Designator)))
and then Is_Abstract_Type (Designated_Type (Etype (Designator)))
then
Error_Msg_N
("function whose access result designates abstract type "
& "must be abstract", N);
end if;
end if;
end if;
return Designator;
end Analyze_Subprogram_Specification;
-----------------------
-- Check_Conformance --
-----------------------
procedure Check_Conformance
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Ctype : Conformance_Type;
Errmsg : Boolean;
Conforms : out Boolean;
Err_Loc : Node_Id := Empty;
Get_Inst : Boolean := False;
Skip_Controlling_Formals : Boolean := False)
is
procedure Conformance_Error (Msg : String; N : Node_Id := New_Id);
-- Sets Conforms to False. If Errmsg is False, then that's all it does.
-- If Errmsg is True, then processing continues to post an error message
-- for conformance error on given node. Two messages are output. The
-- first message points to the previous declaration with a general "no
-- conformance" message. The second is the detailed reason, supplied as
-- Msg. The parameter N provide information for a possible & insertion
-- in the message, and also provides the location for posting the
-- message in the absence of a specified Err_Loc location.
function Conventions_Match (Id1, Id2 : Entity_Id) return Boolean;
-- True if the conventions of entities Id1 and Id2 match.
function Null_Exclusions_Match (F1, F2 : Entity_Id) return Boolean;
-- True if the null exclusions of two formals of anonymous access type
-- match.
-----------------------
-- Conformance_Error --
-----------------------
procedure Conformance_Error (Msg : String; N : Node_Id := New_Id) is
Enode : Node_Id;
begin
Conforms := False;
if Errmsg then
if No (Err_Loc) then
Enode := N;
else
Enode := Err_Loc;
end if;
Error_Msg_Sloc := Sloc (Old_Id);
case Ctype is
when Type_Conformant =>
Error_Msg_N -- CODEFIX
("not type conformant with declaration#!", Enode);
when Mode_Conformant =>
if Nkind (Parent (Old_Id)) = N_Full_Type_Declaration then
Error_Msg_N
("not mode conformant with operation inherited#!",
Enode);
else
Error_Msg_N
("not mode conformant with declaration#!", Enode);
end if;
when Subtype_Conformant =>
if Nkind (Parent (Old_Id)) = N_Full_Type_Declaration then
Error_Msg_N
("not subtype conformant with operation inherited#!",
Enode);
else
Error_Msg_N
("not subtype conformant with declaration#!", Enode);
end if;
when Fully_Conformant =>
if Nkind (Parent (Old_Id)) = N_Full_Type_Declaration then
Error_Msg_N -- CODEFIX
("not fully conformant with operation inherited#!",
Enode);
else
Error_Msg_N -- CODEFIX
("not fully conformant with declaration#!", Enode);
end if;
end case;
Error_Msg_NE (Msg, Enode, N);
end if;
end Conformance_Error;
-----------------------
-- Conventions_Match --
-----------------------
function Conventions_Match
(Id1 : Entity_Id;
Id2 : Entity_Id) return Boolean
is
begin
-- Ignore the conventions of anonymous access-to-subprogram types
-- and subprogram types because these are internally generated and
-- the only way these may receive a convention is if they inherit
-- the convention of a related subprogram.
if Ekind (Id1) in E_Anonymous_Access_Subprogram_Type
| E_Subprogram_Type
or else
Ekind (Id2) in E_Anonymous_Access_Subprogram_Type
| E_Subprogram_Type
then
return True;
-- Otherwise compare the conventions directly
else
return Convention (Id1) = Convention (Id2);
end if;
end Conventions_Match;
---------------------------
-- Null_Exclusions_Match --
---------------------------
function Null_Exclusions_Match (F1, F2 : Entity_Id) return Boolean is
begin
if not Is_Anonymous_Access_Type (Etype (F1))
or else not Is_Anonymous_Access_Type (Etype (F2))
then
return True;
end if;
-- AI12-0289-1: Case of controlling access parameter; False if the
-- partial view is untagged, the full view is tagged, and no explicit
-- "not null". Note that at this point, we're processing the package
-- body, so private/full types have been swapped. The Sloc test below
-- is to detect the (legal) case where F1 comes after the full type
-- declaration. This part is disabled pre-2005, because "not null" is
-- not allowed on those language versions.
if Ada_Version >= Ada_2005
and then Is_Controlling_Formal (F1)
and then not Null_Exclusion_Present (Parent (F1))
and then not Null_Exclusion_Present (Parent (F2))
then
declare
D : constant Entity_Id := Directly_Designated_Type (Etype (F1));
Partial_View_Of_Desig : constant Entity_Id :=
Incomplete_Or_Partial_View (D);
begin
return No (Partial_View_Of_Desig)
or else Is_Tagged_Type (Partial_View_Of_Desig)
or else Sloc (D) < Sloc (F1);
end;
-- Not a controlling parameter, or one or both views have an explicit
-- "not null".
else
return Null_Exclusion_Present (Parent (F1)) =
Null_Exclusion_Present (Parent (F2));
end if;
end Null_Exclusions_Match;
-- Local Variables
Old_Type : constant Entity_Id := Etype (Old_Id);
New_Type : constant Entity_Id := Etype (New_Id);
Old_Formal : Entity_Id;
New_Formal : Entity_Id;
Old_Formal_Base : Entity_Id;
New_Formal_Base : Entity_Id;
-- Start of processing for Check_Conformance
begin
Conforms := True;
-- We need a special case for operators, since they don't appear
-- explicitly.
if Ctype = Type_Conformant then
if Ekind (New_Id) = E_Operator
and then Operator_Matches_Spec (New_Id, Old_Id)
then
return;
end if;
end if;
-- If both are functions/operators, check return types conform
if Old_Type /= Standard_Void_Type
and then
New_Type /= Standard_Void_Type
then
-- If we are checking interface conformance we omit controlling
-- arguments and result, because we are only checking the conformance
-- of the remaining parameters.
if Has_Controlling_Result (Old_Id)
and then Has_Controlling_Result (New_Id)
and then Skip_Controlling_Formals
then
null;
elsif not Conforming_Types (Old_Type, New_Type, Ctype, Get_Inst) then
if Ctype >= Subtype_Conformant
and then not Predicates_Match (Old_Type, New_Type)
then
Conformance_Error
("\predicate of return type does not match!", New_Id);
else
Conformance_Error
("\return type does not match!", New_Id);
end if;
return;
end if;
-- Ada 2005 (AI-231): In case of anonymous access types check the
-- null-exclusion and access-to-constant attributes match.
if Ada_Version >= Ada_2005
and then Ekind (Etype (Old_Type)) = E_Anonymous_Access_Type
and then
(Can_Never_Be_Null (Old_Type) /= Can_Never_Be_Null (New_Type)
or else Is_Access_Constant (Etype (Old_Type)) /=
Is_Access_Constant (Etype (New_Type)))
then
Conformance_Error ("\return type does not match!", New_Id);
return;
end if;
-- If either is a function/operator and the other isn't, error
elsif Old_Type /= Standard_Void_Type
or else New_Type /= Standard_Void_Type
then
Conformance_Error ("\functions can only match functions!", New_Id);
return;
end if;
-- In subtype conformant case, conventions must match (RM 6.3.1(16)).
-- If this is a renaming as body, refine error message to indicate that
-- the conflict is with the original declaration. If the entity is not
-- frozen, the conventions don't have to match, the one of the renamed
-- entity is inherited.
if Ctype >= Subtype_Conformant then
if not Conventions_Match (Old_Id, New_Id) then
if not Is_Frozen (New_Id) then
null;
elsif Present (Err_Loc)
and then Nkind (Err_Loc) = N_Subprogram_Renaming_Declaration
and then Present (Corresponding_Spec (Err_Loc))
then
Error_Msg_Name_1 := Chars (New_Id);
Error_Msg_Name_2 :=
Name_Ada + Convention_Id'Pos (Convention (New_Id));
Conformance_Error ("\prior declaration for% has convention %!");
return;
else
Conformance_Error ("\calling conventions do not match!");
return;
end if;
else
Check_Formal_Subprogram_Conformance
(New_Id, Old_Id, Err_Loc, Errmsg, Conforms);
if not Conforms then
return;
end if;
end if;
end if;
-- Deal with parameters
-- Note: we use the entity information, rather than going directly
-- to the specification in the tree. This is not only simpler, but
-- absolutely necessary for some cases of conformance tests between
-- operators, where the declaration tree simply does not exist.
Old_Formal := First_Formal (Old_Id);
New_Formal := First_Formal (New_Id);
while Present (Old_Formal) and then Present (New_Formal) loop
if Is_Controlling_Formal (Old_Formal)
and then Is_Controlling_Formal (New_Formal)
and then Skip_Controlling_Formals
then
-- The controlling formals will have different types when
-- comparing an interface operation with its match, but both
-- or neither must be access parameters.
if Is_Access_Type (Etype (Old_Formal))
=
Is_Access_Type (Etype (New_Formal))
then
goto Skip_Controlling_Formal;
else
Conformance_Error
("\access parameter does not match!", New_Formal);
end if;
end if;
-- Ada 2012: Mode conformance also requires that formal parameters
-- be both aliased, or neither.
if Ctype >= Mode_Conformant and then Ada_Version >= Ada_2012 then
if Is_Aliased (Old_Formal) /= Is_Aliased (New_Formal) then
Conformance_Error
("\aliased parameter mismatch!", New_Formal);
end if;
end if;
if Ctype = Fully_Conformant then
-- Names must match. Error message is more accurate if we do
-- this before checking that the types of the formals match.
if Chars (Old_Formal) /= Chars (New_Formal) then
Conformance_Error ("\name& does not match!", New_Formal);
-- Set error posted flag on new formal as well to stop
-- junk cascaded messages in some cases.
Set_Error_Posted (New_Formal);
return;
end if;
-- Null exclusion must match
if not Null_Exclusions_Match (Old_Formal, New_Formal) then
Conformance_Error
("\null exclusion for& does not match", New_Formal);
-- Mark error posted on the new formal to avoid duplicated
-- complaint about types not matching.
Set_Error_Posted (New_Formal);
end if;
end if;
-- Ada 2005 (AI-423): Possible access [sub]type and itype match. This
-- case occurs whenever a subprogram is being renamed and one of its
-- parameters imposes a null exclusion. For example:
-- type T is null record;
-- type Acc_T is access T;
-- subtype Acc_T_Sub is Acc_T;
-- procedure P (Obj : not null Acc_T_Sub); -- itype
-- procedure Ren_P (Obj : Acc_T_Sub) -- subtype
-- renames P;
Old_Formal_Base := Etype (Old_Formal);
New_Formal_Base := Etype (New_Formal);
if Get_Inst then
Old_Formal_Base := Get_Instance_Of (Old_Formal_Base);
New_Formal_Base := Get_Instance_Of (New_Formal_Base);
end if;
-- Types must always match. In the visible part of an instance,
-- usual overloading rules for dispatching operations apply, and
-- we check base types (not the actual subtypes).
if In_Instance_Visible_Part
and then Is_Dispatching_Operation (New_Id)
then
if not Conforming_Types
(T1 => Base_Type (Etype (Old_Formal)),
T2 => Base_Type (Etype (New_Formal)),
Ctype => Ctype,
Get_Inst => Get_Inst)
then
Conformance_Error ("\type of & does not match!", New_Formal);
return;
end if;
elsif not Conforming_Types
(T1 => Old_Formal_Base,
T2 => New_Formal_Base,
Ctype => Ctype,
Get_Inst => Get_Inst)
then
-- Don't give error message if old type is Any_Type. This test
-- avoids some cascaded errors, e.g. in case of a bad spec.
if Errmsg and then Old_Formal_Base = Any_Type then
Conforms := False;
else
if Ctype >= Subtype_Conformant
and then
not Predicates_Match (Old_Formal_Base, New_Formal_Base)
then
Conformance_Error
("\predicate of & does not match!", New_Formal);
else
Conformance_Error
("\type of & does not match!", New_Formal);
if not Dimensions_Match (Old_Formal_Base, New_Formal_Base)
then
Error_Msg_N ("\dimensions mismatch!", New_Formal);
end if;
end if;
end if;
return;
end if;
-- For mode conformance, mode must match
if Ctype >= Mode_Conformant then
if Parameter_Mode (Old_Formal) /= Parameter_Mode (New_Formal) then
if Ekind (New_Id) not in E_Function | E_Procedure
or else not Is_Primitive_Wrapper (New_Id)
then
Conformance_Error ("\mode of & does not match!", New_Formal);
else
declare
T : constant Entity_Id := Find_Dispatching_Type (New_Id);
begin
if Is_Protected_Type (Corresponding_Concurrent_Type (T))
then
Conforms := False;
if Errmsg then
Error_Msg_PT (New_Id, Ultimate_Alias (Old_Id));
end if;
else
Conformance_Error
("\mode of & does not match!", New_Formal);
end if;
end;
end if;
return;
elsif Is_Access_Type (Old_Formal_Base)
and then Is_Access_Type (New_Formal_Base)
and then Is_Access_Constant (Old_Formal_Base) /=
Is_Access_Constant (New_Formal_Base)
then
Conformance_Error
("\constant modifier does not match!", New_Formal);
return;
end if;
end if;
if Ctype >= Subtype_Conformant then
-- Ada 2005 (AI-231): In case of anonymous access types check
-- the null-exclusion and access-to-constant attributes must
-- match. For null exclusion, we test the types rather than the
-- formals themselves, since the attribute is only set reliably
-- on the formals in the Ada 95 case, and we exclude the case
-- where Old_Formal is marked as controlling, to avoid errors
-- when matching completing bodies with dispatching declarations
-- (access formals in the bodies aren't marked Can_Never_Be_Null).
if Ada_Version >= Ada_2005
and then Is_Anonymous_Access_Type (Etype (Old_Formal))
and then Is_Anonymous_Access_Type (Etype (New_Formal))
and then
((Can_Never_Be_Null (Etype (Old_Formal)) /=
Can_Never_Be_Null (Etype (New_Formal))
and then
not Is_Controlling_Formal (Old_Formal))
or else
Is_Access_Constant (Etype (Old_Formal)) /=
Is_Access_Constant (Etype (New_Formal)))
-- Do not complain if error already posted on New_Formal. This
-- avoids some redundant error messages.
and then not Error_Posted (New_Formal)
then
-- It is allowed to omit the null-exclusion in case of stream
-- attribute subprograms. We recognize stream subprograms
-- through their TSS-generated suffix.
declare
TSS_Name : constant TSS_Name_Type := Get_TSS_Name (New_Id);
begin
if TSS_Name /= TSS_Stream_Read
and then TSS_Name /= TSS_Stream_Write
and then TSS_Name /= TSS_Stream_Input
and then TSS_Name /= TSS_Stream_Output
then
-- Here we have a definite conformance error. It is worth
-- special casing the error message for the case of a
-- controlling formal (which excludes null).
if Is_Controlling_Formal (New_Formal) then
Error_Msg_Node_2 := Scope (New_Formal);
Conformance_Error
("\controlling formal & of & excludes null, "
& "declaration must exclude null as well",
New_Formal);
-- Normal case (couldn't we give more detail here???)
else
Conformance_Error
("\type of & does not match!", New_Formal);
end if;
return;
end if;
end;
end if;
end if;
-- Full conformance checks
if Ctype = Fully_Conformant then
-- We have checked already that names match
if Parameter_Mode (Old_Formal) = E_In_Parameter then
-- Check default expressions for in parameters
declare
NewD : constant Boolean :=
Present (Default_Value (New_Formal));
OldD : constant Boolean :=
Present (Default_Value (Old_Formal));
begin
if NewD or OldD then
-- The old default value has been analyzed because the
-- current full declaration will have frozen everything
-- before. The new default value has not been analyzed,
-- so analyze it now before we check for conformance.
if NewD then
Push_Scope (New_Id);
Preanalyze_Spec_Expression
(Default_Value (New_Formal), Etype (New_Formal));
End_Scope;
end if;
if not (NewD and OldD)
or else not Fully_Conformant_Expressions
(Default_Value (Old_Formal),
Default_Value (New_Formal))
then
Conformance_Error
("\default expression for & does not match!",
New_Formal);
return;
end if;
end if;
end;
end if;
end if;
-- A couple of special checks for Ada 83 mode. These checks are
-- skipped if either entity is an operator in package Standard,
-- or if either old or new instance is not from the source program.
if Ada_Version = Ada_83
and then Sloc (Old_Id) > Standard_Location
and then Sloc (New_Id) > Standard_Location
and then Comes_From_Source (Old_Id)
and then Comes_From_Source (New_Id)
then
declare
Old_Param : constant Node_Id := Declaration_Node (Old_Formal);
New_Param : constant Node_Id := Declaration_Node (New_Formal);
begin
-- Explicit IN must be present or absent in both cases. This
-- test is required only in the full conformance case.
if In_Present (Old_Param) /= In_Present (New_Param)
and then Ctype = Fully_Conformant
then
Conformance_Error
("\(Ada 83) IN must appear in both declarations",
New_Formal);
return;
end if;
-- Grouping (use of comma in param lists) must be the same
-- This is where we catch a misconformance like:
-- A, B : Integer
-- A : Integer; B : Integer
-- which are represented identically in the tree except
-- for the setting of the flags More_Ids and Prev_Ids.
if More_Ids (Old_Param) /= More_Ids (New_Param)
or else Prev_Ids (Old_Param) /= Prev_Ids (New_Param)
then
Conformance_Error
("\grouping of & does not match!", New_Formal);
return;
end if;
end;
end if;
-- This label is required when skipping controlling formals
<<Skip_Controlling_Formal>>
Next_Formal (Old_Formal);
Next_Formal (New_Formal);
end loop;
if Present (Old_Formal) then
Conformance_Error ("\too few parameters!");
return;
elsif Present (New_Formal) then
Conformance_Error ("\too many parameters!", New_Formal);
return;
end if;
end Check_Conformance;
-----------------------
-- Check_Conventions --
-----------------------
procedure Check_Conventions (Typ : Entity_Id) is
Ifaces_List : Elist_Id;
procedure Check_Convention (Op : Entity_Id);
-- Verify that the convention of inherited dispatching operation Op is
-- consistent among all subprograms it overrides. In order to minimize
-- the search, Search_From is utilized to designate a specific point in
-- the list rather than iterating over the whole list once more.
----------------------
-- Check_Convention --
----------------------
procedure Check_Convention (Op : Entity_Id) is
Op_Conv : constant Convention_Id := Convention (Op);
Iface_Conv : Convention_Id;
Iface_Elmt : Elmt_Id;
Iface_Prim_Elmt : Elmt_Id;
Iface_Prim : Entity_Id;
begin
Iface_Elmt := First_Elmt (Ifaces_List);
while Present (Iface_Elmt) loop
Iface_Prim_Elmt :=
First_Elmt (Primitive_Operations (Node (Iface_Elmt)));
while Present (Iface_Prim_Elmt) loop
Iface_Prim := Node (Iface_Prim_Elmt);
Iface_Conv := Convention (Iface_Prim);
if Is_Interface_Conformant (Typ, Iface_Prim, Op)
and then Iface_Conv /= Op_Conv
then
Error_Msg_N
("inconsistent conventions in primitive operations", Typ);
Error_Msg_Name_1 := Chars (Op);
Error_Msg_Name_2 := Get_Convention_Name (Op_Conv);
Error_Msg_Sloc := Sloc (Op);
if Comes_From_Source (Op) or else No (Alias (Op)) then
if not Present (Overridden_Operation (Op)) then
Error_Msg_N ("\\primitive % defined #", Typ);
else
Error_Msg_N
("\\overriding operation % with "
& "convention % defined #", Typ);
end if;
else pragma Assert (Present (Alias (Op)));
Error_Msg_Sloc := Sloc (Alias (Op));
Error_Msg_N ("\\inherited operation % with "
& "convention % defined #", Typ);
end if;
Error_Msg_Name_1 := Chars (Op);
Error_Msg_Name_2 := Get_Convention_Name (Iface_Conv);
Error_Msg_Sloc := Sloc (Iface_Prim);
Error_Msg_N ("\\overridden operation % with "
& "convention % defined #", Typ);
-- Avoid cascading errors
return;
end if;
Next_Elmt (Iface_Prim_Elmt);
end loop;
Next_Elmt (Iface_Elmt);
end loop;
end Check_Convention;
-- Local variables
Prim_Op : Entity_Id;
Prim_Op_Elmt : Elmt_Id;
-- Start of processing for Check_Conventions
begin
if not Has_Interfaces (Typ) then
return;
end if;
Collect_Interfaces (Typ, Ifaces_List);
-- The algorithm checks every overriding dispatching operation against
-- all the corresponding overridden dispatching operations, detecting
-- differences in conventions.
Prim_Op_Elmt := First_Elmt (Primitive_Operations (Typ));
while Present (Prim_Op_Elmt) loop
Prim_Op := Node (Prim_Op_Elmt);
-- A small optimization: skip the predefined dispatching operations
-- since they always have the same convention.
if not Is_Predefined_Dispatching_Operation (Prim_Op) then
Check_Convention (Prim_Op);
end if;
Next_Elmt (Prim_Op_Elmt);
end loop;
end Check_Conventions;
------------------------------
-- Check_Delayed_Subprogram --
------------------------------
procedure Check_Delayed_Subprogram (Designator : Entity_Id) is
procedure Possible_Freeze (T : Entity_Id);
-- T is the type of either a formal parameter or of the return type. If
-- T is not yet frozen and needs a delayed freeze, then the subprogram
-- itself must be delayed.
---------------------
-- Possible_Freeze --
---------------------
procedure Possible_Freeze (T : Entity_Id) is
Scop : constant Entity_Id := Scope (Designator);
begin
-- If the subprogram appears within a package instance (which may be
-- the wrapper package of a subprogram instance) the freeze node for
-- that package will freeze the subprogram at the proper place, so
-- do not emit a freeze node for the subprogram, given that it may
-- appear in the wrong scope.
if Ekind (Scop) = E_Package
and then not Comes_From_Source (Scop)
and then Is_Generic_Instance (Scop)
then
null;
elsif Has_Delayed_Freeze (T) and then not Is_Frozen (T) then
Set_Has_Delayed_Freeze (Designator);
elsif Is_Access_Type (T)
and then Has_Delayed_Freeze (Designated_Type (T))
and then not Is_Frozen (Designated_Type (T))
then
Set_Has_Delayed_Freeze (Designator);
end if;
end Possible_Freeze;
-- Local variables
F : Entity_Id;
-- Start of processing for Check_Delayed_Subprogram
begin
-- All subprograms, including abstract subprograms, may need a freeze
-- node if some formal type or the return type needs one.
Possible_Freeze (Etype (Designator));
Possible_Freeze (Base_Type (Etype (Designator))); -- needed ???
-- Need delayed freeze if any of the formal types themselves need a
-- delayed freeze and are not yet frozen.
F := First_Formal (Designator);
while Present (F) loop
Possible_Freeze (Etype (F));
Possible_Freeze (Base_Type (Etype (F))); -- needed ???
Next_Formal (F);
end loop;
-- Mark functions that return by reference. Note that it cannot be done
-- for delayed_freeze subprograms because the underlying returned type
-- may not be known yet (for private types).
if not Has_Delayed_Freeze (Designator) and then Expander_Active then
declare
Typ : constant Entity_Id := Etype (Designator);
Utyp : constant Entity_Id := Underlying_Type (Typ);
begin
if Is_Limited_View (Typ) then
Set_Returns_By_Ref (Designator);
elsif Present (Utyp) and then CW_Or_Has_Controlled_Part (Utyp) then
Set_Returns_By_Ref (Designator);
end if;
end;
end if;
end Check_Delayed_Subprogram;
------------------------------------
-- Check_Discriminant_Conformance --
------------------------------------
procedure Check_Discriminant_Conformance
(N : Node_Id;
Prev : Entity_Id;
Prev_Loc : Node_Id)
is
Old_Discr : Entity_Id := First_Discriminant (Prev);
New_Discr : Node_Id := First (Discriminant_Specifications (N));
New_Discr_Id : Entity_Id;
New_Discr_Type : Entity_Id;
procedure Conformance_Error (Msg : String; N : Node_Id);
-- Post error message for conformance error on given node. Two messages
-- are output. The first points to the previous declaration with a
-- general "no conformance" message. The second is the detailed reason,
-- supplied as Msg. The parameter N provide information for a possible
-- & insertion in the message.
-----------------------
-- Conformance_Error --
-----------------------
procedure Conformance_Error (Msg : String; N : Node_Id) is
begin
Error_Msg_Sloc := Sloc (Prev_Loc);
Error_Msg_N -- CODEFIX
("not fully conformant with declaration#!", N);
Error_Msg_NE (Msg, N, N);
end Conformance_Error;
-- Start of processing for Check_Discriminant_Conformance
begin
while Present (Old_Discr) and then Present (New_Discr) loop
New_Discr_Id := Defining_Identifier (New_Discr);
-- The subtype mark of the discriminant on the full type has not
-- been analyzed so we do it here. For an access discriminant a new
-- type is created.
if Nkind (Discriminant_Type (New_Discr)) = N_Access_Definition then
New_Discr_Type :=
Access_Definition (N, Discriminant_Type (New_Discr));
else
Find_Type (Discriminant_Type (New_Discr));
New_Discr_Type := Etype (Discriminant_Type (New_Discr));
-- Ada 2005: if the discriminant definition carries a null
-- exclusion, create an itype to check properly for consistency
-- with partial declaration.
if Is_Access_Type (New_Discr_Type)
and then Null_Exclusion_Present (New_Discr)
then
New_Discr_Type :=
Create_Null_Excluding_Itype
(T => New_Discr_Type,
Related_Nod => New_Discr,
Scope_Id => Current_Scope);
end if;
end if;
if not Conforming_Types
(Etype (Old_Discr), New_Discr_Type, Fully_Conformant)
then
Conformance_Error ("type of & does not match!", New_Discr_Id);
return;
else
-- Treat the new discriminant as an occurrence of the old one,
-- for navigation purposes, and fill in some semantic
-- information, for completeness.
Generate_Reference (Old_Discr, New_Discr_Id, 'r');
Set_Etype (New_Discr_Id, Etype (Old_Discr));
Set_Scope (New_Discr_Id, Scope (Old_Discr));
end if;
-- Names must match
if Chars (Old_Discr) /= Chars (Defining_Identifier (New_Discr)) then
Conformance_Error ("name & does not match!", New_Discr_Id);
return;
end if;
-- Default expressions must match
declare
NewD : constant Boolean :=
Present (Expression (New_Discr));
OldD : constant Boolean :=
Present (Expression (Parent (Old_Discr)));
begin
if NewD or OldD then
-- The old default value has been analyzed and expanded,
-- because the current full declaration will have frozen
-- everything before. The new default values have not been
-- expanded, so expand now to check conformance.
if NewD then
Preanalyze_Spec_Expression
(Expression (New_Discr), New_Discr_Type);
end if;
if not (NewD and OldD)
or else not Fully_Conformant_Expressions
(Expression (Parent (Old_Discr)),
Expression (New_Discr))
then
Conformance_Error
("default expression for & does not match!",
New_Discr_Id);
return;
end if;
end if;
end;
-- In Ada 83 case, grouping must match: (A,B : X) /= (A : X; B : X)
if Ada_Version = Ada_83 then
declare
Old_Disc : constant Node_Id := Declaration_Node (Old_Discr);
begin
-- Grouping (use of comma in param lists) must be the same
-- This is where we catch a misconformance like:
-- A, B : Integer
-- A : Integer; B : Integer
-- which are represented identically in the tree except
-- for the setting of the flags More_Ids and Prev_Ids.
if More_Ids (Old_Disc) /= More_Ids (New_Discr)
or else Prev_Ids (Old_Disc) /= Prev_Ids (New_Discr)
then
Conformance_Error
("grouping of & does not match!", New_Discr_Id);
return;
end if;
end;
end if;
Next_Discriminant (Old_Discr);
Next (New_Discr);
end loop;
if Present (Old_Discr) then
Conformance_Error ("too few discriminants!", Defining_Identifier (N));
return;
elsif Present (New_Discr) then
Conformance_Error
("too many discriminants!", Defining_Identifier (New_Discr));
return;
end if;
end Check_Discriminant_Conformance;
-----------------------------------------
-- Check_Formal_Subprogram_Conformance --
-----------------------------------------
procedure Check_Formal_Subprogram_Conformance
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Err_Loc : Node_Id;
Errmsg : Boolean;
Conforms : out Boolean)
is
N : Node_Id;
begin
Conforms := True;
if Is_Formal_Subprogram (Old_Id)
or else Is_Formal_Subprogram (New_Id)
or else (Is_Subprogram (New_Id)
and then Present (Alias (New_Id))
and then Is_Formal_Subprogram (Alias (New_Id)))
then
if Present (Err_Loc) then
N := Err_Loc;
else
N := New_Id;
end if;
Conforms := False;
if Errmsg then
Error_Msg_Sloc := Sloc (Old_Id);
Error_Msg_N ("not subtype conformant with declaration#!", N);
Error_Msg_NE
("\formal subprograms are not subtype conformant "
& "(RM 6.3.1 (17/3))", N, New_Id);
end if;
end if;
end Check_Formal_Subprogram_Conformance;
procedure Check_Formal_Subprogram_Conformance
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Err_Loc : Node_Id := Empty)
is
Ignore : Boolean;
begin
Check_Formal_Subprogram_Conformance
(New_Id, Old_Id, Err_Loc, True, Ignore);
end Check_Formal_Subprogram_Conformance;
----------------------------
-- Check_Fully_Conformant --
----------------------------
procedure Check_Fully_Conformant
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Err_Loc : Node_Id := Empty)
is
Result : Boolean;
pragma Warnings (Off, Result);
begin
Check_Conformance
(New_Id, Old_Id, Fully_Conformant, True, Result, Err_Loc);
end Check_Fully_Conformant;
--------------------------
-- Check_Limited_Return --
--------------------------
procedure Check_Limited_Return
(N : Node_Id;
Expr : Node_Id;
R_Type : Entity_Id)
is
begin
-- Ada 2005 (AI-318-02): Return-by-reference types have been removed and
-- replaced by anonymous access results. This is an incompatibility with
-- Ada 95. Not clear whether this should be enforced yet or perhaps
-- controllable with special switch. ???
-- A limited interface that is not immutably limited is OK
if Is_Limited_Interface (R_Type)
and then
not (Is_Task_Interface (R_Type)
or else Is_Protected_Interface (R_Type)
or else Is_Synchronized_Interface (R_Type))
then
null;
elsif Is_Limited_Type (R_Type)
and then not Is_Interface (R_Type)
and then Comes_From_Source (N)
and then not In_Instance_Body
and then not OK_For_Limited_Init_In_05 (R_Type, Expr)
then
-- Error in Ada 2005
if Ada_Version >= Ada_2005
and then not Debug_Flag_Dot_L
and then not GNAT_Mode
then
Error_Msg_N
("(Ada 2005) cannot copy object of a limited type "
& "(RM-2005 6.5(5.5/2))", Expr);
if Is_Limited_View (R_Type) then
Error_Msg_N
("\return by reference not permitted in Ada 2005", Expr);
end if;
-- Warn in Ada 95 mode, to give folks a heads up about this
-- incompatibility.
-- In GNAT mode, this is just a warning, to allow it to be evilly
-- turned off. Otherwise it is a real error.
-- In a generic context, simplify the warning because it makes no
-- sense to discuss pass-by-reference or copy.
elsif Warn_On_Ada_2005_Compatibility or GNAT_Mode then
if Inside_A_Generic then
Error_Msg_N
("return of limited object not permitted in Ada 2005 "
& "(RM-2005 6.5(5.5/2))?y?", Expr);
elsif Is_Limited_View (R_Type) then
Error_Msg_N
("return by reference not permitted in Ada 2005 "
& "(RM-2005 6.5(5.5/2))?y?", Expr);
else
Error_Msg_N
("cannot copy object of a limited type in Ada 2005 "
& "(RM-2005 6.5(5.5/2))?y?", Expr);
end if;
-- Ada 95 mode, and compatibility warnings disabled
else
pragma Assert (Ada_Version <= Ada_95);
pragma Assert (not (Warn_On_Ada_2005_Compatibility or GNAT_Mode));
return; -- skip continuation messages below
end if;
if not Inside_A_Generic then
Error_Msg_N
("\consider switching to return of access type", Expr);
Explain_Limited_Type (R_Type, Expr);
end if;
end if;
end Check_Limited_Return;
---------------------------
-- Check_Mode_Conformant --
---------------------------
procedure Check_Mode_Conformant
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Err_Loc : Node_Id := Empty;
Get_Inst : Boolean := False)
is
Result : Boolean;
pragma Warnings (Off, Result);
begin
Check_Conformance
(New_Id, Old_Id, Mode_Conformant, True, Result, Err_Loc, Get_Inst);
end Check_Mode_Conformant;
--------------------------------
-- Check_Overriding_Indicator --
--------------------------------
procedure Check_Overriding_Indicator
(Subp : Entity_Id;
Overridden_Subp : Entity_Id;
Is_Primitive : Boolean)
is
Decl : Node_Id;
Spec : Node_Id;
begin
-- No overriding indicator for literals
if Ekind (Subp) = E_Enumeration_Literal then
return;
elsif Ekind (Subp) = E_Entry then
Decl := Parent (Subp);
-- No point in analyzing a malformed operator
elsif Nkind (Subp) = N_Defining_Operator_Symbol
and then Error_Posted (Subp)
then
return;
else
Decl := Unit_Declaration_Node (Subp);
end if;
if Nkind (Decl) in N_Subprogram_Body
| N_Subprogram_Body_Stub
| N_Subprogram_Declaration
| N_Abstract_Subprogram_Declaration
| N_Subprogram_Renaming_Declaration
then
Spec := Specification (Decl);
elsif Nkind (Decl) = N_Entry_Declaration then
Spec := Decl;
else
return;
end if;
-- An overriding indication is illegal on a subprogram declared
-- in a protected body, where there is no operation to override.
if (Must_Override (Spec) or else Must_Not_Override (Spec))
and then Is_List_Member (Decl)
and then Present (Parent (List_Containing (Decl)))
and then Nkind (Parent (List_Containing (Decl))) = N_Protected_Body
then
Error_Msg_N
("illegal overriding indication in protected body", Decl);
return;
end if;
-- The overriding operation is type conformant with the overridden one,
-- but the names of the formals are not required to match. If the names
-- appear permuted in the overriding operation, this is a possible
-- source of confusion that is worth diagnosing. Controlling formals
-- often carry names that reflect the type, and it is not worthwhile
-- requiring that their names match.
if Present (Overridden_Subp)
and then Nkind (Subp) /= N_Defining_Operator_Symbol
then
declare
Form1 : Entity_Id;
Form2 : Entity_Id;
begin
Form1 := First_Formal (Subp);
Form2 := First_Formal (Overridden_Subp);
-- If the overriding operation is a synchronized operation, skip
-- the first parameter of the overridden operation, which is
-- implicit in the new one. If the operation is declared in the
-- body it is not primitive and all formals must match.
if Is_Concurrent_Type (Scope (Subp))
and then Is_Tagged_Type (Scope (Subp))
and then not Has_Completion (Scope (Subp))
then
Form2 := Next_Formal (Form2);
end if;
if Present (Form1) then
Form1 := Next_Formal (Form1);
Form2 := Next_Formal (Form2);
end if;
while Present (Form1) loop
if not Is_Controlling_Formal (Form1)
and then Present (Next_Formal (Form2))
and then Chars (Form1) = Chars (Next_Formal (Form2))
then
Error_Msg_Node_2 := Alias (Overridden_Subp);
Error_Msg_Sloc := Sloc (Error_Msg_Node_2);
Error_Msg_NE
("& does not match corresponding formal of&#",
Form1, Form1);
exit;
end if;
Next_Formal (Form1);
Next_Formal (Form2);
end loop;
end;
end if;
-- If there is an overridden subprogram, then check that there is no
-- "not overriding" indicator, and mark the subprogram as overriding.
-- This is not done if the overridden subprogram is marked as hidden,
-- which can occur for the case of inherited controlled operations
-- (see Derive_Subprogram), unless the inherited subprogram's parent
-- subprogram is not itself hidden or we are within a generic instance,
-- in which case the hidden flag may have been modified for the
-- expansion of the instance.
-- (Note: This condition could probably be simplified, leaving out the
-- testing for the specific controlled cases, but it seems safer and
-- clearer this way, and echoes similar special-case tests of this
-- kind in other places.)
if Present (Overridden_Subp)
and then (not Is_Hidden (Overridden_Subp)
or else
(Chars (Overridden_Subp) in Name_Initialize
| Name_Adjust
| Name_Finalize
and then Present (Alias (Overridden_Subp))
and then (not Is_Hidden (Alias (Overridden_Subp))
or else In_Instance)))
then
if Must_Not_Override (Spec) then
Error_Msg_Sloc := Sloc (Overridden_Subp);
if Ekind (Subp) = E_Entry then
Error_Msg_NE
("entry & overrides inherited operation #", Spec, Subp);
else
Error_Msg_NE
("subprogram & overrides inherited operation #", Spec, Subp);
end if;
-- Special-case to fix a GNAT oddity: Limited_Controlled is declared
-- as an extension of Root_Controlled, and thus has a useless Adjust
-- operation. This operation should not be inherited by other limited
-- controlled types. An explicit Adjust for them is not overriding.
elsif Must_Override (Spec)
and then Chars (Overridden_Subp) = Name_Adjust
and then Is_Limited_Type (Etype (First_Formal (Subp)))
and then Present (Alias (Overridden_Subp))
and then In_Predefined_Unit (Alias (Overridden_Subp))
then
Get_Name_String
(Unit_File_Name (Get_Source_Unit (Alias (Overridden_Subp))));
Error_Msg_NE ("subprogram & is not overriding", Spec, Subp);
elsif Is_Subprogram (Subp) then
if Is_Init_Proc (Subp) then
null;
elsif No (Overridden_Operation (Subp)) then
-- For entities generated by Derive_Subprograms the overridden
-- operation is the inherited primitive (which is available
-- through the attribute alias)
if (Is_Dispatching_Operation (Subp)
or else Is_Dispatching_Operation (Overridden_Subp))
and then not Comes_From_Source (Overridden_Subp)
and then Find_Dispatching_Type (Overridden_Subp) =
Find_Dispatching_Type (Subp)
and then Present (Alias (Overridden_Subp))
and then Comes_From_Source (Alias (Overridden_Subp))
then
Set_Overridden_Operation (Subp, Alias (Overridden_Subp));
Inherit_Subprogram_Contract (Subp, Alias (Overridden_Subp));
else
Set_Overridden_Operation (Subp, Overridden_Subp);
Inherit_Subprogram_Contract (Subp, Overridden_Subp);
end if;
end if;
end if;
-- If primitive flag is set or this is a protected operation, then
-- the operation is overriding at the point of its declaration, so
-- warn if necessary. Otherwise it may have been declared before the
-- operation it overrides and no check is required.
if Style_Check
and then not Must_Override (Spec)
and then (Is_Primitive
or else Ekind (Scope (Subp)) = E_Protected_Type)
then
Style.Missing_Overriding (Decl, Subp);
end if;
-- If Subp is an operator, it may override a predefined operation, if
-- it is defined in the same scope as the type to which it applies.
-- In that case Overridden_Subp is empty because of our implicit
-- representation for predefined operators. We have to check whether the
-- signature of Subp matches that of a predefined operator. Note that
-- first argument provides the name of the operator, and the second
-- argument the signature that may match that of a standard operation.
-- If the indicator is overriding, then the operator must match a
-- predefined signature, because we know already that there is no
-- explicit overridden operation.
elsif Nkind (Subp) = N_Defining_Operator_Symbol then
if Must_Not_Override (Spec) then
-- If this is not a primitive or a protected subprogram, then
-- "not overriding" is illegal.
if not Is_Primitive
and then Ekind (Scope (Subp)) /= E_Protected_Type
then
Error_Msg_N ("overriding indicator only allowed "
& "if subprogram is primitive", Subp);
elsif Can_Override_Operator (Subp) then
Error_Msg_NE
("subprogram& overrides predefined operator ", Spec, Subp);
end if;
elsif Must_Override (Spec) then
if No (Overridden_Operation (Subp))
and then not Can_Override_Operator (Subp)
then
Error_Msg_NE ("subprogram & is not overriding", Spec, Subp);
end if;
elsif not Error_Posted (Subp)
and then Style_Check
and then Can_Override_Operator (Subp)
and then not In_Predefined_Unit (Subp)
then
-- If style checks are enabled, indicate that the indicator is
-- missing. However, at the point of declaration, the type of
-- which this is a primitive operation may be private, in which
-- case the indicator would be premature.
if Has_Private_Declaration (Etype (Subp))
or else Has_Private_Declaration (Etype (First_Formal (Subp)))
then
null;
else
Style.Missing_Overriding (Decl, Subp);
end if;
end if;
elsif Must_Override (Spec) then
if Ekind (Subp) = E_Entry then
Error_Msg_NE ("entry & is not overriding", Spec, Subp);
else
Error_Msg_NE ("subprogram & is not overriding", Spec, Subp);
end if;
-- If the operation is marked "not overriding" and it's not primitive
-- then an error is issued, unless this is an operation of a task or
-- protected type (RM05-8.3.1(3/2-4/2)). Error cases where "overriding"
-- has been specified have already been checked above.
elsif Must_Not_Override (Spec)
and then not Is_Primitive
and then Ekind (Subp) /= E_Entry
and then Ekind (Scope (Subp)) /= E_Protected_Type
then
Error_Msg_N
("overriding indicator only allowed if subprogram is primitive",
Subp);
return;
end if;
end Check_Overriding_Indicator;
-------------------
-- Check_Returns --
-------------------
-- Note: this procedure needs to know far too much about how the expander
-- messes with exceptions. The use of the flag Exception_Junk and the
-- incorporation of knowledge of Exp_Ch11.Expand_Local_Exception_Handlers
-- works, but is not very clean. It would be better if the expansion
-- routines would leave Original_Node working nicely, and we could use
-- Original_Node here to ignore all the peculiar expander messing ???
procedure Check_Returns
(HSS : Node_Id;
Mode : Character;
Err : out Boolean;
Proc : Entity_Id := Empty)
is
Handler : Node_Id;
procedure Check_Statement_Sequence (L : List_Id);
-- Internal recursive procedure to check a list of statements for proper
-- termination by a return statement (or a transfer of control or a
-- compound statement that is itself internally properly terminated).
------------------------------
-- Check_Statement_Sequence --
------------------------------
procedure Check_Statement_Sequence (L : List_Id) is
Last_Stm : Node_Id;
Stm : Node_Id;
Kind : Node_Kind;
function Assert_False return Boolean;
-- Returns True if Last_Stm is a pragma Assert (False) that has been
-- rewritten as a null statement when assertions are off. The assert
-- is not active, but it is still enough to kill the warning.
------------------
-- Assert_False --
------------------
function Assert_False return Boolean is
Orig : constant Node_Id := Original_Node (Last_Stm);
begin
if Nkind (Orig) = N_Pragma
and then Pragma_Name (Orig) = Name_Assert
and then not Error_Posted (Orig)
then
declare
Arg : constant Node_Id :=
First (Pragma_Argument_Associations (Orig));
Exp : constant Node_Id := Expression (Arg);
begin
return Nkind (Exp) = N_Identifier
and then Chars (Exp) = Name_False;
end;
else
return False;
end if;
end Assert_False;
-- Local variables
Raise_Exception_Call : Boolean;
-- Set True if statement sequence terminated by Raise_Exception call
-- or a Reraise_Occurrence call.
-- Start of processing for Check_Statement_Sequence
begin
Raise_Exception_Call := False;
-- Get last real statement
Last_Stm := Last (L);
-- Deal with digging out exception handler statement sequences that
-- have been transformed by the local raise to goto optimization.
-- See Exp_Ch11.Expand_Local_Exception_Handlers for details. If this
-- optimization has occurred, we are looking at something like:
-- begin
-- original stmts in block
-- exception \
-- when excep1 => |
-- goto L1; | omitted if No_Exception_Propagation
-- when excep2 => |
-- goto L2; /
-- end;
-- goto L3; -- skip handler when exception not raised
-- <<L1>> -- target label for local exception
-- begin
-- estmts1
-- end;
-- goto L3;
-- <<L2>>
-- begin
-- estmts2
-- end;
-- <<L3>>
-- and what we have to do is to dig out the estmts1 and estmts2
-- sequences (which were the original sequences of statements in
-- the exception handlers) and check them.
if Nkind (Last_Stm) = N_Label and then Exception_Junk (Last_Stm) then
Stm := Last_Stm;
loop
Prev (Stm);
exit when No (Stm);
exit when Nkind (Stm) /= N_Block_Statement;
exit when not Exception_Junk (Stm);
Prev (Stm);
exit when No (Stm);
exit when Nkind (Stm) /= N_Label;
exit when not Exception_Junk (Stm);
Check_Statement_Sequence
(Statements (Handled_Statement_Sequence (Next (Stm))));
Prev (Stm);
Last_Stm := Stm;
exit when No (Stm);
exit when Nkind (Stm) /= N_Goto_Statement;
exit when not Exception_Junk (Stm);
end loop;
end if;
-- Don't count pragmas
while Nkind (Last_Stm) = N_Pragma
-- Don't count call to SS_Release (can happen after Raise_Exception)
or else
(Nkind (Last_Stm) = N_Procedure_Call_Statement
and then
Nkind (Name (Last_Stm)) = N_Identifier
and then
Is_RTE (Entity (Name (Last_Stm)), RE_SS_Release))
-- Don't count exception junk
or else
(Nkind (Last_Stm) in
N_Goto_Statement | N_Label | N_Object_Declaration
and then Exception_Junk (Last_Stm))
or else Nkind (Last_Stm) in N_Push_xxx_Label | N_Pop_xxx_Label
-- Inserted code, such as finalization calls, is irrelevant: we only
-- need to check original source.
or else Is_Rewrite_Insertion (Last_Stm)
loop
Prev (Last_Stm);
end loop;
-- Here we have the "real" last statement
Kind := Nkind (Last_Stm);
-- Transfer of control, OK. Note that in the No_Return procedure
-- case, we already diagnosed any explicit return statements, so
-- we can treat them as OK in this context.
if Is_Transfer (Last_Stm) then
return;
-- Check cases of explicit non-indirect procedure calls
elsif Kind = N_Procedure_Call_Statement
and then Is_Entity_Name (Name (Last_Stm))
then
-- Check call to Raise_Exception procedure which is treated
-- specially, as is a call to Reraise_Occurrence.
-- We suppress the warning in these cases since it is likely that
-- the programmer really does not expect to deal with the case
-- of Null_Occurrence, and thus would find a warning about a
-- missing return curious, and raising Program_Error does not
-- seem such a bad behavior if this does occur.
-- Note that in the Ada 2005 case for Raise_Exception, the actual
-- behavior will be to raise Constraint_Error (see AI-329).
if Is_RTE (Entity (Name (Last_Stm)), RE_Raise_Exception)
or else
Is_RTE (Entity (Name (Last_Stm)), RE_Reraise_Occurrence)
then
Raise_Exception_Call := True;
-- For Raise_Exception call, test first argument, if it is
-- an attribute reference for a 'Identity call, then we know
-- that the call cannot possibly return.
declare
Arg : constant Node_Id :=
Original_Node (First_Actual (Last_Stm));
begin
if Nkind (Arg) = N_Attribute_Reference
and then Attribute_Name (Arg) = Name_Identity
then
return;
end if;
end;
end if;
-- If statement, need to look inside if there is an else and check
-- each constituent statement sequence for proper termination.
elsif Kind = N_If_Statement
and then Present (Else_Statements (Last_Stm))
then
Check_Statement_Sequence (Then_Statements (Last_Stm));
Check_Statement_Sequence (Else_Statements (Last_Stm));
if Present (Elsif_Parts (Last_Stm)) then
declare
Elsif_Part : Node_Id := First (Elsif_Parts (Last_Stm));
begin
while Present (Elsif_Part) loop
Check_Statement_Sequence (Then_Statements (Elsif_Part));
Next (Elsif_Part);
end loop;
end;
end if;
return;
-- Case statement, check each case for proper termination
elsif Kind = N_Case_Statement then
declare
Case_Alt : Node_Id;
begin
Case_Alt := First_Non_Pragma (Alternatives (Last_Stm));
while Present (Case_Alt) loop
Check_Statement_Sequence (Statements (Case_Alt));
Next_Non_Pragma (Case_Alt);
end loop;
end;
return;
-- Block statement, check its handled sequence of statements
elsif Kind = N_Block_Statement then
declare
Err1 : Boolean;
begin
Check_Returns
(Handled_Statement_Sequence (Last_Stm), Mode, Err1);
if Err1 then
Err := True;
end if;
return;
end;
-- Loop statement. If there is an iteration scheme, we can definitely
-- fall out of the loop. Similarly if there is an exit statement, we
-- can fall out. In either case we need a following return.
elsif Kind = N_Loop_Statement then
if Present (Iteration_Scheme (Last_Stm))
or else Has_Exit (Entity (Identifier (Last_Stm)))
then
null;
-- A loop with no exit statement or iteration scheme is either
-- an infinite loop, or it has some other exit (raise/return).
-- In either case, no warning is required.
else
return;
end if;
-- Timed entry call, check entry call and delay alternatives
-- Note: in expanded code, the timed entry call has been converted
-- to a set of expanded statements on which the check will work
-- correctly in any case.
elsif Kind = N_Timed_Entry_Call then
declare
ECA : constant Node_Id := Entry_Call_Alternative (Last_Stm);
DCA : constant Node_Id := Delay_Alternative (Last_Stm);
begin
-- If statement sequence of entry call alternative is missing,
-- then we can definitely fall through, and we post the error
-- message on the entry call alternative itself.
if No (Statements (ECA)) then
Last_Stm := ECA;
-- If statement sequence of delay alternative is missing, then
-- we can definitely fall through, and we post the error
-- message on the delay alternative itself.
-- Note: if both ECA and DCA are missing the return, then we
-- post only one message, should be enough to fix the bugs.
-- If not we will get a message next time on the DCA when the
-- ECA is fixed.
elsif No (Statements (DCA)) then
Last_Stm := DCA;
-- Else check both statement sequences
else
Check_Statement_Sequence (Statements (ECA));
Check_Statement_Sequence (Statements (DCA));
return;
end if;
end;
-- Conditional entry call, check entry call and else part
-- Note: in expanded code, the conditional entry call has been
-- converted to a set of expanded statements on which the check
-- will work correctly in any case.
elsif Kind = N_Conditional_Entry_Call then
declare
ECA : constant Node_Id := Entry_Call_Alternative (Last_Stm);
begin
-- If statement sequence of entry call alternative is missing,
-- then we can definitely fall through, and we post the error
-- message on the entry call alternative itself.
if No (Statements (ECA)) then
Last_Stm := ECA;
-- Else check statement sequence and else part
else
Check_Statement_Sequence (Statements (ECA));
Check_Statement_Sequence (Else_Statements (Last_Stm));
return;
end if;
end;
end if;
-- If we fall through, issue appropriate message
if Mode = 'F' then
-- Kill warning if last statement is a raise exception call,
-- or a pragma Assert (False). Note that with assertions enabled,
-- such a pragma has been converted into a raise exception call
-- already, so the Assert_False is for the assertions off case.
if not Raise_Exception_Call and then not Assert_False then
-- In GNATprove mode, it is an error to have a missing return
Error_Msg_Warn := SPARK_Mode /= On;
-- Issue error message or warning
Error_Msg_N
("RETURN statement missing following this statement<<!",
Last_Stm);
Error_Msg_N
("\Program_Error ]<<!", Last_Stm);
end if;
-- Note: we set Err even though we have not issued a warning
-- because we still have a case of a missing return. This is
-- an extremely marginal case, probably will never be noticed
-- but we might as well get it right.
Err := True;
-- Otherwise we have the case of a procedure marked No_Return
else
if not Raise_Exception_Call then
if GNATprove_Mode then
Error_Msg_N
("implied return after this statement would have raised "
& "Program_Error", Last_Stm);
-- In normal compilation mode, do not warn on a generated call
-- (e.g. in the body of a renaming as completion).
elsif Comes_From_Source (Last_Stm) then
Error_Msg_N
("implied return after this statement will raise "
& "Program_Error??", Last_Stm);
end if;
Error_Msg_Warn := SPARK_Mode /= On;
Error_Msg_NE
("\procedure & is marked as No_Return<<!", Last_Stm, Proc);
end if;
declare
RE : constant Node_Id :=
Make_Raise_Program_Error (Sloc (Last_Stm),
Reason => PE_Implicit_Return);
begin
Insert_After (Last_Stm, RE);
Analyze (RE);
end;
end if;
end Check_Statement_Sequence;
-- Start of processing for Check_Returns
begin
Err := False;
Check_Statement_Sequence (Statements (HSS));
if Present (Exception_Handlers (HSS)) then
Handler := First_Non_Pragma (Exception_Handlers (HSS));
while Present (Handler) loop
Check_Statement_Sequence (Statements (Handler));
Next_Non_Pragma (Handler);
end loop;
end if;
end Check_Returns;
----------------------------
-- Check_Subprogram_Order --
----------------------------
procedure Check_Subprogram_Order (N : Node_Id) is
function Subprogram_Name_Greater (S1, S2 : String) return Boolean;
-- This is used to check if S1 > S2 in the sense required by this test,
-- for example nameab < namec, but name2 < name10.
-----------------------------
-- Subprogram_Name_Greater --
-----------------------------
function Subprogram_Name_Greater (S1, S2 : String) return Boolean is
L1, L2 : Positive;
N1, N2 : Natural;
begin
-- Deal with special case where names are identical except for a
-- numerical suffix. These are handled specially, taking the numeric
-- ordering from the suffix into account.
L1 := S1'Last;
while S1 (L1) in '0' .. '9' loop
L1 := L1 - 1;
end loop;
L2 := S2'Last;
while S2 (L2) in '0' .. '9' loop
L2 := L2 - 1;
end loop;
-- If non-numeric parts non-equal, do straight compare
if S1 (S1'First .. L1) /= S2 (S2'First .. L2) then
return S1 > S2;
-- If non-numeric parts equal, compare suffixed numeric parts. Note
-- that a missing suffix is treated as numeric zero in this test.
else
N1 := 0;
while L1 < S1'Last loop
L1 := L1 + 1;
N1 := N1 * 10 + Character'Pos (S1 (L1)) - Character'Pos ('0');
end loop;
N2 := 0;
while L2 < S2'Last loop
L2 := L2 + 1;
N2 := N2 * 10 + Character'Pos (S2 (L2)) - Character'Pos ('0');
end loop;
return N1 > N2;
end if;
end Subprogram_Name_Greater;
-- Start of processing for Check_Subprogram_Order
begin
-- Check body in alpha order if this is option
if Style_Check
and then Style_Check_Order_Subprograms
and then Nkind (N) = N_Subprogram_Body
and then Comes_From_Source (N)
and then In_Extended_Main_Source_Unit (N)
then
declare
LSN : String_Ptr
renames Scope_Stack.Table
(Scope_Stack.Last).Last_Subprogram_Name;
Body_Id : constant Entity_Id :=
Defining_Entity (Specification (N));
begin
Get_Decoded_Name_String (Chars (Body_Id));
if LSN /= null then
if Subprogram_Name_Greater
(LSN.all, Name_Buffer (1 .. Name_Len))
then
Style.Subprogram_Not_In_Alpha_Order (Body_Id);
end if;
Free (LSN);
end if;
LSN := new String'(Name_Buffer (1 .. Name_Len));
end;
end if;
end Check_Subprogram_Order;
------------------------------
-- Check_Subtype_Conformant --
------------------------------
procedure Check_Subtype_Conformant
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Err_Loc : Node_Id := Empty;
Skip_Controlling_Formals : Boolean := False;
Get_Inst : Boolean := False)
is
Result : Boolean;
pragma Warnings (Off, Result);
begin
Check_Conformance
(New_Id, Old_Id, Subtype_Conformant, True, Result, Err_Loc,
Skip_Controlling_Formals => Skip_Controlling_Formals,
Get_Inst => Get_Inst);
end Check_Subtype_Conformant;
-----------------------------------
-- Check_Synchronized_Overriding --
-----------------------------------
procedure Check_Synchronized_Overriding
(Def_Id : Entity_Id;
Overridden_Subp : out Entity_Id)
is
Ifaces_List : Elist_Id;
In_Scope : Boolean;
Typ : Entity_Id;
function Is_Valid_Formal (F : Entity_Id) return Boolean;
-- Predicate for legality rule in 9.4 (11.9/2): If an inherited
-- subprogram is implemented by a protected procedure or entry,
-- its first parameter must be out, in out, or access-to-variable.
function Matches_Prefixed_View_Profile
(Prim_Params : List_Id;
Iface_Params : List_Id) return Boolean;
-- Determine whether a subprogram's parameter profile Prim_Params
-- matches that of a potentially overridden interface subprogram
-- Iface_Params. Also determine if the type of first parameter of
-- Iface_Params is an implemented interface.
----------------------
-- Is_Valid_Formal --
----------------------
function Is_Valid_Formal (F : Entity_Id) return Boolean is
begin
return
Ekind (F) in E_In_Out_Parameter | E_Out_Parameter
or else
(Nkind (Parameter_Type (Parent (F))) = N_Access_Definition
and then not Constant_Present (Parameter_Type (Parent (F))));
end Is_Valid_Formal;
-----------------------------------
-- Matches_Prefixed_View_Profile --
-----------------------------------
function Matches_Prefixed_View_Profile
(Prim_Params : List_Id;
Iface_Params : List_Id) return Boolean
is
function Is_Implemented
(Ifaces_List : Elist_Id;
Iface : Entity_Id) return Boolean;
-- Determine if Iface is implemented by the current task or
-- protected type.
--------------------
-- Is_Implemented --
--------------------
function Is_Implemented
(Ifaces_List : Elist_Id;
Iface : Entity_Id) return Boolean
is
Iface_Elmt : Elmt_Id;
begin
Iface_Elmt := First_Elmt (Ifaces_List);
while Present (Iface_Elmt) loop
if Node (Iface_Elmt) = Iface then
return True;
end if;
Next_Elmt (Iface_Elmt);
end loop;
return False;
end Is_Implemented;
-- Local variables
Iface_Id : Entity_Id;
Iface_Param : Node_Id;
Iface_Typ : Entity_Id;
Prim_Id : Entity_Id;
Prim_Param : Node_Id;
Prim_Typ : Entity_Id;
-- Start of processing for Matches_Prefixed_View_Profile
begin
Iface_Param := First (Iface_Params);
Iface_Typ := Etype (Defining_Identifier (Iface_Param));
if Is_Access_Type (Iface_Typ) then
Iface_Typ := Designated_Type (Iface_Typ);
end if;
Prim_Param := First (Prim_Params);
-- The first parameter of the potentially overridden subprogram must
-- be an interface implemented by Prim.
if not Is_Interface (Iface_Typ)
or else not Is_Implemented (Ifaces_List, Iface_Typ)
then
return False;
end if;
-- The checks on the object parameters are done, so move on to the
-- rest of the parameters.
if not In_Scope then
Next (Prim_Param);
end if;
Next (Iface_Param);
while Present (Iface_Param) and then Present (Prim_Param) loop
Iface_Id := Defining_Identifier (Iface_Param);
Iface_Typ := Find_Parameter_Type (Iface_Param);
Prim_Id := Defining_Identifier (Prim_Param);
Prim_Typ := Find_Parameter_Type (Prim_Param);
if Ekind (Iface_Typ) = E_Anonymous_Access_Type
and then Ekind (Prim_Typ) = E_Anonymous_Access_Type
and then Is_Concurrent_Type (Designated_Type (Prim_Typ))
then
Iface_Typ := Designated_Type (Iface_Typ);
Prim_Typ := Designated_Type (Prim_Typ);
end if;
-- Case of multiple interface types inside a parameter profile
-- (Obj_Param : in out Iface; ...; Param : Iface)
-- If the interface type is implemented, then the matching type in
-- the primitive should be the implementing record type.
if Ekind (Iface_Typ) = E_Record_Type
and then Is_Interface (Iface_Typ)
and then Is_Implemented (Ifaces_List, Iface_Typ)
then
if Prim_Typ /= Typ then
return False;
end if;
-- The two parameters must be both mode and subtype conformant
elsif Ekind (Iface_Id) /= Ekind (Prim_Id)
or else not
Conforming_Types (Iface_Typ, Prim_Typ, Subtype_Conformant)
then
return False;
end if;
Next (Iface_Param);
Next (Prim_Param);
end loop;
-- One of the two lists contains more parameters than the other
if Present (Iface_Param) or else Present (Prim_Param) then
return False;
end if;
return True;
end Matches_Prefixed_View_Profile;
-- Start of processing for Check_Synchronized_Overriding
begin
Overridden_Subp := Empty;
-- Def_Id must be an entry or a subprogram. We should skip predefined
-- primitives internally generated by the front end; however at this
-- stage predefined primitives are still not fully decorated. As a
-- minor optimization we skip here internally generated subprograms.
if (Ekind (Def_Id) /= E_Entry
and then Ekind (Def_Id) /= E_Function
and then Ekind (Def_Id) /= E_Procedure)
or else not Comes_From_Source (Def_Id)
then
return;
end if;
-- Search for the concurrent declaration since it contains the list of
-- all implemented interfaces. In this case, the subprogram is declared
-- within the scope of a protected or a task type.
if Present (Scope (Def_Id))
and then Is_Concurrent_Type (Scope (Def_Id))
and then not Is_Generic_Actual_Type (Scope (Def_Id))
then
Typ := Scope (Def_Id);
In_Scope := True;
-- The enclosing scope is not a synchronized type and the subprogram
-- has no formals.
elsif No (First_Formal (Def_Id)) then
return;
-- The subprogram has formals and hence it may be a primitive of a
-- concurrent type.
else
Typ := Etype (First_Formal (Def_Id));
if Is_Access_Type (Typ) then
Typ := Directly_Designated_Type (Typ);
end if;
if Is_Concurrent_Type (Typ)
and then not Is_Generic_Actual_Type (Typ)
then
In_Scope := False;
-- This case occurs when the concurrent type is declared within a
-- generic unit. As a result the corresponding record has been built
-- and used as the type of the first formal, we just have to retrieve
-- the corresponding concurrent type.
elsif Is_Concurrent_Record_Type (Typ)
and then not Is_Class_Wide_Type (Typ)
and then Present (Corresponding_Concurrent_Type (Typ))
then
Typ := Corresponding_Concurrent_Type (Typ);
In_Scope := False;
else
return;
end if;
end if;
-- There is no overriding to check if this is an inherited operation in
-- a type derivation for a generic actual.
Collect_Interfaces (Typ, Ifaces_List);
if Is_Empty_Elmt_List (Ifaces_List) then
return;
end if;
-- Determine whether entry or subprogram Def_Id overrides a primitive
-- operation that belongs to one of the interfaces in Ifaces_List.
declare
Candidate : Entity_Id := Empty;
Hom : Entity_Id := Empty;
Subp : Entity_Id := Empty;
begin
-- Traverse the homonym chain, looking for a potentially overridden
-- subprogram that belongs to an implemented interface.
Hom := Current_Entity_In_Scope (Def_Id);
while Present (Hom) loop
Subp := Hom;
if Subp = Def_Id
or else not Is_Overloadable (Subp)
or else not Is_Primitive (Subp)
or else not Is_Dispatching_Operation (Subp)
or else not Present (Find_Dispatching_Type (Subp))
or else not Is_Interface (Find_Dispatching_Type (Subp))
then
null;
-- Entries and procedures can override abstract or null interface
-- procedures.
elsif Ekind (Def_Id) in E_Entry | E_Procedure
and then Ekind (Subp) = E_Procedure
and then Matches_Prefixed_View_Profile
(Parameter_Specifications (Parent (Def_Id)),
Parameter_Specifications (Parent (Subp)))
then
Candidate := Subp;
-- For an overridden subprogram Subp, check whether the mode
-- of its first parameter is correct depending on the kind of
-- synchronized type.
declare
Formal : constant Node_Id := First_Formal (Candidate);
begin
-- In order for an entry or a protected procedure to
-- override, the first parameter of the overridden routine
-- must be of mode "out", "in out", or access-to-variable.
if Ekind (Candidate) in E_Entry | E_Procedure
and then Is_Protected_Type (Typ)
and then not Is_Valid_Formal (Formal)
then
null;
-- All other cases are OK since a task entry or routine does
-- not have a restriction on the mode of the first parameter
-- of the overridden interface routine.
else
Overridden_Subp := Candidate;
return;
end if;
end;
-- Functions can override abstract interface functions. Return
-- types must be subtype conformant.
elsif Ekind (Def_Id) = E_Function
and then Ekind (Subp) = E_Function
and then Matches_Prefixed_View_Profile
(Parameter_Specifications (Parent (Def_Id)),
Parameter_Specifications (Parent (Subp)))
and then Conforming_Types
(Etype (Def_Id), Etype (Subp), Subtype_Conformant)
then
Candidate := Subp;
-- If an inherited subprogram is implemented by a protected
-- function, then the first parameter of the inherited
-- subprogram shall be of mode in, but not an access-to-
-- variable parameter (RM 9.4(11/9)).
if Present (First_Formal (Subp))
and then Ekind (First_Formal (Subp)) = E_In_Parameter
and then
(not Is_Access_Type (Etype (First_Formal (Subp)))
or else
Is_Access_Constant (Etype (First_Formal (Subp))))
then
Overridden_Subp := Subp;
return;
end if;
end if;
Hom := Homonym (Hom);
end loop;
-- After examining all candidates for overriding, we are left with
-- the best match, which is a mode-incompatible interface routine.
if In_Scope and then Present (Candidate) then
Error_Msg_PT (Def_Id, Candidate);
end if;
Overridden_Subp := Candidate;
return;
end;
end Check_Synchronized_Overriding;
---------------------------
-- Check_Type_Conformant --
---------------------------
procedure Check_Type_Conformant
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Err_Loc : Node_Id := Empty)
is
Result : Boolean;
pragma Warnings (Off, Result);
begin
Check_Conformance
(New_Id, Old_Id, Type_Conformant, True, Result, Err_Loc);
end Check_Type_Conformant;
---------------------------
-- Can_Override_Operator --
---------------------------
function Can_Override_Operator (Subp : Entity_Id) return Boolean is
Typ : Entity_Id;
begin
if Nkind (Subp) /= N_Defining_Operator_Symbol then
return False;
else
Typ := Base_Type (Etype (First_Formal (Subp)));
-- Check explicitly that the operation is a primitive of the type
return Operator_Matches_Spec (Subp, Subp)
and then not Is_Generic_Type (Typ)
and then Scope (Subp) = Scope (Typ)
and then not Is_Class_Wide_Type (Typ);
end if;
end Can_Override_Operator;
----------------------
-- Conforming_Types --
----------------------
function Conforming_Types
(T1 : Entity_Id;
T2 : Entity_Id;
Ctype : Conformance_Type;
Get_Inst : Boolean := False) return Boolean
is
function Base_Types_Match
(Typ_1 : Entity_Id;
Typ_2 : Entity_Id) return Boolean;
-- If neither Typ_1 nor Typ_2 are generic actual types, or if they are
-- in different scopes (e.g. parent and child instances), then verify
-- that the base types are equal. Otherwise Typ_1 and Typ_2 must be on
-- the same subtype chain. The whole purpose of this procedure is to
-- prevent spurious ambiguities in an instantiation that may arise if
-- two distinct generic types are instantiated with the same actual.
function Find_Designated_Type (Typ : Entity_Id) return Entity_Id;
-- An access parameter can designate an incomplete type. If the
-- incomplete type is the limited view of a type from a limited_
-- with_clause, check whether the non-limited view is available.
-- If it is a (non-limited) incomplete type, get the full view.
function Matches_Limited_With_View
(Typ_1 : Entity_Id;
Typ_2 : Entity_Id) return Boolean;
-- Returns True if and only if either Typ_1 denotes a limited view of
-- Typ_2 or Typ_2 denotes a limited view of Typ_1. This can arise when
-- the limited with view of a type is used in a subprogram declaration
-- and the subprogram body is in the scope of a regular with clause for
-- the same unit. In such a case, the two type entities are considered
-- identical for purposes of conformance checking.
----------------------
-- Base_Types_Match --
----------------------
function Base_Types_Match
(Typ_1 : Entity_Id;
Typ_2 : Entity_Id) return Boolean
is
Base_1 : constant Entity_Id := Base_Type (Typ_1);
Base_2 : constant Entity_Id := Base_Type (Typ_2);
begin
if Typ_1 = Typ_2 then
return True;
elsif Base_1 = Base_2 then
-- The following is too permissive. A more precise test should
-- check that the generic actual is an ancestor subtype of the
-- other ???.
-- See code in Find_Corresponding_Spec that applies an additional
-- filter to handle accidental amiguities in instances.
return
not Is_Generic_Actual_Type (Typ_1)
or else not Is_Generic_Actual_Type (Typ_2)
or else Scope (Typ_1) /= Scope (Typ_2);
-- If Typ_2 is a generic actual type it is declared as the subtype of
-- the actual. If that actual is itself a subtype we need to use its
-- own base type to check for compatibility.
elsif Ekind (Base_2) = Ekind (Typ_2)
and then Base_1 = Base_Type (Base_2)
then
return True;
elsif Ekind (Base_1) = Ekind (Typ_1)
and then Base_2 = Base_Type (Base_1)
then
return True;
else
return False;
end if;
end Base_Types_Match;
--------------------------
-- Find_Designated_Type --
--------------------------
function Find_Designated_Type (Typ : Entity_Id) return Entity_Id is
Desig : Entity_Id;
begin
Desig := Directly_Designated_Type (Typ);
if Ekind (Desig) = E_Incomplete_Type then
-- If regular incomplete type, get full view if available
if Present (Full_View (Desig)) then
Desig := Full_View (Desig);
-- If limited view of a type, get non-limited view if available,
-- and check again for a regular incomplete type.
elsif Present (Non_Limited_View (Desig)) then
Desig := Get_Full_View (Non_Limited_View (Desig));
end if;
end if;
return Desig;
end Find_Designated_Type;
-------------------------------
-- Matches_Limited_With_View --
-------------------------------
function Matches_Limited_With_View
(Typ_1 : Entity_Id;
Typ_2 : Entity_Id) return Boolean
is
function Is_Matching_Limited_View
(Typ : Entity_Id;
View : Entity_Id) return Boolean;
-- Determine whether non-limited view View denotes type Typ in some
-- conformant fashion.
------------------------------
-- Is_Matching_Limited_View --
------------------------------
function Is_Matching_Limited_View
(Typ : Entity_Id;
View : Entity_Id) return Boolean
is
Root_Typ : Entity_Id;
Root_View : Entity_Id;
begin
-- The non-limited view directly denotes the type
if Typ = View then
return True;
-- The type is a subtype of the non-limited view
elsif Is_Subtype_Of (Typ, View) then
return True;
-- Both the non-limited view and the type denote class-wide types
elsif Is_Class_Wide_Type (Typ)
and then Is_Class_Wide_Type (View)
then
Root_Typ := Root_Type (Typ);
Root_View := Root_Type (View);
if Root_Typ = Root_View then
return True;
-- An incomplete tagged type and its full view may receive two
-- distinct class-wide types when the related package has not
-- been analyzed yet.
-- package Pack is
-- type T is tagged; -- CW_1
-- type T is tagged null record; -- CW_2
-- end Pack;
-- This is because the package lacks any semantic information
-- that may eventually link both views of T. As a consequence,
-- a client of the limited view of Pack will see CW_2 while a
-- client of the non-limited view of Pack will see CW_1.
elsif Is_Incomplete_Type (Root_Typ)
and then Present (Full_View (Root_Typ))
and then Full_View (Root_Typ) = Root_View
then
return True;
elsif Is_Incomplete_Type (Root_View)
and then Present (Full_View (Root_View))
and then Full_View (Root_View) = Root_Typ
then
return True;
end if;
end if;
return False;
end Is_Matching_Limited_View;
-- Start of processing for Matches_Limited_With_View
begin
-- In some cases a type imported through a limited_with clause, and
-- its non-limited view are both visible, for example in an anonymous
-- access-to-class-wide type in a formal, or when building the body
-- for a subprogram renaming after the subprogram has been frozen.
-- In these cases both entities designate the same type. In addition,
-- if one of them is an actual in an instance, it may be a subtype of
-- the non-limited view of the other.
if From_Limited_With (Typ_1)
and then From_Limited_With (Typ_2)
and then Available_View (Typ_1) = Available_View (Typ_2)
then
return True;
elsif From_Limited_With (Typ_1) then
return Is_Matching_Limited_View (Typ_2, Available_View (Typ_1));
elsif From_Limited_With (Typ_2) then
return Is_Matching_Limited_View (Typ_1, Available_View (Typ_2));
else
return False;
end if;
end Matches_Limited_With_View;
-- Local variables
Are_Anonymous_Access_To_Subprogram_Types : Boolean := False;
Type_1 : Entity_Id := T1;
Type_2 : Entity_Id := T2;
-- Start of processing for Conforming_Types
begin
-- The context is an instance association for a formal access-to-
-- subprogram type; the formal parameter types require mapping because
-- they may denote other formal parameters of the generic unit.
if Get_Inst then
Type_1 := Get_Instance_Of (T1);
Type_2 := Get_Instance_Of (T2);
end if;
-- If one of the types is a view of the other introduced by a limited
-- with clause, treat these as conforming for all purposes.
if Matches_Limited_With_View (T1, T2) then
return True;
elsif Base_Types_Match (Type_1, Type_2) then
if Ctype <= Mode_Conformant then
return True;
else
return
Subtypes_Statically_Match (Type_1, Type_2)
and then Dimensions_Match (Type_1, Type_2);
end if;
elsif Is_Incomplete_Or_Private_Type (Type_1)
and then Present (Full_View (Type_1))
and then Base_Types_Match (Full_View (Type_1), Type_2)
then
return
Ctype <= Mode_Conformant
or else Subtypes_Statically_Match (Full_View (Type_1), Type_2);
elsif Ekind (Type_2) = E_Incomplete_Type
and then Present (Full_View (Type_2))
and then Base_Types_Match (Type_1, Full_View (Type_2))
then
return
Ctype <= Mode_Conformant
or else Subtypes_Statically_Match (Type_1, Full_View (Type_2));
elsif Is_Private_Type (Type_2)
and then In_Instance
and then Present (Full_View (Type_2))
and then Base_Types_Match (Type_1, Full_View (Type_2))
then
return
Ctype <= Mode_Conformant
or else Subtypes_Statically_Match (Type_1, Full_View (Type_2));
-- Another confusion between views in a nested instance with an
-- actual private type whose full view is not in scope.
elsif Ekind (Type_2) = E_Private_Subtype
and then In_Instance
and then Etype (Type_2) = Type_1
then
return True;
-- In Ada 2012, incomplete types (including limited views) can appear
-- as actuals in instantiations, where they are conformant to the
-- corresponding incomplete formal.
elsif Is_Incomplete_Type (Type_1)
and then Is_Incomplete_Type (Type_2)
and then In_Instance
and then (Used_As_Generic_Actual (Type_1)
or else Used_As_Generic_Actual (Type_2))
then
return True;
end if;
-- Ada 2005 (AI-254): Anonymous access-to-subprogram types must be
-- treated recursively because they carry a signature. As far as
-- conformance is concerned, convention plays no role, and either
-- or both could be access to protected subprograms.
Are_Anonymous_Access_To_Subprogram_Types :=
Ekind (Type_1) in E_Anonymous_Access_Subprogram_Type
| E_Anonymous_Access_Protected_Subprogram_Type
and then
Ekind (Type_2) in E_Anonymous_Access_Subprogram_Type
| E_Anonymous_Access_Protected_Subprogram_Type;
-- Test anonymous access type case. For this case, static subtype
-- matching is required for mode conformance (RM 6.3.1(15)). We check
-- the base types because we may have built internal subtype entities
-- to handle null-excluding types (see Process_Formals).
if (Ekind (Base_Type (Type_1)) = E_Anonymous_Access_Type
and then
Ekind (Base_Type (Type_2)) = E_Anonymous_Access_Type)
-- Ada 2005 (AI-254)
or else Are_Anonymous_Access_To_Subprogram_Types
then
declare
Desig_1 : Entity_Id;
Desig_2 : Entity_Id;
begin
-- In Ada 2005, access constant indicators must match for
-- subtype conformance.
if Ada_Version >= Ada_2005
and then Ctype >= Subtype_Conformant
and then
Is_Access_Constant (Type_1) /= Is_Access_Constant (Type_2)
then
return False;
end if;
Desig_1 := Find_Designated_Type (Type_1);
Desig_2 := Find_Designated_Type (Type_2);
-- If the context is an instance association for a formal
-- access-to-subprogram type; formal access parameter designated
-- types require mapping because they may denote other formal
-- parameters of the generic unit.
if Get_Inst then
Desig_1 := Get_Instance_Of (Desig_1);
Desig_2 := Get_Instance_Of (Desig_2);
end if;
-- It is possible for a Class_Wide_Type to be introduced for an
-- incomplete type, in which case there is a separate class_ wide
-- type for the full view. The types conform if their Etypes
-- conform, i.e. one may be the full view of the other. This can
-- only happen in the context of an access parameter, other uses
-- of an incomplete Class_Wide_Type are illegal.
if Is_Class_Wide_Type (Desig_1)
and then
Is_Class_Wide_Type (Desig_2)
then
return
Conforming_Types
(Etype (Base_Type (Desig_1)),
Etype (Base_Type (Desig_2)), Ctype);
elsif Are_Anonymous_Access_To_Subprogram_Types then
if Ada_Version < Ada_2005 then
return
Ctype = Type_Conformant
or else Subtypes_Statically_Match (Desig_1, Desig_2);
-- We must check the conformance of the signatures themselves
else
declare
Conformant : Boolean;
begin
Check_Conformance
(Desig_1, Desig_2, Ctype, False, Conformant);
return Conformant;
end;
end if;
-- A limited view of an actual matches the corresponding
-- incomplete formal.
elsif Ekind (Desig_2) = E_Incomplete_Subtype
and then From_Limited_With (Desig_2)
and then Used_As_Generic_Actual (Etype (Desig_2))
then
return True;
else
return Base_Type (Desig_1) = Base_Type (Desig_2)
and then (Ctype = Type_Conformant
or else
Subtypes_Statically_Match (Desig_1, Desig_2));
end if;
end;
-- Otherwise definitely no match
else
if ((Ekind (Type_1) = E_Anonymous_Access_Type
and then Is_Access_Type (Type_2))
or else (Ekind (Type_2) = E_Anonymous_Access_Type
and then Is_Access_Type (Type_1)))
and then
Conforming_Types
(Designated_Type (Type_1), Designated_Type (Type_2), Ctype)
then
May_Hide_Profile := True;
end if;
return False;
end if;
end Conforming_Types;
--------------------------
-- Create_Extra_Formals --
--------------------------
procedure Create_Extra_Formals (E : Entity_Id) is
First_Extra : Entity_Id := Empty;
Formal : Entity_Id;
Last_Extra : Entity_Id := Empty;
function Add_Extra_Formal
(Assoc_Entity : Entity_Id;
Typ : Entity_Id;
Scope : Entity_Id;
Suffix : String) return Entity_Id;
-- Add an extra formal to the current list of formals and extra formals.
-- The extra formal is added to the end of the list of extra formals,
-- and also returned as the result. These formals are always of mode IN.
-- The new formal has the type Typ, is declared in Scope, and its name
-- is given by a concatenation of the name of Assoc_Entity and Suffix.
-- The following suffixes are currently used. They should not be changed
-- without coordinating with CodePeer, which makes use of these to
-- provide better messages.
-- O denotes the Constrained bit.
-- L denotes the accessibility level.
-- BIP_xxx denotes an extra formal for a build-in-place function. See
-- the full list in exp_ch6.BIP_Formal_Kind.
----------------------
-- Add_Extra_Formal --
----------------------
function Add_Extra_Formal
(Assoc_Entity : Entity_Id;
Typ : Entity_Id;
Scope : Entity_Id;
Suffix : String) return Entity_Id
is
EF : constant Entity_Id :=
Make_Defining_Identifier (Sloc (Assoc_Entity),
Chars => New_External_Name (Chars (Assoc_Entity),
Suffix => Suffix));
begin
-- A little optimization. Never generate an extra formal for the
-- _init operand of an initialization procedure, since it could
-- never be used.
if Chars (Formal) = Name_uInit then
return Empty;
end if;
Set_Ekind (EF, E_In_Parameter);
Set_Actual_Subtype (EF, Typ);
Set_Etype (EF, Typ);
Set_Scope (EF, Scope);
Set_Mechanism (EF, Default_Mechanism);
Set_Formal_Validity (EF);
if No (First_Extra) then
First_Extra := EF;
Set_Extra_Formals (Scope, EF);
end if;
if Present (Last_Extra) then
Set_Extra_Formal (Last_Extra, EF);
end if;
Last_Extra := EF;
return EF;
end Add_Extra_Formal;
-- Local variables
Formal_Type : Entity_Id;
P_Formal : Entity_Id := Empty;
-- Start of processing for Create_Extra_Formals
begin
-- We never generate extra formals if expansion is not active because we
-- don't need them unless we are generating code.
if not Expander_Active then
return;
end if;
-- No need to generate extra formals in interface thunks whose target
-- primitive has no extra formals.
if Is_Thunk (E) and then No (Extra_Formals (Thunk_Entity (E))) then
return;
end if;
-- If this is a derived subprogram then the subtypes of the parent
-- subprogram's formal parameters will be used to determine the need
-- for extra formals.
if Is_Overloadable (E) and then Present (Alias (E)) then
P_Formal := First_Formal (Alias (E));
end if;
Formal := First_Formal (E);
while Present (Formal) loop
Last_Extra := Formal;
Next_Formal (Formal);
end loop;
-- If Extra_Formals were already created, don't do it again. This
-- situation may arise for subprogram types created as part of
-- dispatching calls (see Expand_Dispatching_Call).
if Present (Last_Extra) and then Present (Extra_Formal (Last_Extra)) then
return;
end if;
-- If the subprogram is a predefined dispatching subprogram then don't
-- generate any extra constrained or accessibility level formals. In
-- general we suppress these for internal subprograms (by not calling
-- Freeze_Subprogram and Create_Extra_Formals at all), but internally
-- generated stream attributes do get passed through because extra
-- build-in-place formals are needed in some cases (limited 'Input).
if Is_Predefined_Internal_Operation (E) then
goto Test_For_Func_Result_Extras;
end if;
Formal := First_Formal (E);
while Present (Formal) loop
-- Create extra formal for supporting the attribute 'Constrained.
-- The case of a private type view without discriminants also
-- requires the extra formal if the underlying type has defaulted
-- discriminants.
if Ekind (Formal) /= E_In_Parameter then
if Present (P_Formal) then
Formal_Type := Etype (P_Formal);
else
Formal_Type := Etype (Formal);
end if;
-- Do not produce extra formals for Unchecked_Union parameters.
-- Jump directly to the end of the loop.
if Is_Unchecked_Union (Base_Type (Formal_Type)) then
goto Skip_Extra_Formal_Generation;
end if;
if not Has_Discriminants (Formal_Type)
and then Ekind (Formal_Type) in Private_Kind
and then Present (Underlying_Type (Formal_Type))
then
Formal_Type := Underlying_Type (Formal_Type);
end if;
-- Suppress the extra formal if formal's subtype is constrained or
-- indefinite, or we're compiling for Ada 2012 and the underlying
-- type is tagged and limited. In Ada 2012, a limited tagged type
-- can have defaulted discriminants, but 'Constrained is required
-- to return True, so the formal is never needed (see AI05-0214).
-- Note that this ensures consistency of calling sequences for
-- dispatching operations when some types in a class have defaults
-- on discriminants and others do not (and requiring the extra
-- formal would introduce distributed overhead).
-- If the type does not have a completion yet, treat as prior to
-- Ada 2012 for consistency.
if Has_Discriminants (Formal_Type)
and then not Is_Constrained (Formal_Type)
and then Is_Definite_Subtype (Formal_Type)
and then (Ada_Version < Ada_2012
or else No (Underlying_Type (Formal_Type))
or else not
(Is_Limited_Type (Formal_Type)
and then
(Is_Tagged_Type
(Underlying_Type (Formal_Type)))))
then
Set_Extra_Constrained
(Formal, Add_Extra_Formal (Formal, Standard_Boolean, E, "O"));
end if;
end if;
-- Create extra formal for supporting accessibility checking. This
-- is done for both anonymous access formals and formals of named
-- access types that are marked as controlling formals. The latter
-- case can occur when Expand_Dispatching_Call creates a subprogram
-- type and substitutes the types of access-to-class-wide actuals
-- for the anonymous access-to-specific-type of controlling formals.
-- Base_Type is applied because in cases where there is a null
-- exclusion the formal may have an access subtype.
-- This is suppressed if we specifically suppress accessibility
-- checks at the package level for either the subprogram, or the
-- package in which it resides. However, we do not suppress it
-- simply if the scope has accessibility checks suppressed, since
-- this could cause trouble when clients are compiled with a
-- different suppression setting. The explicit checks at the
-- package level are safe from this point of view.
if (Ekind (Base_Type (Etype (Formal))) = E_Anonymous_Access_Type
or else (Is_Controlling_Formal (Formal)
and then Is_Access_Type (Base_Type (Etype (Formal)))))
and then not
(Explicit_Suppress (E, Accessibility_Check)
or else
Explicit_Suppress (Scope (E), Accessibility_Check))
and then
(No (P_Formal)
or else Present (Extra_Accessibility (P_Formal)))
then
Set_Extra_Accessibility
(Formal, Add_Extra_Formal (Formal, Standard_Natural, E, "L"));
end if;
-- This label is required when skipping extra formal generation for
-- Unchecked_Union parameters.
<<Skip_Extra_Formal_Generation>>
if Present (P_Formal) then
Next_Formal (P_Formal);
end if;
Next_Formal (Formal);
end loop;
<<Test_For_Func_Result_Extras>>
-- Ada 2012 (AI05-234): "the accessibility level of the result of a
-- function call is ... determined by the point of call ...".
if Needs_Result_Accessibility_Level (E) then
Set_Extra_Accessibility_Of_Result
(E, Add_Extra_Formal (E, Standard_Natural, E, "L"));
end if;
-- Ada 2005 (AI-318-02): In the case of build-in-place functions, add
-- appropriate extra formals. See type Exp_Ch6.BIP_Formal_Kind.
if Is_Build_In_Place_Function (E) then
declare
Result_Subt : constant Entity_Id := Etype (E);
Formal_Typ : Entity_Id;
Subp_Decl : Node_Id;
Discard : Entity_Id;
begin
-- In the case of functions with unconstrained result subtypes,
-- add a 4-state formal indicating whether the return object is
-- allocated by the caller (1), or should be allocated by the
-- callee on the secondary stack (2), in the global heap (3), or
-- in a user-defined storage pool (4). For the moment we just use
-- Natural for the type of this formal. Note that this formal
-- isn't usually needed in the case where the result subtype is
-- constrained, but it is needed when the function has a tagged
-- result, because generally such functions can be called in a
-- dispatching context and such calls must be handled like calls
-- to a class-wide function.
if Needs_BIP_Alloc_Form (E) then
Discard :=
Add_Extra_Formal
(E, Standard_Natural,
E, BIP_Formal_Suffix (BIP_Alloc_Form));
-- Add BIP_Storage_Pool, in case BIP_Alloc_Form indicates to
-- use a user-defined pool. This formal is not added on
-- ZFP as those targets do not support pools.
if RTE_Available (RE_Root_Storage_Pool_Ptr) then
Discard :=
Add_Extra_Formal
(E, RTE (RE_Root_Storage_Pool_Ptr),
E, BIP_Formal_Suffix (BIP_Storage_Pool));
end if;
end if;
-- In the case of functions whose result type needs finalization,
-- add an extra formal which represents the finalization master.
if Needs_BIP_Finalization_Master (E) then
Discard :=
Add_Extra_Formal
(E, RTE (RE_Finalization_Master_Ptr),
E, BIP_Formal_Suffix (BIP_Finalization_Master));
end if;
-- When the result type contains tasks, add two extra formals: the
-- master of the tasks to be created, and the caller's activation
-- chain.
if Needs_BIP_Task_Actuals (E) then
Discard :=
Add_Extra_Formal
(E, RTE (RE_Master_Id),
E, BIP_Formal_Suffix (BIP_Task_Master));
Set_Has_Master_Entity (E);
Discard :=
Add_Extra_Formal
(E, RTE (RE_Activation_Chain_Access),
E, BIP_Formal_Suffix (BIP_Activation_Chain));
end if;
-- All build-in-place functions get an extra formal that will be
-- passed the address of the return object within the caller.
Formal_Typ :=
Create_Itype (E_Anonymous_Access_Type, E, Scope_Id => Scope (E));
-- Incomplete_View_From_Limited_With is needed here because
-- gigi gets confused if the designated type is the full view
-- coming from a limited-with'ed package. In the normal case,
-- (no limited with) Incomplete_View_From_Limited_With
-- returns Result_Subt.
Set_Directly_Designated_Type
(Formal_Typ, Incomplete_View_From_Limited_With (Result_Subt));
Set_Etype (Formal_Typ, Formal_Typ);
Set_Depends_On_Private
(Formal_Typ, Has_Private_Component (Formal_Typ));
Set_Is_Public (Formal_Typ, Is_Public (Scope (Formal_Typ)));
Set_Is_Access_Constant (Formal_Typ, False);
-- Ada 2005 (AI-50217): Propagate the attribute that indicates
-- the designated type comes from the limited view (for back-end
-- purposes).
Set_From_Limited_With
(Formal_Typ, From_Limited_With (Result_Subt));
Layout_Type (Formal_Typ);
-- Force the definition of the Itype in case of internal function
-- calls within the same or nested scope.
if Is_Subprogram_Or_Generic_Subprogram (E) then
Subp_Decl := Parent (E);
-- The insertion point for an Itype reference should be after
-- the unit declaration node of the subprogram. An exception
-- to this are inherited operations from a parent type in which
-- case the derived type acts as their parent.
if Nkind (Subp_Decl) in N_Function_Specification
| N_Procedure_Specification
then
Subp_Decl := Parent (Subp_Decl);
end if;
Build_Itype_Reference (Formal_Typ, Subp_Decl);
end if;
Discard :=
Add_Extra_Formal
(E, Formal_Typ, E, BIP_Formal_Suffix (BIP_Object_Access));
end;
end if;
-- If this is an instance of a generic, we need to have extra formals
-- for the Alias.
if Is_Generic_Instance (E) and then Present (Alias (E)) then
Set_Extra_Formals (Alias (E), Extra_Formals (E));
end if;
end Create_Extra_Formals;
-----------------------------
-- Enter_Overloaded_Entity --
-----------------------------
procedure Enter_Overloaded_Entity (S : Entity_Id) is
function Matches_Predefined_Op return Boolean;
-- This returns an approximation of whether S matches a predefined
-- operator, based on the operator symbol, and the parameter and result
-- types. The rules are scattered throughout chapter 4 of the Ada RM.
---------------------------
-- Matches_Predefined_Op --
---------------------------
function Matches_Predefined_Op return Boolean is
Formal_1 : constant Entity_Id := First_Formal (S);
Formal_2 : constant Entity_Id := Next_Formal (Formal_1);
Op : constant Name_Id := Chars (S);
Result_Type : constant Entity_Id := Base_Type (Etype (S));
Type_1 : constant Entity_Id := Base_Type (Etype (Formal_1));
begin
-- Binary operator
if Present (Formal_2) then
declare
Type_2 : constant Entity_Id := Base_Type (Etype (Formal_2));
begin
-- All but "&" and "**" have same-types parameters
case Op is
when Name_Op_Concat
| Name_Op_Expon
=>
null;
when others =>
if Type_1 /= Type_2 then
return False;
end if;
end case;
-- Check parameter and result types
case Op is
when Name_Op_And
| Name_Op_Or
| Name_Op_Xor
=>
return
Is_Boolean_Type (Result_Type)
and then Result_Type = Type_1;
when Name_Op_Mod
| Name_Op_Rem
=>
return
Is_Integer_Type (Result_Type)
and then Result_Type = Type_1;
when Name_Op_Add
| Name_Op_Divide
| Name_Op_Multiply
| Name_Op_Subtract
=>
return
Is_Numeric_Type (Result_Type)
and then Result_Type = Type_1;
when Name_Op_Eq
| Name_Op_Ne
=>
return
Is_Boolean_Type (Result_Type)
and then not Is_Limited_Type (Type_1);
when Name_Op_Ge
| Name_Op_Gt
| Name_Op_Le
| Name_Op_Lt
=>
return
Is_Boolean_Type (Result_Type)
and then (Is_Array_Type (Type_1)
or else Is_Scalar_Type (Type_1));
when Name_Op_Concat =>
return Is_Array_Type (Result_Type);
when Name_Op_Expon =>
return
(Is_Integer_Type (Result_Type)
or else Is_Floating_Point_Type (Result_Type))
and then Result_Type = Type_1
and then Type_2 = Standard_Integer;
when others =>
raise Program_Error;
end case;
end;
-- Unary operator
else
case Op is
when Name_Op_Abs
| Name_Op_Add
| Name_Op_Subtract
=>
return
Is_Numeric_Type (Result_Type)
and then Result_Type = Type_1;
when Name_Op_Not =>
return
Is_Boolean_Type (Result_Type)
and then Result_Type = Type_1;
when others =>
raise Program_Error;
end case;
end if;
end Matches_Predefined_Op;
-- Local variables
E : Entity_Id := Current_Entity_In_Scope (S);
C_E : Entity_Id := Current_Entity (S);
-- Start of processing for Enter_Overloaded_Entity
begin
if Present (E) then
Set_Has_Homonym (E);
Set_Has_Homonym (S);
end if;
Set_Is_Immediately_Visible (S);
Set_Scope (S, Current_Scope);
-- Chain new entity if front of homonym in current scope, so that
-- homonyms are contiguous.
if Present (E) and then E /= C_E then
while Homonym (C_E) /= E loop
C_E := Homonym (C_E);
end loop;
Set_Homonym (C_E, S);
else
E := C_E;
Set_Current_Entity (S);
end if;
Set_Homonym (S, E);
if Is_Inherited_Operation (S) then
Append_Inherited_Subprogram (S);
else
Append_Entity (S, Current_Scope);
end if;
Set_Public_Status (S);
if Debug_Flag_E then
Write_Str ("New overloaded entity chain: ");
Write_Name (Chars (S));
E := S;
while Present (E) loop
Write_Str (" "); Write_Int (Int (E));
E := Homonym (E);
end loop;
Write_Eol;
end if;
-- Generate warning for hiding
if Warn_On_Hiding
and then Comes_From_Source (S)
and then In_Extended_Main_Source_Unit (S)
then
E := S;
loop
E := Homonym (E);
exit when No (E);
-- Warn unless genuine overloading. Do not emit warning on
-- hiding predefined operators in Standard (these are either an
-- artifact of our implicit declarations, or simple noise) but
-- keep warning on a operator defined on a local subtype, because
-- of the real danger that different operators may be applied in
-- various parts of the program.
-- Note that if E and S have the same scope, there is never any
-- hiding. Either the two conflict, and the program is illegal,
-- or S is overriding an implicit inherited subprogram.
if Scope (E) /= Scope (S)
and then (not Is_Overloadable (E)
or else Subtype_Conformant (E, S))
and then (Is_Immediately_Visible (E)
or else Is_Potentially_Use_Visible (S))
then
if Scope (E) = Standard_Standard then
if Nkind (S) = N_Defining_Operator_Symbol
and then Scope (Base_Type (Etype (First_Formal (S)))) /=
Scope (S)
and then Matches_Predefined_Op
then
Error_Msg_N
("declaration of & hides predefined operator?h?", S);
end if;
-- E not immediately within Standard
else
Error_Msg_Sloc := Sloc (E);
Error_Msg_N ("declaration of & hides one #?h?", S);
end if;
end if;
end loop;
end if;
end Enter_Overloaded_Entity;
-----------------------------
-- Check_Untagged_Equality --
-----------------------------
procedure Check_Untagged_Equality (Eq_Op : Entity_Id) is
Typ : constant Entity_Id := Etype (First_Formal (Eq_Op));
Decl : constant Node_Id := Unit_Declaration_Node (Eq_Op);
Obj_Decl : Node_Id;
begin
-- This check applies only if we have a subprogram declaration with an
-- untagged record type that is conformant to the predefined op.
if Nkind (Decl) /= N_Subprogram_Declaration
or else not Is_Record_Type (Typ)
or else Is_Tagged_Type (Typ)
or else Etype (Next_Formal (First_Formal (Eq_Op))) /= Typ
then
return;
end if;
-- In Ada 2012 case, we will output errors or warnings depending on
-- the setting of debug flag -gnatd.E.
if Ada_Version >= Ada_2012 then
Error_Msg_Warn := Debug_Flag_Dot_EE;
-- In earlier versions of Ada, nothing to do unless we are warning on
-- Ada 2012 incompatibilities (Warn_On_Ada_2012_Incompatibility set).
else
if not Warn_On_Ada_2012_Compatibility then
return;
end if;
end if;
-- Cases where the type has already been frozen
if Is_Frozen (Typ) then
-- The check applies to a primitive operation, so check that type
-- and equality operation are in the same scope.
if Scope (Typ) /= Current_Scope then
return;
-- If the type is a generic actual (sub)type, the operation is not
-- primitive either because the base type is declared elsewhere.
elsif Is_Generic_Actual_Type (Typ) then
return;
-- Here we have a definite error of declaration after freezing
else
if Ada_Version >= Ada_2012 then
Error_Msg_NE
("equality operator must be declared before type & is "
& "frozen (RM 4.5.2 (9.8)) (Ada 2012)<<", Eq_Op, Typ);
-- In Ada 2012 mode with error turned to warning, output one
-- more warning to warn that the equality operation may not
-- compose. This is the consequence of ignoring the error.
if Error_Msg_Warn then
Error_Msg_N ("\equality operation may not compose??", Eq_Op);
end if;
else
Error_Msg_NE
("equality operator must be declared before type& is "
& "frozen (RM 4.5.2 (9.8)) (Ada 2012)?y?", Eq_Op, Typ);
end if;
-- If we are in the package body, we could just move the
-- declaration to the package spec, so add a message saying that.
if In_Package_Body (Scope (Typ)) then
if Ada_Version >= Ada_2012 then
Error_Msg_N
("\move declaration to package spec<<", Eq_Op);
else
Error_Msg_N
("\move declaration to package spec (Ada 2012)?y?", Eq_Op);
end if;
-- Otherwise try to find the freezing point for better message.
else
Obj_Decl := Next (Parent (Typ));
while Present (Obj_Decl) and then Obj_Decl /= Decl loop
if Nkind (Obj_Decl) = N_Object_Declaration
and then Etype (Defining_Identifier (Obj_Decl)) = Typ
then
-- Freezing point, output warnings
if Ada_Version >= Ada_2012 then
Error_Msg_NE
("type& is frozen by declaration??", Obj_Decl, Typ);
Error_Msg_N
("\an equality operator cannot be declared after "
& "this point??",
Obj_Decl);
else
Error_Msg_NE
("type& is frozen by declaration (Ada 2012)?y?",
Obj_Decl, Typ);
Error_Msg_N
("\an equality operator cannot be declared after "
& "this point (Ada 2012)?y?",
Obj_Decl);
end if;
exit;
-- If we reach generated code for subprogram declaration
-- or body, it is the body that froze the type and the
-- declaration is legal.
elsif Sloc (Obj_Decl) = Sloc (Decl) then
return;
end if;
Next (Obj_Decl);
end loop;
end if;
end if;
-- Here if type is not frozen yet. It is illegal to have a primitive
-- equality declared in the private part if the type is visible.
elsif not In_Same_List (Parent (Typ), Decl)
and then not Is_Limited_Type (Typ)
then
-- Shouldn't we give an RM reference here???
if Ada_Version >= Ada_2012 then
Error_Msg_N
("equality operator appears too late<<", Eq_Op);
else
Error_Msg_N
("equality operator appears too late (Ada 2012)?y?", Eq_Op);
end if;
-- Finally check for AI12-0352: declaration of a user-defined primitive
-- equality operation for a record type T is illegal if it occurs after
-- a type has been derived from T.
else
Obj_Decl := Next (Parent (Typ));
while Present (Obj_Decl) and then Obj_Decl /= Decl loop
if Nkind (Obj_Decl) = N_Full_Type_Declaration
and then Etype (Defining_Identifier (Obj_Decl)) = Typ
then
Error_Msg_N
("equality operator cannot appear after derivation", Eq_Op);
Error_Msg_NE
("an equality operator for& cannot be declared after "
& "this point??",
Obj_Decl, Typ);
end if;
Next (Obj_Decl);
end loop;
end if;
end Check_Untagged_Equality;
-----------------------------
-- Find_Corresponding_Spec --
-----------------------------
function Find_Corresponding_Spec
(N : Node_Id;
Post_Error : Boolean := True) return Entity_Id
is
Spec : constant Node_Id := Specification (N);
Designator : constant Entity_Id := Defining_Entity (Spec);
E : Entity_Id;
function Different_Generic_Profile (E : Entity_Id) return Boolean;
-- Even if fully conformant, a body may depend on a generic actual when
-- the spec does not, or vice versa, in which case they were distinct
-- entities in the generic.
-------------------------------
-- Different_Generic_Profile --
-------------------------------
function Different_Generic_Profile (E : Entity_Id) return Boolean is
F1, F2 : Entity_Id;
function Same_Generic_Actual (T1, T2 : Entity_Id) return Boolean;
-- Check that the types of corresponding formals have the same
-- generic actual if any. We have to account for subtypes of a
-- generic formal, declared between a spec and a body, which may
-- appear distinct in an instance but matched in the generic, and
-- the subtype may be used either in the spec or the body of the
-- subprogram being checked.
-------------------------
-- Same_Generic_Actual --
-------------------------
function Same_Generic_Actual (T1, T2 : Entity_Id) return Boolean is
function Is_Declared_Subtype (S1, S2 : Entity_Id) return Boolean;
-- Predicate to check whether S1 is a subtype of S2 in the source
-- of the instance.
-------------------------
-- Is_Declared_Subtype --
-------------------------
function Is_Declared_Subtype (S1, S2 : Entity_Id) return Boolean is
begin
return Comes_From_Source (Parent (S1))
and then Nkind (Parent (S1)) = N_Subtype_Declaration
and then Is_Entity_Name (Subtype_Indication (Parent (S1)))
and then Entity (Subtype_Indication (Parent (S1))) = S2;
end Is_Declared_Subtype;
-- Start of processing for Same_Generic_Actual
begin
return Is_Generic_Actual_Type (T1) = Is_Generic_Actual_Type (T2)
or else Is_Declared_Subtype (T1, T2)
or else Is_Declared_Subtype (T2, T1);
end Same_Generic_Actual;
-- Start of processing for Different_Generic_Profile
begin
if not In_Instance then
return False;
elsif Ekind (E) = E_Function
and then not Same_Generic_Actual (Etype (E), Etype (Designator))
then
return True;
end if;
F1 := First_Formal (Designator);
F2 := First_Formal (E);
while Present (F1) loop
if not Same_Generic_Actual (Etype (F1), Etype (F2)) then
return True;
end if;
Next_Formal (F1);
Next_Formal (F2);
end loop;
return False;
end Different_Generic_Profile;
-- Start of processing for Find_Corresponding_Spec
begin
E := Current_Entity (Designator);
while Present (E) loop
-- We are looking for a matching spec. It must have the same scope,
-- and the same name, and either be type conformant, or be the case
-- of a library procedure spec and its body (which belong to one
-- another regardless of whether they are type conformant or not).
if Scope (E) = Current_Scope then
if Current_Scope = Standard_Standard
or else (Ekind (E) = Ekind (Designator)
and then Type_Conformant (E, Designator))
then
-- Within an instantiation, we know that spec and body are
-- subtype conformant, because they were subtype conformant in
-- the generic. We choose the subtype-conformant entity here as
-- well, to resolve spurious ambiguities in the instance that
-- were not present in the generic (i.e. when two different
-- types are given the same actual). If we are looking for a
-- spec to match a body, full conformance is expected.
if In_Instance then
-- Inherit the convention and "ghostness" of the matching
-- spec to ensure proper full and subtype conformance.
Set_Convention (Designator, Convention (E));
-- Skip past subprogram bodies and subprogram renamings that
-- may appear to have a matching spec, but that aren't fully
-- conformant with it. That can occur in cases where an
-- actual type causes unrelated homographs in the instance.
if Nkind (N) in N_Subprogram_Body
| N_Subprogram_Renaming_Declaration
and then Present (Homonym (E))
and then not Fully_Conformant (Designator, E)
then
goto Next_Entity;
elsif not Subtype_Conformant (Designator, E) then
goto Next_Entity;
elsif Different_Generic_Profile (E) then
goto Next_Entity;
end if;
end if;
-- Ada 2012 (AI05-0165): For internally generated bodies of
-- null procedures locate the internally generated spec. We
-- enforce mode conformance since a tagged type may inherit
-- from interfaces several null primitives which differ only
-- in the mode of the formals.
if not (Comes_From_Source (E))
and then Is_Null_Procedure (E)
and then not Mode_Conformant (Designator, E)
then
null;
-- For null procedures coming from source that are completions,
-- analysis of the generated body will establish the link.
elsif Comes_From_Source (E)
and then Nkind (Spec) = N_Procedure_Specification
and then Null_Present (Spec)
then
return E;
-- Expression functions can be completions, but cannot be
-- completed by an explicit body.
elsif Comes_From_Source (E)
and then Comes_From_Source (N)
and then Nkind (N) = N_Subprogram_Body
and then Nkind (Original_Node (Unit_Declaration_Node (E))) =
N_Expression_Function
then
Error_Msg_Sloc := Sloc (E);
Error_Msg_N ("body conflicts with expression function#", N);
return Empty;
elsif not Has_Completion (E) then
if Nkind (N) /= N_Subprogram_Body_Stub then
Set_Corresponding_Spec (N, E);
end if;
Set_Has_Completion (E);
return E;
elsif Nkind (Parent (N)) = N_Subunit then
-- If this is the proper body of a subunit, the completion
-- flag is set when analyzing the stub.
return E;
-- If E is an internal function with a controlling result that
-- was created for an operation inherited by a null extension,
-- it may be overridden by a body without a previous spec (one
-- more reason why these should be shunned). In that case we
-- remove the generated body if present, because the current
-- one is the explicit overriding.
elsif Ekind (E) = E_Function
and then Ada_Version >= Ada_2005
and then not Comes_From_Source (E)
and then Has_Controlling_Result (E)
and then Is_Null_Extension (Etype (E))
and then Comes_From_Source (Spec)
then
Set_Has_Completion (E, False);
if Expander_Active
and then Nkind (Parent (E)) = N_Function_Specification
then
Remove
(Unit_Declaration_Node
(Corresponding_Body (Unit_Declaration_Node (E))));
return E;
-- If expansion is disabled, or if the wrapper function has
-- not been generated yet, this a late body overriding an
-- inherited operation, or it is an overriding by some other
-- declaration before the controlling result is frozen. In
-- either case this is a declaration of a new entity.
else
return Empty;
end if;
-- If the body already exists, then this is an error unless
-- the previous declaration is the implicit declaration of a
-- derived subprogram. It is also legal for an instance to
-- contain type conformant overloadable declarations (but the
-- generic declaration may not), per 8.3(26/2).
elsif No (Alias (E))
and then not Is_Intrinsic_Subprogram (E)
and then not In_Instance
and then Post_Error
then
Error_Msg_Sloc := Sloc (E);
if Is_Imported (E) then
Error_Msg_NE
("body not allowed for imported subprogram & declared#",
N, E);
else
Error_Msg_NE ("duplicate body for & declared#", N, E);
end if;
end if;
-- Child units cannot be overloaded, so a conformance mismatch
-- between body and a previous spec is an error.
elsif Is_Child_Unit (E)
and then
Nkind (Unit_Declaration_Node (Designator)) = N_Subprogram_Body
and then
Nkind (Parent (Unit_Declaration_Node (Designator))) =
N_Compilation_Unit
and then Post_Error
then
Error_Msg_N
("body of child unit does not match previous declaration", N);
end if;
end if;
<<Next_Entity>>
E := Homonym (E);
end loop;
-- On exit, we know that no previous declaration of subprogram exists
return Empty;
end Find_Corresponding_Spec;
----------------------
-- Fully_Conformant --
----------------------
function Fully_Conformant (New_Id, Old_Id : Entity_Id) return Boolean is
Result : Boolean;
begin
Check_Conformance (New_Id, Old_Id, Fully_Conformant, False, Result);
return Result;
end Fully_Conformant;
----------------------------------
-- Fully_Conformant_Expressions --
----------------------------------
function Fully_Conformant_Expressions
(Given_E1 : Node_Id;
Given_E2 : Node_Id;
Report : Boolean := False) return Boolean
is
E1 : constant Node_Id := Original_Node (Given_E1);
E2 : constant Node_Id := Original_Node (Given_E2);
-- We always test conformance on original nodes, since it is possible
-- for analysis and/or expansion to make things look as though they
-- conform when they do not, e.g. by converting 1+2 into 3.
function FCE (Given_E1 : Node_Id; Given_E2 : Node_Id) return Boolean;
-- ???
function FCL (L1 : List_Id; L2 : List_Id) return Boolean;
-- Compare elements of two lists for conformance. Elements have to be
-- conformant, and actuals inserted as default parameters do not match
-- explicit actuals with the same value.
function FCO (Op_Node : Node_Id; Call_Node : Node_Id) return Boolean;
-- Compare an operator node with a function call
---------
-- FCE --
---------
function FCE (Given_E1 : Node_Id; Given_E2 : Node_Id) return Boolean is
begin
return Fully_Conformant_Expressions (Given_E1, Given_E2, Report);
end FCE;
---------
-- FCL --
---------
function FCL (L1 : List_Id; L2 : List_Id) return Boolean is
N1 : Node_Id;
N2 : Node_Id;
begin
if L1 = No_List then
N1 := Empty;
else
N1 := First (L1);
end if;
if L2 = No_List then
N2 := Empty;
else
N2 := First (L2);
end if;
-- Compare two lists, skipping rewrite insertions (we want to compare
-- the original trees, not the expanded versions).
loop
if Is_Rewrite_Insertion (N1) then
Next (N1);
elsif Is_Rewrite_Insertion (N2) then
Next (N2);
elsif No (N1) then
return No (N2);
elsif No (N2) then
return False;
elsif not FCE (N1, N2) then
return False;
else
Next (N1);
Next (N2);
end if;
end loop;
end FCL;
---------
-- FCO --
---------
function FCO (Op_Node : Node_Id; Call_Node : Node_Id) return Boolean is
Actuals : constant List_Id := Parameter_Associations (Call_Node);
Act : Node_Id;
begin
if No (Actuals)
or else Entity (Op_Node) /= Entity (Name (Call_Node))
then
return False;
else
Act := First (Actuals);
if Nkind (Op_Node) in N_Binary_Op then
if not FCE (Left_Opnd (Op_Node), Act) then
return False;
end if;
Next (Act);
end if;
return Present (Act)
and then FCE (Right_Opnd (Op_Node), Act)
and then No (Next (Act));
end if;
end FCO;
function User_Defined_Numeric_Literal_Mismatch return Boolean;
-- Usually literals with the same value like 12345 and 12_345
-- or 123.0 and 123.00 conform, but not if they are
-- user-defined literals.
-------------------------------------------
-- User_Defined_Numeric_Literal_Mismatch --
-------------------------------------------
function User_Defined_Numeric_Literal_Mismatch return Boolean is
E1_Is_User_Defined : constant Boolean :=
Nkind (Given_E1) not in N_Integer_Literal | N_Real_Literal;
E2_Is_User_Defined : constant Boolean :=
Nkind (Given_E2) not in N_Integer_Literal | N_Real_Literal;
begin
pragma Assert (E1_Is_User_Defined = E2_Is_User_Defined);
return E1_Is_User_Defined and then
not String_Equal (String_From_Numeric_Literal (E1),
String_From_Numeric_Literal (E2));
end User_Defined_Numeric_Literal_Mismatch;
-- Local variables
Result : Boolean;
-- Start of processing for Fully_Conformant_Expressions
begin
Result := True;
-- Nonconformant if paren count does not match. Note: if some idiot
-- complains that we don't do this right for more than 3 levels of
-- parentheses, they will be treated with the respect they deserve.
if Paren_Count (E1) /= Paren_Count (E2) then
return False;
-- If same entities are referenced, then they are conformant even if
-- they have different forms (RM 8.3.1(19-20)).
elsif Is_Entity_Name (E1) and then Is_Entity_Name (E2) then
if Present (Entity (E1)) then
Result := Entity (E1) = Entity (E2)
-- One may be a discriminant that has been replaced by the
-- corresponding discriminal.
or else
(Chars (Entity (E1)) = Chars (Entity (E2))
and then Ekind (Entity (E1)) = E_Discriminant
and then Ekind (Entity (E2)) = E_In_Parameter)
-- The discriminant of a protected type is transformed into
-- a local constant and then into a parameter of a protected
-- operation.
or else
(Ekind (Entity (E1)) = E_Constant
and then Ekind (Entity (E2)) = E_In_Parameter
and then Present (Discriminal_Link (Entity (E1)))
and then Discriminal_Link (Entity (E1)) =
Discriminal_Link (Entity (E2)))
-- AI12-050: The loop variables of quantified expressions match
-- if they have the same identifier, even though they may have
-- different entities.
or else
(Chars (Entity (E1)) = Chars (Entity (E2))
and then Ekind (Entity (E1)) = E_Loop_Parameter
and then Ekind (Entity (E2)) = E_Loop_Parameter)
-- A call to an instantiation of Unchecked_Conversion is
-- rewritten with the name of the generated function created for
-- the instance, and this must be special-cased.
or else
(Ekind (Entity (E1)) = E_Function
and then Is_Intrinsic_Subprogram (Entity (E1))
and then Is_Generic_Instance (Entity (E1))
and then Entity (E2) = Alias (Entity (E1)));
if Report and not Result then
Error_Msg_Sloc :=
Text_Ptr'Max (Sloc (Entity (E1)), Sloc (Entity (E2)));
Error_Msg_NE
("Meaning of& differs because of declaration#", E1, E2);
end if;
return Result;
elsif Nkind (E1) = N_Expanded_Name
and then Nkind (E2) = N_Expanded_Name
and then Nkind (Selector_Name (E1)) = N_Character_Literal
and then Nkind (Selector_Name (E2)) = N_Character_Literal
then
return Chars (Selector_Name (E1)) = Chars (Selector_Name (E2));
else
-- Identifiers in component associations don't always have
-- entities, but their names must conform.
return Nkind (E1) = N_Identifier
and then Nkind (E2) = N_Identifier
and then Chars (E1) = Chars (E2);
end if;
elsif Nkind (E1) = N_Character_Literal
and then Nkind (E2) = N_Expanded_Name
then
return Nkind (Selector_Name (E2)) = N_Character_Literal
and then Chars (E1) = Chars (Selector_Name (E2));
elsif Nkind (E2) = N_Character_Literal
and then Nkind (E1) = N_Expanded_Name
then
return Nkind (Selector_Name (E1)) = N_Character_Literal
and then Chars (E2) = Chars (Selector_Name (E1));
elsif Nkind (E1) in N_Op and then Nkind (E2) = N_Function_Call then
return FCO (E1, E2);
elsif Nkind (E2) in N_Op and then Nkind (E1) = N_Function_Call then
return FCO (E2, E1);
-- Otherwise we must have the same syntactic entity
elsif Nkind (E1) /= Nkind (E2) then
return False;
-- At this point, we specialize by node type
else
case Nkind (E1) is
when N_Aggregate =>
return
FCL (Expressions (E1), Expressions (E2))
and then
FCL (Component_Associations (E1),
Component_Associations (E2));
when N_Allocator =>
if Nkind (Expression (E1)) = N_Qualified_Expression
or else
Nkind (Expression (E2)) = N_Qualified_Expression
then
return FCE (Expression (E1), Expression (E2));
-- Check that the subtype marks and any constraints
-- are conformant
else
declare
Indic1 : constant Node_Id := Expression (E1);
Indic2 : constant Node_Id := Expression (E2);
Elt1 : Node_Id;
Elt2 : Node_Id;
begin
if Nkind (Indic1) /= N_Subtype_Indication then
return
Nkind (Indic2) /= N_Subtype_Indication
and then Entity (Indic1) = Entity (Indic2);
elsif Nkind (Indic2) /= N_Subtype_Indication then
return
Nkind (Indic1) /= N_Subtype_Indication
and then Entity (Indic1) = Entity (Indic2);
else
if Entity (Subtype_Mark (Indic1)) /=
Entity (Subtype_Mark (Indic2))
then
return False;
end if;
Elt1 := First (Constraints (Constraint (Indic1)));
Elt2 := First (Constraints (Constraint (Indic2)));
while Present (Elt1) and then Present (Elt2) loop
if not FCE (Elt1, Elt2) then
return False;
end if;
Next (Elt1);
Next (Elt2);
end loop;
return True;
end if;
end;
end if;
when N_Attribute_Reference =>
return
Attribute_Name (E1) = Attribute_Name (E2)
and then FCL (Expressions (E1), Expressions (E2));
when N_Binary_Op =>
return
Entity (E1) = Entity (E2)
and then FCE (Left_Opnd (E1), Left_Opnd (E2))
and then FCE (Right_Opnd (E1), Right_Opnd (E2));
when N_Membership_Test
| N_Short_Circuit
=>
return
FCE (Left_Opnd (E1), Left_Opnd (E2))
and then
FCE (Right_Opnd (E1), Right_Opnd (E2));
when N_Case_Expression =>
declare
Alt1 : Node_Id;
Alt2 : Node_Id;
begin
if not FCE (Expression (E1), Expression (E2)) then
return False;
else
Alt1 := First (Alternatives (E1));
Alt2 := First (Alternatives (E2));
loop
if Present (Alt1) /= Present (Alt2) then
return False;
elsif No (Alt1) then
return True;
end if;
if not FCE (Expression (Alt1), Expression (Alt2))
or else not FCL (Discrete_Choices (Alt1),
Discrete_Choices (Alt2))
then
return False;
end if;
Next (Alt1);
Next (Alt2);
end loop;
end if;
end;
when N_Character_Literal =>
return
Char_Literal_Value (E1) = Char_Literal_Value (E2);
when N_Component_Association =>
return
FCL (Choices (E1), Choices (E2))
and then
FCE (Expression (E1), Expression (E2));
when N_Explicit_Dereference =>
return
FCE (Prefix (E1), Prefix (E2));
when N_Extension_Aggregate =>
return
FCL (Expressions (E1), Expressions (E2))
and then Null_Record_Present (E1) =
Null_Record_Present (E2)
and then FCL (Component_Associations (E1),
Component_Associations (E2));
when N_Function_Call =>
return
FCE (Name (E1), Name (E2))
and then
FCL (Parameter_Associations (E1),
Parameter_Associations (E2));
when N_If_Expression =>
return
FCL (Expressions (E1), Expressions (E2));
when N_Indexed_Component =>
return
FCE (Prefix (E1), Prefix (E2))
and then
FCL (Expressions (E1), Expressions (E2));
when N_Integer_Literal =>
return (Intval (E1) = Intval (E2))
and then not User_Defined_Numeric_Literal_Mismatch;
when N_Null =>
return True;
when N_Operator_Symbol =>
return
Chars (E1) = Chars (E2);
when N_Others_Choice =>
return True;
when N_Parameter_Association =>
return
Chars (Selector_Name (E1)) = Chars (Selector_Name (E2))
and then FCE (Explicit_Actual_Parameter (E1),
Explicit_Actual_Parameter (E2));
when N_Qualified_Expression
| N_Type_Conversion
| N_Unchecked_Type_Conversion
=>
return
FCE (Subtype_Mark (E1), Subtype_Mark (E2))
and then
FCE (Expression (E1), Expression (E2));
when N_Quantified_Expression =>
if not FCE (Condition (E1), Condition (E2)) then
return False;
end if;
if Present (Loop_Parameter_Specification (E1))
and then Present (Loop_Parameter_Specification (E2))
then
declare
L1 : constant Node_Id :=
Loop_Parameter_Specification (E1);
L2 : constant Node_Id :=
Loop_Parameter_Specification (E2);
begin
return
Reverse_Present (L1) = Reverse_Present (L2)
and then
FCE (Defining_Identifier (L1),
Defining_Identifier (L2))
and then
FCE (Discrete_Subtype_Definition (L1),
Discrete_Subtype_Definition (L2));
end;
elsif Present (Iterator_Specification (E1))
and then Present (Iterator_Specification (E2))
then
declare
I1 : constant Node_Id := Iterator_Specification (E1);
I2 : constant Node_Id := Iterator_Specification (E2);
begin
return
FCE (Defining_Identifier (I1),
Defining_Identifier (I2))
and then
Of_Present (I1) = Of_Present (I2)
and then
Reverse_Present (I1) = Reverse_Present (I2)
and then FCE (Name (I1), Name (I2))
and then FCE (Subtype_Indication (I1),
Subtype_Indication (I2));
end;
-- The quantified expressions used different specifications to
-- walk their respective ranges.
else
return False;
end if;
when N_Range =>
return
FCE (Low_Bound (E1), Low_Bound (E2))
and then
FCE (High_Bound (E1), High_Bound (E2));
when N_Real_Literal =>
return (Realval (E1) = Realval (E2))
and then not User_Defined_Numeric_Literal_Mismatch;
when N_Selected_Component =>
return
FCE (Prefix (E1), Prefix (E2))
and then
FCE (Selector_Name (E1), Selector_Name (E2));
when N_Slice =>
return
FCE (Prefix (E1), Prefix (E2))
and then
FCE (Discrete_Range (E1), Discrete_Range (E2));
when N_String_Literal =>
declare
S1 : constant String_Id := Strval (E1);
S2 : constant String_Id := Strval (E2);
L1 : constant Nat := String_Length (S1);
L2 : constant Nat := String_Length (S2);
begin
if L1 /= L2 then
return False;
else
for J in 1 .. L1 loop
if Get_String_Char (S1, J) /=
Get_String_Char (S2, J)
then
return False;
end if;
end loop;
return True;
end if;
end;
when N_Unary_Op =>
return
Entity (E1) = Entity (E2)
and then
FCE (Right_Opnd (E1), Right_Opnd (E2));
-- All other node types cannot appear in this context. Strictly
-- we should raise a fatal internal error. Instead we just ignore
-- the nodes. This means that if anyone makes a mistake in the
-- expander and mucks an expression tree irretrievably, the result
-- will be a failure to detect a (probably very obscure) case
-- of non-conformance, which is better than bombing on some
-- case where two expressions do in fact conform.
when others =>
return True;
end case;
end if;
end Fully_Conformant_Expressions;
----------------------------------------
-- Fully_Conformant_Discrete_Subtypes --
----------------------------------------
function Fully_Conformant_Discrete_Subtypes
(Given_S1 : Node_Id;
Given_S2 : Node_Id) return Boolean
is
S1 : constant Node_Id := Original_Node (Given_S1);
S2 : constant Node_Id := Original_Node (Given_S2);
function Conforming_Bounds (B1, B2 : Node_Id) return Boolean;
-- Special-case for a bound given by a discriminant, which in the body
-- is replaced with the discriminal of the enclosing type.
function Conforming_Ranges (R1, R2 : Node_Id) return Boolean;
-- Check both bounds
-----------------------
-- Conforming_Bounds --
-----------------------
function Conforming_Bounds (B1, B2 : Node_Id) return Boolean is
begin
if Is_Entity_Name (B1)
and then Is_Entity_Name (B2)
and then Ekind (Entity (B1)) = E_Discriminant
then
return Chars (B1) = Chars (B2);
else
return Fully_Conformant_Expressions (B1, B2);
end if;
end Conforming_Bounds;
-----------------------
-- Conforming_Ranges --
-----------------------
function Conforming_Ranges (R1, R2 : Node_Id) return Boolean is
begin
return
Conforming_Bounds (Low_Bound (R1), Low_Bound (R2))
and then
Conforming_Bounds (High_Bound (R1), High_Bound (R2));
end Conforming_Ranges;
-- Start of processing for Fully_Conformant_Discrete_Subtypes
begin
if Nkind (S1) /= Nkind (S2) then
return False;
elsif Is_Entity_Name (S1) then
return Entity (S1) = Entity (S2);
elsif Nkind (S1) = N_Range then
return Conforming_Ranges (S1, S2);
elsif Nkind (S1) = N_Subtype_Indication then
return
Entity (Subtype_Mark (S1)) = Entity (Subtype_Mark (S2))
and then
Conforming_Ranges
(Range_Expression (Constraint (S1)),
Range_Expression (Constraint (S2)));
else
return True;
end if;
end Fully_Conformant_Discrete_Subtypes;
--------------------
-- Install_Entity --
--------------------
procedure Install_Entity (E : Entity_Id) is
Prev : constant Entity_Id := Current_Entity (E);
begin
Set_Is_Immediately_Visible (E);
Set_Current_Entity (E);
Set_Homonym (E, Prev);
end Install_Entity;
---------------------
-- Install_Formals --
---------------------
procedure Install_Formals (Id : Entity_Id) is
F : Entity_Id;
begin
F := First_Formal (Id);
while Present (F) loop
Install_Entity (F);
Next_Formal (F);
end loop;
end Install_Formals;
-----------------------------
-- Is_Interface_Conformant --
-----------------------------
function Is_Interface_Conformant
(Tagged_Type : Entity_Id;
Iface_Prim : Entity_Id;
Prim : Entity_Id) return Boolean
is
-- The operation may in fact be an inherited (implicit) operation
-- rather than the original interface primitive, so retrieve the
-- ultimate ancestor.
Iface : constant Entity_Id :=
Find_Dispatching_Type (Ultimate_Alias (Iface_Prim));
Typ : constant Entity_Id := Find_Dispatching_Type (Prim);
function Controlling_Formal (Prim : Entity_Id) return Entity_Id;
-- Return the controlling formal of Prim
------------------------
-- Controlling_Formal --
------------------------
function Controlling_Formal (Prim : Entity_Id) return Entity_Id is
E : Entity_Id;
begin
E := First_Entity (Prim);
while Present (E) loop
if Is_Formal (E) and then Is_Controlling_Formal (E) then
return E;
end if;
Next_Entity (E);
end loop;
return Empty;
end Controlling_Formal;
-- Local variables
Iface_Ctrl_F : constant Entity_Id := Controlling_Formal (Iface_Prim);
Prim_Ctrl_F : constant Entity_Id := Controlling_Formal (Prim);
-- Start of processing for Is_Interface_Conformant
begin
pragma Assert (Is_Subprogram (Iface_Prim)
and then Is_Subprogram (Prim)
and then Is_Dispatching_Operation (Iface_Prim)
and then Is_Dispatching_Operation (Prim));
pragma Assert (Is_Interface (Iface)
or else (Present (Alias (Iface_Prim))
and then
Is_Interface
(Find_Dispatching_Type (Ultimate_Alias (Iface_Prim)))));
if Prim = Iface_Prim
or else not Is_Subprogram (Prim)
or else Ekind (Prim) /= Ekind (Iface_Prim)
or else not Is_Dispatching_Operation (Prim)
or else Scope (Prim) /= Scope (Tagged_Type)
or else No (Typ)
or else Base_Type (Typ) /= Base_Type (Tagged_Type)
or else not Primitive_Names_Match (Iface_Prim, Prim)
then
return False;
-- The mode of the controlling formals must match
elsif Present (Iface_Ctrl_F)
and then Present (Prim_Ctrl_F)
and then Ekind (Iface_Ctrl_F) /= Ekind (Prim_Ctrl_F)
then
return False;
-- Case of a procedure, or a function whose result type matches the
-- result type of the interface primitive, or a function that has no
-- controlling result (I or access I).
elsif Ekind (Iface_Prim) = E_Procedure
or else Etype (Prim) = Etype (Iface_Prim)
or else not Has_Controlling_Result (Prim)
then
return Type_Conformant
(Iface_Prim, Prim, Skip_Controlling_Formals => True);
-- Case of a function returning an interface, or an access to one. Check
-- that the return types correspond.
elsif Implements_Interface (Typ, Iface) then
if (Ekind (Etype (Prim)) = E_Anonymous_Access_Type)
/=
(Ekind (Etype (Iface_Prim)) = E_Anonymous_Access_Type)
then
return False;
else
return
Type_Conformant (Prim, Ultimate_Alias (Iface_Prim),
Skip_Controlling_Formals => True);
end if;
else
return False;
end if;
end Is_Interface_Conformant;
---------------------------------
-- Is_Non_Overriding_Operation --
---------------------------------
function Is_Non_Overriding_Operation
(Prev_E : Entity_Id;
New_E : Entity_Id) return Boolean
is
Formal : Entity_Id;
F_Typ : Entity_Id;
G_Typ : Entity_Id := Empty;
function Get_Generic_Parent_Type (F_Typ : Entity_Id) return Entity_Id;
-- If F_Type is a derived type associated with a generic actual subtype,
-- then return its Generic_Parent_Type attribute, else return Empty.
function Types_Correspond
(P_Type : Entity_Id;
N_Type : Entity_Id) return Boolean;
-- Returns true if and only if the types (or designated types in the
-- case of anonymous access types) are the same or N_Type is derived
-- directly or indirectly from P_Type.
-----------------------------
-- Get_Generic_Parent_Type --
-----------------------------
function Get_Generic_Parent_Type (F_Typ : Entity_Id) return Entity_Id is
G_Typ : Entity_Id;
Defn : Node_Id;
Indic : Node_Id;
begin
if Is_Derived_Type (F_Typ)
and then Nkind (Parent (F_Typ)) = N_Full_Type_Declaration
then
-- The tree must be traversed to determine the parent subtype in
-- the generic unit, which unfortunately isn't always available
-- via semantic attributes. ??? (Note: The use of Original_Node
-- is needed for cases where a full derived type has been
-- rewritten.)
-- If the parent type is a scalar type, the derivation creates
-- an anonymous base type for it, and the source type is its
-- first subtype.
if Is_Scalar_Type (F_Typ)
and then not Comes_From_Source (F_Typ)
then
Defn :=
Type_Definition
(Original_Node (Parent (First_Subtype (F_Typ))));
else
Defn := Type_Definition (Original_Node (Parent (F_Typ)));
end if;
if Nkind (Defn) = N_Derived_Type_Definition then
Indic := Subtype_Indication (Defn);
if Nkind (Indic) = N_Subtype_Indication then
G_Typ := Entity (Subtype_Mark (Indic));
else
G_Typ := Entity (Indic);
end if;
if Nkind (Parent (G_Typ)) = N_Subtype_Declaration
and then Present (Generic_Parent_Type (Parent (G_Typ)))
then
return Generic_Parent_Type (Parent (G_Typ));
end if;
end if;
end if;
return Empty;
end Get_Generic_Parent_Type;
----------------------
-- Types_Correspond --
----------------------
function Types_Correspond
(P_Type : Entity_Id;
N_Type : Entity_Id) return Boolean
is
Prev_Type : Entity_Id := Base_Type (P_Type);
New_Type : Entity_Id := Base_Type (N_Type);
begin
if Ekind (Prev_Type) = E_Anonymous_Access_Type then
Prev_Type := Designated_Type (Prev_Type);
end if;
if Ekind (New_Type) = E_Anonymous_Access_Type then
New_Type := Designated_Type (New_Type);
end if;
if Prev_Type = New_Type then
return True;
elsif not Is_Class_Wide_Type (New_Type) then
while Etype (New_Type) /= New_Type loop
New_Type := Etype (New_Type);
if New_Type = Prev_Type then
return True;
end if;
end loop;
end if;
return False;
end Types_Correspond;
-- Start of processing for Is_Non_Overriding_Operation
begin
-- In the case where both operations are implicit derived subprograms
-- then neither overrides the other. This can only occur in certain
-- obscure cases (e.g., derivation from homographs created in a generic
-- instantiation).
if Present (Alias (Prev_E)) and then Present (Alias (New_E)) then
return True;
elsif Ekind (Current_Scope) = E_Package
and then Is_Generic_Instance (Current_Scope)
and then In_Private_Part (Current_Scope)
and then Comes_From_Source (New_E)
then
-- We examine the formals and result type of the inherited operation,
-- to determine whether their type is derived from (the instance of)
-- a generic type. The first such formal or result type is the one
-- tested.
Formal := First_Formal (Prev_E);
F_Typ := Empty;
while Present (Formal) loop
F_Typ := Base_Type (Etype (Formal));
if Ekind (F_Typ) = E_Anonymous_Access_Type then
F_Typ := Designated_Type (F_Typ);
end if;
G_Typ := Get_Generic_Parent_Type (F_Typ);
exit when Present (G_Typ);
Next_Formal (Formal);
end loop;
-- If the function dispatches on result check the result type
if No (G_Typ) and then Ekind (Prev_E) = E_Function then
G_Typ := Get_Generic_Parent_Type (Base_Type (Etype (Prev_E)));
end if;
if No (G_Typ) then
return False;
end if;
-- If the generic type is a private type, then the original operation
-- was not overriding in the generic, because there was no primitive
-- operation to override.
if Nkind (Parent (G_Typ)) = N_Formal_Type_Declaration
and then Nkind (Formal_Type_Definition (Parent (G_Typ))) =
N_Formal_Private_Type_Definition
then
return True;
-- The generic parent type is the ancestor of a formal derived
-- type declaration. We need to check whether it has a primitive
-- operation that should be overridden by New_E in the generic.
else
declare
P_Formal : Entity_Id;
N_Formal : Entity_Id;
P_Typ : Entity_Id;
N_Typ : Entity_Id;
P_Prim : Entity_Id;
Prim_Elt : Elmt_Id := First_Elmt (Primitive_Operations (G_Typ));
begin
while Present (Prim_Elt) loop
P_Prim := Node (Prim_Elt);
if Chars (P_Prim) = Chars (New_E)
and then Ekind (P_Prim) = Ekind (New_E)
then
P_Formal := First_Formal (P_Prim);
N_Formal := First_Formal (New_E);
while Present (P_Formal) and then Present (N_Formal) loop
P_Typ := Etype (P_Formal);
N_Typ := Etype (N_Formal);
if not Types_Correspond (P_Typ, N_Typ) then
exit;
end if;
Next_Entity (P_Formal);
Next_Entity (N_Formal);
end loop;
-- Found a matching primitive operation belonging to the
-- formal ancestor type, so the new subprogram is
-- overriding.
if No (P_Formal)
and then No (N_Formal)
and then (Ekind (New_E) /= E_Function
or else
Types_Correspond
(Etype (P_Prim), Etype (New_E)))
then
return False;
end if;
end if;
Next_Elmt (Prim_Elt);
end loop;
-- If no match found, then the new subprogram does not override
-- in the generic (nor in the instance).
-- If the type in question is not abstract, and the subprogram
-- is, this will be an error if the new operation is in the
-- private part of the instance. Emit a warning now, which will
-- make the subsequent error message easier to understand.
if Present (F_Typ) and then not Is_Abstract_Type (F_Typ)
and then Is_Abstract_Subprogram (Prev_E)
and then In_Private_Part (Current_Scope)
then
Error_Msg_Node_2 := F_Typ;
Error_Msg_NE
("private operation& in generic unit does not override "
& "any primitive operation of& (RM 12.3 (18))??",
New_E, New_E);
end if;
return True;
end;
end if;
else
return False;
end if;
end Is_Non_Overriding_Operation;
-------------------------------------
-- List_Inherited_Pre_Post_Aspects --
-------------------------------------
procedure List_Inherited_Pre_Post_Aspects (E : Entity_Id) is
begin
if Opt.List_Inherited_Aspects
and then Is_Subprogram_Or_Generic_Subprogram (E)
then
declare
Subps : constant Subprogram_List := Inherited_Subprograms (E);
Items : Node_Id;
Prag : Node_Id;
begin
for Index in Subps'Range loop
Items := Contract (Subps (Index));
if Present (Items) then
Prag := Pre_Post_Conditions (Items);
while Present (Prag) loop
Error_Msg_Sloc := Sloc (Prag);
if Class_Present (Prag)
and then not Split_PPC (Prag)
then
if Pragma_Name (Prag) = Name_Precondition then
Error_Msg_N
("info: & inherits `Pre''Class` aspect from "
& "#?L?", E);
else
Error_Msg_N
("info: & inherits `Post''Class` aspect from "
& "#?L?", E);
end if;
end if;
Prag := Next_Pragma (Prag);
end loop;
end if;
end loop;
end;
end if;
end List_Inherited_Pre_Post_Aspects;
------------------------------
-- Make_Inequality_Operator --
------------------------------
-- S is the defining identifier of an equality operator. We build a
-- subprogram declaration with the right signature. This operation is
-- intrinsic, because it is always expanded as the negation of the
-- call to the equality function.
procedure Make_Inequality_Operator (S : Entity_Id) is
Loc : constant Source_Ptr := Sloc (S);
Decl : Node_Id;
Formals : List_Id;
Op_Name : Entity_Id;
FF : constant Entity_Id := First_Formal (S);
NF : constant Entity_Id := Next_Formal (FF);
begin
-- Check that equality was properly defined, ignore call if not
if No (NF) then
return;
end if;
declare
A : constant Entity_Id :=
Make_Defining_Identifier (Sloc (FF),
Chars => Chars (FF));
B : constant Entity_Id :=
Make_Defining_Identifier (Sloc (NF),
Chars => Chars (NF));
begin
Op_Name := Make_Defining_Operator_Symbol (Loc, Name_Op_Ne);
Formals := New_List (
Make_Parameter_Specification (Loc,
Defining_Identifier => A,
Parameter_Type =>
New_Occurrence_Of (Etype (First_Formal (S)),
Sloc (Etype (First_Formal (S))))),
Make_Parameter_Specification (Loc,
Defining_Identifier => B,
Parameter_Type =>
New_Occurrence_Of (Etype (Next_Formal (First_Formal (S))),
Sloc (Etype (Next_Formal (First_Formal (S)))))));
Decl :=
Make_Subprogram_Declaration (Loc,
Specification =>
Make_Function_Specification (Loc,
Defining_Unit_Name => Op_Name,
Parameter_Specifications => Formals,
Result_Definition =>
New_Occurrence_Of (Standard_Boolean, Loc)));
-- Insert inequality right after equality if it is explicit or after
-- the derived type when implicit. These entities are created only
-- for visibility purposes, and eventually replaced in the course
-- of expansion, so they do not need to be attached to the tree and
-- seen by the back-end. Keeping them internal also avoids spurious
-- freezing problems. The declaration is inserted in the tree for
-- analysis, and removed afterwards. If the equality operator comes
-- from an explicit declaration, attach the inequality immediately
-- after. Else the equality is inherited from a derived type
-- declaration, so insert inequality after that declaration.
if No (Alias (S)) then
Insert_After (Unit_Declaration_Node (S), Decl);
elsif Is_List_Member (Parent (S)) then
Insert_After (Parent (S), Decl);
else
Insert_After (Parent (Etype (First_Formal (S))), Decl);
end if;
Mark_Rewrite_Insertion (Decl);
Set_Is_Intrinsic_Subprogram (Op_Name);
Analyze (Decl);
Remove (Decl);
Set_Has_Completion (Op_Name);
Set_Corresponding_Equality (Op_Name, S);
Set_Is_Abstract_Subprogram (Op_Name, Is_Abstract_Subprogram (S));
end;
end Make_Inequality_Operator;
----------------------
-- May_Need_Actuals --
----------------------
procedure May_Need_Actuals (Fun : Entity_Id) is
F : Entity_Id;
B : Boolean;
begin
F := First_Formal (Fun);
B := True;
while Present (F) loop
if No (Default_Value (F)) then
B := False;
exit;
end if;
Next_Formal (F);
end loop;
Set_Needs_No_Actuals (Fun, B);
end May_Need_Actuals;
---------------------
-- Mode_Conformant --
---------------------
function Mode_Conformant (New_Id, Old_Id : Entity_Id) return Boolean is
Result : Boolean;
begin
Check_Conformance (New_Id, Old_Id, Mode_Conformant, False, Result);
return Result;
end Mode_Conformant;
---------------------------
-- New_Overloaded_Entity --
---------------------------
procedure New_Overloaded_Entity
(S : Entity_Id;
Derived_Type : Entity_Id := Empty)
is
Overridden_Subp : Entity_Id := Empty;
-- Set if the current scope has an operation that is type-conformant
-- with S, and becomes hidden by S.
Is_Primitive_Subp : Boolean;
-- Set to True if the new subprogram is primitive
E : Entity_Id;
-- Entity that S overrides
procedure Check_For_Primitive_Subprogram
(Is_Primitive : out Boolean;
Is_Overriding : Boolean := False);
-- If the subprogram being analyzed is a primitive operation of the type
-- of a formal or result, set the Has_Primitive_Operations flag on the
-- type, and set Is_Primitive to True (otherwise set to False). Set the
-- corresponding flag on the entity itself for later use.
function Has_Matching_Entry_Or_Subprogram (E : Entity_Id) return Boolean;
-- True if a) E is a subprogram whose first formal is a concurrent type
-- defined in the scope of E that has some entry or subprogram whose
-- profile matches E, or b) E is an internally built dispatching
-- subprogram of a protected type and there is a matching subprogram
-- defined in the enclosing scope of the protected type, or c) E is
-- an entry of a synchronized type and a matching procedure has been
-- previously defined in the enclosing scope of the synchronized type.
function Is_Private_Declaration (E : Entity_Id) return Boolean;
-- Check that E is declared in the private part of the current package,
-- or in the package body, where it may hide a previous declaration.
-- We can't use In_Private_Part by itself because this flag is also
-- set when freezing entities, so we must examine the place of the
-- declaration in the tree, and recognize wrapper packages as well.
function Is_Overriding_Alias
(Old_E : Entity_Id;
New_E : Entity_Id) return Boolean;
-- Check whether new subprogram and old subprogram are both inherited
-- from subprograms that have distinct dispatch table entries. This can
-- occur with derivations from instances with accidental homonyms. The
-- function is conservative given that the converse is only true within
-- instances that contain accidental overloadings.
procedure Report_Conflict (S : Entity_Id; E : Entity_Id);
-- Report conflict between entities S and E
------------------------------------
-- Check_For_Primitive_Subprogram --
------------------------------------
procedure Check_For_Primitive_Subprogram
(Is_Primitive : out Boolean;
Is_Overriding : Boolean := False)
is
Formal : Entity_Id;
F_Typ : Entity_Id;
B_Typ : Entity_Id;
function Visible_Part_Type (T : Entity_Id) return Boolean;
-- Returns true if T is declared in the visible part of the current
-- package scope; otherwise returns false. Assumes that T is declared
-- in a package.
procedure Check_Private_Overriding (T : Entity_Id);
-- Checks that if a primitive abstract subprogram of a visible
-- abstract type is declared in a private part, then it must override
-- an abstract subprogram declared in the visible part. Also checks
-- that if a primitive function with a controlling result is declared
-- in a private part, then it must override a function declared in
-- the visible part.
------------------------------
-- Check_Private_Overriding --
------------------------------
procedure Check_Private_Overriding (T : Entity_Id) is
function Overrides_Private_Part_Op return Boolean;
-- This detects the special case where the overriding subprogram
-- is overriding a subprogram that was declared in the same
-- private part. That case is illegal by 3.9.3(10).
function Overrides_Visible_Function
(Partial_View : Entity_Id) return Boolean;
-- True if S overrides a function in the visible part. The
-- overridden function could be explicitly or implicitly declared.
-------------------------------
-- Overrides_Private_Part_Op --
-------------------------------
function Overrides_Private_Part_Op return Boolean is
Over_Decl : constant Node_Id :=
Unit_Declaration_Node (Overridden_Operation (S));
Subp_Decl : constant Node_Id := Unit_Declaration_Node (S);
begin
pragma Assert (Is_Overriding);
pragma Assert
(Nkind (Over_Decl) = N_Abstract_Subprogram_Declaration);
pragma Assert
(Nkind (Subp_Decl) = N_Abstract_Subprogram_Declaration);
return In_Same_List (Over_Decl, Subp_Decl);
end Overrides_Private_Part_Op;
--------------------------------
-- Overrides_Visible_Function --
--------------------------------
function Overrides_Visible_Function
(Partial_View : Entity_Id) return Boolean
is
begin
if not Is_Overriding or else not Has_Homonym (S) then
return False;
end if;
if not Present (Partial_View) then
return True;
end if;
-- Search through all the homonyms H of S in the current
-- package spec, and return True if we find one that matches.
-- Note that Parent (H) will be the declaration of the
-- partial view of T for a match.
declare
H : Entity_Id := S;
begin
loop
H := Homonym (H);
exit when not Present (H) or else Scope (H) /= Scope (S);
if Nkind (Parent (H)) in
N_Private_Extension_Declaration |
N_Private_Type_Declaration
and then Defining_Identifier (Parent (H)) = Partial_View
then
return True;
end if;
end loop;
end;
return False;
end Overrides_Visible_Function;
-- Start of processing for Check_Private_Overriding
begin
if Is_Package_Or_Generic_Package (Current_Scope)
and then In_Private_Part (Current_Scope)
and then Visible_Part_Type (T)
and then not In_Instance
then
if Is_Abstract_Type (T)
and then Is_Abstract_Subprogram (S)
and then (not Is_Overriding
or else not Is_Abstract_Subprogram (E)
or else Overrides_Private_Part_Op)
then
Error_Msg_N
("abstract subprograms must be visible (RM 3.9.3(10))!",
S);
elsif Ekind (S) = E_Function then
declare
Partial_View : constant Entity_Id :=
Incomplete_Or_Partial_View (T);
begin
if not Overrides_Visible_Function (Partial_View) then
-- Here, S is "function ... return T;" declared in
-- the private part, not overriding some visible
-- operation. That's illegal in the tagged case
-- (but not if the private type is untagged).
if ((Present (Partial_View)
and then Is_Tagged_Type (Partial_View))
or else (not Present (Partial_View)
and then Is_Tagged_Type (T)))
and then T = Base_Type (Etype (S))
then
Error_Msg_N
("private function with tagged result must"
& " override visible-part function", S);
Error_Msg_N
("\move subprogram to the visible part"
& " (RM 3.9.3(10))", S);
-- Ada 2012 (AI05-0073): Extend this check to the case
-- of a function whose result subtype is defined by an
-- access_definition designating specific tagged type.
elsif Ekind (Etype (S)) = E_Anonymous_Access_Type
and then Is_Tagged_Type (Designated_Type (Etype (S)))
and then
not Is_Class_Wide_Type
(Designated_Type (Etype (S)))
and then Ada_Version >= Ada_2012
then
Error_Msg_N
("private function with controlling access "
& "result must override visible-part function",
S);
Error_Msg_N
("\move subprogram to the visible part"
& " (RM 3.9.3(10))", S);
end if;
end if;
end;
end if;
end if;
end Check_Private_Overriding;
-----------------------
-- Visible_Part_Type --
-----------------------
function Visible_Part_Type (T : Entity_Id) return Boolean is
P : constant Node_Id := Unit_Declaration_Node (Scope (T));
begin
-- If the entity is a private type, then it must be declared in a
-- visible part.
if Ekind (T) in Private_Kind then
return True;
elsif Is_Type (T) and then Has_Private_Declaration (T) then
return True;
elsif Is_List_Member (Declaration_Node (T))
and then List_Containing (Declaration_Node (T)) =
Visible_Declarations (Specification (P))
then
return True;
else
return False;
end if;
end Visible_Part_Type;
-- Start of processing for Check_For_Primitive_Subprogram
begin
Is_Primitive := False;
if not Comes_From_Source (S) then
null;
-- If subprogram is at library level, it is not primitive operation
elsif Current_Scope = Standard_Standard then
null;
elsif (Is_Package_Or_Generic_Package (Current_Scope)
and then not In_Package_Body (Current_Scope))
or else Is_Overriding
then
-- For function, check return type
if Ekind (S) = E_Function then
if Ekind (Etype (S)) = E_Anonymous_Access_Type then
F_Typ := Designated_Type (Etype (S));
else
F_Typ := Etype (S);
end if;
B_Typ := Base_Type (F_Typ);
if Scope (B_Typ) = Current_Scope
and then not Is_Class_Wide_Type (B_Typ)
and then not Is_Generic_Type (B_Typ)
then
Is_Primitive := True;
Set_Has_Primitive_Operations (B_Typ);
Set_Is_Primitive (S);
Check_Private_Overriding (B_Typ);
-- The Ghost policy in effect at the point of declaration
-- or a tagged type and a primitive operation must match
-- (SPARK RM 6.9(16)).
Check_Ghost_Primitive (S, B_Typ);
end if;
end if;
-- For all subprograms, check formals
Formal := First_Formal (S);
while Present (Formal) loop
if Ekind (Etype (Formal)) = E_Anonymous_Access_Type then
F_Typ := Designated_Type (Etype (Formal));
else
F_Typ := Etype (Formal);
end if;
B_Typ := Base_Type (F_Typ);
if Ekind (B_Typ) = E_Access_Subtype then
B_Typ := Base_Type (B_Typ);
end if;
if Scope (B_Typ) = Current_Scope
and then not Is_Class_Wide_Type (B_Typ)
and then not Is_Generic_Type (B_Typ)
then
Is_Primitive := True;
Set_Is_Primitive (S);
Set_Has_Primitive_Operations (B_Typ);
Check_Private_Overriding (B_Typ);
-- The Ghost policy in effect at the point of declaration
-- of a tagged type and a primitive operation must match
-- (SPARK RM 6.9(16)).
Check_Ghost_Primitive (S, B_Typ);
end if;
Next_Formal (Formal);
end loop;
-- Special case: An equality function can be redefined for a type
-- occurring in a declarative part, and won't otherwise be treated as
-- a primitive because it doesn't occur in a package spec and doesn't
-- override an inherited subprogram. It's important that we mark it
-- primitive so it can be returned by Collect_Primitive_Operations
-- and be used in composing the equality operation of later types
-- that have a component of the type.
elsif Chars (S) = Name_Op_Eq
and then Etype (S) = Standard_Boolean
then
B_Typ := Base_Type (Etype (First_Formal (S)));
if Scope (B_Typ) = Current_Scope
and then
Base_Type (Etype (Next_Formal (First_Formal (S)))) = B_Typ
and then not Is_Limited_Type (B_Typ)
then
Is_Primitive := True;
Set_Is_Primitive (S);
Set_Has_Primitive_Operations (B_Typ);
Check_Private_Overriding (B_Typ);
-- The Ghost policy in effect at the point of declaration of a
-- tagged type and a primitive operation must match
-- (SPARK RM 6.9(16)).
Check_Ghost_Primitive (S, B_Typ);
end if;
end if;
end Check_For_Primitive_Subprogram;
--------------------------------------
-- Has_Matching_Entry_Or_Subprogram --
--------------------------------------
function Has_Matching_Entry_Or_Subprogram
(E : Entity_Id) return Boolean
is
function Check_Conforming_Parameters
(E1_Param : Node_Id;
E2_Param : Node_Id;
Ctype : Conformance_Type) return Boolean;
-- Starting from the given parameters, check that all the parameters
-- of two entries or subprograms are conformant. Used to skip
-- the check on the controlling argument.
function Matching_Entry_Or_Subprogram
(Conc_Typ : Entity_Id;
Subp : Entity_Id) return Entity_Id;
-- Return the first entry or subprogram of the given concurrent type
-- whose name matches the name of Subp and has a profile conformant
-- with Subp; return Empty if not found.
function Matching_Dispatching_Subprogram
(Conc_Typ : Entity_Id;
Ent : Entity_Id) return Entity_Id;
-- Return the first dispatching primitive of Conc_Type defined in the
-- enclosing scope of Conc_Type (i.e. before the full definition of
-- this concurrent type) whose name matches the entry Ent and has a
-- profile conformant with the profile of the corresponding (not yet
-- built) dispatching primitive of Ent; return Empty if not found.
function Matching_Original_Protected_Subprogram
(Prot_Typ : Entity_Id;
Subp : Entity_Id) return Entity_Id;
-- Return the first subprogram defined in the enclosing scope of
-- Prot_Typ (before the full definition of this protected type)
-- whose name matches the original name of Subp and has a profile
-- conformant with the profile of Subp; return Empty if not found.
function Normalized_First_Parameter_Type
(E : Entity_Id) return Entity_Id;
-- Return the type of the first parameter unless that type
-- is an anonymous access type, in which case return the
-- designated type. Used to treat anonymous-access-to-synchronized
-- the same as synchronized for purposes of checking for
-- prefixed view profile conflicts.
---------------------------------
-- Check_Conforming_Parameters --
---------------------------------
function Check_Conforming_Parameters
(E1_Param : Node_Id;
E2_Param : Node_Id;
Ctype : Conformance_Type) return Boolean
is
Param_E1 : Node_Id := E1_Param;
Param_E2 : Node_Id := E2_Param;
begin
while Present (Param_E1) and then Present (Param_E2) loop
if (Ctype >= Mode_Conformant) and then
Ekind (Defining_Identifier (Param_E1)) /=
Ekind (Defining_Identifier (Param_E2))
then
return False;
elsif not
Conforming_Types
(Find_Parameter_Type (Param_E1),
Find_Parameter_Type (Param_E2),
Ctype)
then
return False;
end if;
Next (Param_E1);
Next (Param_E2);
end loop;
-- The candidate is not valid if one of the two lists contains
-- more parameters than the other
return No (Param_E1) and then No (Param_E2);
end Check_Conforming_Parameters;
----------------------------------
-- Matching_Entry_Or_Subprogram --
----------------------------------
function Matching_Entry_Or_Subprogram
(Conc_Typ : Entity_Id;
Subp : Entity_Id) return Entity_Id
is
E : Entity_Id;
begin
E := First_Entity (Conc_Typ);
while Present (E) loop
if Chars (Subp) = Chars (E)
and then (Ekind (E) = E_Entry or else Is_Subprogram (E))
and then
Check_Conforming_Parameters
(First (Parameter_Specifications (Parent (E))),
Next (First (Parameter_Specifications (Parent (Subp)))),
Type_Conformant)
then
return E;
end if;
Next_Entity (E);
end loop;
return Empty;
end Matching_Entry_Or_Subprogram;
-------------------------------------
-- Matching_Dispatching_Subprogram --
-------------------------------------
function Matching_Dispatching_Subprogram
(Conc_Typ : Entity_Id;
Ent : Entity_Id) return Entity_Id
is
E : Entity_Id;
begin
-- Search for entities in the enclosing scope of this synchonized
-- type.
pragma Assert (Is_Concurrent_Type (Conc_Typ));
Push_Scope (Scope (Conc_Typ));
E := Current_Entity_In_Scope (Ent);
Pop_Scope;
while Present (E) loop
if Scope (E) = Scope (Conc_Typ)
and then Comes_From_Source (E)
and then Ekind (E) = E_Procedure
and then Present (First_Entity (E))
and then Is_Controlling_Formal (First_Entity (E))
and then Etype (First_Entity (E)) = Conc_Typ
and then
Check_Conforming_Parameters
(First (Parameter_Specifications (Parent (Ent))),
Next (First (Parameter_Specifications (Parent (E)))),
Subtype_Conformant)
then
return E;
end if;
E := Homonym (E);
end loop;
return Empty;
end Matching_Dispatching_Subprogram;
--------------------------------------------
-- Matching_Original_Protected_Subprogram --
--------------------------------------------
function Matching_Original_Protected_Subprogram
(Prot_Typ : Entity_Id;
Subp : Entity_Id) return Entity_Id
is
ICF : constant Boolean :=
Is_Controlling_Formal (First_Entity (Subp));
E : Entity_Id;
begin
-- Temporarily decorate the first parameter of Subp as controlling
-- formal, required to invoke Subtype_Conformant.
Set_Is_Controlling_Formal (First_Entity (Subp));
E :=
Current_Entity_In_Scope (Original_Protected_Subprogram (Subp));
while Present (E) loop
if Scope (E) = Scope (Prot_Typ)
and then Comes_From_Source (E)
and then Ekind (Subp) = Ekind (E)
and then Present (First_Entity (E))
and then Is_Controlling_Formal (First_Entity (E))
and then Etype (First_Entity (E)) = Prot_Typ
and then Subtype_Conformant (Subp, E,
Skip_Controlling_Formals => True)
then
Set_Is_Controlling_Formal (First_Entity (Subp), ICF);
return E;
end if;
E := Homonym (E);
end loop;
Set_Is_Controlling_Formal (First_Entity (Subp), ICF);
return Empty;
end Matching_Original_Protected_Subprogram;
-------------------------------------
-- Normalized_First_Parameter_Type --
-------------------------------------
function Normalized_First_Parameter_Type
(E : Entity_Id) return Entity_Id
is
Result : Entity_Id := Etype (First_Entity (E));
begin
if Ekind (Result) = E_Anonymous_Access_Type then
Result := Designated_Type (Result);
end if;
return Result;
end Normalized_First_Parameter_Type;
-- Start of processing for Has_Matching_Entry_Or_Subprogram
begin
-- Case 1: E is a subprogram whose first formal is a concurrent type
-- defined in the scope of E that has an entry or subprogram whose
-- profile matches E.
if Comes_From_Source (E)
and then Is_Subprogram (E)
and then Present (First_Entity (E))
and then Is_Concurrent_Record_Type
(Normalized_First_Parameter_Type (E))
then
if Scope (E) =
Scope (Corresponding_Concurrent_Type
(Normalized_First_Parameter_Type (E)))
and then
Present
(Matching_Entry_Or_Subprogram
(Corresponding_Concurrent_Type
(Normalized_First_Parameter_Type (E)),
Subp => E))
then
Report_Conflict (E,
Matching_Entry_Or_Subprogram
(Corresponding_Concurrent_Type
(Normalized_First_Parameter_Type (E)),
Subp => E));
return True;
end if;
-- Case 2: E is an internally built dispatching subprogram of a
-- protected type and there is a subprogram defined in the enclosing
-- scope of the protected type that has the original name of E and
-- its profile is conformant with the profile of E. We check the
-- name of the original protected subprogram associated with E since
-- the expander builds dispatching primitives of protected functions
-- and procedures with other names (see Exp_Ch9.Build_Selected_Name).
elsif not Comes_From_Source (E)
and then Is_Subprogram (E)
and then Present (First_Entity (E))
and then Is_Concurrent_Record_Type (Etype (First_Entity (E)))
and then Present (Original_Protected_Subprogram (E))
and then
Present
(Matching_Original_Protected_Subprogram
(Corresponding_Concurrent_Type (Etype (First_Entity (E))),
Subp => E))
then
Report_Conflict (E,
Matching_Original_Protected_Subprogram
(Corresponding_Concurrent_Type (Etype (First_Entity (E))),
Subp => E));
return True;
-- Case 3: E is an entry of a synchronized type and a matching
-- procedure has been previously defined in the enclosing scope
-- of the synchronized type.
elsif Comes_From_Source (E)
and then Ekind (E) = E_Entry
and then
Present (Matching_Dispatching_Subprogram (Current_Scope, E))
then
Report_Conflict (E,
Matching_Dispatching_Subprogram (Current_Scope, E));
return True;
end if;
return False;
end Has_Matching_Entry_Or_Subprogram;
----------------------------
-- Is_Private_Declaration --
----------------------------
function Is_Private_Declaration (E : Entity_Id) return Boolean is
Decl : constant Node_Id := Unit_Declaration_Node (E);
Priv_Decls : List_Id;
begin
if Is_Package_Or_Generic_Package (Current_Scope)
and then In_Private_Part (Current_Scope)
then
Priv_Decls :=
Private_Declarations (Package_Specification (Current_Scope));
return In_Package_Body (Current_Scope)
or else
(Is_List_Member (Decl)
and then List_Containing (Decl) = Priv_Decls)
or else (Nkind (Parent (Decl)) = N_Package_Specification
and then not
Is_Compilation_Unit
(Defining_Entity (Parent (Decl)))
and then List_Containing (Parent (Parent (Decl))) =
Priv_Decls);
else
return False;
end if;
end Is_Private_Declaration;
--------------------------
-- Is_Overriding_Alias --
--------------------------
function Is_Overriding_Alias
(Old_E : Entity_Id;
New_E : Entity_Id) return Boolean
is
AO : constant Entity_Id := Alias (Old_E);
AN : constant Entity_Id := Alias (New_E);
begin
return Scope (AO) /= Scope (AN)
or else No (DTC_Entity (AO))
or else No (DTC_Entity (AN))
or else DT_Position (AO) = DT_Position (AN);
end Is_Overriding_Alias;
---------------------
-- Report_Conflict --
---------------------
procedure Report_Conflict (S : Entity_Id; E : Entity_Id) is
begin
Error_Msg_Sloc := Sloc (E);
-- Generate message, with useful additional warning if in generic
if Is_Generic_Unit (E) then
Error_Msg_N ("previous generic unit cannot be overloaded", S);
Error_Msg_N ("\& conflicts with declaration#", S);
else
Error_Msg_N ("& conflicts with declaration#", S);
end if;
end Report_Conflict;
-- Start of processing for New_Overloaded_Entity
begin
-- We need to look for an entity that S may override. This must be a
-- homonym in the current scope, so we look for the first homonym of
-- S in the current scope as the starting point for the search.
E := Current_Entity_In_Scope (S);
-- Ada 2005 (AI-251): Derivation of abstract interface primitives.
-- They are directly added to the list of primitive operations of
-- Derived_Type, unless this is a rederivation in the private part
-- of an operation that was already derived in the visible part of
-- the current package.
if Ada_Version >= Ada_2005
and then Present (Derived_Type)
and then Present (Alias (S))
and then Is_Dispatching_Operation (Alias (S))
and then Present (Find_Dispatching_Type (Alias (S)))
and then Is_Interface (Find_Dispatching_Type (Alias (S)))
then
-- For private types, when the full-view is processed we propagate to
-- the full view the non-overridden entities whose attribute "alias"
-- references an interface primitive. These entities were added by
-- Derive_Subprograms to ensure that interface primitives are
-- covered.
-- Inside_Freeze_Actions is non zero when S corresponds with an
-- internal entity that links an interface primitive with its
-- covering primitive through attribute Interface_Alias (see
-- Add_Internal_Interface_Entities).
if Inside_Freezing_Actions = 0
and then Is_Package_Or_Generic_Package (Current_Scope)
and then In_Private_Part (Current_Scope)
and then Nkind (Parent (E)) = N_Private_Extension_Declaration
and then Nkind (Parent (S)) = N_Full_Type_Declaration
and then Full_View (Defining_Identifier (Parent (E)))
= Defining_Identifier (Parent (S))
and then Alias (E) = Alias (S)
then
Check_Operation_From_Private_View (S, E);
Set_Is_Dispatching_Operation (S);
-- Common case
else
Enter_Overloaded_Entity (S);
Check_Dispatching_Operation (S, Empty);
Check_For_Primitive_Subprogram (Is_Primitive_Subp);
end if;
return;
end if;
-- For synchronized types check conflicts of this entity with previously
-- defined entities.
if Ada_Version >= Ada_2005
and then Has_Matching_Entry_Or_Subprogram (S)
then
return;
end if;
-- If there is no homonym then this is definitely not overriding
if No (E) then
Enter_Overloaded_Entity (S);
Check_Dispatching_Operation (S, Empty);
Check_For_Primitive_Subprogram (Is_Primitive_Subp);
-- If subprogram has an explicit declaration, check whether it has an
-- overriding indicator.
if Comes_From_Source (S) then
Check_Synchronized_Overriding (S, Overridden_Subp);
-- (Ada 2012: AI05-0125-1): If S is a dispatching operation then
-- it may have overridden some hidden inherited primitive. Update
-- Overridden_Subp to avoid spurious errors when checking the
-- overriding indicator.
if Ada_Version >= Ada_2012
and then No (Overridden_Subp)
and then Is_Dispatching_Operation (S)
and then Present (Overridden_Operation (S))
then
Overridden_Subp := Overridden_Operation (S);
end if;
Check_Overriding_Indicator
(S, Overridden_Subp, Is_Primitive => Is_Primitive_Subp);
-- The Ghost policy in effect at the point of declaration of a
-- parent subprogram and an overriding subprogram must match
-- (SPARK RM 6.9(17)).
Check_Ghost_Overriding (S, Overridden_Subp);
end if;
-- If there is a homonym that is not overloadable, then we have an
-- error, except for the special cases checked explicitly below.
elsif not Is_Overloadable (E) then
-- Check for spurious conflict produced by a subprogram that has the
-- same name as that of the enclosing generic package. The conflict
-- occurs within an instance, between the subprogram and the renaming
-- declaration for the package. After the subprogram, the package
-- renaming declaration becomes hidden.
if Ekind (E) = E_Package
and then Present (Renamed_Object (E))
and then Renamed_Object (E) = Current_Scope
and then Nkind (Parent (Renamed_Object (E))) =
N_Package_Specification
and then Present (Generic_Parent (Parent (Renamed_Object (E))))
then
Set_Is_Hidden (E);
Set_Is_Immediately_Visible (E, False);
Enter_Overloaded_Entity (S);
Set_Homonym (S, Homonym (E));
Check_Dispatching_Operation (S, Empty);
Check_Overriding_Indicator (S, Empty, Is_Primitive => False);
-- If the subprogram is implicit it is hidden by the previous
-- declaration. However if it is dispatching, it must appear in the
-- dispatch table anyway, because it can be dispatched to even if it
-- cannot be called directly.
elsif Present (Alias (S)) and then not Comes_From_Source (S) then
Set_Scope (S, Current_Scope);
if Is_Dispatching_Operation (Alias (S)) then
Check_Dispatching_Operation (S, Empty);
end if;
return;
else
Report_Conflict (S, E);
return;
end if;
-- E exists and is overloadable
else
Check_Synchronized_Overriding (S, Overridden_Subp);
-- Loop through E and its homonyms to determine if any of them is
-- the candidate for overriding by S.
while Present (E) loop
-- Definitely not interesting if not in the current scope
if Scope (E) /= Current_Scope then
null;
-- A function can overload the name of an abstract state. The
-- state can be viewed as a function with a profile that cannot
-- be matched by anything.
elsif Ekind (S) = E_Function
and then Ekind (E) = E_Abstract_State
then
Enter_Overloaded_Entity (S);
return;
-- Ada 2012 (AI05-0165): For internally generated bodies of null
-- procedures locate the internally generated spec. We enforce
-- mode conformance since a tagged type may inherit from
-- interfaces several null primitives which differ only in
-- the mode of the formals.
elsif not Comes_From_Source (S)
and then Is_Null_Procedure (S)
and then not Mode_Conformant (E, S)
then
null;
-- Check if we have type conformance
elsif Type_Conformant (E, S) then
-- If the old and new entities have the same profile and one
-- is not the body of the other, then this is an error, unless
-- one of them is implicitly declared.
-- There are some cases when both can be implicit, for example
-- when both a literal and a function that overrides it are
-- inherited in a derivation, or when an inherited operation
-- of a tagged full type overrides the inherited operation of
-- a private extension. Ada 83 had a special rule for the
-- literal case. In Ada 95, the later implicit operation hides
-- the former, and the literal is always the former. In the
-- odd case where both are derived operations declared at the
-- same point, both operations should be declared, and in that
-- case we bypass the following test and proceed to the next
-- part. This can only occur for certain obscure cases in
-- instances, when an operation on a type derived from a formal
-- private type does not override a homograph inherited from
-- the actual. In subsequent derivations of such a type, the
-- DT positions of these operations remain distinct, if they
-- have been set.
if Present (Alias (S))
and then (No (Alias (E))
or else Comes_From_Source (E)
or else Is_Abstract_Subprogram (S)
or else
(Is_Dispatching_Operation (E)
and then Is_Overriding_Alias (E, S)))
and then Ekind (E) /= E_Enumeration_Literal
then
-- When an derived operation is overloaded it may be due to
-- the fact that the full view of a private extension
-- re-inherits. It has to be dealt with.
if Is_Package_Or_Generic_Package (Current_Scope)
and then In_Private_Part (Current_Scope)
then
Check_Operation_From_Private_View (S, E);
end if;
-- In any case the implicit operation remains hidden by the
-- existing declaration, which is overriding. Indicate that
-- E overrides the operation from which S is inherited.
if Present (Alias (S)) then
Set_Overridden_Operation (E, Alias (S));
Inherit_Subprogram_Contract (E, Alias (S));
else
Set_Overridden_Operation (E, S);
Inherit_Subprogram_Contract (E, S);
end if;
-- When a dispatching operation overrides an inherited
-- subprogram, it shall be subtype conformant with the
-- inherited subprogram (RM 3.9.2 (10.2)).
if Comes_From_Source (E)
and then Is_Dispatching_Operation (E)
and then Find_Dispatching_Type (S)
= Find_Dispatching_Type (E)
then
Check_Subtype_Conformant (E, S);
end if;
if Comes_From_Source (E) then
Check_Overriding_Indicator (E, S, Is_Primitive => False);
-- The Ghost policy in effect at the point of declaration
-- of a parent subprogram and an overriding subprogram
-- must match (SPARK RM 6.9(17)).
Check_Ghost_Overriding (E, S);
end if;
return;
-- Within an instance, the renaming declarations for actual
-- subprograms may become ambiguous, but they do not hide each
-- other.
elsif Ekind (E) /= E_Entry
and then not Comes_From_Source (E)
and then not Is_Generic_Instance (E)
and then (Present (Alias (E))
or else Is_Intrinsic_Subprogram (E))
and then (not In_Instance
or else No (Parent (E))
or else Nkind (Unit_Declaration_Node (E)) /=
N_Subprogram_Renaming_Declaration)
then
-- A subprogram child unit is not allowed to override an
-- inherited subprogram (10.1.1(20)).
if Is_Child_Unit (S) then
Error_Msg_N
("child unit overrides inherited subprogram in parent",
S);
return;
end if;
if Is_Non_Overriding_Operation (E, S) then
Enter_Overloaded_Entity (S);
if No (Derived_Type)
or else Is_Tagged_Type (Derived_Type)
then
Check_Dispatching_Operation (S, Empty);
end if;
return;
end if;
-- E is a derived operation or an internal operator which
-- is being overridden. Remove E from further visibility.
-- Furthermore, if E is a dispatching operation, it must be
-- replaced in the list of primitive operations of its type
-- (see Override_Dispatching_Operation).
Overridden_Subp := E;
-- It is possible for E to be in the current scope and
-- yet not in the entity chain. This can only occur in a
-- generic context where E is an implicit concatenation
-- in the formal part, because in a generic body the
-- entity chain starts with the formals.
-- In GNATprove mode, a wrapper for an operation with
-- axiomatization may be a homonym of another declaration
-- for an actual subprogram (needs refinement ???).
if No (Prev_Entity (E)) then
if In_Instance
and then GNATprove_Mode
and then
Nkind (Original_Node (Unit_Declaration_Node (S))) =
N_Subprogram_Renaming_Declaration
then
return;
else
pragma Assert (Chars (E) = Name_Op_Concat);
null;
end if;
end if;
-- E must be removed both from the entity_list of the
-- current scope, and from the visibility chain.
if Debug_Flag_E then
Write_Str ("Override implicit operation ");
Write_Int (Int (E));
Write_Eol;
end if;
-- If E is a predefined concatenation, it stands for four
-- different operations. As a result, a single explicit
-- declaration does not hide it. In a possible ambiguous
-- situation, Disambiguate chooses the user-defined op,
-- so it is correct to retain the previous internal one.
if Chars (E) /= Name_Op_Concat
or else Ekind (E) /= E_Operator
then
-- For nondispatching derived operations that are
-- overridden by a subprogram declared in the private
-- part of a package, we retain the derived subprogram
-- but mark it as not immediately visible. If the
-- derived operation was declared in the visible part
-- then this ensures that it will still be visible
-- outside the package with the proper signature
-- (calls from outside must also be directed to this
-- version rather than the overriding one, unlike the
-- dispatching case). Calls from inside the package
-- will still resolve to the overriding subprogram
-- since the derived one is marked as not visible
-- within the package.
-- If the private operation is dispatching, we achieve
-- the overriding by keeping the implicit operation
-- but setting its alias to be the overriding one. In
-- this fashion the proper body is executed in all
-- cases, but the original signature is used outside
-- of the package.
-- If the overriding is not in the private part, we
-- remove the implicit operation altogether.
if Is_Private_Declaration (S) then
if not Is_Dispatching_Operation (E) then
Set_Is_Immediately_Visible (E, False);
else
-- Work done in Override_Dispatching_Operation, so
-- nothing else needs to be done here.
null;
end if;
else
Remove_Entity_And_Homonym (E);
end if;
end if;
Enter_Overloaded_Entity (S);
-- For entities generated by Derive_Subprograms the
-- overridden operation is the inherited primitive
-- (which is available through the attribute alias).
if not (Comes_From_Source (E))
and then Is_Dispatching_Operation (E)
and then Find_Dispatching_Type (E) =
Find_Dispatching_Type (S)
and then Present (Alias (E))
and then Comes_From_Source (Alias (E))
then
Set_Overridden_Operation (S, Alias (E));
Inherit_Subprogram_Contract (S, Alias (E));
-- Normal case of setting entity as overridden
-- Note: Static_Initialization and Overridden_Operation
-- attributes use the same field in subprogram entities.
-- Static_Initialization is only defined for internal
-- initialization procedures, where Overridden_Operation
-- is irrelevant. Therefore the setting of this attribute
-- must check whether the target is an init_proc.
elsif not Is_Init_Proc (S) then
Set_Overridden_Operation (S, E);
Inherit_Subprogram_Contract (S, E);
end if;
Check_Overriding_Indicator (S, E, Is_Primitive => True);
-- The Ghost policy in effect at the point of declaration
-- of a parent subprogram and an overriding subprogram
-- must match (SPARK RM 6.9(17)).
Check_Ghost_Overriding (S, E);
-- If S is a user-defined subprogram or a null procedure
-- expanded to override an inherited null procedure, or a
-- predefined dispatching primitive then indicate that E
-- overrides the operation from which S is inherited.
if Comes_From_Source (S)
or else
(Present (Parent (S))
and then Nkind (Parent (S)) = N_Procedure_Specification
and then Null_Present (Parent (S)))
or else
(Present (Alias (E))
and then
Is_Predefined_Dispatching_Operation (Alias (E)))
then
if Present (Alias (E)) then
Set_Overridden_Operation (S, Alias (E));
Inherit_Subprogram_Contract (S, Alias (E));
end if;
end if;
if Is_Dispatching_Operation (E) then
-- An overriding dispatching subprogram inherits the
-- convention of the overridden subprogram (AI-117).
Set_Convention (S, Convention (E));
Check_Dispatching_Operation (S, E);
else
Check_Dispatching_Operation (S, Empty);
end if;
Check_For_Primitive_Subprogram
(Is_Primitive_Subp, Is_Overriding => True);
goto Check_Inequality;
-- Apparent redeclarations in instances can occur when two
-- formal types get the same actual type. The subprograms in
-- in the instance are legal, even if not callable from the
-- outside. Calls from within are disambiguated elsewhere.
-- For dispatching operations in the visible part, the usual
-- rules apply, and operations with the same profile are not
-- legal (B830001).
elsif (In_Instance_Visible_Part
and then not Is_Dispatching_Operation (E))
or else In_Instance_Not_Visible
then
null;
-- Here we have a real error (identical profile)
else
Error_Msg_Sloc := Sloc (E);
-- Avoid cascaded errors if the entity appears in
-- subsequent calls.
Set_Scope (S, Current_Scope);
-- Generate error, with extra useful warning for the case
-- of a generic instance with no completion.
if Is_Generic_Instance (S)
and then not Has_Completion (E)
then
Error_Msg_N
("instantiation cannot provide body for&", S);
Error_Msg_N ("\& conflicts with declaration#", S);
else
Error_Msg_N ("& conflicts with declaration#", S);
end if;
return;
end if;
else
-- If one subprogram has an access parameter and the other
-- a parameter of an access type, calls to either might be
-- ambiguous. Verify that parameters match except for the
-- access parameter.
if May_Hide_Profile then
declare
F1 : Entity_Id;
F2 : Entity_Id;
begin
F1 := First_Formal (S);
F2 := First_Formal (E);
while Present (F1) and then Present (F2) loop
if Is_Access_Type (Etype (F1)) then
if not Is_Access_Type (Etype (F2))
or else not Conforming_Types
(Designated_Type (Etype (F1)),
Designated_Type (Etype (F2)),
Type_Conformant)
then
May_Hide_Profile := False;
end if;
elsif
not Conforming_Types
(Etype (F1), Etype (F2), Type_Conformant)
then
May_Hide_Profile := False;
end if;
Next_Formal (F1);
Next_Formal (F2);
end loop;
if May_Hide_Profile
and then No (F1)
and then No (F2)
then
Error_Msg_NE ("calls to& may be ambiguous??", S, S);
end if;
end;
end if;
end if;
E := Homonym (E);
end loop;
-- On exit, we know that S is a new entity
Enter_Overloaded_Entity (S);
Check_For_Primitive_Subprogram (Is_Primitive_Subp);
Check_Overriding_Indicator
(S, Overridden_Subp, Is_Primitive => Is_Primitive_Subp);
-- The Ghost policy in effect at the point of declaration of a parent
-- subprogram and an overriding subprogram must match
-- (SPARK RM 6.9(17)).
Check_Ghost_Overriding (S, Overridden_Subp);
-- If S is a derived operation for an untagged type then by
-- definition it's not a dispatching operation (even if the parent
-- operation was dispatching), so Check_Dispatching_Operation is not
-- called in that case.
if No (Derived_Type)
or else Is_Tagged_Type (Derived_Type)
then
Check_Dispatching_Operation (S, Empty);
end if;
end if;
-- If this is a user-defined equality operator that is not a derived
-- subprogram, create the corresponding inequality. If the operation is
-- dispatching, the expansion is done elsewhere, and we do not create
-- an explicit inequality operation.
<<Check_Inequality>>
if Chars (S) = Name_Op_Eq
and then Etype (S) = Standard_Boolean
and then Present (Parent (S))
and then not Is_Dispatching_Operation (S)
then
Make_Inequality_Operator (S);
Check_Untagged_Equality (S);
end if;
end New_Overloaded_Entity;
----------------------------------
-- Preanalyze_Formal_Expression --
----------------------------------
procedure Preanalyze_Formal_Expression (N : Node_Id; T : Entity_Id) is
Save_In_Spec_Expression : constant Boolean := In_Spec_Expression;
begin
In_Spec_Expression := True;
Preanalyze_With_Freezing_And_Resolve (N, T);
In_Spec_Expression := Save_In_Spec_Expression;
end Preanalyze_Formal_Expression;
---------------------
-- Process_Formals --
---------------------
procedure Process_Formals
(T : List_Id;
Related_Nod : Node_Id)
is
function Designates_From_Limited_With (Typ : Entity_Id) return Boolean;
-- Determine whether an access type designates a type coming from a
-- limited view.
function Is_Class_Wide_Default (D : Node_Id) return Boolean;
-- Check whether the default has a class-wide type. After analysis the
-- default has the type of the formal, so we must also check explicitly
-- for an access attribute.
----------------------------------
-- Designates_From_Limited_With --
----------------------------------
function Designates_From_Limited_With (Typ : Entity_Id) return Boolean is
Desig : Entity_Id := Typ;
begin
if Is_Access_Type (Desig) then
Desig := Directly_Designated_Type (Desig);
end if;
if Is_Class_Wide_Type (Desig) then
Desig := Root_Type (Desig);
end if;
return
Ekind (Desig) = E_Incomplete_Type
and then From_Limited_With (Desig);
end Designates_From_Limited_With;
---------------------------
-- Is_Class_Wide_Default --
---------------------------
function Is_Class_Wide_Default (D : Node_Id) return Boolean is
begin
return Is_Class_Wide_Type (Designated_Type (Etype (D)))
or else (Nkind (D) = N_Attribute_Reference
and then Attribute_Name (D) = Name_Access
and then Is_Class_Wide_Type (Etype (Prefix (D))));
end Is_Class_Wide_Default;
-- Local variables
Context : constant Node_Id := Parent (Parent (T));
Default : Node_Id;
Formal : Entity_Id;
Formal_Type : Entity_Id;
Param_Spec : Node_Id;
Ptype : Entity_Id;
Num_Out_Params : Nat := 0;
First_Out_Param : Entity_Id := Empty;
-- Used for setting Is_Only_Out_Parameter
-- Start of processing for Process_Formals
begin
-- In order to prevent premature use of the formals in the same formal
-- part, the Ekind is left undefined until all default expressions are
-- analyzed. The Ekind is established in a separate loop at the end.
Param_Spec := First (T);
while Present (Param_Spec) loop
Formal := Defining_Identifier (Param_Spec);
Set_Never_Set_In_Source (Formal, True);
Enter_Name (Formal);
-- Case of ordinary parameters
if Nkind (Parameter_Type (Param_Spec)) /= N_Access_Definition then
Find_Type (Parameter_Type (Param_Spec));
Ptype := Parameter_Type (Param_Spec);
if Ptype = Error then
goto Continue;
end if;
-- Protect against malformed parameter types
if Nkind (Ptype) not in N_Has_Entity then
Formal_Type := Any_Type;
else
Formal_Type := Entity (Ptype);
end if;
if Is_Incomplete_Type (Formal_Type)
or else
(Is_Class_Wide_Type (Formal_Type)
and then Is_Incomplete_Type (Root_Type (Formal_Type)))
then
-- Ada 2005 (AI-326): Tagged incomplete types allowed in
-- primitive operations, as long as their completion is
-- in the same declarative part. If in the private part
-- this means that the type cannot be a Taft-amendment type.
-- Check is done on package exit. For access to subprograms,
-- the use is legal for Taft-amendment types.
-- Ada 2012: tagged incomplete types are allowed as generic
-- formal types. They do not introduce dependencies and the
-- corresponding generic subprogram does not have a delayed
-- freeze, because it does not need a freeze node. However,
-- it is still the case that untagged incomplete types cannot
-- be Taft-amendment types and must be completed in private
-- part, so the subprogram must appear in the list of private
-- dependents of the type.
if Is_Tagged_Type (Formal_Type)
or else (Ada_Version >= Ada_2012
and then not From_Limited_With (Formal_Type)
and then not Is_Generic_Type (Formal_Type))
then
if Ekind (Scope (Current_Scope)) = E_Package
and then not Is_Generic_Type (Formal_Type)
and then not Is_Class_Wide_Type (Formal_Type)
then
if Nkind (Parent (T)) not in
N_Access_Function_Definition |
N_Access_Procedure_Definition
then
Append_Elmt (Current_Scope,
Private_Dependents (Base_Type (Formal_Type)));
-- Freezing is delayed to ensure that Register_Prim
-- will get called for this operation, which is needed
-- in cases where static dispatch tables aren't built.
-- (Note that the same is done for controlling access
-- parameter cases in function Access_Definition.)
if not Is_Thunk (Current_Scope) then
Set_Has_Delayed_Freeze (Current_Scope);
end if;
end if;
end if;
elsif Nkind (Parent (T)) not in N_Access_Function_Definition
| N_Access_Procedure_Definition
then
-- AI05-0151: Tagged incomplete types are allowed in all
-- formal parts. Untagged incomplete types are not allowed
-- in bodies. Limited views of either kind are not allowed
-- if there is no place at which the non-limited view can
-- become available.
-- Incomplete formal untagged types are not allowed in
-- subprogram bodies (but are legal in their declarations).
-- This excludes bodies created for null procedures, which
-- are basic declarations.
if Is_Generic_Type (Formal_Type)
and then not Is_Tagged_Type (Formal_Type)
and then Nkind (Parent (Related_Nod)) = N_Subprogram_Body
then
Error_Msg_N
("invalid use of formal incomplete type", Param_Spec);
elsif Ada_Version >= Ada_2012 then
if Is_Tagged_Type (Formal_Type)
and then (not From_Limited_With (Formal_Type)
or else not In_Package_Body)
then
null;
elsif Nkind (Context) in N_Accept_Statement
| N_Accept_Alternative
| N_Entry_Body
or else (Nkind (Context) = N_Subprogram_Body
and then Comes_From_Source (Context))
then
Error_Msg_NE
("invalid use of untagged incomplete type &",
Ptype, Formal_Type);
end if;
else
Error_Msg_NE
("invalid use of incomplete type&",
Param_Spec, Formal_Type);
-- Further checks on the legality of incomplete types
-- in formal parts are delayed until the freeze point
-- of the enclosing subprogram or access to subprogram.
end if;
end if;
elsif Ekind (Formal_Type) = E_Void then
Error_Msg_NE
("premature use of&",
Parameter_Type (Param_Spec), Formal_Type);
end if;
-- Ada 2012 (AI-142): Handle aliased parameters
if Ada_Version >= Ada_2012
and then Aliased_Present (Param_Spec)
then
Set_Is_Aliased (Formal);
-- AI12-001: All aliased objects are considered to be specified
-- as independently addressable (RM C.6(8.1/4)).
Set_Is_Independent (Formal);
end if;
-- Ada 2005 (AI-231): Create and decorate an internal subtype
-- declaration corresponding to the null-excluding type of the
-- formal in the enclosing scope. Finally, replace the parameter
-- type of the formal with the internal subtype.
if Ada_Version >= Ada_2005
and then Null_Exclusion_Present (Param_Spec)
then
if not Is_Access_Type (Formal_Type) then
Error_Msg_N
("`NOT NULL` allowed only for an access type", Param_Spec);
else
if Can_Never_Be_Null (Formal_Type)
and then Comes_From_Source (Related_Nod)
then
Error_Msg_NE
("`NOT NULL` not allowed (& already excludes null)",
Param_Spec, Formal_Type);
end if;
Formal_Type :=
Create_Null_Excluding_Itype
(T => Formal_Type,
Related_Nod => Related_Nod,
Scope_Id => Scope (Current_Scope));
-- If the designated type of the itype is an itype that is
-- not frozen yet, we set the Has_Delayed_Freeze attribute
-- on the access subtype, to prevent order-of-elaboration
-- issues in the backend.
-- Example:
-- type T is access procedure;
-- procedure Op (O : not null T);
if Is_Itype (Directly_Designated_Type (Formal_Type))
and then
not Is_Frozen (Directly_Designated_Type (Formal_Type))
then
Set_Has_Delayed_Freeze (Formal_Type);
end if;
end if;
end if;
-- An access formal type
else
Formal_Type :=
Access_Definition (Related_Nod, Parameter_Type (Param_Spec));
-- No need to continue if we already notified errors
if not Present (Formal_Type) then
return;
end if;
-- Ada 2005 (AI-254)
declare
AD : constant Node_Id :=
Access_To_Subprogram_Definition
(Parameter_Type (Param_Spec));
begin
if Present (AD) and then Protected_Present (AD) then
Formal_Type :=
Replace_Anonymous_Access_To_Protected_Subprogram
(Param_Spec);
end if;
end;
end if;
Set_Etype (Formal, Formal_Type);
-- Deal with default expression if present
Default := Expression (Param_Spec);
if Present (Default) then
if Out_Present (Param_Spec) then
Error_Msg_N
("default initialization only allowed for IN parameters",
Param_Spec);
end if;
-- Do the special preanalysis of the expression (see section on
-- "Handling of Default Expressions" in the spec of package Sem).
Preanalyze_Formal_Expression (Default, Formal_Type);
-- An access to constant cannot be the default for
-- an access parameter that is an access to variable.
if Ekind (Formal_Type) = E_Anonymous_Access_Type
and then not Is_Access_Constant (Formal_Type)
and then Is_Access_Type (Etype (Default))
and then Is_Access_Constant (Etype (Default))
then
Error_Msg_N
("formal that is access to variable cannot be initialized "
& "with an access-to-constant expression", Default);
end if;
-- Check that the designated type of an access parameter's default
-- is not a class-wide type unless the parameter's designated type
-- is also class-wide.
if Ekind (Formal_Type) = E_Anonymous_Access_Type
and then not Designates_From_Limited_With (Formal_Type)
and then Is_Class_Wide_Default (Default)
and then not Is_Class_Wide_Type (Designated_Type (Formal_Type))
then
Error_Msg_N
("access to class-wide expression not allowed here", Default);
end if;
-- Check incorrect use of dynamically tagged expressions
if Is_Tagged_Type (Formal_Type) then
Check_Dynamically_Tagged_Expression
(Expr => Default,
Typ => Formal_Type,
Related_Nod => Default);
end if;
end if;
-- Ada 2005 (AI-231): Static checks
if Ada_Version >= Ada_2005
and then Is_Access_Type (Etype (Formal))
and then Can_Never_Be_Null (Etype (Formal))
then
Null_Exclusion_Static_Checks (Param_Spec);
end if;
-- The following checks are relevant only when SPARK_Mode is on as
-- these are not standard Ada legality rules.
if SPARK_Mode = On then
if Ekind (Scope (Formal)) in E_Function | E_Generic_Function then
-- A function cannot have a parameter of mode IN OUT or OUT
-- (SPARK RM 6.1).
if Ekind (Formal) in E_In_Out_Parameter | E_Out_Parameter then
Error_Msg_N
("function cannot have parameter of mode `OUT` or "
& "`IN OUT`", Formal);
end if;
-- A procedure cannot have an effectively volatile formal
-- parameter of mode IN because it behaves as a constant
-- (SPARK RM 7.1.3(4)).
elsif Ekind (Scope (Formal)) = E_Procedure
and then Ekind (Formal) = E_In_Parameter
and then Is_Effectively_Volatile (Formal)
then
Error_Msg_N
("formal parameter of mode `IN` cannot be volatile", Formal);
end if;
end if;
-- Deal with aspects on formal parameters. Only Unreferenced is
-- supported for the time being.
if Has_Aspects (Param_Spec) then
declare
Aspect : Node_Id := First (Aspect_Specifications (Param_Spec));
begin
while Present (Aspect) loop
if Chars (Identifier (Aspect)) = Name_Unreferenced then
Set_Has_Pragma_Unreferenced (Formal);
else
Error_Msg_NE
("unsupported aspect& on parameter",
Aspect, Identifier (Aspect));
end if;
Next (Aspect);
end loop;
end;
end if;
<<Continue>>
Next (Param_Spec);
end loop;
-- If this is the formal part of a function specification, analyze the
-- subtype mark in the context where the formals are visible but not
-- yet usable, and may hide outer homographs.
if Nkind (Related_Nod) = N_Function_Specification then
Analyze_Return_Type (Related_Nod);
end if;
-- Now set the kind (mode) of each formal
Param_Spec := First (T);
while Present (Param_Spec) loop
Formal := Defining_Identifier (Param_Spec);
Set_Formal_Mode (Formal);
if Ekind (Formal) = E_In_Parameter then
Set_Default_Value (Formal, Expression (Param_Spec));
if Present (Expression (Param_Spec)) then
Default := Expression (Param_Spec);
if Is_Scalar_Type (Etype (Default)) then
if Nkind (Parameter_Type (Param_Spec)) /=
N_Access_Definition
then
Formal_Type := Entity (Parameter_Type (Param_Spec));
else
Formal_Type :=
Access_Definition
(Related_Nod, Parameter_Type (Param_Spec));
end if;
Apply_Scalar_Range_Check (Default, Formal_Type);
end if;
end if;
elsif Ekind (Formal) = E_Out_Parameter then
Num_Out_Params := Num_Out_Params + 1;
if Num_Out_Params = 1 then
First_Out_Param := Formal;
end if;
elsif Ekind (Formal) = E_In_Out_Parameter then
Num_Out_Params := Num_Out_Params + 1;
end if;
-- Skip remaining processing if formal type was in error
if Etype (Formal) = Any_Type or else Error_Posted (Formal) then
goto Next_Parameter;
end if;
-- Force call by reference if aliased
declare
Conv : constant Convention_Id := Convention (Etype (Formal));
begin
if Is_Aliased (Formal) then
Set_Mechanism (Formal, By_Reference);
-- Warn if user asked this to be passed by copy
if Conv = Convention_Ada_Pass_By_Copy then
Error_Msg_N
("cannot pass aliased parameter & by copy??", Formal);
end if;
-- Force mechanism if type has Convention Ada_Pass_By_Ref/Copy
elsif Conv = Convention_Ada_Pass_By_Copy then
Set_Mechanism (Formal, By_Copy);
elsif Conv = Convention_Ada_Pass_By_Reference then
Set_Mechanism (Formal, By_Reference);
end if;
end;
<<Next_Parameter>>
Next (Param_Spec);
end loop;
if Present (First_Out_Param) and then Num_Out_Params = 1 then
Set_Is_Only_Out_Parameter (First_Out_Param);
end if;
end Process_Formals;
----------------------------
-- Reference_Body_Formals --
----------------------------
procedure Reference_Body_Formals (Spec : Entity_Id; Bod : Entity_Id) is
Fs : Entity_Id;
Fb : Entity_Id;
begin
if Error_Posted (Spec) then
return;
end if;
-- Iterate over both lists. They may be of different lengths if the two
-- specs are not conformant.
Fs := First_Formal (Spec);
Fb := First_Formal (Bod);
while Present (Fs) and then Present (Fb) loop
Generate_Reference (Fs, Fb, 'b');
if Style_Check then
Style.Check_Identifier (Fb, Fs);
end if;
Set_Spec_Entity (Fb, Fs);
Set_Referenced (Fs, False);
Next_Formal (Fs);
Next_Formal (Fb);
end loop;
end Reference_Body_Formals;
-------------------------
-- Set_Actual_Subtypes --
-------------------------
procedure Set_Actual_Subtypes (N : Node_Id; Subp : Entity_Id) is
Decl : Node_Id;
Formal : Entity_Id;
T : Entity_Id;
First_Stmt : Node_Id := Empty;
AS_Needed : Boolean;
begin
-- If this is an empty initialization procedure, no need to create
-- actual subtypes (small optimization).
if Ekind (Subp) = E_Procedure and then Is_Null_Init_Proc (Subp) then
return;
-- Within a predicate function we do not want to generate local
-- subtypes that may generate nested predicate functions.
elsif Is_Subprogram (Subp) and then Is_Predicate_Function (Subp) then
return;
end if;
-- The subtype declarations may freeze the formals. The body generated
-- for an expression function is not a freeze point, so do not emit
-- these declarations (small loss of efficiency in rare cases).
if Nkind (N) = N_Subprogram_Body
and then Was_Expression_Function (N)
then
return;
end if;
Formal := First_Formal (Subp);
while Present (Formal) loop
T := Etype (Formal);
-- We never need an actual subtype for a constrained formal
if Is_Constrained (T) then
AS_Needed := False;
-- If we have unknown discriminants, then we do not need an actual
-- subtype, or more accurately we cannot figure it out. Note that
-- all class-wide types have unknown discriminants.
elsif Has_Unknown_Discriminants (T) then
AS_Needed := False;
-- At this stage we have an unconstrained type that may need an
-- actual subtype. For sure the actual subtype is needed if we have
-- an unconstrained array type. However, in an instance, the type
-- may appear as a subtype of the full view, while the actual is
-- in fact private (in which case no actual subtype is needed) so
-- check the kind of the base type.
elsif Is_Array_Type (Base_Type (T)) then
AS_Needed := True;
-- The only other case needing an actual subtype is an unconstrained
-- record type which is an IN parameter (we cannot generate actual
-- subtypes for the OUT or IN OUT case, since an assignment can
-- change the discriminant values. However we exclude the case of
-- initialization procedures, since discriminants are handled very
-- specially in this context, see the section entitled "Handling of
-- Discriminants" in Einfo.
-- We also exclude the case of Discrim_SO_Functions (functions used
-- in front-end layout mode for size/offset values), since in such
-- functions only discriminants are referenced, and not only are such
-- subtypes not needed, but they cannot always be generated, because
-- of order of elaboration issues.
elsif Is_Record_Type (T)
and then Ekind (Formal) = E_In_Parameter
and then Chars (Formal) /= Name_uInit
and then not Is_Unchecked_Union (T)
and then not Is_Discrim_SO_Function (Subp)
then
AS_Needed := True;
-- All other cases do not need an actual subtype
else
AS_Needed := False;
end if;
-- Generate actual subtypes for unconstrained arrays and
-- unconstrained discriminated records.
if AS_Needed then
if Nkind (N) = N_Accept_Statement then
-- If expansion is active, the formal is replaced by a local
-- variable that renames the corresponding entry of the
-- parameter block, and it is this local variable that may
-- require an actual subtype.
if Expander_Active then
Decl := Build_Actual_Subtype (T, Renamed_Object (Formal));
else
Decl := Build_Actual_Subtype (T, Formal);
end if;
if Present (Handled_Statement_Sequence (N)) then
First_Stmt :=
First (Statements (Handled_Statement_Sequence (N)));
Prepend (Decl, Statements (Handled_Statement_Sequence (N)));
Mark_Rewrite_Insertion (Decl);
else
-- If the accept statement has no body, there will be no
-- reference to the actuals, so no need to compute actual
-- subtypes.
return;
end if;
else
Decl := Build_Actual_Subtype (T, Formal);
Prepend (Decl, Declarations (N));
Mark_Rewrite_Insertion (Decl);
end if;
-- The declaration uses the bounds of an existing object, and
-- therefore needs no constraint checks.
Analyze (Decl, Suppress => All_Checks);
Set_Is_Actual_Subtype (Defining_Identifier (Decl));
-- We need to freeze manually the generated type when it is
-- inserted anywhere else than in a declarative part.
if Present (First_Stmt) then
Insert_List_Before_And_Analyze (First_Stmt,
Freeze_Entity (Defining_Identifier (Decl), N));
-- Ditto if the type has a dynamic predicate, because the
-- generated function will mention the actual subtype. The
-- predicate may come from an explicit aspect of be inherited.
elsif Has_Predicates (T) then
Insert_List_After_And_Analyze (Decl,
Freeze_Entity (Defining_Identifier (Decl), N));
end if;
if Nkind (N) = N_Accept_Statement
and then Expander_Active
then
Set_Actual_Subtype (Renamed_Object (Formal),
Defining_Identifier (Decl));
else
Set_Actual_Subtype (Formal, Defining_Identifier (Decl));
end if;
end if;
Next_Formal (Formal);
end loop;
end Set_Actual_Subtypes;
---------------------
-- Set_Formal_Mode --
---------------------
procedure Set_Formal_Mode (Formal_Id : Entity_Id) is
Spec : constant Node_Id := Parent (Formal_Id);
Id : constant Entity_Id := Scope (Formal_Id);
begin
-- Note: we set Is_Known_Valid for IN parameters and IN OUT parameters
-- since we ensure that corresponding actuals are always valid at the
-- point of the call.
if Out_Present (Spec) then
if Is_Entry (Id)
or else Is_Subprogram_Or_Generic_Subprogram (Id)
then
Set_Has_Out_Or_In_Out_Parameter (Id, True);
end if;
if Ekind (Id) in E_Function | E_Generic_Function then
-- [IN] OUT parameters allowed for functions in Ada 2012
if Ada_Version >= Ada_2012 then
-- Even in Ada 2012 operators can only have IN parameters
if Is_Operator_Symbol_Name (Chars (Scope (Formal_Id))) then
Error_Msg_N ("operators can only have IN parameters", Spec);
end if;
if In_Present (Spec) then
Set_Ekind (Formal_Id, E_In_Out_Parameter);
else
Set_Ekind (Formal_Id, E_Out_Parameter);
end if;
-- But not in earlier versions of Ada
else
Error_Msg_N ("functions can only have IN parameters", Spec);
Set_Ekind (Formal_Id, E_In_Parameter);
end if;
elsif In_Present (Spec) then
Set_Ekind (Formal_Id, E_In_Out_Parameter);
else
Set_Ekind (Formal_Id, E_Out_Parameter);
Set_Never_Set_In_Source (Formal_Id, True);
Set_Is_True_Constant (Formal_Id, False);
Set_Current_Value (Formal_Id, Empty);
end if;
else
Set_Ekind (Formal_Id, E_In_Parameter);
end if;
-- Set Is_Known_Non_Null for access parameters since the language
-- guarantees that access parameters are always non-null. We also set
-- Can_Never_Be_Null, since there is no way to change the value.
if Nkind (Parameter_Type (Spec)) = N_Access_Definition then
-- Ada 2005 (AI-231): In Ada 95, access parameters are always non-
-- null; In Ada 2005, only if then null_exclusion is explicit.
if Ada_Version < Ada_2005
or else Can_Never_Be_Null (Etype (Formal_Id))
then
Set_Is_Known_Non_Null (Formal_Id);
Set_Can_Never_Be_Null (Formal_Id);
end if;
-- Ada 2005 (AI-231): Null-exclusion access subtype
elsif Is_Access_Type (Etype (Formal_Id))
and then Can_Never_Be_Null (Etype (Formal_Id))
then
Set_Is_Known_Non_Null (Formal_Id);
-- We can also set Can_Never_Be_Null (thus preventing some junk
-- access checks) for the case of an IN parameter, which cannot
-- be changed, or for an IN OUT parameter, which can be changed but
-- not to a null value. But for an OUT parameter, the initial value
-- passed in can be null, so we can't set this flag in that case.
if Ekind (Formal_Id) /= E_Out_Parameter then
Set_Can_Never_Be_Null (Formal_Id);
end if;
end if;
Set_Mechanism (Formal_Id, Default_Mechanism);
Set_Formal_Validity (Formal_Id);
end Set_Formal_Mode;
-------------------------
-- Set_Formal_Validity --
-------------------------
procedure Set_Formal_Validity (Formal_Id : Entity_Id) is
begin
-- If no validity checking, then we cannot assume anything about the
-- validity of parameters, since we do not know there is any checking
-- of the validity on the call side.
if not Validity_Checks_On then
return;
-- If validity checking for parameters is enabled, this means we are
-- not supposed to make any assumptions about argument values.
elsif Validity_Check_Parameters then
return;
-- If we are checking in parameters, we will assume that the caller is
-- also checking parameters, so we can assume the parameter is valid.
elsif Ekind (Formal_Id) = E_In_Parameter
and then Validity_Check_In_Params
then
Set_Is_Known_Valid (Formal_Id, True);
-- Similar treatment for IN OUT parameters
elsif Ekind (Formal_Id) = E_In_Out_Parameter
and then Validity_Check_In_Out_Params
then
Set_Is_Known_Valid (Formal_Id, True);
end if;
end Set_Formal_Validity;
------------------------
-- Subtype_Conformant --
------------------------
function Subtype_Conformant
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Skip_Controlling_Formals : Boolean := False) return Boolean
is
Result : Boolean;
begin
Check_Conformance (New_Id, Old_Id, Subtype_Conformant, False, Result,
Skip_Controlling_Formals => Skip_Controlling_Formals);
return Result;
end Subtype_Conformant;
---------------------
-- Type_Conformant --
---------------------
function Type_Conformant
(New_Id : Entity_Id;
Old_Id : Entity_Id;
Skip_Controlling_Formals : Boolean := False) return Boolean
is
Result : Boolean;
begin
May_Hide_Profile := False;
Check_Conformance
(New_Id, Old_Id, Type_Conformant, False, Result,
Skip_Controlling_Formals => Skip_Controlling_Formals);
return Result;
end Type_Conformant;
-------------------------------
-- Valid_Operator_Definition --
-------------------------------
procedure Valid_Operator_Definition (Designator : Entity_Id) is
N : Integer := 0;
F : Entity_Id;
Id : constant Name_Id := Chars (Designator);
N_OK : Boolean;
begin
F := First_Formal (Designator);
while Present (F) loop
N := N + 1;
if Present (Default_Value (F)) then
Error_Msg_N
("default values not allowed for operator parameters",
Parent (F));
-- For function instantiations that are operators, we must check
-- separately that the corresponding generic only has in-parameters.
-- For subprogram declarations this is done in Set_Formal_Mode. Such
-- an error could not arise in earlier versions of the language.
elsif Ekind (F) /= E_In_Parameter then
Error_Msg_N ("operators can only have IN parameters", F);
end if;
Next_Formal (F);
end loop;
-- Verify that user-defined operators have proper number of arguments
-- First case of operators which can only be unary
if Id in Name_Op_Not | Name_Op_Abs then
N_OK := (N = 1);
-- Case of operators which can be unary or binary
elsif Id in Name_Op_Add | Name_Op_Subtract then
N_OK := (N in 1 .. 2);
-- All other operators can only be binary
else
N_OK := (N = 2);
end if;
if not N_OK then
Error_Msg_N
("incorrect number of arguments for operator", Designator);
end if;
if Id = Name_Op_Ne
and then Base_Type (Etype (Designator)) = Standard_Boolean
and then not Is_Intrinsic_Subprogram (Designator)
then
Error_Msg_N
("explicit definition of inequality not allowed", Designator);
end if;
end Valid_Operator_Definition;
end Sem_Ch6;
| 37.677794
| 79
| 0.559916
|
1968c08d1b0b053e0e86404ffed7e1b33ef5acec
| 668
|
ads
|
Ada
|
dependencies/agar/ada-core/agar-core-dso.ads
|
amvb/GUCEF
|
08fd423bbb5cdebbe4b70df24c0ae51716b65825
|
[
"Apache-2.0"
] | 5
|
2016-04-18T23:12:51.000Z
|
2022-03-06T05:12:07.000Z
|
dependencies/agar/ada-core/agar-core-dso.ads
|
amvb/GUCEF
|
08fd423bbb5cdebbe4b70df24c0ae51716b65825
|
[
"Apache-2.0"
] | 2
|
2015-10-09T19:13:25.000Z
|
2018-12-25T17:16:54.000Z
|
dependencies/agar/ada-core/agar-core-dso.ads
|
amvb/GUCEF
|
08fd423bbb5cdebbe4b70df24c0ae51716b65825
|
[
"Apache-2.0"
] | 15
|
2015-02-23T16:35:28.000Z
|
2022-03-25T13:40:33.000Z
|
with Agar.Core.Thin;
package Agar.Core.DSO is
subtype DSO_Access_t is Thin.DSO.DSO_Access_t;
subtype DSO_Not_Null_Access_t is Thin.DSO.DSO_Not_Null_Access_t;
function Load
(Name : in String;
Path : in String) return DSO_Access_t;
function Unload (DSO : DSO_Not_Null_Access_t) return Boolean;
function Lookup (Name : in String) return DSO_Access_t;
procedure Lock renames Thin.DSO.Lock;
procedure Unlock renames Thin.DSO.Unlock;
generic
type Subprogram_Access_Type is private;
function Generic_Symbol_Lookup
(DSO : in DSO_Not_Null_Access_t;
Name : in String) return Subprogram_Access_Type;
end Agar.Core.DSO;
| 23.857143
| 66
| 0.748503
|
a0e91d17399333b1ae34bd9d944ff1bc955b46a1
| 4,377
|
ads
|
Ada
|
source/nodes/program-nodes-formal_ordinary_fixed_point_definitions.ads
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | null | null | null |
source/nodes/program-nodes-formal_ordinary_fixed_point_definitions.ads
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | null | null | null |
source/nodes/program-nodes-formal_ordinary_fixed_point_definitions.ads
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | 1
|
2019-10-16T09:05:27.000Z
|
2019-10-16T09:05:27.000Z
|
-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
with Program.Lexical_Elements;
with Program.Elements.Formal_Ordinary_Fixed_Point_Definitions;
with Program.Element_Visitors;
package Program.Nodes.Formal_Ordinary_Fixed_Point_Definitions is
pragma Preelaborate;
type Formal_Ordinary_Fixed_Point_Definition is
new Program.Nodes.Node
and Program.Elements.Formal_Ordinary_Fixed_Point_Definitions
.Formal_Ordinary_Fixed_Point_Definition
and Program.Elements.Formal_Ordinary_Fixed_Point_Definitions
.Formal_Ordinary_Fixed_Point_Definition_Text
with private;
function Create
(Delta_Token : not null Program.Lexical_Elements.Lexical_Element_Access;
Box_Token : not null Program.Lexical_Elements.Lexical_Element_Access)
return Formal_Ordinary_Fixed_Point_Definition;
type Implicit_Formal_Ordinary_Fixed_Point_Definition is
new Program.Nodes.Node
and Program.Elements.Formal_Ordinary_Fixed_Point_Definitions
.Formal_Ordinary_Fixed_Point_Definition
with private;
function Create
(Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False)
return Implicit_Formal_Ordinary_Fixed_Point_Definition
with Pre =>
Is_Part_Of_Implicit or Is_Part_Of_Inherited or Is_Part_Of_Instance;
private
type Base_Formal_Ordinary_Fixed_Point_Definition is
abstract new Program.Nodes.Node
and Program.Elements.Formal_Ordinary_Fixed_Point_Definitions
.Formal_Ordinary_Fixed_Point_Definition
with null record;
procedure Initialize
(Self : in out Base_Formal_Ordinary_Fixed_Point_Definition'Class);
overriding procedure Visit
(Self : not null access Base_Formal_Ordinary_Fixed_Point_Definition;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class);
overriding function Is_Formal_Ordinary_Fixed_Point_Definition
(Self : Base_Formal_Ordinary_Fixed_Point_Definition)
return Boolean;
overriding function Is_Formal_Type_Definition
(Self : Base_Formal_Ordinary_Fixed_Point_Definition)
return Boolean;
overriding function Is_Definition
(Self : Base_Formal_Ordinary_Fixed_Point_Definition)
return Boolean;
type Formal_Ordinary_Fixed_Point_Definition is
new Base_Formal_Ordinary_Fixed_Point_Definition
and Program.Elements.Formal_Ordinary_Fixed_Point_Definitions
.Formal_Ordinary_Fixed_Point_Definition_Text
with record
Delta_Token : not null Program.Lexical_Elements.Lexical_Element_Access;
Box_Token : not null Program.Lexical_Elements.Lexical_Element_Access;
end record;
overriding function To_Formal_Ordinary_Fixed_Point_Definition_Text
(Self : in out Formal_Ordinary_Fixed_Point_Definition)
return Program.Elements.Formal_Ordinary_Fixed_Point_Definitions
.Formal_Ordinary_Fixed_Point_Definition_Text_Access;
overriding function Delta_Token
(Self : Formal_Ordinary_Fixed_Point_Definition)
return not null Program.Lexical_Elements.Lexical_Element_Access;
overriding function Box_Token
(Self : Formal_Ordinary_Fixed_Point_Definition)
return not null Program.Lexical_Elements.Lexical_Element_Access;
type Implicit_Formal_Ordinary_Fixed_Point_Definition is
new Base_Formal_Ordinary_Fixed_Point_Definition
with record
Is_Part_Of_Implicit : Boolean;
Is_Part_Of_Inherited : Boolean;
Is_Part_Of_Instance : Boolean;
end record;
overriding function To_Formal_Ordinary_Fixed_Point_Definition_Text
(Self : in out Implicit_Formal_Ordinary_Fixed_Point_Definition)
return Program.Elements.Formal_Ordinary_Fixed_Point_Definitions
.Formal_Ordinary_Fixed_Point_Definition_Text_Access;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Formal_Ordinary_Fixed_Point_Definition)
return Boolean;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Formal_Ordinary_Fixed_Point_Definition)
return Boolean;
overriding function Is_Part_Of_Instance
(Self : Implicit_Formal_Ordinary_Fixed_Point_Definition)
return Boolean;
end Program.Nodes.Formal_Ordinary_Fixed_Point_Definitions;
| 38.06087
| 79
| 0.785469
|
036284b8ea9bd36988d37e4c5eacb41926f0e589
| 2,809
|
ads
|
Ada
|
src/numbers.ads
|
python36/0xfa
|
ef80cdc0a29d9565bdf067a25d0a4793c0120170
|
[
"BSD-2-Clause"
] | null | null | null |
src/numbers.ads
|
python36/0xfa
|
ef80cdc0a29d9565bdf067a25d0a4793c0120170
|
[
"BSD-2-Clause"
] | null | null | null |
src/numbers.ads
|
python36/0xfa
|
ef80cdc0a29d9565bdf067a25d0a4793c0120170
|
[
"BSD-2-Clause"
] | null | null | null |
with interfaces;
with ada.unchecked_conversion;
with ada.numerics.generic_elementary_functions;
with ada.text_io;
with ada.strings.fixed;
package numbers is
function uint32_to_integer is
new ada.unchecked_conversion(source => interfaces.unsigned_32, target => integer);
subtype byte is interfaces.unsigned_8;
subtype word is interfaces.unsigned_16;
function integer_to_word is
new ada.unchecked_conversion(source => integer, target => word);
use type byte;
use type word;
function words_add (a, b : word) return word;
function words_sub (a, b : word) return word;
function words_mul (a, b : word) return word;
function words_div (a, b : word) return word;
function words_pow (a, b : word) return word;
function words_mod (a, b : word) return word;
function words_or (a, b : word) return word;
function words_and (a, b : word) return word;
function words_xor (a, b : word) return word;
function words_sl (a, b : word) return word;
function words_sr (a, b : word) return word;
function sl (value : byte; amount : natural) return byte renames interfaces.shift_left;
function sr (value : byte; amount : natural) return byte renames interfaces.shift_right;
function sl (value : word; amount : natural) return word renames interfaces.shift_left;
function sr (value : word; amount : natural) return word renames interfaces.shift_right;
procedure inc (p_i : in out integer);
procedure dec (p_i : in out integer);
procedure inc (p_i : in out word);
procedure dec (p_i : in out word);
procedure inc (p_i : in out byte);
procedure dec (p_i : in out byte);
procedure incd (p_i : in out byte);
procedure incd (p_i : in out word);
function incd (p_i : word) return word;
procedure decd (p_i : in out word);
function swpb (w : word) return word;
procedure swpb (w : in out word);
function word_to_integer (w : word) return integer;
function validate_word (str : string) return boolean;
function value (str : string) return word;
procedure void (w : word);
function to_positive (b : boolean; v : positive := 1) return positive;
function to_natural (b : boolean; v : natural := 1) return natural;
function to_word (b : boolean; v : word := 1) return word;
function image (w : word; base : positive; fix_size : boolean := true) return string;
function hex (w : word; fix_size : boolean := true) return string;
function bin (w : word; fix_size : boolean := true) return string;
function odd (w : word) return boolean;
function even (w : word) return boolean;
private
package natural_io is new ada.text_io.integer_io(natural);
package word_func is new ada.numerics.generic_elementary_functions(long_float);
function get_max_image_length (base : positive; val : word := word'last) return positive;
end numbers;
| 37.959459
| 91
| 0.719829
|
039358d4ab91824773af0ca868b2b2cba5f397e5
| 336
|
ada
|
Ada
|
Task/Program-termination/Ada/program-termination-2.ada
|
mullikine/RosettaCodeData
|
4f0027c6ce83daa36118ee8b67915a13cd23ab67
|
[
"Info-ZIP"
] | 1
|
2018-11-09T22:08:38.000Z
|
2018-11-09T22:08:38.000Z
|
Task/Program-termination/Ada/program-termination-2.ada
|
mullikine/RosettaCodeData
|
4f0027c6ce83daa36118ee8b67915a13cd23ab67
|
[
"Info-ZIP"
] | null | null | null |
Task/Program-termination/Ada/program-termination-2.ada
|
mullikine/RosettaCodeData
|
4f0027c6ce83daa36118ee8b67915a13cd23ab67
|
[
"Info-ZIP"
] | 1
|
2018-11-09T22:08:40.000Z
|
2018-11-09T22:08:40.000Z
|
procedure Main is
-- Create as many task objects as your program needs
begin
-- whatever logic is required in your Main procedure
if some_condition then
-- for each task created by the Main procedure
The_task.Stop;
-- end the Main procedure
return; -- actually, this is not needed
end if;
end Main;
| 28
| 55
| 0.6875
|
1e152ce9ec70544c8cb1e64826d2b6be98bd4452
| 4,237
|
ads
|
Ada
|
bb-runtimes/runtimes/ravenscar-full-stm32f3x4/gnat/s-excdeb.ads
|
JCGobbi/Nucleo-STM32F334R8
|
2a0b1b4b2664c92773703ac5e95dcb71979d051c
|
[
"BSD-3-Clause"
] | null | null | null |
bb-runtimes/runtimes/ravenscar-full-stm32f3x4/gnat/s-excdeb.ads
|
JCGobbi/Nucleo-STM32F334R8
|
2a0b1b4b2664c92773703ac5e95dcb71979d051c
|
[
"BSD-3-Clause"
] | null | null | null |
bb-runtimes/runtimes/ravenscar-full-stm32f3x4/gnat/s-excdeb.ads
|
JCGobbi/Nucleo-STM32F334R8
|
2a0b1b4b2664c92773703ac5e95dcb71979d051c
|
[
"BSD-3-Clause"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- S Y S T E M . E X C E P T I O N S _ D E B U G --
-- --
-- S p e c --
-- --
-- Copyright (C) 2006-2021, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- --
-- --
-- --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- This package contains internal routines used as debugger helpers.
-- It should be compiled without optimization to let debuggers inspect
-- parameter values reliably from breakpoints on the routines.
pragma Compiler_Unit_Warning;
with System.Standard_Library;
package System.Exceptions_Debug is
pragma Preelaborate;
-- To let Ada.Exceptions "with" us and let us "with" Standard_Library
package SSL renames System.Standard_Library;
-- To let some of the hooks below have formal parameters typed in
-- accordance with what GDB expects.
procedure Debug_Raise_Exception
(E : SSL.Exception_Data_Ptr; Message : String);
pragma Export
(Ada, Debug_Raise_Exception, "__gnat_debug_raise_exception");
-- Hook called at a "raise" point for an exception E, when it is
-- just about to be propagated.
procedure Debug_Unhandled_Exception (E : SSL.Exception_Data_Ptr);
pragma Export
(Ada, Debug_Unhandled_Exception, "__gnat_unhandled_exception");
-- Hook called during the propagation process of an exception E, as soon
-- as it is known to be unhandled.
procedure Debug_Raise_Assert_Failure;
pragma Export
(Ada, Debug_Raise_Assert_Failure, "__gnat_debug_raise_assert_failure");
-- Hook called when an assertion failed. This is used by the debugger to
-- intercept assertion failures, and treat them specially.
procedure Local_Raise (Excep : System.Address);
pragma Export (Ada, Local_Raise);
-- This is a dummy routine, used only by the debugger for the purpose of
-- logging local raise statements that were transformed into a direct goto
-- to the handler code. The compiler in this case generates:
--
-- Local_Raise (exception_data'address);
-- goto Handler
--
-- The argument is the address of the exception data
end System.Exceptions_Debug;
| 53.632911
| 78
| 0.493982
|
1e7e751ed5e3dc0a88327aa4aec92dd22870dc32
| 2,558
|
adb
|
Ada
|
src/aws/asf-parts-web.adb
|
Letractively/ada-asf
|
da9f85f85666eba7e23fefea661160863b74154d
|
[
"Apache-2.0"
] | null | null | null |
src/aws/asf-parts-web.adb
|
Letractively/ada-asf
|
da9f85f85666eba7e23fefea661160863b74154d
|
[
"Apache-2.0"
] | null | null | null |
src/aws/asf-parts-web.adb
|
Letractively/ada-asf
|
da9f85f85666eba7e23fefea661160863b74154d
|
[
"Apache-2.0"
] | null | null | null |
-----------------------------------------------------------------------
-- asf-parts-web -- ASF Parts on top of AWS attachments
-- Copyright (C) 2011, 2012 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with AWS.Attachments.Extend;
package body ASF.Parts.Web is
-- ------------------------------
-- Get the size of the mime part.
-- ------------------------------
overriding
function Get_Size (Data : in AWS_Part) return Natural is
begin
return AWS.Attachments.Extend.Get_Length (Data.Element);
end Get_Size;
-- ------------------------------
-- Get the content name submitted in the mime part.
-- ------------------------------
overriding
function Get_Name (Data : in AWS_Part) return String is
begin
return AWS.Attachments.Filename (Data.Element);
end Get_Name;
-- ------------------------------
-- Get the path of the local file which contains the part.
-- ------------------------------
overriding
function Get_Local_Filename (Data : in AWS_Part) return String is
begin
return AWS.Attachments.Local_Filename (Data.Element);
end Get_Local_Filename;
-- ------------------------------
-- Get the content type of the part.
-- ------------------------------
overriding
function Get_Content_Type (Data : in AWS_Part) return String is
begin
return AWS.Attachments.Content_Type (Data.Element);
end Get_Content_Type;
-- ------------------------------
-- Build a part instance from the AWS attachment and execute the <b>Process</b> operation.
-- ------------------------------
procedure Process_Part (Part : in AWS.Attachments.Element;
Process : not null access procedure (Part : in ASF.Parts.Part'Class)) is
P : AWS_Part;
begin
P.Element := Part;
Process (P);
end Process_Part;
end ASF.Parts.Web;
| 36.028169
| 99
| 0.562158
|
a02d1c069e29c2f7ffb3639ff4a7221279ecb861
| 608
|
ads
|
Ada
|
example/src/clic_ex-commands-topics-example.ads
|
alire-project/clic
|
e57e289e4825e1ce4be96b5cdd1979a02a08c8ba
|
[
"MIT"
] | 9
|
2021-08-30T16:11:30.000Z
|
2021-11-06T22:41:17.000Z
|
example/src/clic_ex-commands-topics-example.ads
|
alire-project/clic
|
e57e289e4825e1ce4be96b5cdd1979a02a08c8ba
|
[
"MIT"
] | 8
|
2021-09-05T09:20:31.000Z
|
2022-03-09T10:07:52.000Z
|
example/src/clic_ex-commands-topics-example.ads
|
alire-project/clic
|
e57e289e4825e1ce4be96b5cdd1979a02a08c8ba
|
[
"MIT"
] | 2
|
2021-09-16T14:17:20.000Z
|
2021-09-21T09:11:23.000Z
|
with AAA.Strings;
with CLIC.Subcommand;
with CLIC.TTY;
package CLIC_Ex.Commands.Topics.Example is
type Instance is new CLIC.Subcommand.Help_Topic with null record;
overriding
function Name (This : Instance) return CLIC.Subcommand.Identifier
is ("topic_example");
overriding
function Title (This : Instance) return String
is ("Just an example of CLIC help topic");
overriding
function Content (This : Instance) return AAA.Strings.Vector
is (AAA.Strings.Empty_Vector
.Append ("Not " & CLIC.TTY.Dim ("much") & " to see here..."));
end CLIC_Ex.Commands.Topics.Example;
| 26.434783
| 69
| 0.71875
|
031240ed8a3e4804476ce56582a65aa297b1ce19
| 4,295
|
ads
|
Ada
|
rts/src/common/s-atacco.ads
|
ScottWLoyd/bare-metal-ada-tools
|
3d2a4a9e74525785234c7629be7d874786503357
|
[
"Apache-2.0"
] | 7
|
2015-07-12T14:32:52.000Z
|
2020-09-23T11:25:43.000Z
|
rts/src/common/s-atacco.ads
|
ScottWLoyd/bare-metal-ada-tools
|
3d2a4a9e74525785234c7629be7d874786503357
|
[
"Apache-2.0"
] | null | null | null |
rts/src/common/s-atacco.ads
|
ScottWLoyd/bare-metal-ada-tools
|
3d2a4a9e74525785234c7629be7d874786503357
|
[
"Apache-2.0"
] | 1
|
2021-07-13T11:52:03.000Z
|
2021-07-13T11:52:03.000Z
|
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- S Y S T E M . A D D R E S S _ T O _ A C C E S S _ C O N V E R S I O N S --
-- --
-- S p e c --
-- --
-- Copyright (C) 1992-2009, Free Software Foundation, Inc. --
-- --
-- This specification is derived from the Ada Reference Manual for use with --
-- GNAT. The copyright notice above, and the license provisions that follow --
-- apply solely to the contents of the part following the private keyword. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception, --
-- version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
generic
type Object (<>) is limited private;
package System.Address_To_Access_Conversions is
pragma Preelaborate;
pragma Elaborate_Body;
-- This pragma Elaborate_Body is there to ensure the requirement of what is
-- at the moment a dummy null body. The reason this null body is there is
-- that we used to have a real body, and it causes bootstrap problems with
-- old compilers if we try to remove the corresponding file.
pragma Compile_Time_Warning
(Object'Unconstrained_Array,
"Object is unconstrained array type" & ASCII.LF &
"To_Pointer results may not have bounds");
-- Capture constrained status, suppressing warnings, since this is
-- an obsolescent feature to use Constrained in this way (RM J.4).
pragma Warnings (Off);
Xyz : Boolean := Object'Constrained;
pragma Warnings (On);
type Object_Pointer is access all Object;
for Object_Pointer'Size use Standard'Address_Size;
pragma No_Strict_Aliasing (Object_Pointer);
-- Strictly speaking, this routine should not be used to generate pointers
-- to other than proper values of the proper type, but in practice, this
-- is done all the time. This pragma stops the compiler from doing some
-- optimizations that may cause unexpected results based on the assumption
-- of no strict aliasing.
function To_Pointer (Value : Address) return Object_Pointer;
function To_Address (Value : Object_Pointer) return Address;
pragma Import (Intrinsic, To_Pointer);
pragma Import (Intrinsic, To_Address);
end System.Address_To_Access_Conversions;
| 56.513158
| 79
| 0.524563
|
8b5e6a70c3edd1ad5abd1c2278be2715ac22284b
| 1,960
|
ads
|
Ada
|
boards/nucleo_f072rb/stm32gd-board.ads
|
ekoeppen/STM32_Generic_Ada_Drivers
|
4ff29c3026c4b24280baf22a5b81ea9969375466
|
[
"MIT"
] | 1
|
2021-04-06T07:57:56.000Z
|
2021-04-06T07:57:56.000Z
|
boards/nucleo_f072rb/stm32gd-board.ads
|
ekoeppen/STM32_Generic_Ada_Drivers
|
4ff29c3026c4b24280baf22a5b81ea9969375466
|
[
"MIT"
] | null | null | null |
boards/nucleo_f072rb/stm32gd-board.ads
|
ekoeppen/STM32_Generic_Ada_Drivers
|
4ff29c3026c4b24280baf22a5b81ea9969375466
|
[
"MIT"
] | 2
|
2018-05-29T13:59:31.000Z
|
2019-02-03T19:48:08.000Z
|
with STM32GD.GPIO; use STM32GD.GPIO;
with STM32GD.GPIO.Pin;
with STM32GD.USART;
with STM32GD.USART.Peripheral;
with STM32GD.SPI;
with STM32GD.SPI.Peripheral;
with STM32GD.RTC;
with STM32GD.Clock;
with STM32GD.Clock.Tree;
with Drivers.Text_IO;
package STM32GD.Board is
package CLOCKS is new STM32GD.Clock.Tree;
package SCLK is new Pin (Pin => Pin_5, Port => Port_A, Mode => Mode_AF);
package MISO is new Pin (Pin => Pin_6, Port => Port_A, Mode => Mode_AF);
package MOSI is new Pin (Pin => Pin_7, Port => Port_A, Mode => Mode_AF);
package CSN is new Pin (Pin => Pin_6, Port => Port_B, Mode => Mode_Out);
package BUTTON is new Pin (Pin => Pin_13, Port => Port_C);
package LED is new Pin (Pin => Pin_5, Port => Port_A, Mode => Mode_Out);
package LED2 is new Pin (Pin => Pin_8, Port => Port_C, Mode => Mode_Out);
package LED3 is new Pin (Pin => Pin_6, Port => Port_C, Mode => Mode_Out);
package TX is new Pin (Pin => Pin_2, Port => Port_A,
Pull_Resistor => Pull_Up,
Mode => Mode_AF, Alternate_Function => 1);
package RX is new Pin (Pin => Pin_3, Port => Port_A,
Pull_Resistor => Pull_Up,
Mode => Mode_AF, Alternate_Function => 1);
package USART is new STM32GD.USART.Peripheral (
USART => STM32GD.USART.USART_2,
Speed => 115200, RX_DMA_Buffer_Size => 64,
Clock_Tree => CLOCKS,
Clock => STM32GD.Clock.PCLK);
package RTC is new STM32GD.RTC (Clock_Tree => STM32GD.Board.Clocks,
Clock => STM32GD.Clock.LSI);
package SPI is new STM32GD.SPI.Peripheral (SPI => STM32GD.SPI.SPI_1);
package Text_IO is new Drivers.Text_IO (USART => STM32GD.Board.USART);
procedure Init;
end STM32GD.Board;
| 45.581395
| 80
| 0.580612
|
9abc75f077d4aed028e2925b3a0e05c79fcce4f6
| 3,525
|
ads
|
Ada
|
src/gen/gstreamer-gst_low_level-gstreamer_0_10_gst_video_gstsurfaceconverter_h.ads
|
persan/A-gst
|
7a39693d105617adea52680424c862a1a08f7368
|
[
"Apache-2.0"
] | 1
|
2018-01-18T00:51:00.000Z
|
2018-01-18T00:51:00.000Z
|
src/gen/gstreamer-gst_low_level-gstreamer_0_10_gst_video_gstsurfaceconverter_h.ads
|
persan/A-gst
|
7a39693d105617adea52680424c862a1a08f7368
|
[
"Apache-2.0"
] | null | null | null |
src/gen/gstreamer-gst_low_level-gstreamer_0_10_gst_video_gstsurfaceconverter_h.ads
|
persan/A-gst
|
7a39693d105617adea52680424c862a1a08f7368
|
[
"Apache-2.0"
] | null | null | null |
pragma Ada_2005;
pragma Style_Checks (Off);
pragma Warnings (Off);
with Interfaces.C; use Interfaces.C;
with GStreamer.GST_Low_Level.gstreamer_0_10_gst_video_gstsurfacebuffer_h;
with glib;
with System;
with glib;
with glib.Values;
with System;
package GStreamer.GST_Low_Level.gstreamer_0_10_gst_video_gstsurfaceconverter_h is
-- unsupported macro: GST_TYPE_SURFACE_CONVERTER (gst_surface_converter_get_type ())
-- arg-macro: function GST_SURFACE_CONVERTER (obj)
-- return GST_IMPLEMENTS_INTERFACE_CHECK_INSTANCE_CAST ((obj), GST_TYPE_SURFACE_CONVERTER, GstSurfaceConverter);
-- arg-macro: function GST_IS_SURFACE_CONVERTER (obj)
-- return GST_IMPLEMENTS_INTERFACE_CHECK_INSTANCE_TYPE ((obj), GST_TYPE_SURFACE_CONVERTER);
-- arg-macro: function GST_SURFACE_CONVERTER_GET_IFACE (inst)
-- return G_TYPE_INSTANCE_GET_INTERFACE ((inst), GST_TYPE_SURFACE_CONVERTER, GstSurfaceConverterInterface);
-- GStreamer
-- * Copyright (C) 2011 Collabora Ltd.
-- * Copyright (C) 2011 Intel
-- *
-- * Author: Nicolas Dufresne <nicolas.dufresne@collabora.com>
-- *
-- * This library is free software; you can redistribute it and/or
-- * modify it under the terms of the GNU Library General Public
-- * License as published by the Free Software Foundation; either
-- * version 2 of the License, or (at your option) any later version.
-- *
-- * This library is distributed in the hope that it will be useful,
-- * but WITHOUT ANY WARRANTY; without even the implied warranty of
-- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
-- * Library General Public License for more details.
-- *
-- * You should have received a copy of the GNU Library General Public
-- * License along with this library; if not, write to the
-- * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- * Boston, MA 02111-1307, USA.
--
-- Forward declaration from gstsurfacebuffer.h
type GstSurfaceBuffer is new GStreamer.GST_Low_Level.gstreamer_0_10_gst_video_gstsurfacebuffer_h.GstSurfaceBuffer; -- gst/video/gstsurfaceconverter.h:36
-- skipped empty struct u_GstSurfaceConverter
-- skipped empty struct GstSurfaceConverter
type GstSurfaceConverterInterface;
--subtype GstSurfaceConverterInterface is u_GstSurfaceConverterInterface; -- gst/video/gstsurfaceconverter.h:44
--*
-- * GstSurfaceConverterInterface:
-- * @parent: parent interface type.
-- * @upload: vmethod to upload #GstSurfaceBuffer.
-- *
-- * #GstSurfaceConverterInterface interface.
--
type GstSurfaceConverterInterface is record
parent : aliased GStreamer.GST_Low_Level.glib_2_0_gobject_gtype_h.GTypeInterface; -- gst/video/gstsurfaceconverter.h:55
upload : access function (arg1 : System.Address; arg2 : access GstSurfaceBuffer) return GLIB.gboolean; -- gst/video/gstsurfaceconverter.h:58
end record;
pragma Convention (C_Pass_By_Copy, GstSurfaceConverterInterface); -- gst/video/gstsurfaceconverter.h:53
function gst_surface_converter_get_type return GLIB.GType; -- gst/video/gstsurfaceconverter.h:61
pragma Import (C, gst_surface_converter_get_type, "gst_surface_converter_get_type");
function gst_surface_converter_upload (converter : System.Address; buffer : access GstSurfaceBuffer) return GLIB.gboolean; -- gst/video/gstsurfaceconverter.h:63
pragma Import (C, gst_surface_converter_upload, "gst_surface_converter_upload");
end GStreamer.GST_Low_Level.gstreamer_0_10_gst_video_gstsurfaceconverter_h;
| 47
| 164
| 0.766525
|
03b798404b022c9885a035246708850f0dfa8664
| 634
|
ads
|
Ada
|
tests/basestypes-test_data-tests.ads
|
thindil/steamsky
|
d5d7fea622f7994c91017c4cd7ba5e188153556c
|
[
"TCL",
"MIT"
] | 80
|
2017-04-08T23:14:07.000Z
|
2022-02-10T22:30:51.000Z
|
tests/basestypes-test_data-tests.ads
|
thindil/steamsky
|
d5d7fea622f7994c91017c4cd7ba5e188153556c
|
[
"TCL",
"MIT"
] | 89
|
2017-06-24T08:18:26.000Z
|
2021-11-12T04:37:36.000Z
|
tests/basestypes-test_data-tests.ads
|
thindil/steamsky
|
d5d7fea622f7994c91017c4cd7ba5e188153556c
|
[
"TCL",
"MIT"
] | 9
|
2018-04-14T16:37:25.000Z
|
2020-03-21T14:33:49.000Z
|
-- This package has been generated automatically by GNATtest.
-- Do not edit any part of it, see GNATtest documentation for more details.
-- begin read only
with Gnattest_Generated;
package BasesTypes.Test_Data.Tests is
type Test is new GNATtest_Generated.GNATtest_Standard.BasesTypes.Test_Data
.Test with
null record;
procedure Test_Is_Buyable_e4fcaf_447d98(Gnattest_T: in out Test);
-- basestypes.ads:110:4:Is_Buyable:Test_Is_Buyable
procedure Test_Get_Price_58bb07_c6139c(Gnattest_T: in out Test);
-- basestypes.ads:127:4:Get_Price:Test_Get_Price
end BasesTypes.Test_Data.Tests;
-- end read only
| 30.190476
| 77
| 0.77918
|
039890670d624bfbbb0bb723c38665bcd15f123b
| 3,638
|
ads
|
Ada
|
source/amf/uml/amf-uml-behaviored_classifiers-hash.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 24
|
2016-11-29T06:59:41.000Z
|
2021-08-30T11:55:16.000Z
|
source/amf/uml/amf-uml-behaviored_classifiers-hash.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 2
|
2019-01-16T05:15:20.000Z
|
2019-02-03T10:03:32.000Z
|
source/amf/uml/amf-uml-behaviored_classifiers-hash.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 4
|
2017-07-18T07:11:05.000Z
|
2020-06-21T03:02:25.000Z
|
------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
with AMF.Elements.Generic_Hash;
function AMF.UML.Behaviored_Classifiers.Hash is
new AMF.Elements.Generic_Hash (UML_Behaviored_Classifier, UML_Behaviored_Classifier_Access);
| 72.76
| 94
| 0.406817
|
1924843ea54708a3111b6e356d6ae7dd23a9baa9
| 12,364
|
adb
|
Ada
|
source/contexts/plain/program-node_symbols.adb
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | null | null | null |
source/contexts/plain/program-node_symbols.adb
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | null | null | null |
source/contexts/plain/program-node_symbols.adb
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | 1
|
2019-10-16T09:05:27.000Z
|
2019-10-16T09:05:27.000Z
|
-- SPDX-FileCopyrightText: 2020-2021 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
with Program.Elements.Character_Literals;
with Program.Elements.Defining_Character_Literals;
with Program.Elements.Defining_Expanded_Names;
with Program.Elements.Defining_Identifiers;
with Program.Elements.Defining_Operator_Symbols;
with Program.Elements.Identifiers;
with Program.Elements.Operator_Symbols;
with Program.Elements.Package_Declarations;
with Program.Elements.Procedure_Body_Declarations;
with Program.Lexical_Elements;
with Program.Plain_Lexical_Elements;
with Program.Safe_Element_Visitors;
package body Program.Node_Symbols is
package Symbol_Getters is
type Getter is new Program.Safe_Element_Visitors.Safe_Element_Visitor
with record
Result : Program.Symbols.Symbol := Program.Symbols.No_Symbol;
end record;
overriding procedure Character_Literal
(Self : in out Getter;
Element : not null Program.Elements.Character_Literals
.Character_Literal_Access);
overriding procedure Defining_Character_Literal
(Self : in out Getter;
Element : not null Program.Elements.Defining_Character_Literals
.Defining_Character_Literal_Access);
overriding procedure Defining_Identifier
(Self : in out Getter;
Element : not null Program.Elements.Defining_Identifiers
.Defining_Identifier_Access);
overriding procedure Defining_Operator_Symbol
(Self : in out Getter;
Element : not null Program.Elements.Defining_Operator_Symbols
.Defining_Operator_Symbol_Access);
overriding procedure Identifier
(Self : in out Getter;
Element : not null Program.Elements.Identifiers.Identifier_Access);
overriding procedure Operator_Symbol
(Self : in out Getter;
Element : not null Program.Elements.Operator_Symbols
.Operator_Symbol_Access);
end Symbol_Getters;
package body Symbol_Getters is
-----------------------
-- Character_Literal --
-----------------------
overriding procedure Character_Literal
(Self : in out Getter;
Element : not null Program.Elements.Character_Literals
.Character_Literal_Access)
is
Token : constant Program.Lexical_Elements.Lexical_Element_Access :=
Element.To_Character_Literal_Text.Character_Literal_Token;
begin
Self.Result := Program.Plain_Lexical_Elements.Lexical_Element
(Token.all).Symbol;
end Character_Literal;
--------------------------------
-- Defining_Character_Literal --
--------------------------------
overriding procedure Defining_Character_Literal
(Self : in out Getter;
Element : not null Program.Elements.Defining_Character_Literals
.Defining_Character_Literal_Access)
is
Token : constant Program.Lexical_Elements.Lexical_Element_Access :=
Element.To_Defining_Character_Literal_Text.Character_Literal_Token;
begin
Self.Result := Program.Plain_Lexical_Elements.Lexical_Element
(Token.all).Symbol;
end Defining_Character_Literal;
-------------------------
-- Defining_Identifier --
-------------------------
overriding procedure Defining_Identifier
(Self : in out Getter;
Element : not null Program.Elements.Defining_Identifiers
.Defining_Identifier_Access)
is
Token : constant Program.Lexical_Elements.Lexical_Element_Access :=
Element.To_Defining_Identifier_Text.Identifier_Token;
begin
Self.Result := Program.Plain_Lexical_Elements.Lexical_Element
(Token.all).Symbol;
end Defining_Identifier;
------------------------------
-- Defining_Operator_Symbol --
------------------------------
overriding procedure Defining_Operator_Symbol
(Self : in out Getter;
Element : not null Program.Elements.Defining_Operator_Symbols
.Defining_Operator_Symbol_Access)
is
Token : constant Program.Lexical_Elements.Lexical_Element_Access :=
Element.To_Defining_Operator_Symbol_Text.Operator_Symbol_Token;
begin
Self.Result := Program.Plain_Lexical_Elements.Lexical_Element
(Token.all).Symbol;
end Defining_Operator_Symbol;
----------------
-- Identifier --
----------------
overriding procedure Identifier
(Self : in out Getter;
Element : not null Program.Elements.Identifiers.Identifier_Access)
is
Token : constant Program.Lexical_Elements.Lexical_Element_Access :=
Element.To_Identifier_Text.Identifier_Token;
begin
Self.Result := Program.Plain_Lexical_Elements.Lexical_Element
(Token.all).Symbol;
end Identifier;
overriding procedure Operator_Symbol
(Self : in out Getter;
Element : not null Program.Elements.Operator_Symbols
.Operator_Symbol_Access)
is
Token : constant Program.Lexical_Elements.Lexical_Element_Access :=
Element.To_Operator_Symbol_Text.Operator_Symbol_Token;
begin
Self.Result := Program.Plain_Lexical_Elements.Lexical_Element
(Token.all).Symbol;
end Operator_Symbol;
end Symbol_Getters;
package Name_Getters is
type Getter is new Program.Safe_Element_Visitors.Safe_Element_Visitor
with record
Table : not null access Program.Symbol_Lists.Symbol_List_Table'Class;
Result : Program.Symbol_Lists.Symbol_List :=
Program.Symbol_Lists.Empty_Symbol_List;
end record;
overriding procedure Character_Literal
(Self : in out Getter;
Element : not null Program.Elements.Character_Literals
.Character_Literal_Access);
overriding procedure Identifier
(Self : in out Getter;
Element : not null Program.Elements.Identifiers.Identifier_Access);
end Name_Getters;
package body Name_Getters is
-----------------------
-- Character_Literal --
-----------------------
overriding procedure Character_Literal
(Self : in out Getter;
Element : not null Program.Elements.Character_Literals
.Character_Literal_Access)
is
Symbol : constant Program.Symbols.Symbol := Get_Symbol (Element);
begin
Self.Table.Find_Or_Create
(Suffix => Symbol,
Result => Self.Result);
end Character_Literal;
----------------
-- Identifier --
----------------
overriding procedure Identifier
(Self : in out Getter;
Element : not null Program.Elements.Identifiers.Identifier_Access)
is
Symbol : constant Program.Symbols.Symbol := Get_Symbol (Element);
begin
Self.Table.Find_Or_Create
(Suffix => Symbol,
Result => Self.Result);
end Identifier;
end Name_Getters;
package Defining_Name_Getters is
type Getter is new Program.Safe_Element_Visitors.Safe_Element_Visitor
with record
Table : not null access Program.Symbol_Lists.Symbol_List_Table'Class;
Result : Program.Symbol_Lists.Symbol_List :=
Program.Symbol_Lists.Empty_Symbol_List;
end record;
overriding procedure Defining_Expanded_Name
(Self : in out Getter;
Element : not null Program.Elements.Defining_Expanded_Names
.Defining_Expanded_Name_Access);
overriding procedure Defining_Identifier
(Self : in out Getter;
Element : not null Program.Elements.Defining_Identifiers
.Defining_Identifier_Access);
end Defining_Name_Getters;
package body Defining_Name_Getters is
----------------------------
-- Defining_Expanded_Name --
----------------------------
overriding procedure Defining_Expanded_Name
(Self : in out Getter;
Element : not null Program.Elements.Defining_Expanded_Names
.Defining_Expanded_Name_Access)
is
Prefix : Program.Symbol_Lists.Symbol_List;
Suffix : constant Program.Symbols.Symbol :=
Get_Symbol (Element.Selector);
begin
Name_Symbol (Self.Table.all, Element.Prefix, Prefix);
Self.Table.Find_Or_Create (Prefix, Suffix, Self.Result);
end Defining_Expanded_Name;
-------------------------
-- Defining_Identifier --
-------------------------
overriding procedure Defining_Identifier
(Self : in out Getter;
Element : not null Program.Elements.Defining_Identifiers
.Defining_Identifier_Access) is
begin
Self.Table.Find_Or_Create
(Suffix => Program.Node_Symbols.Get_Symbol (Element),
Result => Self.Result);
end Defining_Identifier;
end Defining_Name_Getters;
package Unit_Symbols is
type Getter is new Program.Safe_Element_Visitors.Safe_Element_Visitor
with record
Table : not null access Program.Symbol_Lists.Symbol_List_Table'Class;
Result : Program.Symbol_Lists.Symbol_List :=
Program.Symbol_Lists.Empty_Symbol_List;
end record;
overriding procedure Package_Declaration
(Self : in out Getter;
Element : not null Program.Elements.Package_Declarations
.Package_Declaration_Access);
overriding procedure Procedure_Body_Declaration
(Self : in out Getter;
Element : not null Program.Elements.Procedure_Body_Declarations
.Procedure_Body_Declaration_Access);
end Unit_Symbols;
package body Unit_Symbols is
overriding procedure Package_Declaration
(Self : in out Getter;
Element : not null Program.Elements.Package_Declarations
.Package_Declaration_Access) is
begin
Defining_Name_Symbol (Self.Table.all, Element.Name, Self.Result);
end Package_Declaration;
overriding procedure Procedure_Body_Declaration
(Self : in out Getter;
Element : not null Program.Elements.Procedure_Body_Declarations
.Procedure_Body_Declaration_Access) is
begin
Defining_Name_Symbol (Self.Table.all, Element.Name, Self.Result);
end Procedure_Body_Declaration;
end Unit_Symbols;
--------------------------
-- Defining_Name_Symbol --
--------------------------
procedure Defining_Name_Symbol
(Self : in out Program.Symbol_Lists.Symbol_List_Table'Class;
Element : not null Program.Elements.Defining_Names.Defining_Name_Access;
Result : out Program.Symbol_Lists.Symbol_List)
is
V : Defining_Name_Getters.Getter :=
(Table => Self'Unchecked_Access, others => <>);
begin
V.Visit (Element);
Result := V.Result;
end Defining_Name_Symbol;
----------------
-- Get_Symbol --
----------------
function Get_Symbol
(Name : access Program.Elements.Element'Class)
return Program.Symbols.Symbol
is
G : Symbol_Getters.Getter;
begin
G.Visit (Name);
return G.Result;
end Get_Symbol;
-----------------
-- Name_Symbol --
-----------------
procedure Name_Symbol
(Self : in out Program.Symbol_Lists.Symbol_List_Table'Class;
Element : not null Program.Elements.Expressions.Expression_Access;
Result : out Program.Symbol_Lists.Symbol_List)
is
Getter : Name_Getters.Getter :=
(Table => Self'Unchecked_Access, others => <>);
begin
Getter.Visit (Element);
Result := Getter.Result;
end Name_Symbol;
--------------------
-- Unit_Full_Name --
--------------------
procedure Unit_Full_Name
(Self : in out Program.Symbol_Lists.Symbol_List_Table'Class;
Unit : not null Program.Compilation_Units.Compilation_Unit_Access;
Name : out Program.Symbol_Lists.Symbol_List)
is
Getter : Unit_Symbols.Getter :=
(Table => Self'Unchecked_Access, others => <>);
begin
Getter.Visit (Unit.Unit_Declaration);
Name := Getter.Result;
end Unit_Full_Name;
end Program.Node_Symbols;
| 33.597826
| 79
| 0.644937
|
03ccc4171aad7408745ad54a8aaaa304c90d01d2
| 227
|
ads
|
Ada
|
2A/S7/SysConc/TP/TP6/lr-synchro-basique.ads
|
MOUDDENEHamza/ENSEEIHT
|
a90b1dee0c8d18a9578153a357278d99405bb534
|
[
"Apache-2.0"
] | 4
|
2020-05-02T12:32:32.000Z
|
2022-01-12T20:20:35.000Z
|
2A/S7/SysConc/TP/TP6/lr-synchro-basique.ads
|
MOUDDENEHamza/ENSEEIHT
|
a90b1dee0c8d18a9578153a357278d99405bb534
|
[
"Apache-2.0"
] | 2
|
2021-01-14T20:03:26.000Z
|
2022-01-30T01:10:00.000Z
|
2A/S7/SysConc/TP/TP6/lr-synchro-basique.ads
|
MOUDDENEHamza/ENSEEIHT
|
a90b1dee0c8d18a9578153a357278d99405bb534
|
[
"Apache-2.0"
] | 13
|
2020-11-11T21:28:11.000Z
|
2022-02-19T13:54:22.000Z
|
package LR.Synchro.Basique is
function Nom_Strategie return String;
procedure Demander_Lecture;
procedure Demander_Ecriture;
procedure Terminer_Lecture;
procedure Terminer_Ecriture;
end LR.Synchro.Basique;
| 20.636364
| 40
| 0.788546
|
8b44ac2570f00877ae52b5937c5066495b5d279c
| 3,757
|
adb
|
Ada
|
source/nodes/program-nodes-incomplete_type_definitions.adb
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | null | null | null |
source/nodes/program-nodes-incomplete_type_definitions.adb
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | null | null | null |
source/nodes/program-nodes-incomplete_type_definitions.adb
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | 1
|
2019-10-16T09:05:27.000Z
|
2019-10-16T09:05:27.000Z
|
-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
package body Program.Nodes.Incomplete_Type_Definitions is
function Create
(Tagged_Token : Program.Lexical_Elements.Lexical_Element_Access)
return Incomplete_Type_Definition is
begin
return Result : Incomplete_Type_Definition :=
(Tagged_Token => Tagged_Token, Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
function Create
(Is_Part_Of_Implicit : Boolean := False;
Is_Part_Of_Inherited : Boolean := False;
Is_Part_Of_Instance : Boolean := False;
Has_Tagged : Boolean := False)
return Implicit_Incomplete_Type_Definition is
begin
return Result : Implicit_Incomplete_Type_Definition :=
(Is_Part_Of_Implicit => Is_Part_Of_Implicit,
Is_Part_Of_Inherited => Is_Part_Of_Inherited,
Is_Part_Of_Instance => Is_Part_Of_Instance, Has_Tagged => Has_Tagged,
Enclosing_Element => null)
do
Initialize (Result);
end return;
end Create;
overriding function Tagged_Token
(Self : Incomplete_Type_Definition)
return Program.Lexical_Elements.Lexical_Element_Access is
begin
return Self.Tagged_Token;
end Tagged_Token;
overriding function Has_Tagged
(Self : Incomplete_Type_Definition)
return Boolean is
begin
return Self.Tagged_Token.Assigned;
end Has_Tagged;
overriding function Is_Part_Of_Implicit
(Self : Implicit_Incomplete_Type_Definition)
return Boolean is
begin
return Self.Is_Part_Of_Implicit;
end Is_Part_Of_Implicit;
overriding function Is_Part_Of_Inherited
(Self : Implicit_Incomplete_Type_Definition)
return Boolean is
begin
return Self.Is_Part_Of_Inherited;
end Is_Part_Of_Inherited;
overriding function Is_Part_Of_Instance
(Self : Implicit_Incomplete_Type_Definition)
return Boolean is
begin
return Self.Is_Part_Of_Instance;
end Is_Part_Of_Instance;
overriding function Has_Tagged
(Self : Implicit_Incomplete_Type_Definition)
return Boolean is
begin
return Self.Has_Tagged;
end Has_Tagged;
procedure Initialize
(Self : in out Base_Incomplete_Type_Definition'Class) is
begin
null;
end Initialize;
overriding function Is_Incomplete_Type_Definition
(Self : Base_Incomplete_Type_Definition)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Incomplete_Type_Definition;
overriding function Is_Definition
(Self : Base_Incomplete_Type_Definition)
return Boolean is
pragma Unreferenced (Self);
begin
return True;
end Is_Definition;
overriding procedure Visit
(Self : not null access Base_Incomplete_Type_Definition;
Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is
begin
Visitor.Incomplete_Type_Definition (Self);
end Visit;
overriding function To_Incomplete_Type_Definition_Text
(Self : in out Incomplete_Type_Definition)
return Program.Elements.Incomplete_Type_Definitions
.Incomplete_Type_Definition_Text_Access is
begin
return Self'Unchecked_Access;
end To_Incomplete_Type_Definition_Text;
overriding function To_Incomplete_Type_Definition_Text
(Self : in out Implicit_Incomplete_Type_Definition)
return Program.Elements.Incomplete_Type_Definitions
.Incomplete_Type_Definition_Text_Access is
pragma Unreferenced (Self);
begin
return null;
end To_Incomplete_Type_Definition_Text;
end Program.Nodes.Incomplete_Type_Definitions;
| 30.056
| 78
| 0.72478
|
036a91a509ab4c9bc964c237b0dc84f000719af5
| 2,350
|
ads
|
Ada
|
source/oasis/program-contexts.ads
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | null | null | null |
source/oasis/program-contexts.ads
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | null | null | null |
source/oasis/program-contexts.ads
|
reznikmm/gela
|
20134f1d154fb763812e73860c6f4b04f353df79
|
[
"MIT"
] | 1
|
2019-10-16T09:05:27.000Z
|
2019-10-16T09:05:27.000Z
|
-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com>
--
-- SPDX-License-Identifier: MIT
-------------------------------------------------------------
with Program.Compilation_Unit_Vectors;
package Program.Contexts is
pragma Pure;
type Context is limited interface;
-- The Context is a view of a particular implementation of an Ada
-- environment. We require an application to identify that view of the
-- Ada environment. An Context identifies an Ada environment as defined
-- by ISO/IEC 8652:1995. The Ada environment is well defined for Ada
-- implementations. ISO/IEC 8652:1995 provides for an implementation-
-- defined method to enter compilation units into the Ada environment.
--
-- Defined by the implementation, an context is a way to identify a set of
-- Compilation Units to be processed by an application. This may include
-- things such as the pathname, search rules, etc., which are attributes
-- of the Ada environment and consequently becomes part of the Context
-- only because it is a "view" of the Ada environment.
type Context_Access is access all Context'Class
with Storage_Size => 0;
not overriding function Library_Unit_Declarations (Self : Context)
return Program.Compilation_Unit_Vectors.Compilation_Unit_Vector_Access
is abstract
-- with Post'Class =>
-- (Library_Unit_Declarations'Result.Is_Empty
-- or else (for all X in Library_Unit_Declarations'Result.Each_Unit
-- => X.Unit.Is_Library_Unit_Declaration))
;
-- Returns a list of all library_unit_declaration and
-- library_unit_renaming_declaration elements contained in Context.
-- Individual units will appear only once in an order that is not defined.
not overriding function Compilation_Unit_Bodies (Self : Context)
return Program.Compilation_Unit_Vectors.Compilation_Unit_Vector_Access
is abstract
-- with Post'Class =>
-- (Compilation_Unit_Bodies'Result.Is_Empty
-- or else (for all X in Compilation_Unit_Bodies'Result.Each_Unit
-- => X.Unit.Is_Library_Unit_Body or X.Unit.Is_Subunit))
;
-- Returns a list of all library_unit_body and subunit elements contained in
-- Context. Individual units will appear only once in an order that is not
-- defined.
end Program.Contexts;
| 44.339623
| 78
| 0.71617
|
041158ae485cc38a41863d713495847dd7ac27c7
| 50,553
|
adb
|
Ada
|
src/gnat/erroutc.adb
|
jquorning/dynamo
|
10d68571476c270b8e45a9c5ef585fa9139b0d05
|
[
"Apache-2.0"
] | 15
|
2015-01-18T23:04:19.000Z
|
2022-03-01T20:27:08.000Z
|
src/gnat/erroutc.adb
|
jquorning/dynamo
|
10d68571476c270b8e45a9c5ef585fa9139b0d05
|
[
"Apache-2.0"
] | 16
|
2018-06-10T07:09:30.000Z
|
2022-03-26T18:28:40.000Z
|
src/gnat/erroutc.adb
|
jquorning/dynamo
|
10d68571476c270b8e45a9c5ef585fa9139b0d05
|
[
"Apache-2.0"
] | 3
|
2015-11-11T18:00:14.000Z
|
2022-01-30T23:08:45.000Z
|
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- E R R O U T C --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2015, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING3. If not, go to --
-- http://www.gnu.org/licenses for a complete copy of the license. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- Warning: Error messages can be generated during Gigi processing by direct
-- calls to error message routines, so it is essential that the processing
-- in this body be consistent with the requirements for the Gigi processing
-- environment, and that in particular, no disallowed table expansion is
-- allowed to occur.
with Atree; use Atree;
with Casing; use Casing;
with Csets; use Csets;
with Debug; use Debug;
with Err_Vars; use Err_Vars;
with Namet; use Namet;
with Opt; use Opt;
with Output; use Output;
with Sinput; use Sinput;
with Snames; use Snames;
with Stringt; use Stringt;
with Targparm; use Targparm;
with Uintp; use Uintp;
with Widechar; use Widechar;
package body Erroutc is
-----------------------
-- Local Subprograms --
-----------------------
function Matches (S : String; P : String) return Boolean;
-- Returns true if the String S patches the pattern P, which can contain
-- wild card chars (*). The entire pattern must match the entire string.
-- Case is ignored in the comparison (so X matches x).
---------------
-- Add_Class --
---------------
procedure Add_Class is
begin
if Class_Flag then
Class_Flag := False;
Set_Msg_Char (''');
Get_Name_String (Name_Class);
Set_Casing (Identifier_Casing (Flag_Source), Mixed_Case);
Set_Msg_Name_Buffer;
end if;
end Add_Class;
----------------------
-- Buffer_Ends_With --
----------------------
function Buffer_Ends_With (C : Character) return Boolean is
begin
return Msglen > 0 and then Msg_Buffer (Msglen) = C;
end Buffer_Ends_With;
function Buffer_Ends_With (S : String) return Boolean is
Len : constant Natural := S'Length;
begin
return Msglen > Len
and then Msg_Buffer (Msglen - Len) = ' '
and then Msg_Buffer (Msglen - Len + 1 .. Msglen) = S;
end Buffer_Ends_With;
-------------------
-- Buffer_Remove --
-------------------
procedure Buffer_Remove (C : Character) is
begin
if Buffer_Ends_With (C) then
Msglen := Msglen - 1;
end if;
end Buffer_Remove;
procedure Buffer_Remove (S : String) is
begin
if Buffer_Ends_With (S) then
Msglen := Msglen - S'Length;
end if;
end Buffer_Remove;
-----------------------------
-- Check_Duplicate_Message --
-----------------------------
procedure Check_Duplicate_Message (M1, M2 : Error_Msg_Id) is
L1, L2 : Error_Msg_Id;
N1, N2 : Error_Msg_Id;
procedure Delete_Msg (Delete, Keep : Error_Msg_Id);
-- Called to delete message Delete, keeping message Keep. Marks msg
-- Delete and all its continuations with deleted flag set to True.
-- Also makes sure that for the error messages that are retained the
-- preferred message is the one retained (we prefer the shorter one in
-- the case where one has an Instance tag). Note that we always know
-- that Keep has at least as many continuations as Delete (since we
-- always delete the shorter sequence).
----------------
-- Delete_Msg --
----------------
procedure Delete_Msg (Delete, Keep : Error_Msg_Id) is
D, K : Error_Msg_Id;
begin
D := Delete;
K := Keep;
loop
Errors.Table (D).Deleted := True;
-- Adjust error message count
if Errors.Table (D).Warn or else Errors.Table (D).Style then
Warnings_Detected := Warnings_Detected - 1;
if Errors.Table (D).Info then
Info_Messages := Info_Messages - 1;
end if;
-- Note: we do not need to decrement Warnings_Treated_As_Errors
-- because this only gets incremented if we actually output the
-- message, which we won't do if we are deleting it here!
elsif Errors.Table (D).Check then
Check_Messages := Check_Messages - 1;
else
Total_Errors_Detected := Total_Errors_Detected - 1;
if Errors.Table (D).Serious then
Serious_Errors_Detected := Serious_Errors_Detected - 1;
end if;
end if;
-- Substitute shorter of the two error messages
if Errors.Table (K).Text'Length > Errors.Table (D).Text'Length then
Errors.Table (K).Text := Errors.Table (D).Text;
end if;
D := Errors.Table (D).Next;
K := Errors.Table (K).Next;
if D = No_Error_Msg or else not Errors.Table (D).Msg_Cont then
return;
end if;
end loop;
end Delete_Msg;
-- Start of processing for Check_Duplicate_Message
begin
-- Both messages must be non-continuation messages and not deleted
if Errors.Table (M1).Msg_Cont
or else Errors.Table (M2).Msg_Cont
or else Errors.Table (M1).Deleted
or else Errors.Table (M2).Deleted
then
return;
end if;
-- Definitely not equal if message text does not match
if not Same_Error (M1, M2) then
return;
end if;
-- Same text. See if all continuations are also identical
L1 := M1;
L2 := M2;
loop
N1 := Errors.Table (L1).Next;
N2 := Errors.Table (L2).Next;
-- If M1 continuations have run out, we delete M1, either the
-- messages have the same number of continuations, or M2 has
-- more and we prefer the one with more anyway.
if N1 = No_Error_Msg or else not Errors.Table (N1).Msg_Cont then
Delete_Msg (M1, M2);
return;
-- If M2 continuations have run out, we delete M2
elsif N2 = No_Error_Msg or else not Errors.Table (N2).Msg_Cont then
Delete_Msg (M2, M1);
return;
-- Otherwise see if continuations are the same, if not, keep both
-- sequences, a curious case, but better to keep everything.
elsif not Same_Error (N1, N2) then
return;
-- If continuations are the same, continue scan
else
L1 := N1;
L2 := N2;
end if;
end loop;
end Check_Duplicate_Message;
------------------------
-- Compilation_Errors --
------------------------
function Compilation_Errors return Boolean is
begin
return Total_Errors_Detected /= 0
or else (Warnings_Detected - Info_Messages /= 0
and then Warning_Mode = Treat_As_Error)
or else Warnings_Treated_As_Errors /= 0;
end Compilation_Errors;
------------------
-- Debug_Output --
------------------
procedure Debug_Output (N : Node_Id) is
begin
if Debug_Flag_1 then
Write_Str ("*** following error message posted on node id = #");
Write_Int (Int (N));
Write_Str (" ***");
Write_Eol;
end if;
end Debug_Output;
----------
-- dmsg --
----------
procedure dmsg (Id : Error_Msg_Id) is
E : Error_Msg_Object renames Errors.Table (Id);
begin
w ("Dumping error message, Id = ", Int (Id));
w (" Text = ", E.Text.all);
w (" Next = ", Int (E.Next));
w (" Prev = ", Int (E.Prev));
w (" Sfile = ", Int (E.Sfile));
Write_Str
(" Sptr = ");
Write_Location (E.Sptr);
Write_Eol;
Write_Str
(" Optr = ");
Write_Location (E.Optr);
Write_Eol;
w (" Line = ", Int (E.Line));
w (" Col = ", Int (E.Col));
w (" Warn = ", E.Warn);
w (" Warn_Err = ", E.Warn_Err);
w (" Warn_Chr = '" & E.Warn_Chr & ''');
w (" Style = ", E.Style);
w (" Serious = ", E.Serious);
w (" Uncond = ", E.Uncond);
w (" Msg_Cont = ", E.Msg_Cont);
w (" Deleted = ", E.Deleted);
Write_Eol;
end dmsg;
------------------
-- Get_Location --
------------------
function Get_Location (E : Error_Msg_Id) return Source_Ptr is
begin
return Errors.Table (E).Sptr;
end Get_Location;
----------------
-- Get_Msg_Id --
----------------
function Get_Msg_Id return Error_Msg_Id is
begin
return Cur_Msg;
end Get_Msg_Id;
---------------------
-- Get_Warning_Tag --
---------------------
function Get_Warning_Tag (Id : Error_Msg_Id) return String is
Warn : constant Boolean := Errors.Table (Id).Warn;
Warn_Chr : constant Character := Errors.Table (Id).Warn_Chr;
begin
if Warn and then Warn_Chr /= ' ' then
if Warn_Chr = '?' then
return "[enabled by default]";
elsif Warn_Chr = '*' then
return "[restriction warning]";
elsif Warn_Chr = '$' then
return "[-gnatel]";
elsif Warn_Chr in 'a' .. 'z' then
return "[-gnatw" & Warn_Chr & ']';
else pragma Assert (Warn_Chr in 'A' .. 'Z');
return "[-gnatw." & Fold_Lower (Warn_Chr) & ']';
end if;
else
return "";
end if;
end Get_Warning_Tag;
-------------
-- Matches --
-------------
function Matches (S : String; P : String) return Boolean is
Slast : constant Natural := S'Last;
PLast : constant Natural := P'Last;
SPtr : Natural := S'First;
PPtr : Natural := P'First;
begin
-- Loop advancing through characters of string and pattern
SPtr := S'First;
PPtr := P'First;
loop
-- Return True if pattern is a single asterisk
if PPtr = PLast and then P (PPtr) = '*' then
return True;
-- Return True if both pattern and string exhausted
elsif PPtr > PLast and then SPtr > Slast then
return True;
-- Return False, if one exhausted and not the other
elsif PPtr > PLast or else SPtr > Slast then
return False;
-- Case where pattern starts with asterisk
elsif P (PPtr) = '*' then
-- Try all possible starting positions in S for match with the
-- remaining characters of the pattern. This is the recursive
-- call that implements the scanner backup.
for J in SPtr .. Slast loop
if Matches (S (J .. Slast), P (PPtr + 1 .. PLast)) then
return True;
end if;
end loop;
return False;
-- Dealt with end of string and *, advance if we have a match
elsif Fold_Lower (S (SPtr)) = Fold_Lower (P (PPtr)) then
SPtr := SPtr + 1;
PPtr := PPtr + 1;
-- If first characters do not match, that's decisive
else
return False;
end if;
end loop;
end Matches;
-----------------------
-- Output_Error_Msgs --
-----------------------
procedure Output_Error_Msgs (E : in out Error_Msg_Id) is
P : Source_Ptr;
T : Error_Msg_Id;
S : Error_Msg_Id;
Flag_Num : Pos;
Mult_Flags : Boolean := False;
begin
S := E;
-- Skip deleted messages at start
if Errors.Table (S).Deleted then
Set_Next_Non_Deleted_Msg (S);
end if;
-- Figure out if we will place more than one error flag on this line
T := S;
while T /= No_Error_Msg
and then Errors.Table (T).Line = Errors.Table (E).Line
and then Errors.Table (T).Sfile = Errors.Table (E).Sfile
loop
if Errors.Table (T).Sptr > Errors.Table (E).Sptr then
Mult_Flags := True;
end if;
Set_Next_Non_Deleted_Msg (T);
end loop;
-- Output the error flags. The circuit here makes sure that the tab
-- characters in the original line are properly accounted for. The
-- eight blanks at the start are to match the line number.
if not Debug_Flag_2 then
Write_Str (" ");
P := Line_Start (Errors.Table (E).Sptr);
Flag_Num := 1;
-- Loop through error messages for this line to place flags
T := S;
while T /= No_Error_Msg
and then Errors.Table (T).Line = Errors.Table (E).Line
and then Errors.Table (T).Sfile = Errors.Table (E).Sfile
loop
declare
Src : Source_Buffer_Ptr
renames Source_Text (Errors.Table (T).Sfile);
begin
-- Loop to output blanks till current flag position
while P < Errors.Table (T).Sptr loop
-- Horizontal tab case, just echo the tab
if Src (P) = ASCII.HT then
Write_Char (ASCII.HT);
P := P + 1;
-- Deal with wide character case, but don't include brackets
-- notation in this circuit, since we know that this will
-- display unencoded (no one encodes brackets notation).
elsif Src (P) /= '['
and then Is_Start_Of_Wide_Char (Src, P)
then
Skip_Wide (Src, P);
Write_Char (' ');
-- Normal non-wide character case (or bracket)
else
P := P + 1;
Write_Char (' ');
end if;
end loop;
-- Output flag (unless already output, this happens if more
-- than one error message occurs at the same flag position).
if P = Errors.Table (T).Sptr then
if (Flag_Num = 1 and then not Mult_Flags)
or else Flag_Num > 9
then
Write_Char ('|');
else
Write_Char
(Character'Val (Character'Pos ('0') + Flag_Num));
end if;
-- Skip past the corresponding source text character
-- Horizontal tab case, we output a flag at the tab position
-- so now we output a tab to match up with the text.
if Src (P) = ASCII.HT then
Write_Char (ASCII.HT);
P := P + 1;
-- Skip wide character other than left bracket
elsif Src (P) /= '['
and then Is_Start_Of_Wide_Char (Src, P)
then
Skip_Wide (Src, P);
-- Skip normal non-wide character case (or bracket)
else
P := P + 1;
end if;
end if;
end;
Set_Next_Non_Deleted_Msg (T);
Flag_Num := Flag_Num + 1;
end loop;
Write_Eol;
end if;
-- Now output the error messages
T := S;
while T /= No_Error_Msg
and then Errors.Table (T).Line = Errors.Table (E).Line
and then Errors.Table (T).Sfile = Errors.Table (E).Sfile
loop
Write_Str (" >>> ");
Output_Msg_Text (T);
if Debug_Flag_2 then
while Column < 74 loop
Write_Char (' ');
end loop;
Write_Str (" <<<");
end if;
Write_Eol;
Set_Next_Non_Deleted_Msg (T);
end loop;
E := T;
end Output_Error_Msgs;
------------------------
-- Output_Line_Number --
------------------------
procedure Output_Line_Number (L : Logical_Line_Number) is
D : Int; -- next digit
C : Character; -- next character
Z : Boolean; -- flag for zero suppress
N, M : Int; -- temporaries
begin
if L = No_Line_Number then
Write_Str (" ");
else
Z := False;
N := Int (L);
M := 100_000;
while M /= 0 loop
D := Int (N / M);
N := N rem M;
M := M / 10;
if D = 0 then
if Z then
C := '0';
else
C := ' ';
end if;
else
Z := True;
C := Character'Val (D + 48);
end if;
Write_Char (C);
end loop;
Write_Str (". ");
end if;
end Output_Line_Number;
---------------------
-- Output_Msg_Text --
---------------------
procedure Output_Msg_Text (E : Error_Msg_Id) is
Offs : constant Nat := Column - 1;
-- Offset to start of message, used for continuations
Max : Integer;
-- Maximum characters to output on next line
Length : Nat;
-- Maximum total length of lines
Text : constant String_Ptr := Errors.Table (E).Text;
Ptr : Natural;
Split : Natural;
Start : Natural;
begin
declare
Tag : constant String := Get_Warning_Tag (E);
Txt : String_Ptr;
Len : Natural;
begin
-- Postfix warning tag to message if needed
if Tag /= "" and then Warning_Doc_Switch then
Txt := new String'(Text.all & ' ' & Tag);
else
Txt := Text;
end if;
-- Deal with warning case
if Errors.Table (E).Warn then
-- For info messages, prefix message with "info: "
if Errors.Table (E).Info then
Txt := new String'("info: " & Txt.all);
-- Warning treated as error
elsif Errors.Table (E).Warn_Err then
-- We prefix with "error:" rather than warning: and postfix
-- [warning-as-error] at the end.
Warnings_Treated_As_Errors := Warnings_Treated_As_Errors + 1;
Txt := new String'("error: " & Txt.all & " [warning-as-error]");
-- Normal case, prefix with "warning: "
else
Txt := new String'("warning: " & Txt.all);
end if;
-- No prefix needed for style message, "(style)" is there already
elsif Errors.Table (E).Style then
null;
-- No prefix needed for check message, severity is there already
elsif Errors.Table (E).Check then
null;
-- All other cases, add "error: " if unique error tag set
elsif Opt.Unique_Error_Tag then
Txt := new String'("error: " & Txt.all);
end if;
-- Set error message line length and length of message
if Error_Msg_Line_Length = 0 then
Length := Nat'Last;
else
Length := Error_Msg_Line_Length;
end if;
Max := Integer (Length - Column + 1);
Len := Txt'Length;
-- Here we have to split the message up into multiple lines
Ptr := 1;
loop
-- Make sure we do not have ludicrously small line
Max := Integer'Max (Max, 20);
-- If remaining text fits, output it respecting LF and we are done
if Len - Ptr < Max then
for J in Ptr .. Len loop
if Txt (J) = ASCII.LF then
Write_Eol;
Write_Spaces (Offs);
else
Write_Char (Txt (J));
end if;
end loop;
return;
-- Line does not fit
else
Start := Ptr;
-- First scan forward looking for a hard end of line
for Scan in Ptr .. Ptr + Max - 1 loop
if Txt (Scan) = ASCII.LF then
Split := Scan - 1;
Ptr := Scan + 1;
goto Continue;
end if;
end loop;
-- Otherwise scan backwards looking for a space
for Scan in reverse Ptr .. Ptr + Max - 1 loop
if Txt (Scan) = ' ' then
Split := Scan - 1;
Ptr := Scan + 1;
goto Continue;
end if;
end loop;
-- If we fall through, no space, so split line arbitrarily
Split := Ptr + Max - 1;
Ptr := Split + 1;
end if;
<<Continue>>
if Start <= Split then
Write_Line (Txt (Start .. Split));
Write_Spaces (Offs);
end if;
Max := Integer (Length - Column + 1);
end loop;
end;
end Output_Msg_Text;
---------------------
-- Prescan_Message --
---------------------
procedure Prescan_Message (Msg : String) is
J : Natural;
begin
-- Nothing to do for continuation line
if Msg (Msg'First) = '\' then
return;
end if;
-- Set initial values of globals (may be changed during scan)
Is_Serious_Error := True;
Is_Unconditional_Msg := False;
Is_Warning_Msg := False;
Has_Double_Exclam := False;
-- Check style message
Is_Style_Msg :=
Msg'Length > 7 and then Msg (Msg'First .. Msg'First + 6) = "(style)";
-- Check info message
Is_Info_Msg :=
Msg'Length > 6 and then Msg (Msg'First .. Msg'First + 5) = "info: ";
-- Check check message
Is_Check_Msg :=
(Msg'Length > 8 and then Msg (Msg'First .. Msg'First + 7) = "medium: ")
or else
(Msg'Length > 6 and then Msg (Msg'First .. Msg'First + 5) = "high: ")
or else
(Msg'Length > 5 and then Msg (Msg'First .. Msg'First + 4) = "low: ");
-- Loop through message looking for relevant insertion sequences
J := Msg'First;
while J <= Msg'Last loop
-- If we have a quote, don't look at following character
if Msg (J) = ''' then
J := J + 2;
-- Warning message (? or < insertion sequence)
elsif Msg (J) = '?' or else Msg (J) = '<' then
Is_Warning_Msg := Msg (J) = '?' or else Error_Msg_Warn;
Warning_Msg_Char := ' ';
J := J + 1;
if Is_Warning_Msg then
declare
C : constant Character := Msg (J - 1);
begin
if J <= Msg'Last then
if Msg (J) = C then
Warning_Msg_Char := '?';
J := J + 1;
elsif J < Msg'Last and then Msg (J + 1) = C
and then (Msg (J) in 'a' .. 'z' or else
Msg (J) in 'A' .. 'Z' or else
Msg (J) = '*' or else
Msg (J) = '$')
then
Warning_Msg_Char := Msg (J);
J := J + 2;
end if;
end if;
end;
end if;
-- Bomb if untagged warning message. This code can be uncommented
-- for debugging when looking for untagged warning messages.
-- if Is_Warning_Msg and then Warning_Msg_Char = ' ' then
-- raise Program_Error;
-- end if;
-- Unconditional message (! insertion)
elsif Msg (J) = '!' then
Is_Unconditional_Msg := True;
J := J + 1;
if J <= Msg'Last and then Msg (J) = '!' then
Has_Double_Exclam := True;
J := J + 1;
end if;
-- Non-serious error (| insertion)
elsif Msg (J) = '|' then
Is_Serious_Error := False;
J := J + 1;
else
J := J + 1;
end if;
end loop;
if Is_Warning_Msg or Is_Style_Msg or Is_Check_Msg then
Is_Serious_Error := False;
end if;
end Prescan_Message;
--------------------
-- Purge_Messages --
--------------------
procedure Purge_Messages (From : Source_Ptr; To : Source_Ptr) is
E : Error_Msg_Id;
function To_Be_Purged (E : Error_Msg_Id) return Boolean;
-- Returns True for a message that is to be purged. Also adjusts
-- error counts appropriately.
------------------
-- To_Be_Purged --
------------------
function To_Be_Purged (E : Error_Msg_Id) return Boolean is
begin
if E /= No_Error_Msg
and then Errors.Table (E).Sptr > From
and then Errors.Table (E).Sptr < To
then
if Errors.Table (E).Warn or else Errors.Table (E).Style then
Warnings_Detected := Warnings_Detected - 1;
else
Total_Errors_Detected := Total_Errors_Detected - 1;
if Errors.Table (E).Serious then
Serious_Errors_Detected := Serious_Errors_Detected - 1;
end if;
end if;
return True;
else
return False;
end if;
end To_Be_Purged;
-- Start of processing for Purge_Messages
begin
while To_Be_Purged (First_Error_Msg) loop
First_Error_Msg := Errors.Table (First_Error_Msg).Next;
end loop;
E := First_Error_Msg;
while E /= No_Error_Msg loop
while To_Be_Purged (Errors.Table (E).Next) loop
Errors.Table (E).Next :=
Errors.Table (Errors.Table (E).Next).Next;
end loop;
E := Errors.Table (E).Next;
end loop;
end Purge_Messages;
----------------
-- Same_Error --
----------------
function Same_Error (M1, M2 : Error_Msg_Id) return Boolean is
Msg1 : constant String_Ptr := Errors.Table (M1).Text;
Msg2 : constant String_Ptr := Errors.Table (M2).Text;
Msg2_Len : constant Integer := Msg2'Length;
Msg1_Len : constant Integer := Msg1'Length;
begin
return
Msg1.all = Msg2.all
or else
(Msg1_Len - 10 > Msg2_Len
and then
Msg2.all = Msg1.all (1 .. Msg2_Len)
and then
Msg1 (Msg2_Len + 1 .. Msg2_Len + 10) = ", instance")
or else
(Msg2_Len - 10 > Msg1_Len
and then
Msg1.all = Msg2.all (1 .. Msg1_Len)
and then
Msg2 (Msg1_Len + 1 .. Msg1_Len + 10) = ", instance");
end Same_Error;
-------------------
-- Set_Msg_Blank --
-------------------
procedure Set_Msg_Blank is
begin
if Msglen > 0
and then Msg_Buffer (Msglen) /= ' '
and then Msg_Buffer (Msglen) /= '('
and then Msg_Buffer (Msglen) /= '-'
and then not Manual_Quote_Mode
then
Set_Msg_Char (' ');
end if;
end Set_Msg_Blank;
-------------------------------
-- Set_Msg_Blank_Conditional --
-------------------------------
procedure Set_Msg_Blank_Conditional is
begin
if Msglen > 0
and then Msg_Buffer (Msglen) /= ' '
and then Msg_Buffer (Msglen) /= '('
and then Msg_Buffer (Msglen) /= '"'
and then not Manual_Quote_Mode
then
Set_Msg_Char (' ');
end if;
end Set_Msg_Blank_Conditional;
------------------
-- Set_Msg_Char --
------------------
procedure Set_Msg_Char (C : Character) is
begin
-- The check for message buffer overflow is needed to deal with cases
-- where insertions get too long (in particular a child unit name can
-- be very long).
if Msglen < Max_Msg_Length then
Msglen := Msglen + 1;
Msg_Buffer (Msglen) := C;
end if;
end Set_Msg_Char;
---------------------------------
-- Set_Msg_Insertion_File_Name --
---------------------------------
procedure Set_Msg_Insertion_File_Name is
begin
if Error_Msg_File_1 = No_File then
null;
elsif Error_Msg_File_1 = Error_File_Name then
Set_Msg_Blank;
Set_Msg_Str ("<error>");
else
Set_Msg_Blank;
Get_Name_String (Error_Msg_File_1);
Set_Msg_Quote;
Set_Msg_Name_Buffer;
Set_Msg_Quote;
end if;
-- The following assignments ensure that the second and third {
-- insertion characters will correspond to the Error_Msg_File_2 and
-- Error_Msg_File_3 values and We suppress possible validity checks in
-- case operating in -gnatVa mode, and Error_Msg_File_2 or
-- Error_Msg_File_3 is not needed and has not been set.
declare
pragma Suppress (Range_Check);
begin
Error_Msg_File_1 := Error_Msg_File_2;
Error_Msg_File_2 := Error_Msg_File_3;
end;
end Set_Msg_Insertion_File_Name;
-----------------------------------
-- Set_Msg_Insertion_Line_Number --
-----------------------------------
procedure Set_Msg_Insertion_Line_Number (Loc, Flag : Source_Ptr) is
Sindex_Loc : Source_File_Index;
Sindex_Flag : Source_File_Index;
procedure Set_At;
-- Outputs "at " unless last characters in buffer are " from ". Certain
-- messages read better with from than at.
------------
-- Set_At --
------------
procedure Set_At is
begin
if Msglen < 6
or else Msg_Buffer (Msglen - 5 .. Msglen) /= " from "
then
Set_Msg_Str ("at ");
end if;
end Set_At;
-- Start of processing for Set_Msg_Insertion_Line_Number
begin
Set_Msg_Blank;
if Loc = No_Location then
Set_At;
Set_Msg_Str ("unknown location");
elsif Loc = System_Location then
Set_Msg_Str ("in package System");
Set_Msg_Insertion_Run_Time_Name;
elsif Loc = Standard_Location then
Set_Msg_Str ("in package Standard");
elsif Loc = Standard_ASCII_Location then
Set_Msg_Str ("in package Standard.ASCII");
else
-- Add "at file-name:" if reference is to other than the source
-- file in which the error message is placed. Note that we check
-- full file names, rather than just the source indexes, to
-- deal with generic instantiations from the current file.
Sindex_Loc := Get_Source_File_Index (Loc);
Sindex_Flag := Get_Source_File_Index (Flag);
if Full_File_Name (Sindex_Loc) /= Full_File_Name (Sindex_Flag) then
Set_At;
Get_Name_String
(Reference_Name (Get_Source_File_Index (Loc)));
Set_Msg_Name_Buffer;
Set_Msg_Char (':');
-- If in current file, add text "at line "
else
Set_At;
Set_Msg_Str ("line ");
end if;
-- Output line number for reference
Set_Msg_Int (Int (Get_Logical_Line_Number (Loc)));
-- Deal with the instantiation case. We may have a reference to,
-- e.g. a type, that is declared within a generic template, and
-- what we are really referring to is the occurrence in an instance.
-- In this case, the line number of the instantiation is also of
-- interest, and we add a notation:
-- , instance at xxx
-- where xxx is a line number output using this same routine (and
-- the recursion can go further if the instantiation is itself in
-- a generic template).
-- The flag location passed to us in this situation is indeed the
-- line number within the template, but as described in Sinput.L
-- (file sinput-l.ads, section "Handling Generic Instantiations")
-- we can retrieve the location of the instantiation itself from
-- this flag location value.
-- Note: this processing is suppressed if Suppress_Instance_Location
-- is set True. This is used to prevent redundant annotations of the
-- location of the instantiation in the case where we are placing
-- the messages on the instantiation in any case.
if Instantiation (Sindex_Loc) /= No_Location
and then not Suppress_Instance_Location
then
Set_Msg_Str (", instance ");
Set_Msg_Insertion_Line_Number (Instantiation (Sindex_Loc), Flag);
end if;
end if;
end Set_Msg_Insertion_Line_Number;
----------------------------
-- Set_Msg_Insertion_Name --
----------------------------
procedure Set_Msg_Insertion_Name is
begin
if Error_Msg_Name_1 = No_Name then
null;
elsif Error_Msg_Name_1 = Error_Name then
Set_Msg_Blank;
Set_Msg_Str ("<error>");
else
Set_Msg_Blank_Conditional;
Get_Unqualified_Decoded_Name_String (Error_Msg_Name_1);
-- Remove %s or %b at end. These come from unit names. If the
-- caller wanted the (unit) or (body), then they would have used
-- the $ insertion character. Certainly no error message should
-- ever have %b or %s explicitly occurring.
if Name_Len > 2
and then Name_Buffer (Name_Len - 1) = '%'
and then (Name_Buffer (Name_Len) = 'b'
or else
Name_Buffer (Name_Len) = 's')
then
Name_Len := Name_Len - 2;
end if;
-- Remove upper case letter at end, again, we should not be getting
-- such names, and what we hope is that the remainder makes sense.
if Name_Len > 1 and then Name_Buffer (Name_Len) in 'A' .. 'Z' then
Name_Len := Name_Len - 1;
end if;
-- If operator name or character literal name, just print it as is
-- Also print as is if it ends in a right paren (case of x'val(nnn))
if Name_Buffer (1) = '"'
or else Name_Buffer (1) = '''
or else Name_Buffer (Name_Len) = ')'
then
Set_Msg_Name_Buffer;
-- Else output with surrounding quotes in proper casing mode
else
Set_Casing (Identifier_Casing (Flag_Source), Mixed_Case);
Set_Msg_Quote;
Set_Msg_Name_Buffer;
Set_Msg_Quote;
end if;
end if;
-- The following assignments ensure that the second and third percent
-- insertion characters will correspond to the Error_Msg_Name_2 and
-- Error_Msg_Name_3 as required. We suppress possible validity checks in
-- case operating in -gnatVa mode, and Error_Msg_Name_1/2 is not needed
-- and has not been set.
declare
pragma Suppress (Range_Check);
begin
Error_Msg_Name_1 := Error_Msg_Name_2;
Error_Msg_Name_2 := Error_Msg_Name_3;
end;
end Set_Msg_Insertion_Name;
------------------------------------
-- Set_Msg_Insertion_Name_Literal --
------------------------------------
procedure Set_Msg_Insertion_Name_Literal is
begin
if Error_Msg_Name_1 = No_Name then
null;
elsif Error_Msg_Name_1 = Error_Name then
Set_Msg_Blank;
Set_Msg_Str ("<error>");
else
Set_Msg_Blank;
Get_Name_String (Error_Msg_Name_1);
Set_Msg_Quote;
Set_Msg_Name_Buffer;
Set_Msg_Quote;
end if;
-- The following assignments ensure that the second and third % or %%
-- insertion characters will correspond to the Error_Msg_Name_2 and
-- Error_Msg_Name_3 values and We suppress possible validity checks in
-- case operating in -gnatVa mode, and Error_Msg_Name_2 or
-- Error_Msg_Name_3 is not needed and has not been set.
declare
pragma Suppress (Range_Check);
begin
Error_Msg_Name_1 := Error_Msg_Name_2;
Error_Msg_Name_2 := Error_Msg_Name_3;
end;
end Set_Msg_Insertion_Name_Literal;
-------------------------------------
-- Set_Msg_Insertion_Reserved_Name --
-------------------------------------
procedure Set_Msg_Insertion_Reserved_Name is
begin
Set_Msg_Blank_Conditional;
Get_Name_String (Error_Msg_Name_1);
Set_Msg_Quote;
Set_Casing (Keyword_Casing (Flag_Source), All_Lower_Case);
Set_Msg_Name_Buffer;
Set_Msg_Quote;
end Set_Msg_Insertion_Reserved_Name;
-------------------------------------
-- Set_Msg_Insertion_Reserved_Word --
-------------------------------------
procedure Set_Msg_Insertion_Reserved_Word
(Text : String;
J : in out Integer)
is
begin
Set_Msg_Blank_Conditional;
Name_Len := 0;
while J <= Text'Last and then Text (J) in 'A' .. 'Z' loop
Add_Char_To_Name_Buffer (Text (J));
J := J + 1;
end loop;
-- Here is where we make the special exception for RM
if Name_Len = 2 and then Name_Buffer (1 .. 2) = "RM" then
Set_Msg_Name_Buffer;
-- We make a similar exception for SPARK
elsif Name_Len = 5 and then Name_Buffer (1 .. 5) = "SPARK" then
Set_Msg_Name_Buffer;
-- Neither RM nor SPARK: case appropriately and add surrounding quotes
else
Set_Casing (Keyword_Casing (Flag_Source), All_Lower_Case);
Set_Msg_Quote;
Set_Msg_Name_Buffer;
Set_Msg_Quote;
end if;
end Set_Msg_Insertion_Reserved_Word;
-------------------------------------
-- Set_Msg_Insertion_Run_Time_Name --
-------------------------------------
procedure Set_Msg_Insertion_Run_Time_Name is
begin
if Targparm.Run_Time_Name_On_Target /= No_Name then
Set_Msg_Blank_Conditional;
Set_Msg_Char ('(');
Get_Name_String (Targparm.Run_Time_Name_On_Target);
Set_Casing (Mixed_Case);
Set_Msg_Str (Name_Buffer (1 .. Name_Len));
Set_Msg_Char (')');
end if;
end Set_Msg_Insertion_Run_Time_Name;
----------------------------
-- Set_Msg_Insertion_Uint --
----------------------------
procedure Set_Msg_Insertion_Uint is
begin
Set_Msg_Blank;
UI_Image (Error_Msg_Uint_1);
for J in 1 .. UI_Image_Length loop
Set_Msg_Char (UI_Image_Buffer (J));
end loop;
-- The following assignment ensures that a second caret insertion
-- character will correspond to the Error_Msg_Uint_2 parameter. We
-- suppress possible validity checks in case operating in -gnatVa mode,
-- and Error_Msg_Uint_2 is not needed and has not been set.
declare
pragma Suppress (Range_Check);
begin
Error_Msg_Uint_1 := Error_Msg_Uint_2;
end;
end Set_Msg_Insertion_Uint;
-----------------
-- Set_Msg_Int --
-----------------
procedure Set_Msg_Int (Line : Int) is
begin
if Line > 9 then
Set_Msg_Int (Line / 10);
end if;
Set_Msg_Char (Character'Val (Character'Pos ('0') + (Line rem 10)));
end Set_Msg_Int;
-------------------------
-- Set_Msg_Name_Buffer --
-------------------------
procedure Set_Msg_Name_Buffer is
begin
Set_Msg_Str (Name_Buffer (1 .. Name_Len));
end Set_Msg_Name_Buffer;
-------------------
-- Set_Msg_Quote --
-------------------
procedure Set_Msg_Quote is
begin
if not Manual_Quote_Mode then
Set_Msg_Char ('"');
end if;
end Set_Msg_Quote;
-----------------
-- Set_Msg_Str --
-----------------
procedure Set_Msg_Str (Text : String) is
begin
-- Do replacement for special x'Class aspect names
if Text = "_Pre" then
Set_Msg_Str ("Pre'Class");
elsif Text = "_Post" then
Set_Msg_Str ("Post'Class");
elsif Text = "_Type_Invariant" then
Set_Msg_Str ("Type_Invariant'Class");
elsif Text = "_pre" then
Set_Msg_Str ("pre'class");
elsif Text = "_post" then
Set_Msg_Str ("post'class");
elsif Text = "_type_invariant" then
Set_Msg_Str ("type_invariant'class");
elsif Text = "_PRE" then
Set_Msg_Str ("PRE'CLASS");
elsif Text = "_POST" then
Set_Msg_Str ("POST'CLASS");
elsif Text = "_TYPE_INVARIANT" then
Set_Msg_Str ("TYPE_INVARIANT'CLASS");
-- Normal case with no replacement
else
for J in Text'Range loop
Set_Msg_Char (Text (J));
end loop;
end if;
end Set_Msg_Str;
------------------------------
-- Set_Next_Non_Deleted_Msg --
------------------------------
procedure Set_Next_Non_Deleted_Msg (E : in out Error_Msg_Id) is
begin
if E = No_Error_Msg then
return;
else
loop
E := Errors.Table (E).Next;
exit when E = No_Error_Msg or else not Errors.Table (E).Deleted;
end loop;
end if;
end Set_Next_Non_Deleted_Msg;
------------------------------
-- Set_Specific_Warning_Off --
------------------------------
procedure Set_Specific_Warning_Off
(Loc : Source_Ptr;
Msg : String;
Reason : String_Id;
Config : Boolean;
Used : Boolean := False)
is
begin
Specific_Warnings.Append
((Start => Loc,
Msg => new String'(Msg),
Stop => Source_Last (Current_Source_File),
Reason => Reason,
Open => True,
Used => Used,
Config => Config));
end Set_Specific_Warning_Off;
-----------------------------
-- Set_Specific_Warning_On --
-----------------------------
procedure Set_Specific_Warning_On
(Loc : Source_Ptr;
Msg : String;
Err : out Boolean)
is
begin
for J in 1 .. Specific_Warnings.Last loop
declare
SWE : Specific_Warning_Entry renames Specific_Warnings.Table (J);
begin
if Msg = SWE.Msg.all
and then Loc > SWE.Start
and then SWE.Open
and then Get_Source_File_Index (SWE.Start) =
Get_Source_File_Index (Loc)
then
SWE.Stop := Loc;
SWE.Open := False;
Err := False;
-- If a config pragma is specifically cancelled, consider
-- that it is no longer active as a configuration pragma.
SWE.Config := False;
return;
end if;
end;
end loop;
Err := True;
end Set_Specific_Warning_On;
---------------------------
-- Set_Warnings_Mode_Off --
---------------------------
procedure Set_Warnings_Mode_Off (Loc : Source_Ptr; Reason : String_Id) is
begin
-- Don't bother with entries from instantiation copies, since we will
-- already have a copy in the template, which is what matters.
if Instantiation (Get_Source_File_Index (Loc)) /= No_Location then
return;
end if;
-- If all warnings are suppressed by command line switch, this can
-- be ignored, unless we are in GNATprove_Mode which requires pragma
-- Warnings to be stored for the formal verification backend.
if Warning_Mode = Suppress
and then not GNATprove_Mode
then
return;
end if;
-- If last entry in table already covers us, this is a redundant pragma
-- Warnings (Off) and can be ignored.
if Warnings.Last >= Warnings.First
and then Warnings.Table (Warnings.Last).Start <= Loc
and then Loc <= Warnings.Table (Warnings.Last).Stop
then
return;
end if;
-- If none of those special conditions holds, establish a new entry,
-- extending from the location of the pragma to the end of the current
-- source file. This ending point will be adjusted by a subsequent
-- corresponding pragma Warnings (On).
Warnings.Append
((Start => Loc,
Stop => Source_Last (Current_Source_File),
Reason => Reason));
end Set_Warnings_Mode_Off;
--------------------------
-- Set_Warnings_Mode_On --
--------------------------
procedure Set_Warnings_Mode_On (Loc : Source_Ptr) is
begin
-- Don't bother with entries from instantiation copies, since we will
-- already have a copy in the template, which is what matters.
if Instantiation (Get_Source_File_Index (Loc)) /= No_Location then
return;
end if;
-- If all warnings are suppressed by command line switch, this can
-- be ignored, unless we are in GNATprove_Mode which requires pragma
-- Warnings to be stored for the formal verification backend.
if Warning_Mode = Suppress
and then not GNATprove_Mode
then
return;
end if;
-- If the last entry in the warnings table covers this pragma, then
-- we adjust the end point appropriately.
if Warnings.Last >= Warnings.First
and then Warnings.Table (Warnings.Last).Start <= Loc
and then Loc <= Warnings.Table (Warnings.Last).Stop
then
Warnings.Table (Warnings.Last).Stop := Loc;
end if;
end Set_Warnings_Mode_On;
--------------------------------
-- Validate_Specific_Warnings --
--------------------------------
procedure Validate_Specific_Warnings (Eproc : Error_Msg_Proc) is
begin
if not Warn_On_Warnings_Off then
return;
end if;
for J in Specific_Warnings.First .. Specific_Warnings.Last loop
declare
SWE : Specific_Warning_Entry renames Specific_Warnings.Table (J);
begin
if not SWE.Config then
-- Warn for unmatched Warnings (Off, ...)
if SWE.Open then
Eproc.all
("?W?pragma Warnings Off with no matching Warnings On",
SWE.Start);
-- Warn for ineffective Warnings (Off, ..)
elsif not SWE.Used
-- Do not issue this warning for -Wxxx messages since the
-- back-end doesn't report the information. Note that there
-- is always an asterisk at the start of every message.
and then not
(SWE.Msg'Length > 3 and then SWE.Msg (2 .. 3) = "-W")
then
Eproc.all
("?W?no warning suppressed by this pragma", SWE.Start);
end if;
end if;
end;
end loop;
end Validate_Specific_Warnings;
-------------------------------------
-- Warning_Specifically_Suppressed --
-------------------------------------
function Warning_Specifically_Suppressed
(Loc : Source_Ptr;
Msg : String_Ptr;
Tag : String := "") return String_Id
is
begin
-- Loop through specific warning suppression entries
for J in Specific_Warnings.First .. Specific_Warnings.Last loop
declare
SWE : Specific_Warning_Entry renames Specific_Warnings.Table (J);
begin
-- Pragma applies if it is a configuration pragma, or if the
-- location is in range of a specific non-configuration pragma.
if SWE.Config
or else (SWE.Start <= Loc and then Loc <= SWE.Stop)
then
if Matches (Msg.all, SWE.Msg.all)
or else Matches (Tag, SWE.Msg.all)
then
SWE.Used := True;
return SWE.Reason;
end if;
end if;
end;
end loop;
return No_String;
end Warning_Specifically_Suppressed;
------------------------------
-- Warning_Treated_As_Error --
------------------------------
function Warning_Treated_As_Error (Msg : String) return Boolean is
begin
for J in 1 .. Warnings_As_Errors_Count loop
if Matches (Msg, Warnings_As_Errors (J).all) then
return True;
end if;
end loop;
return False;
end Warning_Treated_As_Error;
-------------------------
-- Warnings_Suppressed --
-------------------------
function Warnings_Suppressed (Loc : Source_Ptr) return String_Id is
begin
-- Loop through table of ON/OFF warnings
for J in Warnings.First .. Warnings.Last loop
if Warnings.Table (J).Start <= Loc
and then Loc <= Warnings.Table (J).Stop
then
return Warnings.Table (J).Reason;
end if;
end loop;
if Warning_Mode = Suppress then
return Null_String_Id;
else
return No_String;
end if;
end Warnings_Suppressed;
end Erroutc;
| 30.073171
| 79
| 0.524499
|
1ee53915d09fff89ebc74eb746c4707fcacfda7d
| 1,662
|
adb
|
Ada
|
testcases/multiquery/multiquery.adb
|
jrmarino/AdaBase
|
660f278613773dc4007c8b3fab21bcfddc1828b3
|
[
"0BSD"
] | 30
|
2016-02-21T11:09:30.000Z
|
2021-12-08T14:12:32.000Z
|
testcases/multiquery/multiquery.adb
|
jrmarino/AdaBase
|
660f278613773dc4007c8b3fab21bcfddc1828b3
|
[
"0BSD"
] | 3
|
2018-10-29T18:44:48.000Z
|
2022-03-12T23:14:20.000Z
|
testcases/multiquery/multiquery.adb
|
jrmarino/AdaBase
|
660f278613773dc4007c8b3fab21bcfddc1828b3
|
[
"0BSD"
] | 3
|
2015-04-22T12:17:27.000Z
|
2017-01-19T14:29:59.000Z
|
with AdaBase;
with Connect;
with Ada.Text_IO;
with Ada.Exceptions;
procedure MultiQuery is
package CON renames Connect;
package TIO renames Ada.Text_IO;
package EX renames Ada.Exceptions;
numrows : AdaBase.Affected_Rows;
setting : Boolean;
nextone : Boolean;
SQL : constant String :=
"DELETE FROM fruits WHERE color = 'red'; " &
"DELETE FROM fruits WHERE color = 'orange'";
begin
CON.connect_database;
TIO.Put_Line ("This demonstration shows how multiple queries in the " &
"same SQL string are handled.");
TIO.Put_Line ("SQL string used: " & SQL);
TIO.Put_Line ("");
setting := CON.DR.trait_multiquery_enabled;
nextone := not setting;
TIO.Put_Line ("Testing query with MultiQuery option set to " & setting'Img);
TIO.Put_Line ("-- Execution attempt #1 --");
begin
numrows := CON.DR.execute (SQL);
TIO.Put_Line ("Query succeeded");
CON.DR.rollback;
exception
when ouch : others =>
TIO.Put_Line ("Exception: " & EX.Exception_Message (ouch));
TIO.Put_Line ("Failed to test this setting");
end;
TIO.Put_Line ("");
TIO.Put_Line ("Attempt to toggle MultiQuery setting to " & nextone'Img);
begin
CON.DR.set_trait_multiquery_enabled (nextone);
TIO.Put_Line ("-- Execution attempt #2 --");
numrows := CON.DR.execute (SQL);
TIO.Put_Line ("Query succeeded");
CON.DR.rollback;
exception
when ouch : others =>
TIO.Put_Line ("Exception: " & EX.Exception_Message (ouch));
TIO.Put_Line ("Failed to test this setting");
end;
CON.DR.disconnect;
end MultiQuery;
| 27.7
| 79
| 0.640794
|
8ba63834427c415dcb67a29a6f2f9f1648e44578
| 7,879
|
adb
|
Ada
|
tools-src/gnu/gcc/gcc/ada/krunch.adb
|
modern-tomato/tomato
|
96f09fab4929c6ddde5c9113f1b2476ad37133c4
|
[
"FSFAP"
] | 80
|
2015-01-02T10:14:04.000Z
|
2021-06-07T06:29:49.000Z
|
tools-src/gnu/gcc/gcc/ada/krunch.adb
|
modern-tomato/tomato
|
96f09fab4929c6ddde5c9113f1b2476ad37133c4
|
[
"FSFAP"
] | 9
|
2015-05-14T11:03:12.000Z
|
2018-01-04T07:12:58.000Z
|
tools-src/gnu/gcc/gcc/ada/krunch.adb
|
modern-tomato/tomato
|
96f09fab4929c6ddde5c9113f1b2476ad37133c4
|
[
"FSFAP"
] | 69
|
2015-01-02T10:45:56.000Z
|
2021-09-06T07:52:13.000Z
|
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- K R U N C H --
-- --
-- B o d y --
-- --
-- $Revision$
-- --
-- Copyright (C) 1992-2000 Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
-- MA 02111-1307, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Hostparm;
procedure Krunch
(Buffer : in out String;
Len : in out Natural;
Maxlen : Natural;
No_Predef : Boolean)
is
B1 : Character renames Buffer (1);
Curlen : Natural;
Krlen : Natural;
Num_Seps : Natural;
Startloc : Natural;
begin
-- Deal with special predefined children cases. Startloc is the first
-- location for the krunch, set to 1, except for the predefined children
-- case, where it is set to 3, to start after the standard prefix.
if No_Predef then
Startloc := 1;
Curlen := Len;
Krlen := Maxlen;
elsif Len >= 18
and then Buffer (1 .. 17) = "ada-wide_text_io-"
then
Startloc := 3;
Buffer (2 .. 5) := "-wt-";
Buffer (6 .. Len - 12) := Buffer (18 .. Len);
Curlen := Len - 12;
Krlen := 8;
elsif Len >= 4 and then Buffer (1 .. 4) = "ada-" then
Startloc := 3;
Buffer (2 .. Len - 2) := Buffer (4 .. Len);
Curlen := Len - 2;
Krlen := 8;
elsif Len >= 5 and then Buffer (1 .. 5) = "gnat-" then
Startloc := 3;
Buffer (2 .. Len - 3) := Buffer (5 .. Len);
Curlen := Len - 3;
Krlen := 8;
elsif Len >= 7 and then Buffer (1 .. 7) = "system-" then
Startloc := 3;
Buffer (2 .. Len - 5) := Buffer (7 .. Len);
Curlen := Len - 5;
Krlen := 8;
elsif Len >= 11 and then Buffer (1 .. 11) = "interfaces-" then
Startloc := 3;
Buffer (2 .. Len - 9) := Buffer (11 .. Len);
Curlen := Len - 9;
Krlen := 8;
-- For the renamings in the obsolescent section, we also force krunching
-- to 8 characters, but no other special processing is required here.
-- Note that text_io and calendar are already short enough anyway.
elsif (Len = 9 and then Buffer (1 .. 9) = "direct_io")
or else (Len = 10 and then Buffer (1 .. 10) = "interfaces")
or else (Len = 13 and then Buffer (1 .. 13) = "io_exceptions")
or else (Len = 12 and then Buffer (1 .. 12) = "machine_code")
or else (Len = 13 and then Buffer (1 .. 13) = "sequential_io")
or else (Len = 20 and then Buffer (1 .. 20) = "unchecked_conversion")
or else (Len = 22 and then Buffer (1 .. 22) = "unchecked_deallocation")
then
Startloc := 1;
Krlen := 8;
Curlen := Len;
-- Special case of a child unit whose parent unit is a single letter that
-- is A, G, I, or S. In order to prevent confusion with krunched names
-- of predefined units use a tilde rather than a minus as the second
-- character of the file name. On VMS a tilde is an illegal character
-- in a file name, so a dollar_sign is used instead.
elsif Len > 1
and then Buffer (2) = '-'
and then (B1 = 'a' or else B1 = 'g' or else B1 = 'i' or else B1 = 's')
and then Len <= Maxlen
then
if Hostparm.OpenVMS then
Buffer (2) := '$';
else
Buffer (2) := '~';
end if;
return;
-- Normal case, not a predefined file
else
Startloc := 1;
Curlen := Len;
Krlen := Maxlen;
end if;
-- Immediate return if file name is short enough now
if Curlen <= Krlen then
Len := Curlen;
return;
end if;
-- For now, refuse to krunch a name that contains an ESC character (wide
-- character sequence) since it's too much trouble to do this right ???
for J in 1 .. Curlen loop
if Buffer (J) = ASCII.ESC then
return;
end if;
end loop;
-- Count number of separators (minus signs and underscores) and for now
-- replace them by spaces. We keep them around till the end to control
-- the krunching process, and then we eliminate them as the last step
Num_Seps := 0;
for J in Startloc .. Curlen loop
if Buffer (J) = '-' or else Buffer (J) = '_' then
Buffer (J) := ' ';
Num_Seps := Num_Seps + 1;
end if;
end loop;
-- Now we do the one character at a time krunch till we are short enough
while Curlen - Num_Seps > Krlen loop
declare
Long_Length : Natural := 0;
Long_Last : Natural := 0;
Piece_Start : Natural;
Ptr : Natural;
begin
Ptr := Startloc;
-- Loop through pieces to find longest piece
while Ptr <= Curlen loop
Piece_Start := Ptr;
-- Loop through characters in one piece of name
while Ptr <= Curlen and then Buffer (Ptr) /= ' ' loop
Ptr := Ptr + 1;
end loop;
if Ptr - Piece_Start > Long_Length then
Long_Length := Ptr - Piece_Start;
Long_Last := Ptr - 1;
end if;
Ptr := Ptr + 1;
end loop;
-- Remove last character of longest piece
if Long_Last < Curlen then
Buffer (Long_Last .. Curlen - 1) :=
Buffer (Long_Last + 1 .. Curlen);
end if;
Curlen := Curlen - 1;
end;
end loop;
-- Final step, remove the spaces
Len := 0;
for J in 1 .. Curlen loop
if Buffer (J) /= ' ' then
Len := Len + 1;
Buffer (Len) := Buffer (J);
end if;
end loop;
return;
end Krunch;
| 35.651584
| 78
| 0.495367
|
a0e95bbff467885707425865a56091e935eef037
| 534
|
ads
|
Ada
|
gcc-gcc-7_3_0-release/gcc/testsuite/gnat.dg/atomic4.ads
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | 7
|
2020-05-02T17:34:05.000Z
|
2021-10-17T10:15:18.000Z
|
gcc-gcc-7_3_0-release/gcc/testsuite/gnat.dg/atomic4.ads
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | null | null | null |
gcc-gcc-7_3_0-release/gcc/testsuite/gnat.dg/atomic4.ads
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | 2
|
2020-07-27T00:22:36.000Z
|
2021-04-01T09:41:02.000Z
|
with Ada.Containers.Vectors;
package Atomic4 is
type String is limited null record;
type String_Access is access all String;
pragma Atomic (String_Access);
type Reference is record
Text : String_Access;
end record;
package Reference_Vectors is
new Ada.Containers.Vectors (Natural, Reference);
type Reader is tagged limited record
Current_Reference : Reference;
Reference_Stack : Reference_Vectors.Vector;
end record;
procedure Next (Self : in out Reader'Class);
end Atomic4;
| 22.25
| 53
| 0.724719
|
38266fced824501d04fba7349cca6dedb96160cf
| 15,096
|
adb
|
Ada
|
Validation/pyFrame3DD-master/gcc-master/gcc/ada/back_end.adb
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
Validation/pyFrame3DD-master/gcc-master/gcc/ada/back_end.adb
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
Validation/pyFrame3DD-master/gcc-master/gcc/ada/back_end.adb
|
djamal2727/Main-Bearing-Analytical-Model
|
2f00c2219c71be0175c6f4f8f1d4cca231d97096
|
[
"Apache-2.0"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- B A C K _ E N D --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2020, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING3. If not, go to --
-- http://www.gnu.org/licenses for a complete copy of the license. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- This is the version of the Back_End package for GCC back ends
with Atree; use Atree;
with Debug; use Debug;
with Elists; use Elists;
with Errout; use Errout;
with Lib; use Lib;
with Osint; use Osint;
with Opt; use Opt;
with Osint.C; use Osint.C;
with Namet; use Namet;
with Nlists; use Nlists;
with Stand; use Stand;
with Sinput; use Sinput;
with Stringt; use Stringt;
with Switch; use Switch;
with Switch.C; use Switch.C;
with System; use System;
with Types; use Types;
with System.OS_Lib; use System.OS_Lib;
package body Back_End is
type Arg_Array is array (Nat) of Big_String_Ptr;
type Arg_Array_Ptr is access Arg_Array;
-- Types to access compiler arguments
flag_stack_check : Int;
pragma Import (C, flag_stack_check);
-- Indicates if stack checking is enabled, imported from misc.c
save_argc : Nat;
pragma Import (C, save_argc);
-- Saved value of argc (number of arguments), imported from misc.c
save_argv : Arg_Array_Ptr;
pragma Import (C, save_argv);
-- Saved value of argv (argument pointers), imported from misc.c
function Len_Arg (Arg : Pos) return Nat;
-- Determine length of argument number Arg on original gnat1 command line
-------------------
-- Call_Back_End --
-------------------
procedure Call_Back_End (Mode : Back_End_Mode_Type) is
-- The Source_File_Record type has a lot of components that are
-- meaningless to the back end, so a new record type is created
-- here to contain the needed information for each file.
type File_Info_Type is record
File_Name : File_Name_Type;
Instance : Instance_Id;
Num_Source_Lines : Nat;
end record;
File_Info_Array : array (1 .. Last_Source_File) of File_Info_Type;
procedure gigi
(gnat_root : Int;
max_gnat_node : Int;
number_name : Nat;
nodes_ptr : Address;
flags_ptr : Address;
next_node_ptr : Address;
prev_node_ptr : Address;
elists_ptr : Address;
elmts_ptr : Address;
strings_ptr : Address;
string_chars_ptr : Address;
list_headers_ptr : Address;
number_file : Nat;
file_info_ptr : Address;
gigi_standard_boolean : Entity_Id;
gigi_standard_integer : Entity_Id;
gigi_standard_character : Entity_Id;
gigi_standard_long_long_float : Entity_Id;
gigi_standard_exception_type : Entity_Id;
gigi_operating_mode : Back_End_Mode_Type);
pragma Import (C, gigi);
begin
-- Skip call if in -gnatdH mode
if Debug_Flag_HH then
return;
end if;
-- The back end needs to know the maximum line number that can appear
-- in a Sloc, in other words the maximum logical line number.
for J in 1 .. Last_Source_File loop
File_Info_Array (J).File_Name := Full_Debug_Name (J);
File_Info_Array (J).Instance := Instance (J);
File_Info_Array (J).Num_Source_Lines :=
Nat (Physical_To_Logical (Last_Source_Line (J), J));
end loop;
-- Deal with case of generating SCIL, we should not be here unless
-- debugging CodePeer mode in GNAT.
if Generate_SCIL then
Error_Msg_N ("'S'C'I'L generation not available", Cunit (Main_Unit));
if CodePeer_Mode
or else (Mode /= Generate_Object
and then not Back_Annotate_Rep_Info)
then
return;
end if;
end if;
-- We should be here in GNATprove mode only when debugging GNAT. Do not
-- call gigi in that case, as it is not prepared to handle the special
-- form of the tree obtained in GNATprove mode.
if GNATprove_Mode then
return;
end if;
-- The actual call to the back end
gigi
(gnat_root => Int (Cunit (Main_Unit)),
max_gnat_node => Int (Last_Node_Id - First_Node_Id + 1),
number_name => Name_Entries_Count,
nodes_ptr => Nodes_Address,
flags_ptr => Flags_Address,
next_node_ptr => Next_Node_Address,
prev_node_ptr => Prev_Node_Address,
elists_ptr => Elists_Address,
elmts_ptr => Elmts_Address,
strings_ptr => Strings_Address,
string_chars_ptr => String_Chars_Address,
list_headers_ptr => Lists_Address,
number_file => Num_Source_Files,
file_info_ptr => File_Info_Array'Address,
gigi_standard_boolean => Standard_Boolean,
gigi_standard_integer => Standard_Integer,
gigi_standard_character => Standard_Character,
gigi_standard_long_long_float => Standard_Long_Long_Float,
gigi_standard_exception_type => Standard_Exception_Type,
gigi_operating_mode => Mode);
end Call_Back_End;
-------------------------------
-- Gen_Or_Update_Object_File --
-------------------------------
procedure Gen_Or_Update_Object_File is
begin
null;
end Gen_Or_Update_Object_File;
-------------
-- Len_Arg --
-------------
function Len_Arg (Arg : Pos) return Nat is
begin
for J in 1 .. Nat'Last loop
if save_argv (Arg).all (Natural (J)) = ASCII.NUL then
return J - 1;
end if;
end loop;
raise Program_Error;
end Len_Arg;
-----------------------------
-- Scan_Compiler_Arguments --
-----------------------------
procedure Scan_Compiler_Arguments is
Next_Arg : Positive;
-- Next argument to be scanned
Arg_Count : constant Natural := Natural (save_argc - 1);
Args : Argument_List (1 .. Arg_Count);
Output_File_Name_Seen : Boolean := False;
-- Set to True after having scanned file_name for switch "-gnatO file"
procedure Scan_Back_End_Switches (Switch_Chars : String);
-- Procedure to scan out switches stored in Switch_Chars. The first
-- character is known to be a valid switch character, and there are no
-- blanks or other switch terminator characters in the string, so the
-- entire string should consist of valid switch characters, except that
-- an optional terminating NUL character is allowed.
--
-- Back end switches have already been checked and processed by GCC in
-- toplev.c, so no errors can occur and control will always return. The
-- switches must still be scanned to skip "-o" or internal GCC switches
-- with their argument.
----------------------------
-- Scan_Back_End_Switches --
----------------------------
procedure Scan_Back_End_Switches (Switch_Chars : String) is
First : constant Positive := Switch_Chars'First + 1;
Last : constant Natural := Switch_Last (Switch_Chars);
begin
-- Skip -o or internal GCC switches together with their argument
if Switch_Chars (First .. Last) = "o"
or else Is_Internal_GCC_Switch (Switch_Chars)
then
Next_Arg := Next_Arg + 1;
-- Store -G xxx as -Gxxx and go directly to the next argument
elsif Switch_Chars (First .. Last) = "G" then
Next_Arg := Next_Arg + 1;
-- Should never get there with -G not followed by an argument,
-- but use defensive code nonetheless. Store as -Gxxx to avoid
-- storing parameters in ALI files that might create confusion.
if Next_Arg <= Args'Last then
Store_Compilation_Switch (Switch_Chars & Args (Next_Arg).all);
end if;
-- Do not record -quiet switch
elsif Switch_Chars (First .. Last) = "quiet" then
null;
-- Store any other GCC switches. Also do special processing for some
-- specific switches that the Ada front-end knows about.
else
Store_Compilation_Switch (Switch_Chars);
-- For gcc back ends, -fno-inline disables Inline pragmas only,
-- not Inline_Always to remain consistent with the always_inline
-- attribute behavior.
if Switch_Chars (First .. Last) = "fno-inline" then
Opt.Disable_FE_Inline := True;
-- Back end switch -fpreserve-control-flow also sets the front end
-- flag that inhibits improper control flow transformations.
elsif Switch_Chars (First .. Last) = "fpreserve-control-flow" then
Opt.Suppress_Control_Flow_Optimizations := True;
-- Back end switch -fdump-scos, which exists primarily for C, is
-- also accepted for Ada as a synonym of -gnateS.
elsif Switch_Chars (First .. Last) = "fdump-scos" then
Opt.Generate_SCO := True;
Opt.Generate_SCO_Instance_Table := True;
elsif Switch_Chars (First) = 'g' then
Debugger_Level := 2;
if First < Last then
case Switch_Chars (First + 1) is
when '0' =>
Debugger_Level := 0;
when '1' =>
Debugger_Level := 1;
when '2' =>
Debugger_Level := 2;
when '3' =>
Debugger_Level := 3;
when others =>
null;
end case;
end if;
end if;
end if;
end Scan_Back_End_Switches;
-- Start of processing for Scan_Compiler_Arguments
begin
-- Acquire stack checking mode directly from GCC. The reason we do this
-- is to make sure that the indication of stack checking being enabled
-- is the same in the front end and the back end. This status obtained
-- from gcc is affected by more than just the switch -fstack-check.
Opt.Stack_Checking_Enabled := (flag_stack_check /= 0);
-- Put the arguments in Args
for Arg in Pos range 1 .. save_argc - 1 loop
declare
Argv_Ptr : constant Big_String_Ptr := save_argv (Arg);
Argv_Len : constant Nat := Len_Arg (Arg);
Argv : constant String :=
Argv_Ptr (1 .. Natural (Argv_Len));
begin
Args (Positive (Arg)) := new String'(Argv);
end;
end loop;
-- Loop through command line arguments, storing them for later access
Next_Arg := 1;
while Next_Arg <= Args'Last loop
Look_At_Arg : declare
Argv : constant String := Args (Next_Arg).all;
begin
-- If the previous switch has set the Output_File_Name_Present
-- flag (that is we have seen a -gnatO), then the next argument
-- is the name of the output object file.
if Output_File_Name_Present and then not Output_File_Name_Seen then
if Is_Switch (Argv) then
Fail ("Object file name missing after -gnatO");
else
Set_Output_Object_File_Name (Argv);
Output_File_Name_Seen := True;
end if;
-- If the previous switch has set the Search_Directory_Present
-- flag (that is if we have just seen -I), then the next argument
-- is a search directory path.
elsif Search_Directory_Present then
if Is_Switch (Argv) then
Fail ("search directory missing after -I");
else
Add_Src_Search_Dir (Argv);
Search_Directory_Present := False;
end if;
-- If not a switch, must be a file name
elsif not Is_Switch (Argv) then
Add_File (Argv);
-- We must recognize -nostdinc to suppress visibility on the
-- standard GNAT RTL sources. This is also a gcc switch.
elsif Argv (Argv'First + 1 .. Argv'Last) = "nostdinc" then
Opt.No_Stdinc := True;
Scan_Back_End_Switches (Argv);
-- We must recognize -nostdlib to suppress visibility on the
-- standard GNAT RTL objects.
elsif Argv (Argv'First + 1 .. Argv'Last) = "nostdlib" then
Opt.No_Stdlib := True;
elsif Is_Front_End_Switch (Argv) then
Scan_Front_End_Switches (Argv, Args, Next_Arg);
-- All non-front-end switches are back-end switches
else
Scan_Back_End_Switches (Argv);
end if;
end Look_At_Arg;
Next_Arg := Next_Arg + 1;
end loop;
end Scan_Compiler_Arguments;
end Back_End;
| 37.74
| 79
| 0.544846
|
8b70ad175a6ed794a89ed2d6f2fe2669e428b16c
| 3,952
|
adb
|
Ada
|
ada/gui/demo/customwidget.adb
|
charlesdaniels/libagar
|
099ce716e2ca01a7904b23f22610bf589295f5b5
|
[
"BSD-2-Clause"
] | 286
|
2017-07-31T20:05:16.000Z
|
2022-03-26T20:26:24.000Z
|
ada/gui/demo/customwidget.adb
|
kalatestimine/libagar
|
f830265ad00a82d4cddd8b59943bd3887ebb1486
|
[
"BSD-2-Clause"
] | 67
|
2017-08-30T18:56:21.000Z
|
2021-09-08T03:38:20.000Z
|
ada/gui/demo/customwidget.adb
|
kalatestimine/libagar
|
f830265ad00a82d4cddd8b59943bd3887ebb1486
|
[
"BSD-2-Clause"
] | 31
|
2017-08-14T13:34:12.000Z
|
2022-03-14T15:33:49.000Z
|
--------------------------------------------------
-- Example of a custom Agar widget class: --
-- --
-- AG_Object(3) -> AG_Widget(3) -> CustomWidget --
--------------------------------------------------
with Ada.Text_IO;
with System.Address_To_Access_Conversions;
package body CustomWidget is
package C_obj is new System.Address_To_Access_Conversions (CustomWidget_t);
package T_IO renames Ada.Text_IO;
use type C.int;
--
-- Register the CustomWidget class with the Agar object system. We give
-- the size of our Object instance and the size of our Class structure
-- (or Widget_Class_t'Size if the Class structure is not being overloaded,
-- as is the case in this example).
--
-- The Version (Major, Minor) fields, and the Load and Save functions
-- can be omitted since our example widget is not serializable.
--
function Create_Class return Widget_Class_not_null_Access_t is
begin
Widget_Class := Create_Widget_Class
(Hierarchy => "Agar(Widget):CustomWidget",
Object_Size => CustomWidget.CustomWidget_t'Size,
Class_Size => Widget_Class_t'Size,
Init_Func => CustomWidget.Init'Access,
Destroy_Func => CustomWidget.Destroy'Access,
Size_Req_Func => CustomWidget.Size_Req'Access,
Size_Alloc_Func => CustomWidget.Size_Alloc'Access,
Draw_Func => CustomWidget.Draw'Access);
return Widget_Class;
end;
--
-- Delete the CustomWidget class (done automatically on exit).
--
procedure Destroy_Class is
begin
Destroy_Widget_Class (Widget_Class);
Widget_Class := null;
end;
--
-- Initialize a widget instance.
--
procedure Init (Object : OBJ.Object_Access_t)
is
CW : constant C_obj.Object_Pointer := C_obj.To_Pointer(Object.all'Address);
begin
T_IO.Put_Line("Custom widget init");
CW.Color := 16#c0c0c0#;
CW.State_X := 1;
CW.State_Y := 10;
CW.Label_Surf := -1;
end;
--
-- Render the widget to the display.
--
procedure Draw (Widget : Widget_Access_t)
is
CW : constant C_obj.Object_Pointer := C_obj.To_Pointer(Widget.all'Address);
begin
--
-- Render a 3d-style box and a line across it.
--
Agar.Primitives.Draw_Box
(X => 0,
Y => 0,
Width => Widget.W,
Height => Widget.H,
Z => 1,
Color => Widget_Color(Background_Color));
Agar.Primitives.Draw_Line
(X1 => 0,
Y1 => 0,
X2 => Widget.W,
Y2 => Widget.H,
Color => Widget_Color(Line_Color));
--
-- Render a text label. We generate and map the surface on demand so that
-- it be stored efficiently as a hardware texture when possible.
--
if CW.Label_Surf = -1 then
CW.Label_Surf := Map_Surface
(Widget => Widget,
Surface => Agar.Text.Render("Hello")));
end if;
if CW.Label_Surf /= -1 then
Blit_Surface
(Widget => Widget,
Surface => CW.Label_Surf,
X => Widget.W/2 - Surface_Width(CW.Label.Surf),
Y => Widget.H/2 - Surface_Height(CW.Label.Surf));
end if;
end;
--
-- Request an initial preferred widget geometry.
--
procedure Size_Request
(Widget : in Widget_Access_t;
Size : in SizeReq_not_null_Access_t)
is
begin
Size.W := 320;
Size.H := 240;
end;
--
-- Callback after final widget geometry has been allocated by the parent
-- container. If Widget is a container itself, this is also where the
-- effective geometry of the attached child widgets is determined.
--
function Size_Allocate
(Widget : in Widget_Access_t;
Size : in SizeAlloc_not_null_Access_t) return C.int
is
begin
if Size.W < 160 or Size.H < 120 then -- Require a minimum size
return -1;
end if;
-- Allocate the geometry of any child widgets here.
return 0;
end;
end CustomWidget;
| 29.058824
| 79
| 0.61918
|
19cc00ca54a10abed4d5c296838754cbef1975d9
| 18,998
|
ads
|
Ada
|
source/amf/uml/amf-internals-uml_reply_actions.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 24
|
2016-11-29T06:59:41.000Z
|
2021-08-30T11:55:16.000Z
|
source/amf/uml/amf-internals-uml_reply_actions.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 2
|
2019-01-16T05:15:20.000Z
|
2019-02-03T10:03:32.000Z
|
source/amf/uml/amf-internals-uml_reply_actions.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 4
|
2017-07-18T07:11:05.000Z
|
2020-06-21T03:02:25.000Z
|
------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2011-2012, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
with AMF.Internals.UML_Named_Elements;
with AMF.UML.Activities;
with AMF.UML.Activity_Edges.Collections;
with AMF.UML.Activity_Groups.Collections;
with AMF.UML.Activity_Nodes.Collections;
with AMF.UML.Activity_Partitions.Collections;
with AMF.UML.Classifiers.Collections;
with AMF.UML.Constraints.Collections;
with AMF.UML.Dependencies.Collections;
with AMF.UML.Exception_Handlers.Collections;
with AMF.UML.Input_Pins.Collections;
with AMF.UML.Interruptible_Activity_Regions.Collections;
with AMF.UML.Named_Elements;
with AMF.UML.Namespaces;
with AMF.UML.Output_Pins.Collections;
with AMF.UML.Packages.Collections;
with AMF.UML.Redefinable_Elements.Collections;
with AMF.UML.Reply_Actions;
with AMF.UML.String_Expressions;
with AMF.UML.Structured_Activity_Nodes;
with AMF.UML.Triggers;
with AMF.Visitors;
package AMF.Internals.UML_Reply_Actions is
type UML_Reply_Action_Proxy is
limited new AMF.Internals.UML_Named_Elements.UML_Named_Element_Proxy
and AMF.UML.Reply_Actions.UML_Reply_Action with null record;
overriding function Get_Reply_To_Call
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Triggers.UML_Trigger_Access;
-- Getter of ReplyAction::replyToCall.
--
-- The trigger specifying the operation whose call is being replied to.
overriding procedure Set_Reply_To_Call
(Self : not null access UML_Reply_Action_Proxy;
To : AMF.UML.Triggers.UML_Trigger_Access);
-- Setter of ReplyAction::replyToCall.
--
-- The trigger specifying the operation whose call is being replied to.
overriding function Get_Reply_Value
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Input_Pins.Collections.Set_Of_UML_Input_Pin;
-- Getter of ReplyAction::replyValue.
--
-- A list of pins containing the reply values of the operation. These
-- values are returned to the caller.
overriding function Get_Return_Information
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Input_Pins.UML_Input_Pin_Access;
-- Getter of ReplyAction::returnInformation.
--
-- A pin containing the return information value produced by an earlier
-- AcceptCallAction.
overriding procedure Set_Return_Information
(Self : not null access UML_Reply_Action_Proxy;
To : AMF.UML.Input_Pins.UML_Input_Pin_Access);
-- Setter of ReplyAction::returnInformation.
--
-- A pin containing the return information value produced by an earlier
-- AcceptCallAction.
overriding function Get_Context
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Classifiers.UML_Classifier_Access;
-- Getter of Action::context.
--
-- The classifier that owns the behavior of which this action is a part.
overriding function Get_Input
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Input_Pins.Collections.Ordered_Set_Of_UML_Input_Pin;
-- Getter of Action::input.
--
-- The ordered set of input pins connected to the Action. These are among
-- the total set of inputs.
overriding function Get_Is_Locally_Reentrant
(Self : not null access constant UML_Reply_Action_Proxy)
return Boolean;
-- Getter of Action::isLocallyReentrant.
--
-- If true, the action can begin a new, concurrent execution, even if
-- there is already another execution of the action ongoing. If false, the
-- action cannot begin a new execution until any previous execution has
-- completed.
overriding procedure Set_Is_Locally_Reentrant
(Self : not null access UML_Reply_Action_Proxy;
To : Boolean);
-- Setter of Action::isLocallyReentrant.
--
-- If true, the action can begin a new, concurrent execution, even if
-- there is already another execution of the action ongoing. If false, the
-- action cannot begin a new execution until any previous execution has
-- completed.
overriding function Get_Local_Postcondition
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Constraints.Collections.Set_Of_UML_Constraint;
-- Getter of Action::localPostcondition.
--
-- Constraint that must be satisfied when executed is completed.
overriding function Get_Local_Precondition
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Constraints.Collections.Set_Of_UML_Constraint;
-- Getter of Action::localPrecondition.
--
-- Constraint that must be satisfied when execution is started.
overriding function Get_Output
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Output_Pins.Collections.Ordered_Set_Of_UML_Output_Pin;
-- Getter of Action::output.
--
-- The ordered set of output pins connected to the Action. The action
-- places its results onto pins in this set.
overriding function Get_Handler
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Exception_Handlers.Collections.Set_Of_UML_Exception_Handler;
-- Getter of ExecutableNode::handler.
--
-- A set of exception handlers that are examined if an uncaught exception
-- propagates to the outer level of the executable node.
overriding function Get_Activity
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Activities.UML_Activity_Access;
-- Getter of ActivityNode::activity.
--
-- Activity containing the node.
overriding procedure Set_Activity
(Self : not null access UML_Reply_Action_Proxy;
To : AMF.UML.Activities.UML_Activity_Access);
-- Setter of ActivityNode::activity.
--
-- Activity containing the node.
overriding function Get_In_Group
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Activity_Groups.Collections.Set_Of_UML_Activity_Group;
-- Getter of ActivityNode::inGroup.
--
-- Groups containing the node.
overriding function Get_In_Interruptible_Region
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Interruptible_Activity_Regions.Collections.Set_Of_UML_Interruptible_Activity_Region;
-- Getter of ActivityNode::inInterruptibleRegion.
--
-- Interruptible regions containing the node.
overriding function Get_In_Partition
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Activity_Partitions.Collections.Set_Of_UML_Activity_Partition;
-- Getter of ActivityNode::inPartition.
--
-- Partitions containing the node.
overriding function Get_In_Structured_Node
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Structured_Activity_Nodes.UML_Structured_Activity_Node_Access;
-- Getter of ActivityNode::inStructuredNode.
--
-- Structured activity node containing the node.
overriding procedure Set_In_Structured_Node
(Self : not null access UML_Reply_Action_Proxy;
To : AMF.UML.Structured_Activity_Nodes.UML_Structured_Activity_Node_Access);
-- Setter of ActivityNode::inStructuredNode.
--
-- Structured activity node containing the node.
overriding function Get_Incoming
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Activity_Edges.Collections.Set_Of_UML_Activity_Edge;
-- Getter of ActivityNode::incoming.
--
-- Edges that have the node as target.
overriding function Get_Outgoing
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Activity_Edges.Collections.Set_Of_UML_Activity_Edge;
-- Getter of ActivityNode::outgoing.
--
-- Edges that have the node as source.
overriding function Get_Redefined_Node
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Activity_Nodes.Collections.Set_Of_UML_Activity_Node;
-- Getter of ActivityNode::redefinedNode.
--
-- Inherited nodes replaced by this node in a specialization of the
-- activity.
overriding function Get_Is_Leaf
(Self : not null access constant UML_Reply_Action_Proxy)
return Boolean;
-- Getter of RedefinableElement::isLeaf.
--
-- Indicates whether it is possible to further redefine a
-- RedefinableElement. If the value is true, then it is not possible to
-- further redefine the RedefinableElement. Note that this property is
-- preserved through package merge operations; that is, the capability to
-- redefine a RedefinableElement (i.e., isLeaf=false) must be preserved in
-- the resulting RedefinableElement of a package merge operation where a
-- RedefinableElement with isLeaf=false is merged with a matching
-- RedefinableElement with isLeaf=true: the resulting RedefinableElement
-- will have isLeaf=false. Default value is false.
overriding procedure Set_Is_Leaf
(Self : not null access UML_Reply_Action_Proxy;
To : Boolean);
-- Setter of RedefinableElement::isLeaf.
--
-- Indicates whether it is possible to further redefine a
-- RedefinableElement. If the value is true, then it is not possible to
-- further redefine the RedefinableElement. Note that this property is
-- preserved through package merge operations; that is, the capability to
-- redefine a RedefinableElement (i.e., isLeaf=false) must be preserved in
-- the resulting RedefinableElement of a package merge operation where a
-- RedefinableElement with isLeaf=false is merged with a matching
-- RedefinableElement with isLeaf=true: the resulting RedefinableElement
-- will have isLeaf=false. Default value is false.
overriding function Get_Redefined_Element
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Redefinable_Elements.Collections.Set_Of_UML_Redefinable_Element;
-- Getter of RedefinableElement::redefinedElement.
--
-- The redefinable element that is being redefined by this element.
overriding function Get_Redefinition_Context
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Classifiers.Collections.Set_Of_UML_Classifier;
-- Getter of RedefinableElement::redefinitionContext.
--
-- References the contexts that this element may be redefined from.
overriding function Get_Client_Dependency
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Dependencies.Collections.Set_Of_UML_Dependency;
-- Getter of NamedElement::clientDependency.
--
-- Indicates the dependencies that reference the client.
overriding function Get_Name_Expression
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.String_Expressions.UML_String_Expression_Access;
-- Getter of NamedElement::nameExpression.
--
-- The string expression used to define the name of this named element.
overriding procedure Set_Name_Expression
(Self : not null access UML_Reply_Action_Proxy;
To : AMF.UML.String_Expressions.UML_String_Expression_Access);
-- Setter of NamedElement::nameExpression.
--
-- The string expression used to define the name of this named element.
overriding function Get_Namespace
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Namespaces.UML_Namespace_Access;
-- Getter of NamedElement::namespace.
--
-- Specifies the namespace that owns the NamedElement.
overriding function Get_Qualified_Name
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.Optional_String;
-- Getter of NamedElement::qualifiedName.
--
-- A name which allows the NamedElement to be identified within a
-- hierarchy of nested Namespaces. It is constructed from the names of the
-- containing namespaces starting at the root of the hierarchy and ending
-- with the name of the NamedElement itself.
overriding function Context
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Classifiers.UML_Classifier_Access;
-- Operation Action::context.
--
-- Missing derivation for Action::/context : Classifier
overriding function Is_Consistent_With
(Self : not null access constant UML_Reply_Action_Proxy;
Redefinee : AMF.UML.Redefinable_Elements.UML_Redefinable_Element_Access)
return Boolean;
-- Operation RedefinableElement::isConsistentWith.
--
-- The query isConsistentWith() specifies, for any two RedefinableElements
-- in a context in which redefinition is possible, whether redefinition
-- would be logically consistent. By default, this is false; this
-- operation must be overridden for subclasses of RedefinableElement to
-- define the consistency conditions.
overriding function Is_Redefinition_Context_Valid
(Self : not null access constant UML_Reply_Action_Proxy;
Redefined : AMF.UML.Redefinable_Elements.UML_Redefinable_Element_Access)
return Boolean;
-- Operation RedefinableElement::isRedefinitionContextValid.
--
-- The query isRedefinitionContextValid() specifies whether the
-- redefinition contexts of this RedefinableElement are properly related
-- to the redefinition contexts of the specified RedefinableElement to
-- allow this element to redefine the other. By default at least one of
-- the redefinition contexts of this element must be a specialization of
-- at least one of the redefinition contexts of the specified element.
overriding function All_Owning_Packages
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Packages.Collections.Set_Of_UML_Package;
-- Operation NamedElement::allOwningPackages.
--
-- The query allOwningPackages() returns all the directly or indirectly
-- owning packages.
overriding function Is_Distinguishable_From
(Self : not null access constant UML_Reply_Action_Proxy;
N : AMF.UML.Named_Elements.UML_Named_Element_Access;
Ns : AMF.UML.Namespaces.UML_Namespace_Access)
return Boolean;
-- Operation NamedElement::isDistinguishableFrom.
--
-- The query isDistinguishableFrom() determines whether two NamedElements
-- may logically co-exist within a Namespace. By default, two named
-- elements are distinguishable if (a) they have unrelated types or (b)
-- they have related types but different names.
overriding function Namespace
(Self : not null access constant UML_Reply_Action_Proxy)
return AMF.UML.Namespaces.UML_Namespace_Access;
-- Operation NamedElement::namespace.
--
-- Missing derivation for NamedElement::/namespace : Namespace
overriding procedure Enter_Element
(Self : not null access constant UML_Reply_Action_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of visitor interface.
overriding procedure Leave_Element
(Self : not null access constant UML_Reply_Action_Proxy;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of visitor interface.
overriding procedure Visit_Element
(Self : not null access constant UML_Reply_Action_Proxy;
Iterator : in out AMF.Visitors.Abstract_Iterator'Class;
Visitor : in out AMF.Visitors.Abstract_Visitor'Class;
Control : in out AMF.Visitors.Traverse_Control);
-- Dispatch call to corresponding subprogram of iterator interface.
end AMF.Internals.UML_Reply_Actions;
| 46.563725
| 106
| 0.689599
|
0334922bafe7cb01f738a8ed82fccde672c8b7ff
| 8,671
|
adb
|
Ada
|
llvm-gcc-4.2-2.9/gcc/ada/krunch.adb
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | 1
|
2016-04-09T02:58:13.000Z
|
2016-04-09T02:58:13.000Z
|
llvm-gcc-4.2-2.9/gcc/ada/krunch.adb
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | null | null | null |
llvm-gcc-4.2-2.9/gcc/ada/krunch.adb
|
vidkidz/crossbridge
|
ba0bf94aee0ce6cf7eb5be882382e52bc57ba396
|
[
"MIT"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT COMPILER COMPONENTS --
-- --
-- K R U N C H --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2005, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 51 Franklin Street, Fifth Floor, --
-- Boston, MA 02110-1301, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Hostparm;
procedure Krunch
(Buffer : in out String;
Len : in out Natural;
Maxlen : Natural;
No_Predef : Boolean)
is
-- LLVM local
pragma Assert (Buffer'First = 1);
B1 : Character renames Buffer (1);
Curlen : Natural;
Krlen : Natural;
Num_Seps : Natural;
Startloc : Natural;
J : Natural;
begin
-- Deal with special predefined children cases. Startloc is the first
-- location for the krunch, set to 1, except for the predefined children
-- case, where it is set to 3, to start after the standard prefix.
if No_Predef then
Startloc := 1;
Curlen := Len;
Krlen := Maxlen;
elsif Len >= 18
and then Buffer (1 .. 17) = "ada-wide_text_io-"
then
Startloc := 3;
Buffer (2 .. 5) := "-wt-";
Buffer (6 .. Len - 12) := Buffer (18 .. Len);
Curlen := Len - 12;
Krlen := 8;
elsif Len >= 23
and then Buffer (1 .. 22) = "ada-wide_wide_text_io-"
then
Startloc := 3;
Buffer (2 .. 5) := "-zt-";
Buffer (6 .. Len - 17) := Buffer (23 .. Len);
Curlen := Len - 17;
Krlen := 8;
elsif Len >= 4 and then Buffer (1 .. 4) = "ada-" then
Startloc := 3;
Buffer (2 .. Len - 2) := Buffer (4 .. Len);
Curlen := Len - 2;
Krlen := 8;
elsif Len >= 5 and then Buffer (1 .. 5) = "gnat-" then
Startloc := 3;
Buffer (2 .. Len - 3) := Buffer (5 .. Len);
Curlen := Len - 3;
Krlen := 8;
elsif Len >= 7 and then Buffer (1 .. 7) = "system-" then
Startloc := 3;
Buffer (2 .. Len - 5) := Buffer (7 .. Len);
Curlen := Len - 5;
Krlen := 8;
elsif Len >= 11 and then Buffer (1 .. 11) = "interfaces-" then
Startloc := 3;
Buffer (2 .. Len - 9) := Buffer (11 .. Len);
Curlen := Len - 9;
Krlen := 8;
-- For the renamings in the obsolescent section, we also force krunching
-- to 8 characters, but no other special processing is required here.
-- Note that text_io and calendar are already short enough anyway.
elsif (Len = 9 and then Buffer (1 .. 9) = "direct_io")
or else (Len = 10 and then Buffer (1 .. 10) = "interfaces")
or else (Len = 13 and then Buffer (1 .. 13) = "io_exceptions")
or else (Len = 12 and then Buffer (1 .. 12) = "machine_code")
or else (Len = 13 and then Buffer (1 .. 13) = "sequential_io")
or else (Len = 20 and then Buffer (1 .. 20) = "unchecked_conversion")
or else (Len = 22 and then Buffer (1 .. 22) = "unchecked_deallocation")
then
Startloc := 1;
Krlen := 8;
Curlen := Len;
-- Special case of a child unit whose parent unit is a single letter that
-- is A, G, I, or S. In order to prevent confusion with krunched names
-- of predefined units use a tilde rather than a minus as the second
-- character of the file name. On VMS a tilde is an illegal character
-- in a file name, so a dollar_sign is used instead.
elsif Len > 1
and then Buffer (2) = '-'
and then (B1 = 'a' or else B1 = 'g' or else B1 = 'i' or else B1 = 's')
and then Len <= Maxlen
then
if Hostparm.OpenVMS then
Buffer (2) := '$';
else
Buffer (2) := '~';
end if;
return;
-- Normal case, not a predefined file
else
Startloc := 1;
Curlen := Len;
Krlen := Maxlen;
end if;
-- Immediate return if file name is short enough now
if Curlen <= Krlen then
Len := Curlen;
return;
end if;
-- If string contains Wide_Wide, replace by a single z
J := Startloc;
while J <= Curlen - 8 loop
if Buffer (J .. J + 8) = "wide_wide"
and then (J = Startloc
or else Buffer (J - 1) = '-'
or else Buffer (J - 1) = '_')
and then (J + 8 = Curlen
or else Buffer (J + 9) = '-'
or else Buffer (J + 9) = '_')
then
Buffer (J) := 'z';
Buffer (J + 1 .. Curlen - 8) := Buffer (J + 9 .. Curlen);
Curlen := Curlen - 8;
end if;
J := J + 1;
end loop;
-- For now, refuse to krunch a name that contains an ESC character (wide
-- character sequence) since it's too much trouble to do this right ???
for J in 1 .. Curlen loop
if Buffer (J) = ASCII.ESC then
return;
end if;
end loop;
-- Count number of separators (minus signs and underscores) and for now
-- replace them by spaces. We keep them around till the end to control
-- the krunching process, and then we eliminate them as the last step
Num_Seps := 0;
for J in Startloc .. Curlen loop
if Buffer (J) = '-' or else Buffer (J) = '_' then
Buffer (J) := ' ';
Num_Seps := Num_Seps + 1;
end if;
end loop;
-- Now we do the one character at a time krunch till we are short enough
while Curlen - Num_Seps > Krlen loop
declare
Long_Length : Natural := 0;
Long_Last : Natural := 0;
Piece_Start : Natural;
Ptr : Natural;
begin
Ptr := Startloc;
-- Loop through pieces to find longest piece
while Ptr <= Curlen loop
Piece_Start := Ptr;
-- Loop through characters in one piece of name
while Ptr <= Curlen and then Buffer (Ptr) /= ' ' loop
Ptr := Ptr + 1;
end loop;
if Ptr - Piece_Start > Long_Length then
Long_Length := Ptr - Piece_Start;
Long_Last := Ptr - 1;
end if;
Ptr := Ptr + 1;
end loop;
-- Remove last character of longest piece
if Long_Last < Curlen then
Buffer (Long_Last .. Curlen - 1) :=
Buffer (Long_Last + 1 .. Curlen);
end if;
Curlen := Curlen - 1;
end;
end loop;
-- Final step, remove the spaces
Len := 0;
for J in 1 .. Curlen loop
if Buffer (J) /= ' ' then
Len := Len + 1;
Buffer (Len) := Buffer (J);
end if;
end loop;
return;
end Krunch;
| 34.40873
| 78
| 0.495445
|
c7a0b8ddfd9eaf4c75b47f3360178021eef3ffa0
| 4,852
|
ads
|
Ada
|
src/asf-lifecycles.ads
|
My-Colaborations/ada-asf
|
29cf62f17755c3af6f1be542d072c007bc569f7e
|
[
"Apache-2.0"
] | null | null | null |
src/asf-lifecycles.ads
|
My-Colaborations/ada-asf
|
29cf62f17755c3af6f1be542d072c007bc569f7e
|
[
"Apache-2.0"
] | null | null | null |
src/asf-lifecycles.ads
|
My-Colaborations/ada-asf
|
29cf62f17755c3af6f1be542d072c007bc569f7e
|
[
"Apache-2.0"
] | null | null | null |
-----------------------------------------------------------------------
-- asf-lifecycles -- Lifecycle
-- Copyright (C) 2010, 2011, 2012, 2018 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
with Ada.Finalization;
with ASF.Events.Phases;
with ASF.Contexts.Faces;
with Util.Concurrent.Arrays;
with ASF.Applications.Views;
package ASF.Lifecycles is
subtype Phase_Type is
Events.Phases.Phase_Type range Events.Phases.RESTORE_VIEW .. Events.Phases.RENDER_RESPONSE;
type Phase_Controller is abstract tagged limited private;
type Phase_Controller_Access is access all Phase_Controller'Class;
type Phase_Controller_Array is array (Phase_Type) of Phase_Controller_Access;
-- Execute the phase.
procedure Execute (Controller : in Phase_Controller;
Context : in out ASF.Contexts.Faces.Faces_Context'Class) is abstract;
-- Initialize the phase controller.
procedure Initialize (Controller : in out Phase_Controller;
Views : ASF.Applications.Views.View_Handler_Access) is null;
type Lifecycle is abstract new Ada.Finalization.Limited_Controlled with private;
type Lifecycle_Access is access all Lifecycle'Class;
-- Creates the phase controllers by invoking the <b>Set_Controller</b>
-- procedure for each phase. This is called by <b>Initialize</b> to build
-- the lifecycle handler.
procedure Create_Phase_Controllers (Controller : in out Lifecycle) is abstract;
-- Initialize the the lifecycle handler.
procedure Initialize (Controller : in out Lifecycle;
Views : ASF.Applications.Views.View_Handler_Access);
-- Finalize the lifecycle handler, freeing the allocated storage.
overriding
procedure Finalize (Controller : in out Lifecycle);
-- Set the controller to be used for the given phase.
procedure Set_Controller (Controller : in out Lifecycle;
Phase : in Phase_Type;
Instance : in Phase_Controller_Access);
-- Register a bundle and bind it to a facelet variable.
procedure Execute (Controller : in Lifecycle;
Context : in out ASF.Contexts.Faces.Faces_Context'Class);
-- Render the response by executing the response phase.
procedure Render (Controller : in Lifecycle;
Context : in out ASF.Contexts.Faces.Faces_Context'Class);
-- Add a phase listener in the lifecycle controller.
procedure Add_Phase_Listener (Controller : in out Lifecycle;
Listener : in ASF.Events.Phases.Phase_Listener_Access);
-- Remove a phase listener that was registered in the lifecycle controller.
procedure Remove_Phase_Listener (Controller : in out Lifecycle;
Listener : in ASF.Events.Phases.Phase_Listener_Access);
private
type Phase_Controller is abstract tagged limited null record;
use type ASF.Events.Phases.Phase_Listener_Access;
-- Use the concurrent arrays package so that we can insert phase listeners while
-- we also have the lifecycle manager which invokes listeners for the existing requests.
package Listener_Vectors is
new Util.Concurrent.Arrays (Element_Type => ASF.Events.Phases.Phase_Listener_Access);
-- Execute the lifecycle controller associated with the phase defined in <b>Phase</b>.
-- Before processing, setup the faces context to update the current phase, then invoke
-- the <b>Before_Phase</b> actions of the phase listeners. After execution of the controller
-- invoke the <b>After_Phase</b> actions of the phase listeners.
-- If an exception is raised, catch it and save it in the faces context.
procedure Execute (Controller : in Lifecycle;
Context : in out ASF.Contexts.Faces.Faces_Context'Class;
Listeners : in Listener_Vectors.Ref;
Phase : in Phase_Type);
type Lifecycle is abstract new Ada.Finalization.Limited_Controlled with record
Controllers : Phase_Controller_Array;
Listeners : Listener_Vectors.Vector;
end record;
end ASF.Lifecycles;
| 46.209524
| 97
| 0.684666
|
8babeb3bfde020d8cc7495e868d6163fec92ad25
| 1,142
|
ads
|
Ada
|
tests/tk-ttkentry-ttk_entry_options_test_data-ttk_entry_options_tests.ads
|
thindil/tashy2
|
43fcbadb33c0062b2c8d6138a8238441dec5fd80
|
[
"Apache-2.0"
] | 2
|
2020-12-09T07:27:07.000Z
|
2021-10-19T13:31:54.000Z
|
tests/tk-ttkentry-ttk_entry_options_test_data-ttk_entry_options_tests.ads
|
thindil/tashy2
|
43fcbadb33c0062b2c8d6138a8238441dec5fd80
|
[
"Apache-2.0"
] | null | null | null |
tests/tk-ttkentry-ttk_entry_options_test_data-ttk_entry_options_tests.ads
|
thindil/tashy2
|
43fcbadb33c0062b2c8d6138a8238441dec5fd80
|
[
"Apache-2.0"
] | null | null | null |
-- This package has been generated automatically by GNATtest.
-- Do not edit any part of it, see GNATtest documentation for more details.
-- begin read only
with GNATtest_Generated;
package Tk.TtkEntry.Ttk_Entry_Options_Test_Data.Ttk_Entry_Options_Tests is
type Test_Ttk_Entry_Options is new GNATtest_Generated.GNATtest_Standard.Tk
.TtkEntry
.Ttk_Entry_Options_Test_Data
.Test_Ttk_Entry_Options with
null record;
procedure Test_Create_32e405_dfac50
(Gnattest_T: in out Test_Ttk_Entry_Options);
-- tk-ttkentry.ads:243:4:Create:Test_Create_TtkEntry1
procedure Test_Create_ebbdc1_d3f88f
(Gnattest_T: in out Test_Ttk_Entry_Options);
-- tk-ttkentry.ads:275:4:Create:Test_Create_TtkEntry2
procedure Test_Get_Options_ded36e_af90f3
(Gnattest_T: in out Test_Ttk_Entry_Options);
-- tk-ttkentry.ads:300:4:Get_Options:Test_Get_Options_TtkEntry
procedure Test_Configure_0076be_30574d
(Gnattest_T: in out Test_Ttk_Entry_Options);
-- tk-ttkentry.ads:321:4:Configure:Test_Configure_TtkEntry
end Tk.TtkEntry.Ttk_Entry_Options_Test_Data.Ttk_Entry_Options_Tests;
-- end read only
| 34.606061
| 77
| 0.794221
|
a091adcd1700a0515d10a7dcf804fbdcece5c45f
| 17,358
|
ads
|
Ada
|
arch/ARM/STM32/svd/stm32l5x2/stm32_svd-i2c.ads
|
morbos/Ada_Drivers_Library
|
a4ab26799be60997c38735f4056160c4af597ef7
|
[
"BSD-3-Clause"
] | 2
|
2018-05-16T03:56:39.000Z
|
2019-07-31T13:53:56.000Z
|
arch/ARM/STM32/svd/stm32l5x2/stm32_svd-i2c.ads
|
morbos/Ada_Drivers_Library
|
a4ab26799be60997c38735f4056160c4af597ef7
|
[
"BSD-3-Clause"
] | null | null | null |
arch/ARM/STM32/svd/stm32l5x2/stm32_svd-i2c.ads
|
morbos/Ada_Drivers_Library
|
a4ab26799be60997c38735f4056160c4af597ef7
|
[
"BSD-3-Clause"
] | null | null | null |
-- This spec has been automatically generated from STM32L5x2.svd
pragma Restrictions (No_Elaboration_Code);
pragma Ada_2012;
pragma Style_Checks (Off);
with HAL;
with System;
package STM32_SVD.I2C is
pragma Preelaborate;
---------------
-- Registers --
---------------
subtype CR1_DNF_Field is HAL.UInt4;
-- Control register 1
type CR1_Register is record
-- Peripheral enable
PE : Boolean := False;
-- TX Interrupt enable
TXIE : Boolean := False;
-- RX Interrupt enable
RXIE : Boolean := False;
-- Address match interrupt enable (slave only)
ADDRIE : Boolean := False;
-- Not acknowledge received interrupt enable
NACKIE : Boolean := False;
-- STOP detection Interrupt enable
STOPIE : Boolean := False;
-- Transfer Complete interrupt enable
TCIE : Boolean := False;
-- Error interrupts enable
ERRIE : Boolean := False;
-- Digital noise filter
DNF : CR1_DNF_Field := 16#0#;
-- Analog noise filter OFF
ANFOFF : Boolean := False;
-- unspecified
Reserved_13_13 : HAL.Bit := 16#0#;
-- DMA transmission requests enable
TXDMAEN : Boolean := False;
-- DMA reception requests enable
RXDMAEN : Boolean := False;
-- Slave byte control
SBC : Boolean := False;
-- Clock stretching disable
NOSTRETCH : Boolean := False;
-- Wakeup from STOP enable
WUPEN : Boolean := False;
-- General call enable
GCEN : Boolean := False;
-- SMBus Host address enable
SMBHEN : Boolean := False;
-- SMBus Device Default address enable
SMBDEN : Boolean := False;
-- SMBUS alert enable
ALERTEN : Boolean := False;
-- PEC enable
PECEN : Boolean := False;
-- unspecified
Reserved_24_31 : HAL.UInt8 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for CR1_Register use record
PE at 0 range 0 .. 0;
TXIE at 0 range 1 .. 1;
RXIE at 0 range 2 .. 2;
ADDRIE at 0 range 3 .. 3;
NACKIE at 0 range 4 .. 4;
STOPIE at 0 range 5 .. 5;
TCIE at 0 range 6 .. 6;
ERRIE at 0 range 7 .. 7;
DNF at 0 range 8 .. 11;
ANFOFF at 0 range 12 .. 12;
Reserved_13_13 at 0 range 13 .. 13;
TXDMAEN at 0 range 14 .. 14;
RXDMAEN at 0 range 15 .. 15;
SBC at 0 range 16 .. 16;
NOSTRETCH at 0 range 17 .. 17;
WUPEN at 0 range 18 .. 18;
GCEN at 0 range 19 .. 19;
SMBHEN at 0 range 20 .. 20;
SMBDEN at 0 range 21 .. 21;
ALERTEN at 0 range 22 .. 22;
PECEN at 0 range 23 .. 23;
Reserved_24_31 at 0 range 24 .. 31;
end record;
subtype CR2_SADD_Field is HAL.UInt10;
subtype CR2_NBYTES_Field is HAL.UInt8;
-- Control register 2
type CR2_Register is record
-- Slave address bit (master mode)
SADD : CR2_SADD_Field := 16#0#;
-- Transfer direction (master mode)
RD_WRN : Boolean := False;
-- 10-bit addressing mode (master mode)
ADD10 : Boolean := False;
-- 10-bit address header only read direction (master receiver mode)
HEAD10R : Boolean := False;
-- Start generation
START : Boolean := False;
-- Stop generation (master mode)
STOP : Boolean := False;
-- NACK generation (slave mode)
NACK : Boolean := False;
-- Number of bytes
NBYTES : CR2_NBYTES_Field := 16#0#;
-- NBYTES reload mode
RELOAD : Boolean := False;
-- Automatic end mode (master mode)
AUTOEND : Boolean := False;
-- Packet error checking byte
PECBYTE : Boolean := False;
-- unspecified
Reserved_27_31 : HAL.UInt5 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for CR2_Register use record
SADD at 0 range 0 .. 9;
RD_WRN at 0 range 10 .. 10;
ADD10 at 0 range 11 .. 11;
HEAD10R at 0 range 12 .. 12;
START at 0 range 13 .. 13;
STOP at 0 range 14 .. 14;
NACK at 0 range 15 .. 15;
NBYTES at 0 range 16 .. 23;
RELOAD at 0 range 24 .. 24;
AUTOEND at 0 range 25 .. 25;
PECBYTE at 0 range 26 .. 26;
Reserved_27_31 at 0 range 27 .. 31;
end record;
subtype OAR1_OA1_Field is HAL.UInt10;
-- Own address register 1
type OAR1_Register is record
-- Interface address
OA1 : OAR1_OA1_Field := 16#0#;
-- Own Address 1 10-bit mode
OA1MODE : Boolean := False;
-- unspecified
Reserved_11_14 : HAL.UInt4 := 16#0#;
-- Own Address 1 enable
OA1EN : Boolean := False;
-- unspecified
Reserved_16_31 : HAL.UInt16 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for OAR1_Register use record
OA1 at 0 range 0 .. 9;
OA1MODE at 0 range 10 .. 10;
Reserved_11_14 at 0 range 11 .. 14;
OA1EN at 0 range 15 .. 15;
Reserved_16_31 at 0 range 16 .. 31;
end record;
subtype OAR2_OA2_Field is HAL.UInt7;
subtype OAR2_OA2MSK_Field is HAL.UInt3;
-- Own address register 2
type OAR2_Register is record
-- unspecified
Reserved_0_0 : HAL.Bit := 16#0#;
-- Interface address
OA2 : OAR2_OA2_Field := 16#0#;
-- Own Address 2 masks
OA2MSK : OAR2_OA2MSK_Field := 16#0#;
-- unspecified
Reserved_11_14 : HAL.UInt4 := 16#0#;
-- Own Address 2 enable
OA2EN : Boolean := False;
-- unspecified
Reserved_16_31 : HAL.UInt16 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for OAR2_Register use record
Reserved_0_0 at 0 range 0 .. 0;
OA2 at 0 range 1 .. 7;
OA2MSK at 0 range 8 .. 10;
Reserved_11_14 at 0 range 11 .. 14;
OA2EN at 0 range 15 .. 15;
Reserved_16_31 at 0 range 16 .. 31;
end record;
subtype TIMINGR_SCLL_Field is HAL.UInt8;
subtype TIMINGR_SCLH_Field is HAL.UInt8;
subtype TIMINGR_SDADEL_Field is HAL.UInt4;
subtype TIMINGR_SCLDEL_Field is HAL.UInt4;
subtype TIMINGR_PRESC_Field is HAL.UInt4;
-- Timing register
type TIMINGR_Register is record
-- SCL low period (master mode)
SCLL : TIMINGR_SCLL_Field := 16#0#;
-- SCL high period (master mode)
SCLH : TIMINGR_SCLH_Field := 16#0#;
-- Data hold time
SDADEL : TIMINGR_SDADEL_Field := 16#0#;
-- Data setup time
SCLDEL : TIMINGR_SCLDEL_Field := 16#0#;
-- unspecified
Reserved_24_27 : HAL.UInt4 := 16#0#;
-- Timing prescaler
PRESC : TIMINGR_PRESC_Field := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for TIMINGR_Register use record
SCLL at 0 range 0 .. 7;
SCLH at 0 range 8 .. 15;
SDADEL at 0 range 16 .. 19;
SCLDEL at 0 range 20 .. 23;
Reserved_24_27 at 0 range 24 .. 27;
PRESC at 0 range 28 .. 31;
end record;
subtype TIMEOUTR_TIMEOUTA_Field is HAL.UInt12;
subtype TIMEOUTR_TIMEOUTB_Field is HAL.UInt12;
-- Status register 1
type TIMEOUTR_Register is record
-- Bus timeout A
TIMEOUTA : TIMEOUTR_TIMEOUTA_Field := 16#0#;
-- Idle clock timeout detection
TIDLE : Boolean := False;
-- unspecified
Reserved_13_14 : HAL.UInt2 := 16#0#;
-- Clock timeout enable
TIMOUTEN : Boolean := False;
-- Bus timeout B
TIMEOUTB : TIMEOUTR_TIMEOUTB_Field := 16#0#;
-- unspecified
Reserved_28_30 : HAL.UInt3 := 16#0#;
-- Extended clock timeout enable
TEXTEN : Boolean := False;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for TIMEOUTR_Register use record
TIMEOUTA at 0 range 0 .. 11;
TIDLE at 0 range 12 .. 12;
Reserved_13_14 at 0 range 13 .. 14;
TIMOUTEN at 0 range 15 .. 15;
TIMEOUTB at 0 range 16 .. 27;
Reserved_28_30 at 0 range 28 .. 30;
TEXTEN at 0 range 31 .. 31;
end record;
subtype ISR_ADDCODE_Field is HAL.UInt7;
-- Interrupt and Status register
type ISR_Register is record
-- Transmit data register empty (transmitters)
TXE : Boolean := True;
-- Transmit interrupt status (transmitters)
TXIS : Boolean := False;
-- Read-only. Receive data register not empty (receivers)
RXNE : Boolean := False;
-- Read-only. Address matched (slave mode)
ADDR : Boolean := False;
-- Read-only. Not acknowledge received flag
NACKF : Boolean := False;
-- Read-only. Stop detection flag
STOPF : Boolean := False;
-- Read-only. Transfer Complete (master mode)
TC : Boolean := False;
-- Read-only. Transfer Complete Reload
TCR : Boolean := False;
-- Read-only. Bus error
BERR : Boolean := False;
-- Read-only. Arbitration lost
ARLO : Boolean := False;
-- Read-only. Overrun/Underrun (slave mode)
OVR : Boolean := False;
-- Read-only. PEC Error in reception
PECERR : Boolean := False;
-- Read-only. Timeout or t_low detection flag
TIMEOUT : Boolean := False;
-- Read-only. SMBus alert
ALERT : Boolean := False;
-- unspecified
Reserved_14_14 : HAL.Bit := 16#0#;
-- Read-only. Bus busy
BUSY : Boolean := False;
-- Read-only. Transfer direction (Slave mode)
DIR : Boolean := False;
-- Read-only. Address match code (Slave mode)
ADDCODE : ISR_ADDCODE_Field := 16#0#;
-- unspecified
Reserved_24_31 : HAL.UInt8 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for ISR_Register use record
TXE at 0 range 0 .. 0;
TXIS at 0 range 1 .. 1;
RXNE at 0 range 2 .. 2;
ADDR at 0 range 3 .. 3;
NACKF at 0 range 4 .. 4;
STOPF at 0 range 5 .. 5;
TC at 0 range 6 .. 6;
TCR at 0 range 7 .. 7;
BERR at 0 range 8 .. 8;
ARLO at 0 range 9 .. 9;
OVR at 0 range 10 .. 10;
PECERR at 0 range 11 .. 11;
TIMEOUT at 0 range 12 .. 12;
ALERT at 0 range 13 .. 13;
Reserved_14_14 at 0 range 14 .. 14;
BUSY at 0 range 15 .. 15;
DIR at 0 range 16 .. 16;
ADDCODE at 0 range 17 .. 23;
Reserved_24_31 at 0 range 24 .. 31;
end record;
-- Interrupt clear register
type ICR_Register is record
-- unspecified
Reserved_0_2 : HAL.UInt3 := 16#0#;
-- Write-only. Address Matched flag clear
ADDRCF : Boolean := False;
-- Write-only. Not Acknowledge flag clear
NACKCF : Boolean := False;
-- Write-only. Stop detection flag clear
STOPCF : Boolean := False;
-- unspecified
Reserved_6_7 : HAL.UInt2 := 16#0#;
-- Write-only. Bus error flag clear
BERRCF : Boolean := False;
-- Write-only. Arbitration lost flag clear
ARLOCF : Boolean := False;
-- Write-only. Overrun/Underrun flag clear
OVRCF : Boolean := False;
-- Write-only. PEC Error flag clear
PECCF : Boolean := False;
-- Write-only. Timeout detection flag clear
TIMOUTCF : Boolean := False;
-- Write-only. Alert flag clear
ALERTCF : Boolean := False;
-- unspecified
Reserved_14_31 : HAL.UInt18 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for ICR_Register use record
Reserved_0_2 at 0 range 0 .. 2;
ADDRCF at 0 range 3 .. 3;
NACKCF at 0 range 4 .. 4;
STOPCF at 0 range 5 .. 5;
Reserved_6_7 at 0 range 6 .. 7;
BERRCF at 0 range 8 .. 8;
ARLOCF at 0 range 9 .. 9;
OVRCF at 0 range 10 .. 10;
PECCF at 0 range 11 .. 11;
TIMOUTCF at 0 range 12 .. 12;
ALERTCF at 0 range 13 .. 13;
Reserved_14_31 at 0 range 14 .. 31;
end record;
subtype PECR_PEC_Field is HAL.UInt8;
-- PEC register
type PECR_Register is record
-- Read-only. Packet error checking register
PEC : PECR_PEC_Field;
-- unspecified
Reserved_8_31 : HAL.UInt24;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for PECR_Register use record
PEC at 0 range 0 .. 7;
Reserved_8_31 at 0 range 8 .. 31;
end record;
subtype RXDR_RXDATA_Field is HAL.UInt8;
-- Receive data register
type RXDR_Register is record
-- Read-only. 8-bit receive data
RXDATA : RXDR_RXDATA_Field;
-- unspecified
Reserved_8_31 : HAL.UInt24;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for RXDR_Register use record
RXDATA at 0 range 0 .. 7;
Reserved_8_31 at 0 range 8 .. 31;
end record;
subtype TXDR_TXDATA_Field is HAL.UInt8;
-- Transmit data register
type TXDR_Register is record
-- 8-bit transmit data
TXDATA : TXDR_TXDATA_Field := 16#0#;
-- unspecified
Reserved_8_31 : HAL.UInt24 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for TXDR_Register use record
TXDATA at 0 range 0 .. 7;
Reserved_8_31 at 0 range 8 .. 31;
end record;
-----------------
-- Peripherals --
-----------------
-- Inter-integrated circuit
type I2C_Peripheral is record
-- Control register 1
CR1 : aliased CR1_Register;
-- Control register 2
CR2 : aliased CR2_Register;
-- Own address register 1
OAR1 : aliased OAR1_Register;
-- Own address register 2
OAR2 : aliased OAR2_Register;
-- Timing register
TIMINGR : aliased TIMINGR_Register;
-- Status register 1
TIMEOUTR : aliased TIMEOUTR_Register;
-- Interrupt and Status register
ISR : aliased ISR_Register;
-- Interrupt clear register
ICR : aliased ICR_Register;
-- PEC register
PECR : aliased PECR_Register;
-- Receive data register
RXDR : aliased RXDR_Register;
-- Transmit data register
TXDR : aliased TXDR_Register;
end record
with Volatile;
for I2C_Peripheral use record
CR1 at 16#0# range 0 .. 31;
CR2 at 16#4# range 0 .. 31;
OAR1 at 16#8# range 0 .. 31;
OAR2 at 16#C# range 0 .. 31;
TIMINGR at 16#10# range 0 .. 31;
TIMEOUTR at 16#14# range 0 .. 31;
ISR at 16#18# range 0 .. 31;
ICR at 16#1C# range 0 .. 31;
PECR at 16#20# range 0 .. 31;
RXDR at 16#24# range 0 .. 31;
TXDR at 16#28# range 0 .. 31;
end record;
-- Inter-integrated circuit
I2C1_Periph : aliased I2C_Peripheral
with Import, Address => System'To_Address (16#40005400#);
-- Inter-integrated circuit
I2C2_Periph : aliased I2C_Peripheral
with Import, Address => System'To_Address (16#40005800#);
-- Inter-integrated circuit
I2C3_Periph : aliased I2C_Peripheral
with Import, Address => System'To_Address (16#40005C00#);
-- Inter-integrated circuit
I2C4_Periph : aliased I2C_Peripheral
with Import, Address => System'To_Address (16#40008400#);
-- Inter-integrated circuit
SEC_I2C1_Periph : aliased I2C_Peripheral
with Import, Address => System'To_Address (16#50005400#);
-- Inter-integrated circuit
SEC_I2C2_Periph : aliased I2C_Peripheral
with Import, Address => System'To_Address (16#50005800#);
-- Inter-integrated circuit
SEC_I2C3_Periph : aliased I2C_Peripheral
with Import, Address => System'To_Address (16#50005C00#);
-- Inter-integrated circuit
SEC_I2C4_Periph : aliased I2C_Peripheral
with Import, Address => System'To_Address (16#50008400#);
end STM32_SVD.I2C;
| 34.304348
| 74
| 0.556343
|
1e70eb33addb79086be504d25b1b2d5bfbc1951d
| 7,412
|
ads
|
Ada
|
src/model/l_system/lse-model-l_system-concrete_builder.ads
|
mgrojo/lsystem-editor
|
1f855bc1f783c8d7a1c81594c8aee403e4b53132
|
[
"MIT"
] | 2
|
2021-01-09T14:49:35.000Z
|
2022-01-18T18:57:45.000Z
|
src/model/l_system/lse-model-l_system-concrete_builder.ads
|
mgrojo/lsystem-editor
|
1f855bc1f783c8d7a1c81594c8aee403e4b53132
|
[
"MIT"
] | 1
|
2021-12-03T18:49:59.000Z
|
2021-12-03T18:49:59.000Z
|
src/model/l_system/lse-model-l_system-concrete_builder.ads
|
mgrojo/lsystem-editor
|
1f855bc1f783c8d7a1c81594c8aee403e4b53132
|
[
"MIT"
] | 1
|
2021-12-03T18:07:44.000Z
|
2021-12-03T18:07:44.000Z
|
-------------------------------------------------------------------------------
-- LSE -- L-System Editor
-- Author: Heziode
--
-- License:
-- MIT License
--
-- Copyright (c) 2018 Quentin Dauprat (Heziode) <Heziode@protonmail.com>
--
-- Permission is hereby granted, free of charge, to any person obtaining a
-- copy of this software and associated documentation files (the "Software"),
-- to deal in the Software without restriction, including without limitation
-- the rights to use, copy, modify, merge, publish, distribute, sublicense,
-- and/or sell copies of the Software, and to permit persons to whom the
-- Software is furnished to do so, subject to the following conditions:
--
-- The above copyright notice and this permission notice shall be included in
-- all copies or substantial portions of the Software.
--
-- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
-- IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
-- FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
-- AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
-- LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
-- FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
-- DEALINGS IN THE SOFTWARE.
-------------------------------------------------------------------------------
with Ada.Containers.Indefinite_Vectors;
with Ada.Strings.Unbounded;
with LSE.Model.Grammar.Symbol_Utils;
with LSE.Model.IO.Turtle_Utils;
with LSE.Model.L_System.Error;
with LSE.Model.L_System.Growth_Rule_Utils;
with LSE.Model.L_System.L_System;
with LSE.Utils.Angle;
use Ada.Containers;
use Ada.Strings.Unbounded;
use LSE.Model.IO.Turtle_Utils;
use LSE.Model.L_System.Error;
use LSE.Model.L_System.Growth_Rule_Utils;
use LSE.Model.L_System.L_System;
use LSE.Model.Grammar.Symbol_Utils;
use LSE.Utils.Angle;
-- @description
-- This package provide a set of methods to build a L-System.
--
package LSE.Model.L_System.Concrete_Builder is
-- Builder of L-System
type Instance is tagged private;
-- Constructor
procedure Initialize (This : out Instance);
-- Build product
-- @return Return True if no error was encountered, False otherwise
function Make (This : out Instance; Item : String) return Boolean;
-- Get the finished product
-- @param Turtle Reference to the turtle
-- @return Return the finished product
function Get_Product (This : Instance;
Turtle : LSE.Model.IO.Turtle_Utils.Holder)
return L_System.Instance;
-- Get the finished product
-- @param Turtle Reference to the turtle
-- @param LS Reference to the L-System
-- @return Return the finished product
procedure Get_Product (This : Instance;
LS : out L_System.Instance;
Turtle : LSE.Model.IO.Turtle_Utils.Holder);
-- Get encountered errors
-- @return Return all errors messages
function Get_Error (This : Instance) return String;
private
package Error_Vector is new
Indefinite_Vectors (Natural, Error.Instance'Class);
use Error_Vector;
package String_Vector is new Indefinite_Vectors (Natural, String);
use String_Vector;
-- Regex to find unexpected characters
Regexp_Global : constant String := "([^\s0-9a-zA-Z-+|\[\].]+)";
-- Regex to get angle
Regexp_Angle : constant String := "^([0-9]+([.][0-9]*)?|[.][0-9]+)";
-- Regex to get axiom
Regexp_Axiom : constant String := "^([a-zA-Z-+|\[\]]+)";
-- Regex to get rule
Regexp_Rule : constant String := "^([a-zA-Z-+|\[\]]\s+[a-zA-Z-+|\[\]]+)";
type Instance is tagged record
-- Axiom
Axiom : LSE.Model.Grammar.Symbol_Utils.P_List.List;
-- Angle
Angle : LSE.Utils.Angle.Angle;
-- Growth rules
Rules : LSE.Model.L_System.Growth_Rule_Utils.P_List.List;
-- Contains all errors found
Error : Error_Vector.Vector;
end record;
-- Split string into several other.
-- @param Item String to split
-- @param Separator Separator used to split
-- @param Vec List that will contains all splitted strings
procedure Parse (Item : String;
Separator : String;
Vec : in out String_Vector.Vector);
-- Concatenate a list of string into one.
-- @param Item Unified string
-- @param Separator Separator used to concatenate
-- @param Vec List that contains all strings to concatenate
procedure Concat (Item : out Unbounded_String;
Separator : String;
Vec : in out String_Vector.Vector);
-- Check if a pattern is matched in string.
-- @param Expression Regex
-- @param Search_In String to check
-- @param First Location of first character matched
-- @param Last Location of last character matched
-- @param Found True if Expression found in Search_In, False otherwise
procedure Search_For_Pattern (Expression, Search_In : String;
First, Last : out Positive;
Found : out Boolean);
-- Get next usable character (skip blanks char, etc.).
-- @param Item String where working
-- @param Last_Index Last index of the string
-- @param First Location of first character matched to the last expression
-- @param Last Location of last character matched to the last expression
-- @return Return True if next sequence available, False otherwise
function Get_Next_Token (Item : out Unbounded_String;
Last_Index : out Positive;
First, Last : Positive)
return Boolean;
-- Make angle.
-- @param This Reference of the instance
-- @param Input String where working
-- @param First Location of first character matched
-- @param Last Location of last character matched
-- @return Return True if angle are get, False otherwise
function Make_Angle (This : out Instance;
Input : Unbounded_String;
First, Last : in out Positive)
return Boolean;
-- Make axiom.
-- @param This Reference of the instance
-- @param Input String where working
-- @param First Location of first character matched
-- @param Last Location of last character matched
-- @return Return True if axiom are get, False otherwise
function Make_Axiom (This : out Instance;
Input : out Unbounded_String;
First, Last : in out Positive)
return Boolean;
-- Make rule (at least one rule are required).
-- @param This Reference of the instance
-- @param Input String where working
-- @param First Location of first character matched
-- @param Last Location of last character matched
-- @return Return True if rule(s) are get, False otherwise
function Make_Rule (This : out Instance;
Input : out Unbounded_String;
First, Last : in out Positive)
return Boolean;
end LSE.Model.L_System.Concrete_Builder;
| 40.950276
| 79
| 0.630194
|
1e90727573ac760161dd2e0cf22b6b3db6102896
| 41
|
ads
|
Ada
|
test/src/vulkan-test.ads
|
persan/a-vulkan
|
0309aaf475a74ee21011f206abc96df2889e9e60
|
[
"MIT"
] | null | null | null |
test/src/vulkan-test.ads
|
persan/a-vulkan
|
0309aaf475a74ee21011f206abc96df2889e9e60
|
[
"MIT"
] | null | null | null |
test/src/vulkan-test.ads
|
persan/a-vulkan
|
0309aaf475a74ee21011f206abc96df2889e9e60
|
[
"MIT"
] | null | null | null |
package Vulkan.Test is
end Vulkan.Test;
| 10.25
| 22
| 0.780488
|
195f519017bd93c95c2d57b1c6cd55cfd5d133fc
| 1,380
|
adb
|
Ada
|
gtk/akt-windows-load_ui_gtk3.adb
|
thierr26/ada-keystore
|
25099a9df3ce9b48a401148eb1b84442011759a0
|
[
"Apache-2.0"
] | null | null | null |
gtk/akt-windows-load_ui_gtk3.adb
|
thierr26/ada-keystore
|
25099a9df3ce9b48a401148eb1b84442011759a0
|
[
"Apache-2.0"
] | null | null | null |
gtk/akt-windows-load_ui_gtk3.adb
|
thierr26/ada-keystore
|
25099a9df3ce9b48a401148eb1b84442011759a0
|
[
"Apache-2.0"
] | null | null | null |
-----------------------------------------------------------------------
-- akt-windows -- GtK Windows for Ada Keystore GTK application
-- Copyright (C) 2019 Stephane Carrez
-- Written by Stephane Carrez (Stephane.Carrez@gmail.com)
--
-- Licensed under the Apache License, Version 2.0 (the "License");
-- you may not use this file except in compliance with the License.
-- You may obtain a copy of the License at
--
-- http://www.apache.org/licenses/LICENSE-2.0
--
-- Unless required by applicable law or agreed to in writing, software
-- distributed under the License is distributed on an "AS IS" BASIS,
-- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-- See the License for the specific language governing permissions and
-- limitations under the License.
-----------------------------------------------------------------------
separate (AKT.Windows)
-- ------------------------------
-- Load the glade XML definition.
-- ------------------------------
procedure Load_UI (Application : in out Application_Type) is
use type Glib.Guint;
Result : Glib.Guint;
Error : aliased Glib.Error.GError;
begin
Result := Application.Builder.Add_From_File ("gatk.glade", Error'Access);
if Result /= 1 then
Log.Error ("Cannot load the 'gatk.glade' configuration file");
raise Initialize_Error;
end if;
end Load_UI;
| 39.428571
| 76
| 0.613043
|
04b7aac3f918c8cce236aae37cb423f9a1589f62
| 3,912
|
ads
|
Ada
|
source/amf/utp/amf-internals-tables-utp_reflection.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 24
|
2016-11-29T06:59:41.000Z
|
2021-08-30T11:55:16.000Z
|
source/amf/utp/amf-internals-tables-utp_reflection.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 2
|
2019-01-16T05:15:20.000Z
|
2019-02-03T10:03:32.000Z
|
source/amf/utp/amf-internals-tables-utp_reflection.ads
|
svn2github/matreshka
|
9d222b3ad9da508855fb1f5adbe5e8a4fad4c530
|
[
"BSD-3-Clause"
] | 4
|
2017-07-18T07:11:05.000Z
|
2020-06-21T03:02:25.000Z
|
------------------------------------------------------------------------------
-- --
-- Matreshka Project --
-- --
-- Ada Modeling Framework --
-- --
-- Runtime Library Component --
-- --
------------------------------------------------------------------------------
-- --
-- Copyright © 2012, Vadim Godunko <vgodunko@gmail.com> --
-- All rights reserved. --
-- --
-- Redistribution and use in source and binary forms, with or without --
-- modification, are permitted provided that the following conditions --
-- are met: --
-- --
-- * Redistributions of source code must retain the above copyright --
-- notice, this list of conditions and the following disclaimer. --
-- --
-- * Redistributions in binary form must reproduce the above copyright --
-- notice, this list of conditions and the following disclaimer in the --
-- documentation and/or other materials provided with the distribution. --
-- --
-- * Neither the name of the Vadim Godunko, IE nor the names of its --
-- contributors may be used to endorse or promote products derived from --
-- this software without specific prior written permission. --
-- --
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS --
-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT --
-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR --
-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT --
-- HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, --
-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED --
-- TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR --
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF --
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING --
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS --
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. --
-- --
------------------------------------------------------------------------------
-- $Revision$ $Date$
------------------------------------------------------------------------------
-- This file is generated, don't edit it.
------------------------------------------------------------------------------
with League.Holders;
package AMF.Internals.Tables.UTP_Reflection is
function Get
(Self : AMF.Internals.AMF_Element;
Property : CMOF_Element) return League.Holders.Holder;
function Get_Meta_Class
(Self : AMF.Internals.AMF_Element) return CMOF_Element;
procedure Set
(Self : AMF.Internals.AMF_Element;
Property : CMOF_Element;
Value : League.Holders.Holder);
end AMF.Internals.Tables.UTP_Reflection;
| 62.095238
| 78
| 0.421779
|
034d46d8832a4437ba51da64cbf472dc2a2a8801
| 6,825
|
ads
|
Ada
|
bb-runtimes/runtimes/ravenscar-full-stm32f3x4/gnat/g-shsh64.ads
|
JCGobbi/Nucleo-STM32F334R8
|
2a0b1b4b2664c92773703ac5e95dcb71979d051c
|
[
"BSD-3-Clause"
] | null | null | null |
bb-runtimes/runtimes/ravenscar-full-stm32f3x4/gnat/g-shsh64.ads
|
JCGobbi/Nucleo-STM32F334R8
|
2a0b1b4b2664c92773703ac5e95dcb71979d051c
|
[
"BSD-3-Clause"
] | null | null | null |
bb-runtimes/runtimes/ravenscar-full-stm32f3x4/gnat/g-shsh64.ads
|
JCGobbi/Nucleo-STM32F334R8
|
2a0b1b4b2664c92773703ac5e95dcb71979d051c
|
[
"BSD-3-Clause"
] | null | null | null |
------------------------------------------------------------------------------
-- --
-- GNAT LIBRARY COMPONENTS --
-- --
-- G N A T . S E C U R E _ H A S H E S . S H A 2 _ 6 4 --
-- --
-- S p e c --
-- --
-- Copyright (C) 2009-2021, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- --
-- --
-- --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
-- This package provides support for the 64-bit FIPS PUB 180-3 functions
-- SHA-384 and SHA-512.
-- This is an internal unit and should not be used directly in applications.
-- Use GNAT.SHA384 and GNAT.SHA512 instead.
with Interfaces;
with GNAT.Byte_Swapping;
with GNAT.Secure_Hashes.SHA2_Common;
package GNAT.Secure_Hashes.SHA2_64 is
subtype Word is Interfaces.Unsigned_64;
package Hash_State is new Hash_Function_State
(Word => Word,
Swap => GNAT.Byte_Swapping.Swap8,
Hash_Bit_Order => System.High_Order_First);
-- SHA-384 and SHA-512 operate on 64-bit big endian words
K : Hash_State.State (0 .. 79) :=
(16#428a2f98d728ae22#, 16#7137449123ef65cd#,
16#b5c0fbcfec4d3b2f#, 16#e9b5dba58189dbbc#,
16#3956c25bf348b538#, 16#59f111f1b605d019#,
16#923f82a4af194f9b#, 16#ab1c5ed5da6d8118#,
16#d807aa98a3030242#, 16#12835b0145706fbe#,
16#243185be4ee4b28c#, 16#550c7dc3d5ffb4e2#,
16#72be5d74f27b896f#, 16#80deb1fe3b1696b1#,
16#9bdc06a725c71235#, 16#c19bf174cf692694#,
16#e49b69c19ef14ad2#, 16#efbe4786384f25e3#,
16#0fc19dc68b8cd5b5#, 16#240ca1cc77ac9c65#,
16#2de92c6f592b0275#, 16#4a7484aa6ea6e483#,
16#5cb0a9dcbd41fbd4#, 16#76f988da831153b5#,
16#983e5152ee66dfab#, 16#a831c66d2db43210#,
16#b00327c898fb213f#, 16#bf597fc7beef0ee4#,
16#c6e00bf33da88fc2#, 16#d5a79147930aa725#,
16#06ca6351e003826f#, 16#142929670a0e6e70#,
16#27b70a8546d22ffc#, 16#2e1b21385c26c926#,
16#4d2c6dfc5ac42aed#, 16#53380d139d95b3df#,
16#650a73548baf63de#, 16#766a0abb3c77b2a8#,
16#81c2c92e47edaee6#, 16#92722c851482353b#,
16#a2bfe8a14cf10364#, 16#a81a664bbc423001#,
16#c24b8b70d0f89791#, 16#c76c51a30654be30#,
16#d192e819d6ef5218#, 16#d69906245565a910#,
16#f40e35855771202a#, 16#106aa07032bbd1b8#,
16#19a4c116b8d2d0c8#, 16#1e376c085141ab53#,
16#2748774cdf8eeb99#, 16#34b0bcb5e19b48a8#,
16#391c0cb3c5c95a63#, 16#4ed8aa4ae3418acb#,
16#5b9cca4f7763e373#, 16#682e6ff3d6b2b8a3#,
16#748f82ee5defb2fc#, 16#78a5636f43172f60#,
16#84c87814a1f0ab72#, 16#8cc702081a6439ec#,
16#90befffa23631e28#, 16#a4506cebde82bde9#,
16#bef9a3f7b2c67915#, 16#c67178f2e372532b#,
16#ca273eceea26619c#, 16#d186b8c721c0c207#,
16#eada7dd6cde0eb1e#, 16#f57d4f7fee6ed178#,
16#06f067aa72176fba#, 16#0a637dc5a2c898a6#,
16#113f9804bef90dae#, 16#1b710b35131c471b#,
16#28db77f523047d84#, 16#32caab7b40c72493#,
16#3c9ebe0a15c9bebc#, 16#431d67c49c100d4c#,
16#4cc5d4becb3e42b6#, 16#597f299cfc657e2a#,
16#5fcb6fab3ad6faec#, 16#6c44198c4a475817#);
-- Constants from FIPS PUB 180-3
function Sigma0 (X : Word) return Word;
function Sigma1 (X : Word) return Word;
function S0 (X : Word) return Word;
function S1 (X : Word) return Word;
pragma Inline (Sigma0, Sigma1, S0, S1);
-- Elementary functions Sigma^512_0, Sigma^512_1, sigma^512_0, sigma^512_1
-- from FIPS PUB 180-3.
procedure Transform is new SHA2_Common.Transform
(Hash_State => Hash_State,
K => K,
Rounds => 80,
Sigma0 => Sigma0,
Sigma1 => Sigma1,
S0 => S0,
S1 => S1);
SHA384_Init_State : constant Hash_State.State :=
(0 => 16#cbbb9d5dc1059ed8#,
1 => 16#629a292a367cd507#,
2 => 16#9159015a3070dd17#,
3 => 16#152fecd8f70e5939#,
4 => 16#67332667ffc00b31#,
5 => 16#8eb44a8768581511#,
6 => 16#db0c2e0d64f98fa7#,
7 => 16#47b5481dbefa4fa4#);
SHA512_Init_State : constant Hash_State.State :=
(0 => 16#6a09e667f3bcc908#,
1 => 16#bb67ae8584caa73b#,
2 => 16#3c6ef372fe94f82b#,
3 => 16#a54ff53a5f1d36f1#,
4 => 16#510e527fade682d1#,
5 => 16#9b05688c2b3e6c1f#,
6 => 16#1f83d9abfb41bd6b#,
7 => 16#5be0cd19137e2179#);
-- Initialization vectors from FIPS PUB 180-3
end GNAT.Secure_Hashes.SHA2_64;
| 51.315789
| 78
| 0.499194
|
5e1dcce73eba331256618d95c32e2ce968f9cdf5
| 7,236
|
adb
|
Ada
|
src/frontend/Experimental_Ada_ROSE_Connection/parser/asis_adapter/source/asis_adapter-element-clauses.adb
|
LaudateCorpus1/rose-1
|
5fe906d2a01253130c5de465aded6a917a8476a0
|
[
"BSD-3-Clause"
] | 488
|
2015-01-09T08:54:48.000Z
|
2022-03-30T07:15:46.000Z
|
src/frontend/Experimental_Ada_ROSE_Connection/parser/asis_adapter/source/asis_adapter-element-clauses.adb
|
LaudateCorpus1/rose-1
|
5fe906d2a01253130c5de465aded6a917a8476a0
|
[
"BSD-3-Clause"
] | 174
|
2015-01-28T18:41:32.000Z
|
2022-03-31T16:51:05.000Z
|
src/frontend/Experimental_Ada_ROSE_Connection/parser/asis_adapter/source/asis_adapter-element-clauses.adb
|
LaudateCorpus1/rose-1
|
5fe906d2a01253130c5de465aded6a917a8476a0
|
[
"BSD-3-Clause"
] | 146
|
2015-04-27T02:48:34.000Z
|
2022-03-04T07:32:53.000Z
|
with Asis.Clauses;
with Asis.Elements;
package body Asis_Adapter.Element.Clauses is
------------
-- EXPORTED:
------------
procedure Do_Pre_Child_Processing
(Element : in Asis.Element;
State : in out Class)
is
Parent_Name : constant String := Module_Name;
Module_Name : constant String := Parent_Name & ".Do_Pre_Child_Processing";
Result : a_nodes_h.Clause_Struct :=
a_nodes_h.Support.Default_Clause_Struct;
Clause_Kind : constant Asis.Clause_Kinds :=
Asis.Elements.Clause_Kind (Element);
-- Supporting procedures are in alphabetical order (except
-- Add_Common_Items comes last):
procedure Add_Clause_Names is
begin
Add_Element_List
(This => State,
Elements_In => Asis.Clauses.Clause_Names (Element),
Dot_Label_Name => "Clause_Name",
List_Out => Result.Clause_Names,
Add_Edges => True);
end;
procedure Add_Component_Clause_Position is
ID : constant a_nodes_h.Expression_ID :=
Get_Element_ID (Asis.Clauses.Component_Clause_Position (Element));
begin
State.Add_To_Dot_Label_And_Edge ("Component_Clause_Position",ID);
Result.Component_Clause_Position := ID;
end;
procedure Add_Component_Clause_Range is
ID : constant a_nodes_h.Element_ID :=
Get_Element_ID (Asis.Clauses.Component_Clause_Range (Element));
begin
State.Add_To_Dot_Label_And_Edge ("Component_Clause_Range", ID);
Result.Component_Clause_Range := ID;
end;
procedure Add_Has_Limited is
Value : constant Boolean := Asis.Elements.Has_Limited (Element);
begin
State.Add_To_Dot_Label ("Has_Limited", Value);
Result.Has_Limited := a_nodes_h.Support.To_bool (Value);
end;
--Clause_Struct takes a Name_ID
procedure Add_Representation_Clause_Name is
ID : constant a_nodes_h.Name_ID :=
Get_Element_ID (Asis.Clauses.Representation_Clause_Name (Element));
begin
State.Add_To_Dot_Label_And_Edge ("Representation_Clause_Name", ID);
Result.Representation_Clause_Name := ID;
end;
-- END Field support
-----------------------------------------------------------------------
-- BEGIN record support:
function Representation_Clause
return a_nodes_h.Representation_Clause_Struct
is
Parent_Name : constant String := Module_Name;
Module_Name : constant String := Parent_Name & ".Representation_Clause";
Result : a_nodes_h.Representation_Clause_Struct :=
a_nodes_h.Support.Default_Representation_Clause_Struct;
Representation_Clause_Kind : constant Asis.Representation_Clause_Kinds :=
Asis.Elements.Representation_Clause_Kind (Element);
-- Supporting procedures are in alphabetical order (except
-- Add_Common_Items comes last):
procedure Add_Component_Clauses is
begin
Add_Element_List
(This => State,
Elements_In => Asis.Clauses.Component_Clauses (Element),
Dot_Label_Name => "Component_Clauses",
List_Out => Result.Component_Clauses,
Add_Edges => True);
end;
procedure Add_Mod_Clause_Expression is
ID : constant a_nodes_h.Expression_ID :=
Get_Element_ID (Asis.Clauses.Mod_Clause_Expression (Element));
begin
State.Add_To_Dot_Label_And_Edge ("Mod_Clause_Expression", ID);
Result.Mod_Clause_Expression := ID;
end;
procedure Add_Pragmas is begin
Add_Element_List
(This => State,
Elements_In => Asis.Elements.Pragmas (Element),
Dot_Label_Name => "Pragmas",
List_Out => Result.Pragmas,
Add_Edges => True);
end;
procedure Add_Representation_Clause_Expression is
ID : constant a_nodes_h.Expression_ID :=
Get_Element_ID (Asis.Clauses.Representation_Clause_Expression (Element));
begin
State.Add_To_Dot_Label_And_Edge ("Representation_Clause_Expression", ID);
Result.Representation_Clause_Expression := ID;
end;
procedure Add_Representation_Clause_Name is
ID : constant a_nodes_h.Name_ID :=
Get_Element_ID (Asis.Clauses.Representation_Clause_Name (Element));
begin
State.Add_To_Dot_Label_And_Edge ("Representation_Clause_Name", ID);
Result.Representation_Clause_Name := ID;
end;
procedure Add_Common_Items is
begin
State.Add_To_Dot_Label("Representation_Clause_Kind", Representation_Clause_Kind'Image);
Result.Representation_Clause_Kind := To_Representation_Clause_Kinds (Representation_Clause_Kind);
Add_Representation_Clause_Name;
end Add_Common_Items;
use all type Asis.Representation_Clause_Kinds;
begin
If Representation_Clause_Kind /= Not_A_Representation_Clause then
Add_Common_Items;
end if;
case Representation_Clause_Kind is
when Not_A_Representation_Clause =>
raise Internal_Error with
Module_Name & " called with: " & Clause_Kind'Image;
when An_Attribute_Definition_Clause =>
Add_Representation_Clause_Expression;
when An_Enumeration_Representation_Clause =>
Add_Representation_Clause_Expression;
when A_Record_Representation_Clause =>
Add_Pragmas;
Add_Mod_Clause_Expression;
Add_Component_Clauses;
when An_At_Clause =>
Add_Representation_Clause_Expression;
end case;
return Result;
end Representation_Clause;
procedure Add_Common_Items is
begin
State.Add_To_Dot_Label ("Clause_Kind", Clause_Kind'Image);
Result.Clause_Kind := To_Clause_Kinds (Clause_Kind);
end Add_Common_Items;
use all type Asis.Clause_Kinds;
begin
If Clause_Kind /= Not_A_Clause then
Add_Common_Items;
end if;
case Clause_Kind is
when Not_A_Clause =>
raise Internal_Error with
Module_Name & " called with: " & Clause_Kind'Image;
when A_Use_Package_Clause =>
Add_Clause_Names;
when A_Use_Type_Clause =>
Add_Clause_Names;
when A_Use_All_Type_Clause => -- A2012
Add_Clause_Names;
when A_With_Clause =>
Add_Has_Limited;
Add_Clause_Names;
when A_Representation_Clause =>
Result.Representation_Clause := Representation_Clause;
when A_Component_Clause =>
Add_Representation_Clause_Name;
Add_Component_Clause_Position;
Add_Component_Clause_Range;
end case;
State.A_Element.Element_Kind := a_nodes_h.A_Clause;
State.A_Element.the_union.clause := Result;
end Do_Pre_Child_Processing;
end Asis_Adapter.Element.Clauses;
| 36.730964
| 109
| 0.636401
|
19367881478b38e956d7d86525d6d9211a8da6cf
| 859
|
ads
|
Ada
|
tests/tk-ttkentry-ttk_entry_options_test_data.ads
|
thindil/tashy2
|
43fcbadb33c0062b2c8d6138a8238441dec5fd80
|
[
"Apache-2.0"
] | 2
|
2020-12-09T07:27:07.000Z
|
2021-10-19T13:31:54.000Z
|
tests/tk-ttkentry-ttk_entry_options_test_data.ads
|
thindil/tashy2
|
43fcbadb33c0062b2c8d6138a8238441dec5fd80
|
[
"Apache-2.0"
] | null | null | null |
tests/tk-ttkentry-ttk_entry_options_test_data.ads
|
thindil/tashy2
|
43fcbadb33c0062b2c8d6138a8238441dec5fd80
|
[
"Apache-2.0"
] | null | null | null |
-- This package is intended to set up and tear down the test environment.
-- Once created by GNATtest, this package will never be overwritten
-- automatically. Contents of this package can be modified in any way
-- except for sections surrounded by a 'read only' marker.
with Tk.TtkWidget.Ttk_Widget_Options_Test_Data.Ttk_Widget_Options_Tests;
with GNATtest_Generated;
package Tk.TtkEntry.Ttk_Entry_Options_Test_Data is
-- begin read only
type Test_Ttk_Entry_Options is new GNATtest_Generated.GNATtest_Standard.Tk
.TtkWidget
.Ttk_Widget_Options_Test_Data
.Ttk_Widget_Options_Tests
.Test_Ttk_Widget_Options
-- end read only
with
null record;
procedure Set_Up(Gnattest_T: in out Test_Ttk_Entry_Options);
procedure Tear_Down(Gnattest_T: in out Test_Ttk_Entry_Options);
end Tk.TtkEntry.Ttk_Entry_Options_Test_Data;
| 33.038462
| 77
| 0.793946
|
9a1932680af3c3528cea8b5bd76ecb807772bb7a
| 226
|
ads
|
Ada
|
src/_demo/output_sink_as_shared_instance/apsepp_demo_osasi_instance_client.ads
|
thierr26/ada-apsepp
|
6eb87079ea57707db4ee1e2215fa170af66b1913
|
[
"MIT"
] | null | null | null |
src/_demo/output_sink_as_shared_instance/apsepp_demo_osasi_instance_client.ads
|
thierr26/ada-apsepp
|
6eb87079ea57707db4ee1e2215fa170af66b1913
|
[
"MIT"
] | null | null | null |
src/_demo/output_sink_as_shared_instance/apsepp_demo_osasi_instance_client.ads
|
thierr26/ada-apsepp
|
6eb87079ea57707db4ee1e2215fa170af66b1913
|
[
"MIT"
] | null | null | null |
-- Copyright (C) 2019 Thierry Rascle <thierr26@free.fr>
-- MIT license. Please refer to the LICENSE file.
package Apsepp_Demo_OSASI_Instance_Client is
procedure Output_Sink_Client;
end Apsepp_Demo_OSASI_Instance_Client;
| 25.111111
| 55
| 0.809735
|
38e486a540b8305cf35b8f071281aa689a4f4255
| 14,653
|
ads
|
Ada
|
src/stm32-i2c.ads
|
damaki/EVB1000
|
1589a3f3bd79d7c9970f3b0758e133e3ec1ee6e2
|
[
"MIT"
] | null | null | null |
src/stm32-i2c.ads
|
damaki/EVB1000
|
1589a3f3bd79d7c9970f3b0758e133e3ec1ee6e2
|
[
"MIT"
] | null | null | null |
src/stm32-i2c.ads
|
damaki/EVB1000
|
1589a3f3bd79d7c9970f3b0758e133e3ec1ee6e2
|
[
"MIT"
] | 1
|
2021-02-10T14:33:06.000Z
|
2021-02-10T14:33:06.000Z
|
-- This spec has been automatically generated from STM32F105xx.svd
pragma Restrictions (No_Elaboration_Code);
pragma Ada_2012;
with System;
package STM32.I2C is
pragma Preelaborate;
---------------
-- Registers --
---------------
------------------
-- CR1_Register --
------------------
subtype CR1_PE_Field is STM32.Bit;
subtype CR1_SMBUS_Field is STM32.Bit;
subtype CR1_SMBTYPE_Field is STM32.Bit;
subtype CR1_ENARP_Field is STM32.Bit;
subtype CR1_ENPEC_Field is STM32.Bit;
subtype CR1_ENGC_Field is STM32.Bit;
subtype CR1_NOSTRETCH_Field is STM32.Bit;
subtype CR1_START_Field is STM32.Bit;
subtype CR1_STOP_Field is STM32.Bit;
subtype CR1_ACK_Field is STM32.Bit;
subtype CR1_POS_Field is STM32.Bit;
subtype CR1_PEC_Field is STM32.Bit;
subtype CR1_ALERT_Field is STM32.Bit;
subtype CR1_SWRST_Field is STM32.Bit;
-- Control register 1
type CR1_Register is record
-- Peripheral enable
PE : CR1_PE_Field := 16#0#;
-- SMBus mode
SMBUS : CR1_SMBUS_Field := 16#0#;
-- unspecified
Reserved_2_2 : STM32.Bit := 16#0#;
-- SMBus type
SMBTYPE : CR1_SMBTYPE_Field := 16#0#;
-- ARP enable
ENARP : CR1_ENARP_Field := 16#0#;
-- PEC enable
ENPEC : CR1_ENPEC_Field := 16#0#;
-- General call enable
ENGC : CR1_ENGC_Field := 16#0#;
-- Clock stretching disable (Slave mode)
NOSTRETCH : CR1_NOSTRETCH_Field := 16#0#;
-- Start generation
START : CR1_START_Field := 16#0#;
-- Stop generation
STOP : CR1_STOP_Field := 16#0#;
-- Acknowledge enable
ACK : CR1_ACK_Field := 16#0#;
-- Acknowledge/PEC Position (for data reception)
POS : CR1_POS_Field := 16#0#;
-- Packet error checking
PEC : CR1_PEC_Field := 16#0#;
-- SMBus alert
ALERT : CR1_ALERT_Field := 16#0#;
-- unspecified
Reserved_14_14 : STM32.Bit := 16#0#;
-- Software reset
SWRST : CR1_SWRST_Field := 16#0#;
-- unspecified
Reserved_16_31 : STM32.Short := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for CR1_Register use record
PE at 0 range 0 .. 0;
SMBUS at 0 range 1 .. 1;
Reserved_2_2 at 0 range 2 .. 2;
SMBTYPE at 0 range 3 .. 3;
ENARP at 0 range 4 .. 4;
ENPEC at 0 range 5 .. 5;
ENGC at 0 range 6 .. 6;
NOSTRETCH at 0 range 7 .. 7;
START at 0 range 8 .. 8;
STOP at 0 range 9 .. 9;
ACK at 0 range 10 .. 10;
POS at 0 range 11 .. 11;
PEC at 0 range 12 .. 12;
ALERT at 0 range 13 .. 13;
Reserved_14_14 at 0 range 14 .. 14;
SWRST at 0 range 15 .. 15;
Reserved_16_31 at 0 range 16 .. 31;
end record;
------------------
-- CR2_Register --
------------------
subtype CR2_FREQ_Field is STM32.UInt6;
subtype CR2_ITERREN_Field is STM32.Bit;
subtype CR2_ITEVTEN_Field is STM32.Bit;
subtype CR2_ITBUFEN_Field is STM32.Bit;
subtype CR2_DMAEN_Field is STM32.Bit;
subtype CR2_LAST_Field is STM32.Bit;
-- Control register 2
type CR2_Register is record
-- Peripheral clock frequency
FREQ : CR2_FREQ_Field := 16#0#;
-- unspecified
Reserved_6_7 : STM32.UInt2 := 16#0#;
-- Error interrupt enable
ITERREN : CR2_ITERREN_Field := 16#0#;
-- Event interrupt enable
ITEVTEN : CR2_ITEVTEN_Field := 16#0#;
-- Buffer interrupt enable
ITBUFEN : CR2_ITBUFEN_Field := 16#0#;
-- DMA requests enable
DMAEN : CR2_DMAEN_Field := 16#0#;
-- DMA last transfer
LAST : CR2_LAST_Field := 16#0#;
-- unspecified
Reserved_13_31 : STM32.UInt19 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for CR2_Register use record
FREQ at 0 range 0 .. 5;
Reserved_6_7 at 0 range 6 .. 7;
ITERREN at 0 range 8 .. 8;
ITEVTEN at 0 range 9 .. 9;
ITBUFEN at 0 range 10 .. 10;
DMAEN at 0 range 11 .. 11;
LAST at 0 range 12 .. 12;
Reserved_13_31 at 0 range 13 .. 31;
end record;
-------------------
-- OAR1_Register --
-------------------
subtype OAR1_ADD0_Field is STM32.Bit;
subtype OAR1_ADD7_Field is STM32.UInt7;
subtype OAR1_ADD10_Field is STM32.UInt2;
subtype OAR1_ADDMODE_Field is STM32.Bit;
-- Own address register 1
type OAR1_Register is record
-- Interface address
ADD0 : OAR1_ADD0_Field := 16#0#;
-- Interface address
ADD7 : OAR1_ADD7_Field := 16#0#;
-- Interface address
ADD10 : OAR1_ADD10_Field := 16#0#;
-- unspecified
Reserved_10_14 : STM32.UInt5 := 16#0#;
-- Addressing mode (slave mode)
ADDMODE : OAR1_ADDMODE_Field := 16#0#;
-- unspecified
Reserved_16_31 : STM32.Short := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for OAR1_Register use record
ADD0 at 0 range 0 .. 0;
ADD7 at 0 range 1 .. 7;
ADD10 at 0 range 8 .. 9;
Reserved_10_14 at 0 range 10 .. 14;
ADDMODE at 0 range 15 .. 15;
Reserved_16_31 at 0 range 16 .. 31;
end record;
-------------------
-- OAR2_Register --
-------------------
subtype OAR2_ENDUAL_Field is STM32.Bit;
subtype OAR2_ADD2_Field is STM32.UInt7;
-- Own address register 2
type OAR2_Register is record
-- Dual addressing mode enable
ENDUAL : OAR2_ENDUAL_Field := 16#0#;
-- Interface address
ADD2 : OAR2_ADD2_Field := 16#0#;
-- unspecified
Reserved_8_31 : STM32.UInt24 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for OAR2_Register use record
ENDUAL at 0 range 0 .. 0;
ADD2 at 0 range 1 .. 7;
Reserved_8_31 at 0 range 8 .. 31;
end record;
-----------------
-- DR_Register --
-----------------
subtype DR_DR_Field is STM32.Byte;
-- Data register
type DR_Register is record
-- 8-bit data register
DR : DR_DR_Field := 16#0#;
-- unspecified
Reserved_8_31 : STM32.UInt24 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for DR_Register use record
DR at 0 range 0 .. 7;
Reserved_8_31 at 0 range 8 .. 31;
end record;
------------------
-- SR1_Register --
------------------
subtype SR1_SB_Field is STM32.Bit;
subtype SR1_ADDR_Field is STM32.Bit;
subtype SR1_BTF_Field is STM32.Bit;
subtype SR1_ADD10_Field is STM32.Bit;
subtype SR1_STOPF_Field is STM32.Bit;
subtype SR1_RxNE_Field is STM32.Bit;
subtype SR1_TxE_Field is STM32.Bit;
subtype SR1_BERR_Field is STM32.Bit;
subtype SR1_ARLO_Field is STM32.Bit;
subtype SR1_AF_Field is STM32.Bit;
subtype SR1_OVR_Field is STM32.Bit;
subtype SR1_PECERR_Field is STM32.Bit;
subtype SR1_TIMEOUT_Field is STM32.Bit;
subtype SR1_SMBALERT_Field is STM32.Bit;
-- Status register 1
type SR1_Register is record
-- Read-only. Start bit (Master mode)
SB : SR1_SB_Field := 16#0#;
-- Read-only. Address sent (master mode)/matched (slave mode)
ADDR : SR1_ADDR_Field := 16#0#;
-- Read-only. Byte transfer finished
BTF : SR1_BTF_Field := 16#0#;
-- Read-only. 10-bit header sent (Master mode)
ADD10 : SR1_ADD10_Field := 16#0#;
-- Read-only. Stop detection (slave mode)
STOPF : SR1_STOPF_Field := 16#0#;
-- unspecified
Reserved_5_5 : STM32.Bit := 16#0#;
-- Read-only. Data register not empty (receivers)
RxNE : SR1_RxNE_Field := 16#0#;
-- Read-only. Data register empty (transmitters)
TxE : SR1_TxE_Field := 16#0#;
-- Bus error
BERR : SR1_BERR_Field := 16#0#;
-- Arbitration lost (master mode)
ARLO : SR1_ARLO_Field := 16#0#;
-- Acknowledge failure
AF : SR1_AF_Field := 16#0#;
-- Overrun/Underrun
OVR : SR1_OVR_Field := 16#0#;
-- PEC Error in reception
PECERR : SR1_PECERR_Field := 16#0#;
-- unspecified
Reserved_13_13 : STM32.Bit := 16#0#;
-- Timeout or Tlow error
TIMEOUT : SR1_TIMEOUT_Field := 16#0#;
-- SMBus alert
SMBALERT : SR1_SMBALERT_Field := 16#0#;
-- unspecified
Reserved_16_31 : STM32.Short := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for SR1_Register use record
SB at 0 range 0 .. 0;
ADDR at 0 range 1 .. 1;
BTF at 0 range 2 .. 2;
ADD10 at 0 range 3 .. 3;
STOPF at 0 range 4 .. 4;
Reserved_5_5 at 0 range 5 .. 5;
RxNE at 0 range 6 .. 6;
TxE at 0 range 7 .. 7;
BERR at 0 range 8 .. 8;
ARLO at 0 range 9 .. 9;
AF at 0 range 10 .. 10;
OVR at 0 range 11 .. 11;
PECERR at 0 range 12 .. 12;
Reserved_13_13 at 0 range 13 .. 13;
TIMEOUT at 0 range 14 .. 14;
SMBALERT at 0 range 15 .. 15;
Reserved_16_31 at 0 range 16 .. 31;
end record;
------------------
-- SR2_Register --
------------------
subtype SR2_MSL_Field is STM32.Bit;
subtype SR2_BUSY_Field is STM32.Bit;
subtype SR2_TRA_Field is STM32.Bit;
subtype SR2_GENCALL_Field is STM32.Bit;
subtype SR2_SMBDEFAULT_Field is STM32.Bit;
subtype SR2_SMBHOST_Field is STM32.Bit;
subtype SR2_DUALF_Field is STM32.Bit;
subtype SR2_PEC_Field is STM32.Byte;
-- Status register 2
type SR2_Register is record
-- Read-only. Master/slave
MSL : SR2_MSL_Field;
-- Read-only. Bus busy
BUSY : SR2_BUSY_Field;
-- Read-only. Transmitter/receiver
TRA : SR2_TRA_Field;
-- unspecified
Reserved_3_3 : STM32.Bit;
-- Read-only. General call address (Slave mode)
GENCALL : SR2_GENCALL_Field;
-- Read-only. SMBus device default address (Slave mode)
SMBDEFAULT : SR2_SMBDEFAULT_Field;
-- Read-only. SMBus host header (Slave mode)
SMBHOST : SR2_SMBHOST_Field;
-- Read-only. Dual flag (Slave mode)
DUALF : SR2_DUALF_Field;
-- Read-only. acket error checking register
PEC : SR2_PEC_Field;
-- unspecified
Reserved_16_31 : STM32.Short;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for SR2_Register use record
MSL at 0 range 0 .. 0;
BUSY at 0 range 1 .. 1;
TRA at 0 range 2 .. 2;
Reserved_3_3 at 0 range 3 .. 3;
GENCALL at 0 range 4 .. 4;
SMBDEFAULT at 0 range 5 .. 5;
SMBHOST at 0 range 6 .. 6;
DUALF at 0 range 7 .. 7;
PEC at 0 range 8 .. 15;
Reserved_16_31 at 0 range 16 .. 31;
end record;
------------------
-- CCR_Register --
------------------
subtype CCR_CCR_Field is STM32.UInt12;
subtype CCR_DUTY_Field is STM32.Bit;
subtype CCR_F_S_Field is STM32.Bit;
-- Clock control register
type CCR_Register is record
-- Clock control register in Fast/Standard mode (Master mode)
CCR : CCR_CCR_Field := 16#0#;
-- unspecified
Reserved_12_13 : STM32.UInt2 := 16#0#;
-- Fast mode duty cycle
DUTY : CCR_DUTY_Field := 16#0#;
-- I2C master mode selection
F_S : CCR_F_S_Field := 16#0#;
-- unspecified
Reserved_16_31 : STM32.Short := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for CCR_Register use record
CCR at 0 range 0 .. 11;
Reserved_12_13 at 0 range 12 .. 13;
DUTY at 0 range 14 .. 14;
F_S at 0 range 15 .. 15;
Reserved_16_31 at 0 range 16 .. 31;
end record;
--------------------
-- TRISE_Register --
--------------------
subtype TRISE_TRISE_Field is STM32.UInt6;
-- TRISE register
type TRISE_Register is record
-- Maximum rise time in Fast/Standard mode (Master mode)
TRISE : TRISE_TRISE_Field := 16#2#;
-- unspecified
Reserved_6_31 : STM32.UInt26 := 16#0#;
end record
with Volatile_Full_Access, Size => 32,
Bit_Order => System.Low_Order_First;
for TRISE_Register use record
TRISE at 0 range 0 .. 5;
Reserved_6_31 at 0 range 6 .. 31;
end record;
-----------------
-- Peripherals --
-----------------
-- Inter integrated circuit
type I2C_Peripheral is record
-- Control register 1
CR1 : CR1_Register;
-- Control register 2
CR2 : CR2_Register;
-- Own address register 1
OAR1 : OAR1_Register;
-- Own address register 2
OAR2 : OAR2_Register;
-- Data register
DR : DR_Register;
-- Status register 1
SR1 : SR1_Register;
-- Status register 2
SR2 : SR2_Register;
-- Clock control register
CCR : CCR_Register;
-- TRISE register
TRISE : TRISE_Register;
end record
with Volatile;
for I2C_Peripheral use record
CR1 at 0 range 0 .. 31;
CR2 at 4 range 0 .. 31;
OAR1 at 8 range 0 .. 31;
OAR2 at 12 range 0 .. 31;
DR at 16 range 0 .. 31;
SR1 at 20 range 0 .. 31;
SR2 at 24 range 0 .. 31;
CCR at 28 range 0 .. 31;
TRISE at 32 range 0 .. 31;
end record;
-- Inter integrated circuit
I2C1_Periph : aliased I2C_Peripheral
with Import, Address => I2C1_Base;
-- Inter integrated circuit
I2C2_Periph : aliased I2C_Peripheral
with Import, Address => I2C2_Base;
end STM32.I2C;
| 32.418142
| 68
| 0.557224
|
a0fbfe0bd4a4244ef84e544c1f21b813aa9933e5
| 16,715
|
adb
|
Ada
|
src/config.adb
|
thindil/steamsky
|
d5d7fea622f7994c91017c4cd7ba5e188153556c
|
[
"TCL",
"MIT"
] | 80
|
2017-04-08T23:14:07.000Z
|
2022-02-10T22:30:51.000Z
|
src/config.adb
|
thindil/steamsky
|
d5d7fea622f7994c91017c4cd7ba5e188153556c
|
[
"TCL",
"MIT"
] | 89
|
2017-06-24T08:18:26.000Z
|
2021-11-12T04:37:36.000Z
|
src/config.adb
|
thindil/steamsky
|
d5d7fea622f7994c91017c4cd7ba5e188153556c
|
[
"TCL",
"MIT"
] | 9
|
2018-04-14T16:37:25.000Z
|
2020-03-21T14:33:49.000Z
|
-- Copyright 2016-2021 Bartek thindil Jasicki
--
-- This file is part of Steam Sky.
--
-- Steam Sky is free software: you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation, either version 3 of the License, or
-- (at your option) any later version.
--
-- Steam Sky is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-- GNU General Public License for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with Steam Sky. If not, see <http://www.gnu.org/licenses/>.
with Ada.Directories;
with Ada.Text_IO; use Ada.Text_IO;
with Game; use Game;
package body Config is
procedure Load_Config is
Config_File: File_Type;
Raw_Data, Field_Name, Value: Unbounded_String := Null_Unbounded_String;
Equal_Index: Natural := 0;
function Load_Boolean return Boolean is
begin
if Value = To_Unbounded_String(Source => "Yes") then
return True;
end if;
return False;
end Load_Boolean;
begin
New_Game_Settings := Default_New_Game_Settings;
Game_Settings := Default_Game_Settings;
Open
(File => Config_File, Mode => In_File,
Name => To_String(Source => Save_Directory) & "game.cfg");
Read_Config_File_Loop :
while not End_Of_File(File => Config_File) loop
Raw_Data :=
To_Unbounded_String(Source => Get_Line(File => Config_File));
if Length(Source => Raw_Data) = 0 then
goto End_Of_Loop;
end if;
Equal_Index := Index(Source => Raw_Data, Pattern => "=");
Field_Name := Head(Source => Raw_Data, Count => Equal_Index - 2);
Value :=
Tail
(Source => Raw_Data,
Count => Length(Source => Raw_Data) - Equal_Index - 1);
if Field_Name = To_Unbounded_String(Source => "PlayerName") then
New_Game_Settings.Player_Name := Value;
elsif Field_Name = To_Unbounded_String(Source => "PlayerGender") then
New_Game_Settings.Player_Gender :=
Element(Source => Value, Index => 1);
elsif Field_Name = To_Unbounded_String(Source => "ShipName") then
New_Game_Settings.Ship_Name := Value;
elsif Field_Name = To_Unbounded_String(Source => "PlayerFaction") then
New_Game_Settings.Player_Faction := Value;
elsif Field_Name = To_Unbounded_String(Source => "PlayerCareer") then
New_Game_Settings.Player_Career := Value;
elsif Field_Name = To_Unbounded_String(Source => "StartingBase") then
New_Game_Settings.Starting_Base := Value;
elsif Field_Name =
To_Unbounded_String(Source => "EnemyDamageBonus") then
New_Game_Settings.Enemy_Damage_Bonus :=
Bonus_Type'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "PlayerDamageBonus") then
New_Game_Settings.Player_Damage_Bonus :=
Bonus_Type'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "EnemyMeleeDamageBonus") then
New_Game_Settings.Enemy_Melee_Damage_Bonus :=
Bonus_Type'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "PlayerMeleeDamageBonus") then
New_Game_Settings.Player_Melee_Damage_Bonus :=
Bonus_Type'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "ExperienceBonus") then
New_Game_Settings.Experience_Bonus :=
Bonus_Type'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "ReputationBonus") then
New_Game_Settings.Reputation_Bonus :=
Bonus_Type'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "UpgradeCostBonus") then
New_Game_Settings.Upgrade_Cost_Bonus :=
Bonus_Type'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "PricesBonus") then
New_Game_Settings.Prices_Bonus :=
Bonus_Type'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "DifficultyLevel") then
if To_String(Source => Value) in "VERY_EASY" | "EASY" | "NORMAL" |
"HARD" | "VERY_HARD" | "CUSTOM" then
New_Game_Settings.Difficulty_Level :=
Difficulty_Type'Value(To_String(Source => Value));
else
New_Game_Settings.Difficulty_Level := Default_Difficulty_Type;
end if;
elsif Field_Name = To_Unbounded_String(Source => "AutoRest") then
Game_Settings.Auto_Rest := Load_Boolean;
elsif Field_Name = To_Unbounded_String(Source => "UndockSpeed") then
Game_Settings.Undock_Speed :=
Ship_Speed'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "AutoCenter") then
Game_Settings.Auto_Center := Load_Boolean;
elsif Field_Name = To_Unbounded_String(Source => "AutoReturn") then
Game_Settings.Auto_Return := Load_Boolean;
elsif Field_Name = To_Unbounded_String(Source => "AutoFinish") then
Game_Settings.Auto_Finish := Load_Boolean;
elsif Field_Name = To_Unbounded_String(Source => "LowFuel") then
Game_Settings.Low_Fuel :=
Positive'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "LowDrinks") then
Game_Settings.Low_Drinks :=
Positive'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "LowFood") then
Game_Settings.Low_Food :=
Positive'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "AutoMoveStop") then
Game_Settings.Auto_Move_Stop :=
Auto_Move_Break'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "WindowWidth") then
Game_Settings.Window_Width :=
Positive'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "WindowHeight") then
Game_Settings.Window_Height :=
Positive'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "MessagesLimit") then
Game_Settings.Messages_Limit :=
Positive'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "SavedMessages") then
Game_Settings.Saved_Messages :=
Positive'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "HelpFontSize") then
Game_Settings.Help_Font_Size :=
Positive'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "MapFontSize") then
Game_Settings.Map_Font_Size :=
Positive'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "InterfaceFontSize") then
Game_Settings.Interface_Font_Size :=
Positive'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "InterfaceTheme") then
Game_Settings.Interface_Theme := Value;
elsif Field_Name = To_Unbounded_String(Source => "MessagesOrder") then
Game_Settings.Messages_Order :=
Messages_Order_Type'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "AutoAskForBases") then
Game_Settings.Auto_Ask_For_Bases := Load_Boolean;
elsif Field_Name =
To_Unbounded_String(Source => "AutoAskForEvents") then
Game_Settings.Auto_Ask_For_Events := Load_Boolean;
elsif Field_Name = To_Unbounded_String(Source => "ShowTooltips") then
Game_Settings.Show_Tooltips := Load_Boolean;
elsif Field_Name =
To_Unbounded_String(Source => "ShowLastMessages") then
Game_Settings.Show_Last_Messages := Load_Boolean;
elsif Field_Name =
To_Unbounded_String(Source => "MessagesPosition") then
Game_Settings.Messages_Position :=
Natural'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "FullScreen") then
Game_Settings.Full_Screen := Load_Boolean;
elsif Field_Name =
To_Unbounded_String(Source => "AutoCloseMessagesTime") then
Game_Settings.Auto_Close_Messages_Time :=
Positive'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "AutoSave") then
Game_Settings.Auto_Save :=
Auto_Save_Type'Value(To_String(Source => Value));
elsif Field_Name =
To_Unbounded_String(Source => "TopicsPosition") then
Game_Settings.Topics_Position :=
Natural'Value(To_String(Source => Value));
elsif Field_Name = To_Unbounded_String(Source => "ShowNumbers") then
Game_Settings.Show_Numbers := Load_Boolean;
elsif Field_Name = To_Unbounded_String(Source => "RightButton") then
Game_Settings.Right_Button := Load_Boolean;
elsif Field_Name = To_Unbounded_String(Source => "ListsLimit") then
Game_Settings.Lists_Limit :=
Positive'Value(To_String(Source => Value));
end if;
<<End_Of_Loop>>
end loop Read_Config_File_Loop;
Close(File => Config_File);
exception
when Ada.Directories.Name_Error =>
null;
end Load_Config;
procedure Save_Config is
Config_File: File_Type;
procedure Save_Boolean(Value: Boolean; Name: String) is
begin
if Value then
Put_Line(File => Config_File, Item => Name & " = Yes");
else
Put_Line(File => Config_File, Item => Name & " = No");
end if;
end Save_Boolean;
begin
Create
(File => Config_File, Mode => Append_File,
Name => To_String(Source => Save_Directory) & "game.cfg");
Put_Line
(File => Config_File,
Item =>
"PlayerName = " &
To_String(Source => New_Game_Settings.Player_Name));
Put_Line
(File => Config_File,
Item => "PlayerGender = " & New_Game_Settings.Player_Gender);
Put_Line
(File => Config_File,
Item =>
"ShipName = " & To_String(Source => New_Game_Settings.Ship_Name));
Put_Line
(File => Config_File,
Item =>
"PlayerFaction = " &
To_String(Source => New_Game_Settings.Player_Faction));
Put_Line
(File => Config_File,
Item =>
"PlayerCareer = " &
To_String(Source => New_Game_Settings.Player_Career));
Put_Line
(File => Config_File,
Item =>
"StartingBase = " &
To_String(Source => New_Game_Settings.Starting_Base));
Put_Line
(File => Config_File,
Item =>
"EnemyDamageBonus =" &
Bonus_Type'Image(New_Game_Settings.Enemy_Damage_Bonus));
Put_Line
(File => Config_File,
Item =>
"PlayerDamageBonus =" &
Bonus_Type'Image(New_Game_Settings.Player_Damage_Bonus));
Put_Line
(File => Config_File,
Item =>
"EnemyMeleeDamageBonus =" &
Bonus_Type'Image(New_Game_Settings.Enemy_Melee_Damage_Bonus));
Put_Line
(File => Config_File,
Item =>
"PlayerMeleeDamageBonus =" &
Bonus_Type'Image(New_Game_Settings.Player_Melee_Damage_Bonus));
Put_Line
(File => Config_File,
Item =>
"ExperienceBonus =" &
Bonus_Type'Image(New_Game_Settings.Experience_Bonus));
Put_Line
(File => Config_File,
Item =>
"ReputationBonus =" &
Bonus_Type'Image(New_Game_Settings.Reputation_Bonus));
Put_Line
(File => Config_File,
Item =>
"UpgradeCostBonus =" &
Bonus_Type'Image(New_Game_Settings.Upgrade_Cost_Bonus));
Put_Line
(File => Config_File,
Item =>
"PricesBonus =" & Bonus_Type'Image(New_Game_Settings.Prices_Bonus));
Put_Line
(File => Config_File,
Item =>
"DifficultyLevel = " &
Difficulty_Type'Image(New_Game_Settings.Difficulty_Level));
Save_Boolean(Value => Game_Settings.Auto_Rest, Name => "AutoRest");
Put_Line
(File => Config_File,
Item =>
"UndockSpeed = " & Ship_Speed'Image(Game_Settings.Undock_Speed));
Save_Boolean(Value => Game_Settings.Auto_Center, Name => "AutoCenter");
Save_Boolean(Value => Game_Settings.Auto_Return, Name => "AutoReturn");
Save_Boolean(Value => Game_Settings.Auto_Finish, Name => "AutoFinish");
Put_Line
(File => Config_File,
Item => "LowFuel =" & Positive'Image(Game_Settings.Low_Fuel));
Put_Line
(File => Config_File,
Item => "LowDrinks =" & Positive'Image(Game_Settings.Low_Drinks));
Put_Line
(File => Config_File,
Item => "LowFood =" & Positive'Image(Game_Settings.Low_Food));
Put_Line
(File => Config_File,
Item =>
"AutoMoveStop = " &
Auto_Move_Break'Image(Game_Settings.Auto_Move_Stop));
Put_Line
(File => Config_File,
Item => "WindowWidth =" & Positive'Image(Game_Settings.Window_Width));
Put_Line
(File => Config_File,
Item =>
"WindowHeight =" & Positive'Image(Game_Settings.Window_Height));
Put_Line
(File => Config_File,
Item =>
"MessagesLimit =" & Positive'Image(Game_Settings.Messages_Limit));
Put_Line
(File => Config_File,
Item =>
"SavedMessages =" & Positive'Image(Game_Settings.Saved_Messages));
Put_Line
(File => Config_File,
Item =>
"HelpFontSize =" & Positive'Image(Game_Settings.Help_Font_Size));
Put_Line
(File => Config_File,
Item =>
"MapFontSize =" & Positive'Image(Game_Settings.Map_Font_Size));
Put_Line
(File => Config_File,
Item =>
"InterfaceFontSize =" &
Positive'Image(Game_Settings.Interface_Font_Size));
Put_Line
(File => Config_File,
Item =>
"InterfaceTheme = " &
To_String(Source => Game_Settings.Interface_Theme));
Put_Line
(File => Config_File,
Item =>
"MessagesOrder = " &
Messages_Order_Type'Image(Game_Settings.Messages_Order));
Save_Boolean
(Value => Game_Settings.Auto_Ask_For_Bases, Name => "AutoAskForBases");
Save_Boolean
(Value => Game_Settings.Auto_Ask_For_Events,
Name => "AutoAskForEvents");
Save_Boolean
(Value => Game_Settings.Show_Tooltips, Name => "ShowTooltips");
Save_Boolean
(Value => Game_Settings.Show_Last_Messages,
Name => "ShowLastMessages");
Put_Line
(File => Config_File,
Item =>
"MessagesPosition =" &
Natural'Image(Game_Settings.Messages_Position));
Save_Boolean(Value => Game_Settings.Full_Screen, Name => "FullScreen");
Put_Line
(File => Config_File,
Item =>
"AutoCloseMessagesTime =" &
Positive'Image(Game_Settings.Auto_Close_Messages_Time));
Put_Line
(File => Config_File,
Item =>
"AutoSave = " & Auto_Save_Type'Image(Game_Settings.Auto_Save));
Put_Line
(File => Config_File,
Item =>
"TopicsPosition =" & Natural'Image(Game_Settings.Topics_Position));
Save_Boolean(Value => Game_Settings.Show_Numbers, Name => "ShowNumbers");
Save_Boolean(Value => Game_Settings.Right_Button, Name => "RightButton");
Put_Line
(File => Config_File,
Item => "ListsLimit =" & Positive'Image(Game_Settings.Lists_Limit));
Close(File => Config_File);
end Save_Config;
end Config;
| 43.415584
| 79
| 0.618307
|
030ce4925a0abadbc0e9be2daa5860c0290bc003
| 3,476
|
ada
|
Ada
|
gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/tests/ce/ce2102s.ada
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | 7
|
2020-05-02T17:34:05.000Z
|
2021-10-17T10:15:18.000Z
|
gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/tests/ce/ce2102s.ada
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | null | null | null |
gcc-gcc-7_3_0-release/gcc/testsuite/ada/acats/tests/ce/ce2102s.ada
|
best08618/asylo
|
5a520a9f5c461ede0f32acc284017b737a43898c
|
[
"Apache-2.0"
] | 2
|
2020-07-27T00:22:36.000Z
|
2021-04-01T09:41:02.000Z
|
-- CE2102S.ADA
-- Grant of Unlimited Rights
--
-- Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
-- F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
-- unlimited rights in the software and documentation contained herein.
-- Unlimited rights are defined in DFAR 252.227-7013(a)(19). By making
-- this public release, the Government intends to confer upon all
-- recipients unlimited rights equal to those held by the Government.
-- These rights include rights to use, duplicate, release or disclose the
-- released technical data and computer software in whole or in part, in
-- any manner and for any purpose whatsoever, and to have or permit others
-- to do so.
--
-- DISCLAIMER
--
-- ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
-- DISCLOSED ARE AS IS. THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
-- WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
-- SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
-- OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
-- PARTICULAR PURPOSE OF SAID MATERIAL.
--*
-- OBJECTIVE:
-- CHECK THAT USE_ERROR IS RAISED WHEN RESETTING A FILE OF MODE
-- INOUT_FILE, WHEN INOUT_FILE MODE IS NOT SUPPORTED FOR RESET BY
-- THE IMPLEMENTATION FOR DIRECT FILES.
-- APPLICABILITY CRITERIA:
-- THIS TEST IS APPLICABLE ONLY TO IMPLEMENTATIONS WHICH DO NOT
-- SUPPORT RESET WITH INOUT_FILE MODE FOR DIRECT FILES.
-- HISTORY:
-- TBN 07/23/87 CREATED ORIGINAL TEST.
WITH REPORT; USE REPORT;
WITH DIRECT_IO;
PROCEDURE CE2102S IS
BEGIN
TEST ("CE2102S", "CHECK THAT USE_ERROR IS RAISED WHEN RESETTING " &
"A FILE OF MODE INOUT_FILE, WHEN INOUT_FILE " &
"MODE IS NOT SUPPORTED FOR RESET BY THE " &
"IMPLEMENTATION FOR DIRECT FILES");
DECLARE
PACKAGE DIR IS NEW DIRECT_IO (BOOLEAN);
USE DIR;
FILE1 : FILE_TYPE;
INCOMPLETE : EXCEPTION;
VAR1 : BOOLEAN := FALSE;
BEGIN
BEGIN
CREATE (FILE1, INOUT_FILE, LEGAL_FILE_NAME);
EXCEPTION
WHEN USE_ERROR =>
NOT_APPLICABLE ("USE_ERROR RAISED ON CREATE FOR " &
"INOUT_FILE MODE");
RAISE INCOMPLETE;
WHEN NAME_ERROR =>
NOT_APPLICABLE ("NAME_ERROR RAISED ON CREATE FOR " &
"INOUT_FILE MODE");
RAISE INCOMPLETE;
WHEN OTHERS =>
FAILED ("UNEXPECTED EXCEPTION RAISED ON CREATE");
RAISE INCOMPLETE;
END;
WRITE (FILE1, VAR1);
BEGIN
RESET (FILE1);
NOT_APPLICABLE ("RESET FOR INOUT_FILE MODE IS " &
"SUPPORTED");
EXCEPTION
WHEN USE_ERROR =>
NULL;
WHEN OTHERS =>
FAILED ("UNEXPECTED EXCEPTION RAISED ON RESET");
END;
BEGIN
DELETE (FILE1);
EXCEPTION
WHEN USE_ERROR =>
NULL;
END;
EXCEPTION
WHEN INCOMPLETE =>
NULL;
END;
RESULT;
END CE2102S;
| 35.111111
| 79
| 0.566743
|
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