QueenieFi/Stack_dataset · Datasets at Hugging Face

text stringlengths 4 1.04M
pragma Ada_2005; pragma Style_Checks (Off); with Interfaces.C; use Interfaces.C; with System; with Interfaces.C.Strings; with SDL_stdinc_h; package SDL_main_h is C_LINKAGE : aliased constant String := "C" & ASCII.NUL; -- ..\SDL2_tmp\SDL_main.h:86 -- unsupported macro: main SDL_main -- Simple DirectMedia Layer -- Copyright (C) 1997-2018 Sam Lantinga <slouken@libsdl.org> -- This software is provided 'as-is', without any express or implied -- warranty. In no event will the authors be held liable for any damages -- arising from the use of this software. -- Permission is granted to anyone to use this software for any purpose, -- including commercial applications, and to alter it and redistribute it -- freely, subject to the following restrictions: -- 1. The origin of this software must not be misrepresented; you must not -- claim that you wrote the original software. If you use this software -- in a product, an acknowledgment in the product documentation would be -- appreciated but is not required. -- 2. Altered source versions must be plainly marked as such, and must not be -- misrepresented as being the original software. -- 3. This notice may not be removed or altered from any source distribution. -- --* -- * \file SDL_main.h -- * -- * Redefine main() on some platforms so that it is called by SDL. -- -- On Windows SDL provides WinMain(), which parses the command line and passes -- the arguments to your main function. -- If you provide your own WinMain(), you may define SDL_MAIN_HANDLED -- -- On WinRT, SDL provides a main function that initializes CoreApplication, -- creating an instance of IFrameworkView in the process. -- Please note that #include'ing SDL_main.h is not enough to get a main() -- function working. In non-XAML apps, the file, -- src/main/winrt/SDL_WinRT_main_NonXAML.cpp, or a copy of it, must be compiled -- into the app itself. In XAML apps, the function, SDL_WinRTRunApp must be -- called, with a pointer to the Direct3D-hosted XAML control passed in. -- -- On iOS SDL provides a main function that creates an application delegate -- and starts the iOS application run loop. -- See src/video/uikit/SDL_uikitappdelegate.m for more details. -- -- On Android SDL provides a Java class in SDLActivity.java that is the -- main activity entry point. -- See docs/README-android.md for more details on extending that class. -- -- We need to export SDL_main so it can be launched from Java -- On NACL we use ppapi_simple to set up the application helper code, -- then wait for the first PSE_INSTANCE_DIDCHANGEVIEW event before -- starting the user main function. -- All user code is run in a separate thread by ppapi_simple, thus -- allowing for blocking io to take place via nacl_io -- --* -- * \file SDL_main.h -- * -- * The application's main() function must be called with C linkage, -- * and should be declared like this: -- * \code -- * #ifdef __cplusplus -- * extern "C" -- * #endif -- * int main(int argc, char argv[]) -- { -- * } -- * \endcode -- --* -- * The prototype for the application's main() function -- function SDL_main (argc : int; argv : System.Address) return int; -- ..\SDL2_tmp\SDL_main.h:117 pragma Import (C, SDL_main, "SDL_main"); --* -- * This is called by the real SDL main function to let the rest of the -- * library know that initialization was done properly. -- * -- * Calling this yourself without knowing what you're doing can cause -- * crashes and hard to diagnose problems with your application. -- procedure SDL_SetMainReady; -- ..\SDL2_tmp\SDL_main.h:132 pragma Import (C, SDL_SetMainReady, "SDL_SetMainReady"); --* -- * This can be called to set the application class at startup -- function SDL_RegisterApp (name : Interfaces.C.Strings.chars_ptr; style : SDL_stdinc_h.Uint32; hInst : System.Address) return int; -- ..\SDL2_tmp\SDL_main.h:139 pragma Import (C, SDL_RegisterApp, "SDL_RegisterApp"); procedure SDL_UnregisterApp; -- ..\SDL2_tmp\SDL_main.h:141 pragma Import (C, SDL_UnregisterApp, "SDL_UnregisterApp"); --* -- * \brief Initializes and launches an SDL/WinRT application. -- * -- * \param mainFunction The SDL app's C-style main(). -- * \param reserved Reserved for future use; should be NULL -- * \return 0 on success, -1 on failure. On failure, use SDL_GetError to retrieve more -- * information on the failure. -- -- vi: set ts=4 sw=4 expandtab: end SDL_main_h;
with Ada.Assertions; use Ada.Assertions; with Ada.Containers.Hashed_Maps; use Ada.Containers; with Ada.Text_IO; use Ada.Text_IO; with Ada.Strings.Hash; procedure Day18 is subtype Input_String is String (1 .. 50); type String_Array is array (Input_String'Range) of Input_String; function Array_Hash (A : String_Array) return Hash_Type is Hash : Hash_Type := 0; begin for I in A'Range loop Hash := Hash + Ada.Strings.Hash (A (I)); end loop; return Hash; end Array_Hash; package Array_Maps is new Hashed_Maps (Key_Type => String_Array, Element_Type => Natural, Hash => Array_Hash, Equivalent_Keys => "="); Grid : String_Array; function Count_Neighbors (X_Start, Y_Start : Natural; Char : Character) return Natural is Result : Natural := 0; begin for Y in Y_Start - 1 .. Y_Start + 1 loop for X in X_Start - 1 .. X_Start + 1 loop if (X /= X_Start or Y /= Y_Start) and (X >= Grid'First and X <= Grid'Last) and (Y >= Grid'First and Y <= Grid'Last) then if Grid (Y) (X) = Char then Result := Result + 1; end if; end if; end loop; end loop; return Result; end Count_Neighbors; function Change_Tile (X, Y : Positive) return Character is Current_Tile : constant Character := Grid (Y) (X); New_Tile : Character := Current_Tile; begin if Current_Tile = '.' then if Count_Neighbors (X, Y, '\|') >= 3 then New_Tile := '\|'; end if; elsif Current_Tile = '\|' then if Count_Neighbors (X, Y, '#') >= 3 then New_Tile := '#'; end if; elsif Current_Tile = '#' then if Count_Neighbors (X, Y, '#') = 0 or Count_Neighbors (X, Y, '\|') = 0 then New_Tile := '.'; end if; else Assert (False, "Illegal tile: " & Current_Tile); end if; return New_Tile; end Change_Tile; function Change_Grid return String_Array is New_Grid : String_Array; begin for Y in Grid'Range loop for X in Grid'Range loop New_Grid (Y) (X) := Change_Tile (X, Y); end loop; end loop; return New_Grid; end Change_Grid; function Resource_Value return Natural is Tree_Count : Natural := 0; Lumber_Count : Natural := 0; begin for I in Grid'Range loop for J in Grid'Range loop if Grid (I) (J) = '\|' then Tree_Count := Tree_Count + 1; elsif Grid (I) (J) = '#' then Lumber_Count := Lumber_Count + 1; end if; end loop; end loop; return Tree_Count * Lumber_Count; end Resource_Value; begin -- Input Handling declare File : File_Type; begin Open (File, In_File, "input.txt"); for I in Grid'Range loop Grid (I) := Get_Line (File); end loop; Assert (End_Of_File (File), "More input than expected!"); Close (File); end; declare Total : constant Natural := 1000000000; Remaining : Natural := 0; Seen_Grids : Array_Maps.Map; begin Seen_Grids.Insert (Grid, 0); Outer_Loop : for I in 1 .. Total loop Grid := Change_Grid; -- Part 1 if I = 10 then Put_Line ("Part 1 =" & Natural'Image (Resource_Value)); end if; -- Detection of cycle if Seen_Grids.Contains (Grid) then Remaining := (Total - I) mod (I - Seen_Grids (Grid)); exit Outer_Loop; else Seen_Grids.Insert (Grid, I); end if; end loop Outer_Loop; for I in 1 .. Remaining loop Grid := Change_Grid; end loop; Put_Line ("Part 2 =" & Natural'Image (Resource_Value)); end; end Day18;
-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com> -- -- SPDX-License-Identifier: MIT ------------------------------------------------------------- package body Program.Nodes.Function_Body_Stubs is function Create (Not_Token : Program.Lexical_Elements.Lexical_Element_Access; Overriding_Token : Program.Lexical_Elements.Lexical_Element_Access; Function_Token : not null Program.Lexical_Elements .Lexical_Element_Access; Name : not null Program.Elements.Defining_Identifiers .Defining_Identifier_Access; Left_Bracket_Token : Program.Lexical_Elements.Lexical_Element_Access; Parameters : Program.Elements.Parameter_Specifications .Parameter_Specification_Vector_Access; Right_Bracket_Token : Program.Lexical_Elements.Lexical_Element_Access; Return_Token : not null Program.Lexical_Elements .Lexical_Element_Access; Not_Token_2 : Program.Lexical_Elements.Lexical_Element_Access; Null_Token : Program.Lexical_Elements.Lexical_Element_Access; Result_Subtype : not null Program.Elements.Element_Access; Is_Token : not null Program.Lexical_Elements .Lexical_Element_Access; Separate_Token : not null Program.Lexical_Elements .Lexical_Element_Access; With_Token : Program.Lexical_Elements.Lexical_Element_Access; Aspects : Program.Elements.Aspect_Specifications .Aspect_Specification_Vector_Access; Semicolon_Token : not null Program.Lexical_Elements .Lexical_Element_Access) return Function_Body_Stub is begin return Result : Function_Body_Stub := (Not_Token => Not_Token, Overriding_Token => Overriding_Token, Function_Token => Function_Token, Name => Name, Left_Bracket_Token => Left_Bracket_Token, Parameters => Parameters, Right_Bracket_Token => Right_Bracket_Token, Return_Token => Return_Token, Not_Token_2 => Not_Token_2, Null_Token => Null_Token, Result_Subtype => Result_Subtype, Is_Token => Is_Token, Separate_Token => Separate_Token, With_Token => With_Token, Aspects => Aspects, Semicolon_Token => Semicolon_Token, Enclosing_Element => null) do Initialize (Result); end return; end Create; function Create (Name : not null Program.Elements.Defining_Identifiers .Defining_Identifier_Access; Parameters : Program.Elements.Parameter_Specifications .Parameter_Specification_Vector_Access; Result_Subtype : not null Program.Elements.Element_Access; Aspects : Program.Elements.Aspect_Specifications .Aspect_Specification_Vector_Access; Is_Part_Of_Implicit : Boolean := False; Is_Part_Of_Inherited : Boolean := False; Is_Part_Of_Instance : Boolean := False; Has_Not : Boolean := False; Has_Overriding : Boolean := False; Has_Not_Null : Boolean := False) return Implicit_Function_Body_Stub is begin return Result : Implicit_Function_Body_Stub := (Name => Name, Parameters => Parameters, Result_Subtype => Result_Subtype, Aspects => Aspects, 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_Not => Has_Not, Has_Overriding => Has_Overriding, Has_Not_Null => Has_Not_Null, Enclosing_Element => null) do Initialize (Result); end return; end Create; overriding function Name (Self : Base_Function_Body_Stub) return not null Program.Elements.Defining_Identifiers .Defining_Identifier_Access is begin return Self.Name; end Name; overriding function Parameters (Self : Base_Function_Body_Stub) return Program.Elements.Parameter_Specifications .Parameter_Specification_Vector_Access is begin return Self.Parameters; end Parameters; overriding function Result_Subtype (Self : Base_Function_Body_Stub) return not null Program.Elements.Element_Access is begin return Self.Result_Subtype; end Result_Subtype; overriding function Aspects (Self : Base_Function_Body_Stub) return Program.Elements.Aspect_Specifications .Aspect_Specification_Vector_Access is begin return Self.Aspects; end Aspects; overriding function Not_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Not_Token; end Not_Token; overriding function Overriding_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Overriding_Token; end Overriding_Token; overriding function Function_Token (Self : Function_Body_Stub) return not null Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Function_Token; end Function_Token; overriding function Left_Bracket_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Left_Bracket_Token; end Left_Bracket_Token; overriding function Right_Bracket_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Right_Bracket_Token; end Right_Bracket_Token; overriding function Return_Token (Self : Function_Body_Stub) return not null Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Return_Token; end Return_Token; overriding function Not_Token_2 (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Not_Token_2; end Not_Token_2; overriding function Null_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Null_Token; end Null_Token; overriding function Is_Token (Self : Function_Body_Stub) return not null Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Is_Token; end Is_Token; overriding function Separate_Token (Self : Function_Body_Stub) return not null Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Separate_Token; end Separate_Token; overriding function With_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.With_Token; end With_Token; overriding function Semicolon_Token (Self : Function_Body_Stub) return not null Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Semicolon_Token; end Semicolon_Token; overriding function Has_Not (Self : Function_Body_Stub) return Boolean is begin return Self.Not_Token.Assigned; end Has_Not; overriding function Has_Overriding (Self : Function_Body_Stub) return Boolean is begin return Self.Overriding_Token.Assigned; end Has_Overriding; overriding function Has_Not_Null (Self : Function_Body_Stub) return Boolean is begin return Self.Null_Token.Assigned; end Has_Not_Null; overriding function Is_Part_Of_Implicit (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Is_Part_Of_Implicit; end Is_Part_Of_Implicit; overriding function Is_Part_Of_Inherited (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Is_Part_Of_Inherited; end Is_Part_Of_Inherited; overriding function Is_Part_Of_Instance (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Is_Part_Of_Instance; end Is_Part_Of_Instance; overriding function Has_Not (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Has_Not; end Has_Not; overriding function Has_Overriding (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Has_Overriding; end Has_Overriding; overriding function Has_Not_Null (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Has_Not_Null; end Has_Not_Null; procedure Initialize (Self : in out Base_Function_Body_Stub'Class) is begin Set_Enclosing_Element (Self.Name, Self'Unchecked_Access); for Item in Self.Parameters.Each_Element loop Set_Enclosing_Element (Item.Element, Self'Unchecked_Access); end loop; Set_Enclosing_Element (Self.Result_Subtype, Self'Unchecked_Access); for Item in Self.Aspects.Each_Element loop Set_Enclosing_Element (Item.Element, Self'Unchecked_Access); end loop; null; end Initialize; overriding function Is_Function_Body_Stub (Self : Base_Function_Body_Stub) return Boolean is pragma Unreferenced (Self); begin return True; end Is_Function_Body_Stub; overriding function Is_Declaration (Self : Base_Function_Body_Stub) return Boolean is pragma Unreferenced (Self); begin return True; end Is_Declaration; overriding procedure Visit (Self : not null access Base_Function_Body_Stub; Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is begin Visitor.Function_Body_Stub (Self); end Visit; overriding function To_Function_Body_Stub_Text (Self : in out Function_Body_Stub) return Program.Elements.Function_Body_Stubs .Function_Body_Stub_Text_Access is begin return Self'Unchecked_Access; end To_Function_Body_Stub_Text; overriding function To_Function_Body_Stub_Text (Self : in out Implicit_Function_Body_Stub) return Program.Elements.Function_Body_Stubs .Function_Body_Stub_Text_Access is pragma Unreferenced (Self); begin return null; end To_Function_Body_Stub_Text; end Program.Nodes.Function_Body_Stubs;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- SYSTEM.TASK_PRIMITIVES.OPERATIONS.SPECIFIC -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2011, Free Software Foundation, Inc. -- -- -- -- 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 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/>. -- -- -- -- GNARL was developed by the GNARL team at Florida State University. -- -- Extensive contributions were provided by Ada Core Technologies, Inc. -- -- -- ------------------------------------------------------------------------------ -- This is a POSIX version of this package where foreign threads are -- recognized. separate (System.Task_Primitives.Operations) package body Specific is ATCB_Key : aliased pthread_key_t; -- Key used to find the Ada Task_Id associated with a thread ---------------- -- Initialize -- ---------------- procedure Initialize (Environment_Task : Task_Id) is pragma Warnings (Off, Environment_Task); Result : Interfaces.C.int; begin Result := pthread_key_create (ATCB_Key'Access, null); pragma Assert (Result = 0); end Initialize; ------------------- -- Is_Valid_Task -- ------------------- function Is_Valid_Task return Boolean is begin return pthread_getspecific (ATCB_Key) /= System.Null_Address; end Is_Valid_Task; --------- -- Set -- --------- procedure Set (Self_Id : Task_Id) is Result : Interfaces.C.int; begin Result := pthread_setspecific (ATCB_Key, To_Address (Self_Id)); pragma Assert (Result = 0); end Set; ---------- -- Self -- ---------- -- To make Ada tasks and C threads interoperate better, we have added some -- functionality to Self. Suppose a C main program (with threads) calls an -- Ada procedure and the Ada procedure calls the tasking runtime system. -- Eventually, a call will be made to self. Since the call is not coming -- from an Ada task, there will be no corresponding ATCB. -- What we do in Self is to catch references that do not come from -- recognized Ada tasks, and create an ATCB for the calling thread. -- The new ATCB will be "detached" from the normal Ada task master -- hierarchy, much like the existing implicitly created signal-server -- tasks. function Self return Task_Id is Result : System.Address; begin Result := pthread_getspecific (ATCB_Key); -- If the key value is Null then it is a non-Ada task if Result /= System.Null_Address then return To_Task_Id (Result); else return Register_Foreign_Thread; end if; end Self; end Specific;
------------------------------------------------------------------------------ -- -- -- 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.Elements; with AMF.OCL; with AMF.UML; with Matreshka.Internals.Strings; package AMF.Internals.Tables.OCL_Types is pragma Preelaborate; type Element_Kinds is (E_None, E_OCL_Any_Type, E_OCL_Association_Class_Call_Exp, E_OCL_Bag_Type, E_OCL_Boolean_Literal_Exp, E_OCL_Collection_Item, E_OCL_Collection_Literal_Exp, E_OCL_Collection_Range, E_OCL_Collection_Type, E_OCL_Enum_Literal_Exp, E_OCL_Expression_In_Ocl, E_OCL_If_Exp, E_OCL_Integer_Literal_Exp, E_OCL_Invalid_Literal_Exp, E_OCL_Invalid_Type, E_OCL_Iterate_Exp, E_OCL_Iterator_Exp, E_OCL_Let_Exp, E_OCL_Message_Exp, E_OCL_Message_Type, E_OCL_Null_Literal_Exp, E_OCL_Operation_Call_Exp, E_OCL_Ordered_Set_Type, E_OCL_Property_Call_Exp, E_OCL_Real_Literal_Exp, E_OCL_Sequence_Type, E_OCL_Set_Type, E_OCL_State_Exp, E_OCL_String_Literal_Exp, E_OCL_Template_Parameter_Type, E_OCL_Tuple_Literal_Exp, E_OCL_Tuple_Literal_Part, E_OCL_Tuple_Type, E_OCL_Type_Exp, E_OCL_Unlimited_Natural_Literal_Exp, E_OCL_Unspecified_Value_Exp, E_OCL_Variable, E_OCL_Variable_Exp, E_OCL_Void_Type); type Member_Kinds is (M_None, M_Boolean, M_Collection_Kind, M_Collection_Of_Element, M_Collection_Of_String, M_Element, M_Integer, M_Real, M_String, M_Unlimited_Natural, M_Visibility_Kind, M_Visibility_Kind_Holder); type Member_Record (Kind : Member_Kinds := M_None) is record case Kind is when M_None => null; when M_Boolean => Boolean_Value : Boolean; when M_Collection_Kind => Collection_Kind_Value : AMF.OCL.OCL_Collection_Kind; when M_Collection_Of_Element => Collection : AMF.Internals.AMF_Collection_Of_Element; when M_Collection_Of_String => String_Collection : AMF.Internals.AMF_Collection_Of_String; when M_Element => Link : AMF.Internals.AMF_Link; when M_Integer => Integer_Value : Integer; when M_Real => Real_Value : AMF.Real; when M_String => String_Value : Matreshka.Internals.Strings.Shared_String_Access; when M_Unlimited_Natural => Unlimited_Natural_Value : AMF.Unlimited_Natural; when M_Visibility_Kind => Visibility_Kind_Value : AMF.UML.UML_Visibility_Kind; when M_Visibility_Kind_Holder => Visibility_Kind_Holder : AMF.UML.Optional_UML_Visibility_Kind; end case; end record; type Member_Array is array (Natural range 0 .. 18) of Member_Record; type Element_Record is record Kind : Element_Kinds := E_None; Extent : AMF.Internals.AMF_Extent; Proxy : AMF.Elements.Element_Access; Member : Member_Array; end record; end AMF.Internals.Tables.OCL_Types;
With Ada.Text_IO; Procedure INI.Print(Object : Instance) is Procedure DEBUG_Print( Object : Value_Object ) is Begin Ada.Text_IO.Put_Line(if Object.Kind = vt_String then Object.String_Value else ABS Object ); End DEBUG_Print; Procedure DEBUG_Print( Object : KEY_VALUE_MAP.Map ) is Package KVM renames KEY_VALUE_MAP; Begin For Item in Object.Iterate loop Ada.Text_IO.Put( " " & KVM.Key(Item) & '=' ); DEBUG_Print( KVM.Element(Item) ); End loop; End DEBUG_Print; Package KSM renames KEY_SECTION_MAP; Begin For Section in Object.Iterate Loop Ada.Text_IO.Put_Line( KSM.Key(Section) ); DEBUG_Print( KSM.Element(Section) ); End Loop; End INI.Print;
----------------------------------------------------------------------- -- streams.files.tests -- Unit tests for buffered streams -- Copyright (C) 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 Ada.Strings.Unbounded; with Ada.Streams.Stream_IO; with Util.Test_Caller; with Util.Streams.Files; with Util.Streams.Texts; package body Util.Streams.Texts.Tests is use Util.Tests; use Ada.Streams.Stream_IO; package Caller is new Util.Test_Caller (Test, "Streams.Texts"); procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite) is begin Caller.Add_Test (Suite, "Test Util.Streams.Texts.Open, Read_Line, Close", Test_Read_Line'Access); end Add_Tests; -- ------------------------------ -- Test reading a text stream. -- ------------------------------ procedure Test_Read_Line (T : in out Test) is Stream : aliased Files.File_Stream; Reader : Util.Streams.Texts.Reader_Stream; Count : Natural := 0; begin Stream.Open (Name => "Makefile", Mode => In_File); Reader.Initialize (From => Stream'Unchecked_Access); while not Reader.Is_Eof loop declare Line : Ada.Strings.Unbounded.Unbounded_String; begin Reader.Read_Line (Line); Count := Count + 1; end; end loop; Stream.Close; T.Assert (Count > 100, "Too few lines read"); end Test_Read_Line; end Util.Streams.Texts.Tests;
with Gtk.Window; use Gtk.Window; with Gtk.Widget; use Gtk.Widget; with Gtk.Handlers; with Gtk.Main; procedure Windowed_Application is Window : Gtk_Window; package Handlers is new Gtk.Handlers.Callback (Gtk_Widget_Record); package Return_Handlers is new Gtk.Handlers.Return_Callback (Gtk_Widget_Record, Boolean); function Delete_Event (Widget : access Gtk_Widget_Record'Class) return Boolean is begin return False; end Delete_Event; procedure Destroy (Widget : access Gtk_Widget_Record'Class) is begin Gtk.Main.Main_Quit; end Destroy; begin Gtk.Main.Init; Gtk.Window.Gtk_New (Window); Return_Handlers.Connect ( Window, "delete_event", Return_Handlers.To_Marshaller (Delete_Event'Access) ); Handlers.Connect ( Window, "destroy", Handlers.To_Marshaller (Destroy'Access) ); Show (Window); Gtk.Main.Main; end Windowed_Application;
with Ada.Directories; with Xmlhelpers; with Ada.Characters.Conversions; package body Generator.Sitemap is use Ada.Characters.Conversions; package DIR renames Ada.Directories; function Create ( Posts : Document_Container.List; Documents : Document_Container.List; Targetpath : String; Site_Set : Translate_Set) return String is Main_Node, Entry_Node : DOM.Core.Element; DOMi : DOM_Implementation; Feed : Node; Entries_Amount : Natural := 0; Filepath : constant String := DIR.Compose (Targetpath, Globals.Sitemap_filename); File_Handle : Ada.Streams.Stream_IO.File_Type; begin Feed := Create_Document (Implementation => DOMi); Main_Node := Create_Element (Doc => Feed, Tag_Name => "urlset"); DOM.Core.Elements.Set_Attribute (Main_Node, "xmlns", "http://www.sitemaps.org/schemas/sitemap/0.9"); Main_Node := Append_Child (N => Feed, New_Child => Main_Node); for aPost of Posts loop Entry_Node := Append_Child (Main_Node, Create_Element (Feed, "url")); Xmlhelpers.Add_Node ("loc", Generator.Read_From_Set (Site_Set, "site_base") & "/" & To_String (To_String (aPost.Linkpath)), Entry_Node, Feed); Xmlhelpers.Add_Node ("lastmod", Generator.Read_From_Set (aPost.T, "updated"), Entry_Node, Feed); end loop; for aDocument of Documents loop Entry_Node := Append_Child (Main_Node, Create_Element (Feed, "url")); Xmlhelpers.Add_Node ("loc", Generator.Read_From_Set (Site_Set, "site_base") & "/" & To_String (To_String (aDocument.Linkpath)), Entry_Node, Feed); Xmlhelpers.Add_Node ("lastmod", Generator.Read_From_Set (aDocument.T, "updated"), Entry_Node, Feed); end loop; Ada.Streams.Stream_IO.Create (File_Handle, Out_File, Filepath); Write (Stream (File => File_Handle), Feed, True); Close (File_Handle); return Filepath; end Create; end Generator.Sitemap;
-- Copyright 2011-2020 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;
-- Standard Ada library specification -- Copyright (c) 2003-2018 Maxim Reznik <reznikmm@gmail.com> -- Copyright (c) 2004-2016 AXE Consultants -- Copyright (c) 2004, 2005, 2006 Ada-Europe -- Copyright (c) 2000 The MITRE Corporation, Inc. -- Copyright (c) 1992, 1993, 1994, 1995 Intermetrics, Inc. -- SPDX-License-Identifier: BSD-3-Clause and LicenseRef-AdaReferenceManual --------------------------------------------------------------------------- generic type Object (<>) is limited private; package System.Address_To_Access_Conversions is pragma Preelaborate (Address_To_Access_Conversions); type Object_Pointer is access all Object; function To_Pointer (Value : Address) return Object_Pointer; function To_Address (Value : Object_Pointer) return Address; pragma Convention (Intrinsic, To_Pointer); pragma Convention (Intrinsic, To_Address); end System.Address_To_Access_Conversions;
-- Copyright (c) 2017 Maxim Reznik <reznikmm@gmail.com> -- -- SPDX-License-Identifier: MIT -- License-Filename: LICENSE ------------------------------------------------------------- with Ada.Characters.Wide_Wide_Latin_1; with League.String_Vectors; with League.Strings; package body LSP_Documents is function "+" (Text : Wide_Wide_String) return League.Strings.Universal_String renames League.Strings.To_Universal_String; -------------- -- Get_Line -- -------------- not overriding function Get_Line (Self : Document; Line : LSP.Types.Line_Number) return LSP.Types.LSP_String is begin return Self.Lines.Element (Natural (Line) + 1); end Get_Line; ----------------- -- All_Symbols -- ----------------- not overriding function All_Symbols (Self : Document; Query : LSP.Types.LSP_String) return LSP.Messages.SymbolInformation_Vector is use type League.Strings.Universal_String; Result : LSP.Messages.SymbolInformation_Vector; Item : LSP.Messages.SymbolInformation; begin for J in 1 .. Self.Lines.Length loop declare Line : constant League.Strings.Universal_String := Self.Lines (J); List : constant League.String_Vectors.Universal_String_Vector := Line.Split (' ', League.Strings.Skip_Empty); LN : constant LSP.Types.Line_Number := LSP.Types.Line_Number (J - 1); begin if List.Length > 2 and then List (1) = +"type" and then (Query.Is_Empty or else List (2).Index (Query) > 0) then Item := (name => List (2), kind => LSP.Messages.Class, location => (Self.Uri, (first => (LN, LSP.Types.UTF_16_Index (Line.Index (List (2)) - 1)), last => (LN, LSP.Types.UTF_16_Index (Line.Index (List (2)) + List (2).Length - 1)))), containerName => (Is_Set => False)); Result.Append (Item); end if; end; end loop; return Result; end All_Symbols; --------------- -- Initalize -- --------------- procedure Initalize (Self : out Document; Uri : LSP.Types.LSP_String; Text : LSP.Types.LSP_String; Version : LSP.Types.Version_Id) is begin Self.Uri := Uri; Self.Lines := Text.Split (Ada.Characters.Wide_Wide_Latin_1.LF); Self.Version := Version; end Initalize; ------------ -- Lookup -- ------------ not overriding function Lookup (Self : Document; Where : LSP.Messages.Position) return Lookup_Result is use type League.Strings.Universal_String; type State_Kinds is (Other, Character, Identifier, Tick); Text : constant LSP.Types.LSP_String := Self.Get_Line (Where.line); State : State_Kinds := Other; Prev : State_Kinds := Other; Attr : Boolean := False; Id_First : Natural := 0; Id_Last : Natural := 0; Is_Pragma : Boolean := False; Pragma_Id : League.Strings.Universal_String; Param : Natural := 0; begin for J in 1 .. Text.Length loop Prev := State; case State is when Other => if Text (J).To_Wide_Wide_Character = ''' then State := Character; elsif Text (J).Is_ID_Start then State := Identifier; Id_First := J; end if; when Character => if Text (J).To_Wide_Wide_Character = ''' then State := Other; end if; when Identifier => Id_Last := J; if Text (J).To_Wide_Wide_Character = ''' then State := Tick; Id_Last := J - 1; elsif not (Text (J).Is_ID_Start or Text (J).Is_ID_Continue or Text (J).To_Wide_Wide_Character = '.') then State := Other; Id_Last := J - 1; if Text.Slice (Id_First, Id_Last) = +"pragma" then Is_Pragma := True; elsif Is_Pragma then Pragma_Id := Text.Slice (Id_First, Id_Last); Is_Pragma := False; Param := 0; end if; end if; when Tick => if Text (J).Is_ID_Start then Attr := True; State := Identifier; Id_First := J; end if; end case; if Text (J).To_Wide_Wide_Character = ';' then Is_Pragma := False; elsif Text (J).To_Wide_Wide_Character in '(' \| ',' then Param := Param + 1; end if; exit when State /= Identifier and J >= Natural (Where.character); end loop; if Attr then return (Attribute_Designator, Text.Slice (Id_First, Id_Last)); elsif not Pragma_Id.Is_Empty then return (Pragma_Name, Pragma_Id, Param); elsif Prev = Identifier then return (LSP_Documents.Identifier, Text.Slice (Id_First, Id_Last)); else return (Kind => None); end if; end Lookup; ------------- -- Version -- ------------- not overriding function Version (Self : Document) return LSP.Types.Version_Id is begin return Self.Version; end Version; end LSP_Documents;
-- Copyright 2016 Steven Stewart-Gallus -- -- 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 System; with Interfaces.C; use Interfaces.C; limited with Pulse.Mainloop.API; package Pulse.Mainloop.Signal with Spark_Mode => Off is -- skipped empty struct pa_signal_event type pa_signal_cb_t is access procedure (arg1 : access Pulse.Mainloop.API.pa_mainloop_api; arg2 : System.Address; arg3 : int; arg4 : System.Address); pragma Convention (C, pa_signal_cb_t); -- /usr/include/pulse/mainloop-signal.h:44 type pa_signal_destroy_cb_t is access procedure (arg1 : access Pulse.Mainloop.API.pa_mainloop_api; arg2 : System.Address; arg3 : System.Address); pragma Convention (C, pa_signal_destroy_cb_t); -- /usr/include/pulse/mainloop-signal.h:47 function pa_signal_init (api : access Pulse.Mainloop.API.pa_mainloop_api) return int; -- /usr/include/pulse/mainloop-signal.h:50 pragma Import (C, pa_signal_init, "pa_signal_init"); procedure pa_signal_done; -- /usr/include/pulse/mainloop-signal.h:53 pragma Import (C, pa_signal_done, "pa_signal_done"); function pa_signal_new (sig : int; callback : pa_signal_cb_t; userdata : System.Address) return System.Address; -- /usr/include/pulse/mainloop-signal.h:56 pragma Import (C, pa_signal_new, "pa_signal_new"); procedure pa_signal_free (e : System.Address); -- /usr/include/pulse/mainloop-signal.h:59 pragma Import (C, pa_signal_free, "pa_signal_free"); procedure pa_signal_set_destroy (e : System.Address; callback : pa_signal_destroy_cb_t); -- /usr/include/pulse/mainloop-signal.h:62 pragma Import (C, pa_signal_set_destroy, "pa_signal_set_destroy"); end Pulse.Mainloop.Signal;
-- -- This implementation encapsulates Ada.Containers.Vectors.Vector as a record entry. -- This is a common way to compose enveloping type, requiring glue code to implement all -- declared methods. SImple to understand, but only explicitly declared methods are available. -- -- Copyright (C) 2018 George SHapovalov <gshapovalov@gmail.com> -- -- 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. -- with Ada.Containers.Vectors; generic type Element_Type is new Element_Interface with private; package Lists.dynamic is type List is new List_Interface with private; overriding function List_Constant_Reference (Container : aliased in List; Position : Cursor) return Constant_Reference_Type; overriding function List_Constant_Reference (Container : aliased in List; Index : Index_Type) return Constant_Reference_Type; overriding function List_Reference (Container : aliased in out List; Position : Cursor) return Reference_Type; overriding function List_Reference (Container : aliased in out List; Index : Index_Type) return Reference_Type; overriding function Iterate (Container : in List) return Iterator_Interface'Class; -- new methods from ACV.Vector pool; should really be part of interface, here is only a demo of tying all together.. function To_Vector (Length : Index_Type) return List; private package ACV is new Ada.Containers.Vectors(Index_Type, Element_Type); type List is new List_Interface with record vec : ACV.Vector; end record; function Has_Element (L : List; Position : Index_Base) return Boolean; -- here we also need to implement Reversible_Iterator interface type Iterator is new Iterator_Interface with record Container : List_Access; Index : Index_Type'Base; end record; overriding function First (Object : Iterator) return Cursor; overriding function Last (Object : Iterator) return Cursor; overriding function Next (Object : Iterator; Position : Cursor) return Cursor; overriding function Previous (Object : Iterator; Position : Cursor) return Cursor; end Lists.dynamic;
-- This file is covered by the Internet Software Consortium (ISC) License -- Reference: ../License.txt with System; with Interfaces.C.Strings; package Sodium.Thin_Binding is package IC renames Interfaces.C; package ICS renames Interfaces.C.Strings; ------------------ -- Data Types -- ------------------ type NaCl_uint64 is mod 2 64; type NaCl_uint32 is mod 2 32; type NaCl_uint8 is mod 2 ** 8; type NaCl_block64 is array (Natural range <>) of NaCl_uint64; type NaCl_block8 is array (Natural range <>) of NaCl_uint8; pragma Pack (NaCl_block64); pragma Pack (NaCl_block8); type crypto_generichash_blake2b_state is record h : NaCl_block64 (0 .. 7); t : NaCl_block64 (0 .. 1); f : NaCl_block64 (0 .. 1); buf : NaCl_block8 (0 .. 255); buflen : IC.size_t; last_node : NaCl_uint8; end record; for crypto_generichash_blake2b_state'Alignment use 64; pragma Pack (crypto_generichash_blake2b_state); subtype crypto_generichash_state is crypto_generichash_blake2b_state; type crypto_generichash_state_Access is access all crypto_generichash_state; pragma Convention (C, crypto_generichash_state_Access); type crypto_aead_aes256gcm_state is record state : NaCl_block8 (0 .. 511); end record; for crypto_aead_aes256gcm_state'Alignment use 16; type crypto_aead_aes256gcm_state_Access is access all crypto_aead_aes256gcm_state; pragma Convention (C, crypto_aead_aes256gcm_state_Access); type NaCl_uint64_Access is access all NaCl_uint64; pragma Convention (C, NaCl_uint64_Access); ----------------- -- Constants -- ----------------- crypto_generichash_blake2b_BYTES_MIN : constant NaCl_uint8 := 16; crypto_generichash_blake2b_BYTES : constant NaCl_uint8 := 32; crypto_generichash_blake2b_BYTES_MAX : constant NaCl_uint8 := 64; crypto_generichash_blake2b_KEYBYTES_MIN : constant NaCl_uint8 := 16; crypto_generichash_blake2b_KEYBYTES : constant NaCl_uint8 := 32; crypto_generichash_blake2b_KEYBYTES_MAX : constant NaCl_uint8 := 64; crypto_generichash_blake2b_SALTBYTES : constant NaCl_uint8 := 16; crypto_generichash_blake2b_PERSONALBYTES : constant NaCl_uint8 := 16; crypto_generichash_BYTES_MIN : NaCl_uint8 renames crypto_generichash_blake2b_BYTES_MIN; crypto_generichash_BYTES : NaCl_uint8 renames crypto_generichash_blake2b_BYTES; crypto_generichash_BYTES_MAX : NaCl_uint8 renames crypto_generichash_blake2b_BYTES_MAX; crypto_generichash_KEYBYTES_MIN : NaCl_uint8 renames crypto_generichash_blake2b_KEYBYTES_MIN; crypto_generichash_KEYBYTES : NaCl_uint8 renames crypto_generichash_blake2b_KEYBYTES; crypto_generichash_KEYBYTES_MAX : NaCl_uint8 renames crypto_generichash_blake2b_KEYBYTES_MAX; crypto_shorthash_siphash24_BYTES : constant NaCl_uint8 := 8; crypto_shorthash_siphash24_KEYBYTES : constant NaCl_uint8 := 16; crypto_shorthash_BYTES : NaCl_uint8 renames crypto_shorthash_siphash24_BYTES; crypto_shorthash_KEYBYTES : NaCl_uint8 renames crypto_shorthash_siphash24_KEYBYTES; crypto_pwhash_argon2i_ALG_ARGON2I13 : constant IC.int := 1; crypto_pwhash_argon2i_SALTBYTES : constant NaCl_uint8 := 16; crypto_pwhash_argon2i_STRBYTES : constant NaCl_uint8 := 128; crypto_pwhash_argon2i_STRPREFIX : constant String := "$argon2i$"; crypto_pwhash_argon2i_OPSLIMIT_INTERACTIVE : constant NaCl_uint64 := 4; crypto_pwhash_argon2i_MEMLIMIT_INTERACTIVE : constant IC.size_t := 33554432; crypto_pwhash_argon2i_OPSLIMIT_MODERATE : constant NaCl_uint64 := 6; crypto_pwhash_argon2i_MEMLIMIT_MODERATE : constant IC.size_t := 134217728; crypto_pwhash_argon2i_OPSLIMIT_SENSITIVE : constant NaCl_uint64 := 8; crypto_pwhash_argon2i_MEMLIMIT_SENSITIVE : constant IC.size_t := 536870912; crypto_pwhash_ALG_DEFAULT : IC.int renames crypto_pwhash_argon2i_ALG_ARGON2I13; crypto_pwhash_SALTBYTES : NaCl_uint8 renames crypto_pwhash_argon2i_SALTBYTES; crypto_pwhash_STRBYTES : NaCl_uint8 renames crypto_pwhash_argon2i_STRBYTES; crypto_pwhash_STRPREFIX : String renames crypto_pwhash_argon2i_STRPREFIX; crypto_pwhash_OPSLIMIT_MODERATE : NaCl_uint64 renames crypto_pwhash_argon2i_OPSLIMIT_MODERATE; crypto_pwhash_MEMLIMIT_MODERATE : IC.size_t renames crypto_pwhash_argon2i_MEMLIMIT_MODERATE; crypto_pwhash_OPSLIMIT_SENSITIVE : NaCl_uint64 renames crypto_pwhash_argon2i_OPSLIMIT_SENSITIVE; crypto_pwhash_MEMLIMIT_SENSITIVE : IC.size_t renames crypto_pwhash_argon2i_MEMLIMIT_SENSITIVE; crypto_pwhash_OPSLIMIT_INTERACTIVE : NaCl_uint64 renames crypto_pwhash_argon2i_OPSLIMIT_INTERACTIVE; crypto_pwhash_MEMLIMIT_INTERACTIVE : IC.size_t renames crypto_pwhash_argon2i_MEMLIMIT_INTERACTIVE; crypto_box_curve25519xsalsa20poly1305_SEEDBYTES : constant NaCl_uint8 := 32; crypto_box_curve25519xsalsa20poly1305_PUBLICKEYBYTES : constant NaCl_uint8 := 32; crypto_box_curve25519xsalsa20poly1305_SECRETKEYBYTES : constant NaCl_uint8 := 32; crypto_box_curve25519xsalsa20poly1305_BEFORENMBYTES : constant NaCl_uint8 := 32; crypto_box_curve25519xsalsa20poly1305_NONCEBYTES : constant NaCl_uint8 := 24; crypto_box_curve25519xsalsa20poly1305_MACBYTES : constant NaCl_uint8 := 16; crypto_box_curve25519xsalsa20poly1305_BOXZEROBYTES : constant NaCl_uint8 := 16; crypto_box_curve25519xsalsa20poly1305_ZEROBYTES : constant NaCl_uint8 := crypto_box_curve25519xsalsa20poly1305_BOXZEROBYTES + crypto_box_curve25519xsalsa20poly1305_MACBYTES; crypto_box_SEEDBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_SEEDBYTES; crypto_box_NONCEBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_NONCEBYTES; crypto_box_MACBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_MACBYTES; crypto_box_ZEROBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_ZEROBYTES; crypto_box_BOXZEROBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_BOXZEROBYTES; crypto_box_BEFORENMBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_BEFORENMBYTES; crypto_box_PUBLICKEYBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_PUBLICKEYBYTES; crypto_box_SECRETKEYBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_SECRETKEYBYTES; crypto_box_SEALBYTES : constant NaCl_uint8 := crypto_box_PUBLICKEYBYTES + crypto_box_MACBYTES; crypto_sign_ed25519_BYTES : constant NaCl_uint8 := 64; crypto_sign_ed25519_SEEDBYTES : constant NaCl_uint8 := 32; crypto_sign_ed25519_PUBLICKEYBYTES : constant NaCl_uint8 := 32; crypto_sign_ed25519_SECRETKEYBYTES : constant NaCl_uint8 := 32 + 32; crypto_sign_BYTES : NaCl_uint8 renames crypto_sign_ed25519_BYTES; crypto_sign_SEEDBYTES : NaCl_uint8 renames crypto_sign_ed25519_SEEDBYTES; crypto_sign_PUBLICKEYBYTES : NaCl_uint8 renames crypto_sign_ed25519_PUBLICKEYBYTES; crypto_sign_SECRETKEYBYTES : NaCl_uint8 renames crypto_sign_ed25519_SECRETKEYBYTES; crypto_secretbox_xsalsa20poly1305_KEYBYTES : constant NaCl_uint8 := 32; crypto_secretbox_xsalsa20poly1305_NONCEBYTES : constant NaCl_uint8 := 24; crypto_secretbox_xsalsa20poly1305_MACBYTES : constant NaCl_uint8 := 16; crypto_secretbox_xsalsa20poly1305_BOXZEROBYTES : constant NaCl_uint8 := 16; crypto_secretbox_xsalsa20poly1305_ZEROBYTES : constant NaCl_uint8 := crypto_secretbox_xsalsa20poly1305_BOXZEROBYTES + crypto_secretbox_xsalsa20poly1305_MACBYTES; crypto_secretbox_KEYBYTES : NaCl_uint8 renames crypto_secretbox_xsalsa20poly1305_KEYBYTES; crypto_secretbox_MACBYTES : NaCl_uint8 renames crypto_secretbox_xsalsa20poly1305_MACBYTES; crypto_secretbox_NONCEBYTES : NaCl_uint8 renames crypto_secretbox_xsalsa20poly1305_NONCEBYTES; crypto_secretbox_ZEROBYTES : NaCl_uint8 renames crypto_secretbox_xsalsa20poly1305_ZEROBYTES; crypto_secretbox_BOXZEROBYTES : NaCl_uint8 renames crypto_secretbox_xsalsa20poly1305_BOXZEROBYTES; crypto_auth_hmacsha512256_BYTES : constant NaCl_uint8 := 32; crypto_auth_hmacsha512256_KEYBYTES : constant NaCl_uint8 := 32; crypto_auth_BYTES : NaCl_uint8 renames crypto_auth_hmacsha512256_BYTES; crypto_auth_KEYBYTES : NaCl_uint8 renames crypto_auth_hmacsha512256_KEYBYTES; crypto_aead_chacha20poly1305_ietf_KEYBYTES : constant NaCl_uint8 := 32; crypto_aead_chacha20poly1305_ietf_NPUBBYTES : constant NaCl_uint8 := 12; crypto_aead_chacha20poly1305_ietf_ABYTES : constant NaCl_uint8 := 16; crypto_aead_chacha20poly1305_KEYBYTES : constant NaCl_uint8 := 32; crypto_aead_chacha20poly1305_NPUBBYTES : constant NaCl_uint8 := 8; crypto_aead_chacha20poly1305_ABYTES : constant NaCl_uint8 := 16; crypto_aead_aes256gcm_KEYBYTES : constant NaCl_uint8 := 32; crypto_aead_aes256gcm_NPUBBYTES : constant NaCl_uint8 := 12; crypto_aead_aes256gcm_ABYTES : constant NaCl_uint8 := 16; ------------------------ -- New C Data Types -- ------------------------ type Password_Hash_Container is array (1 .. Positive (crypto_pwhash_STRBYTES)) of IC.char; pragma Convention (C, Password_Hash_Container); ----------------- -- Important -- ----------------- function sodium_init return IC.int; pragma Import (C, sodium_init); --------------- -- Hashing -- --------------- function crypto_generichash (text_out : ICS.chars_ptr; outlen : IC.size_t; text_in : ICS.chars_ptr; inlen : NaCl_uint64; key : ICS.chars_ptr; keylen : IC.size_t) return IC.int; pragma Import (C, crypto_generichash); function crypto_generichash_init (state : crypto_generichash_state_Access; key : ICS.chars_ptr; keylen : IC.size_t; outlen : IC.size_t) return IC.int; pragma Import (C, crypto_generichash_init); function crypto_generichash_update (state : crypto_generichash_state_Access; text_in : ICS.chars_ptr; inlen : NaCl_uint64) return IC.int; pragma Import (C, crypto_generichash_update); function crypto_generichash_final (state : crypto_generichash_state_Access; text_out : ICS.chars_ptr; outlen : IC.size_t) return IC.int; pragma Import (C, crypto_generichash_final); function crypto_shorthash (text_out : ICS.chars_ptr; text_in : ICS.chars_ptr; inlen : NaCl_uint64; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_shorthash); function crypto_pwhash (text_out : ICS.chars_ptr; outlen : NaCl_uint64; passwd : ICS.chars_ptr; passwdlen : NaCl_uint64; salt : ICS.chars_ptr; opslimit : NaCl_uint64; memlimit : IC.size_t; alg : IC.int) return IC.int; pragma Import (C, crypto_pwhash); function crypto_pwhash_str (text_out : out Password_Hash_Container; passwd : ICS.chars_ptr; passwdlen : NaCl_uint64; opslimit : NaCl_uint64; memlimit : IC.size_t) return IC.int; pragma Import (C, crypto_pwhash_str); function crypto_pwhash_str_verify (text_str : Password_Hash_Container; passwd : ICS.chars_ptr; passwdlen : NaCl_uint64) return IC.int; pragma Import (C, crypto_pwhash_str_verify); --------------------- -- Random Things -- --------------------- procedure randombytes_buf (buf : System.Address; size : IC.size_t); pragma Import (C, randombytes_buf); function randombytes_random return NaCl_uint32; pragma Import (C, randombytes_random); function randombytes_uniform (upper_bound : NaCl_uint32) return NaCl_uint32; pragma Import (C, randombytes_uniform); ----------------------------- -- Public Key Signatures -- ----------------------------- function crypto_sign_keypair (pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign_keypair); function crypto_sign_seed_keypair (pk : ICS.chars_ptr; sk : ICS.chars_ptr; seed : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign_seed_keypair); function crypto_sign (sm : ICS.chars_ptr; smlen : NaCl_uint64; m : ICS.chars_ptr; mlen : NaCl_uint64; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign); function crypto_sign_open (m : ICS.chars_ptr; mlen : NaCl_uint64; sm : ICS.chars_ptr; smlen : NaCl_uint64; pk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign_open); function crypto_sign_detached (sig : ICS.chars_ptr; siglen : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign_detached); function crypto_sign_verify_detached (sig : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; pk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign_verify_detached); ----------------------------- -- Public Key Encryption -- ----------------------------- function crypto_box_keypair (pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_keypair); function crypto_box_seed_keypair (pk : ICS.chars_ptr; sk : ICS.chars_ptr; seed : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_seed_keypair); function crypto_scalarmult_base (q : ICS.chars_ptr; n : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_scalarmult_base); function crypto_box_easy (c : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_easy); function crypto_box_open_easy (m : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_open_easy); function crypto_box_detached (c : ICS.chars_ptr; mac : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_detached); function crypto_box_open_detached (m : ICS.chars_ptr; c : ICS.chars_ptr; mac : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_open_detached); function crypto_box_beforenm (k : ICS.chars_ptr; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_beforenm); function crypto_box_easy_afternm (c : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_easy_afternm); function crypto_box_open_easy_afternm (m : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_open_easy_afternm); function crypto_box_detached_afternm (c : ICS.chars_ptr; mac : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_detached_afternm); function crypto_box_open_detached_afternm (m : ICS.chars_ptr; c : ICS.chars_ptr; mac : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_open_detached_afternm); ---------------------------------- -- Anonymous Private Messages -- ---------------------------------- function crypto_box_seal (c : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; pk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_seal); function crypto_box_seal_open (m : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_seal_open); ---------------------------- -- Symmetric Encryption -- ---------------------------- function crypto_secretbox_easy (c : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_secretbox_easy); function crypto_secretbox_open_easy (m : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_secretbox_open_easy); function crypto_secretbox_detached (c : ICS.chars_ptr; mac : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_secretbox_detached); function crypto_secretbox_open_detached (m : ICS.chars_ptr; c : ICS.chars_ptr; mac : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_secretbox_open_detached); ------------------------------ -- Message Authentication -- ------------------------------ function crypto_auth (tag : ICS.chars_ptr; text_in : ICS.chars_ptr; inlen : NaCl_uint64; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_auth); function crypto_auth_verify (tag : ICS.chars_ptr; text_in : ICS.chars_ptr; inlen : NaCl_uint64; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_auth_verify); ---------------------------------- -- original ChaCha20-Poly1305 -- ---------------------------------- function crypto_aead_chacha20poly1305_encrypt (c : ICS.chars_ptr; clen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_encrypt); function crypto_aead_chacha20poly1305_decrypt (m : ICS.chars_ptr; mlen_p : NaCl_uint64_Access; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_decrypt); function crypto_aead_chacha20poly1305_encrypt_detached (c : ICS.chars_ptr; mac : ICS.chars_ptr; maclen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_encrypt_detached); function crypto_aead_chacha20poly1305_decrypt_detached (m : ICS.chars_ptr; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; mac : ICS.chars_ptr; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_decrypt_detached); ------------------------------ -- IETF ChaCha20-Poly1305 -- ------------------------------ function crypto_aead_chacha20poly1305_ietf_encrypt (c : ICS.chars_ptr; clen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_ietf_encrypt); function crypto_aead_chacha20poly1305_ietf_decrypt (m : ICS.chars_ptr; mlen_p : NaCl_uint64_Access; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_ietf_decrypt); function crypto_aead_chacha20poly1305_ietf_encrypt_detached (c : ICS.chars_ptr; mac : ICS.chars_ptr; maclen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_ietf_encrypt_detached); function crypto_aead_chacha20poly1305_ietf_decrypt_detached (m : ICS.chars_ptr; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; mac : ICS.chars_ptr; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_ietf_decrypt_detached); --------------- -- AES-GCM -- --------------- function crypto_aead_aes256gcm_encrypt (c : ICS.chars_ptr; clen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_aes256gcm_encrypt); function crypto_aead_aes256gcm_decrypt (m : ICS.chars_ptr; mlen_p : NaCl_uint64_Access; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_aes256gcm_decrypt); function crypto_aead_aes256gcm_encrypt_detached (c : ICS.chars_ptr; mac : ICS.chars_ptr; maclen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_aes256gcm_encrypt_detached); function crypto_aead_aes256gcm_decrypt_detached (m : ICS.chars_ptr; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; mac : ICS.chars_ptr; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_aes256gcm_decrypt_detached); ----------------------------------- -- AES-GCM with Precalculation -- ----------------------------------- function crypto_aead_aes256gcm_beforenm (ctx : crypto_aead_aes256gcm_state_Access; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_aes256gcm_beforenm); function crypto_aead_aes256gcm_encrypt_afternm (c : ICS.chars_ptr; clen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; ctx : crypto_aead_aes256gcm_state_Access) return IC.int; pragma Import (C, crypto_aead_aes256gcm_encrypt_afternm); function crypto_aead_aes256gcm_decrypt_afternm (m : ICS.chars_ptr; mlen_p : NaCl_uint64_Access; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; ctx : crypto_aead_aes256gcm_state_Access) return IC.int; pragma Import (C, crypto_aead_aes256gcm_decrypt_afternm); function crypto_aead_aes256gcm_encrypt_detached_afternm (c : ICS.chars_ptr; mac : ICS.chars_ptr; maclen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; ctx : crypto_aead_aes256gcm_state_Access) return IC.int; pragma Import (C, crypto_aead_aes256gcm_encrypt_detached_afternm); function crypto_aead_aes256gcm_decrypt_detached_afternm (m : ICS.chars_ptr; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; mac : ICS.chars_ptr; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; ctx : crypto_aead_aes256gcm_state_Access) return IC.int; pragma Import (C, crypto_aead_aes256gcm_decrypt_detached_afternm); ------------------------ -- AES Availability -- ------------------------ function crypto_aead_aes256gcm_is_available return IC.int; pragma Import (C, crypto_aead_aes256gcm_is_available); end Sodium.Thin_Binding;
-- CE3806E.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 FLOAT_IO PUT RAISE LAYOUT_ERROR WHEN THE NUMBER -- OF CHARACTERS TO BE OUTPUT EXCEEDS THE MAXIMUM LINE LENGTH. -- CHECK THAT IT IS NOT RAISED, BUT RATHER NEW_LINE IS CALLED, -- WHEN THE NUMBER DOES NOT EXCEED THE MAX, BUT WHEN ADDED TO -- THE CURRENT COLUMN NUMBER, THE TOTAL EXCEEDS THE MAX. -- APPLICABILITY CRITERIA: -- THIS TEST IS APPLICABLE ONLY TO IMPLEMENTATIONS WHICH SUPPORT -- TEXT FILES. -- HISTORY: -- SPS 10/07/82 -- SPS 12/14/82 -- VKG 01/13/83 -- SPS 02/18/83 -- JBG 08/30/83 -- RJW 11/04/86 REVISED TEST TO OUTPUT A NOT_APPLICABLE -- RESULT WHEN FILES ARE NOT SUPPORTED. -- JLH 09/14/87 REMOVED DEPENDENCE ON RESET AND CORRECTED -- EXCEPTION HANDLING. WITH REPORT; USE REPORT; WITH TEXT_IO; USE TEXT_IO; WITH CHECK_FILE; PROCEDURE CE3806E IS BEGIN TEST ("CE3806E", "CHECK THAT FLOAT_IO PUT RAISES " & "LAYOUT_ERROR CORRECTLY"); DECLARE TYPE FL IS DIGITS 3 RANGE 100.0 .. 200.0; PACKAGE FLIO IS NEW FLOAT_IO (FL); USE FLIO; X : FL := 126.0; Y : FL := 134.0; Z : FL := 120.0; INCOMPLETE : EXCEPTION; FT : FILE_TYPE; BEGIN BEGIN CREATE (FT, OUT_FILE, LEGAL_FILE_NAME); EXCEPTION WHEN USE_ERROR => NOT_APPLICABLE ("USE_ERROR RAISED ON TEXT CREATE " & "WITH OUT_FILE MODE"); RAISE INCOMPLETE; WHEN NAME_ERROR => NOT_APPLICABLE ("NAME_ERROR RAISED ON TEXT " & "CREATE WITH OUT_FILE MODE"); RAISE INCOMPLETE; END; SET_LINE_LENGTH (FT, 8); BEGIN PUT (FT, X); -- " 1.26E+02" FAILED ("LAYOUT_ERROR NOT RAISED - FLOAT"); EXCEPTION WHEN LAYOUT_ERROR => NULL; WHEN OTHERS => FAILED ("WRONG EXCEPTION RAISED - FLOAT"); END; BEGIN PUT (FT, Y, FORE => 1); -- "1.34E+02" EXCEPTION WHEN LAYOUT_ERROR => FAILED ("LAYOUT_ERROR RAISED SECOND PUT " & "- FLOAT"); WHEN OTHERS => FAILED ("EXCEPTION RAISED SECOND PUT - FLOAT"); END; BEGIN PUT (FT,Z, FORE => 1, AFT => 0); -- "1.2E+02" IF LINE (FT) /= 2 THEN FAILED ("NEW_LINE NOT CALLED - FLOAT"); END IF; EXCEPTION WHEN LAYOUT_ERROR => FAILED ("LAYOUT_ERROR RAISED THIRD " & "PUT - FLOAT"); WHEN OTHERS => FAILED ("EXCEPTION RAISED THIRD PUT - FLOAT"); END; SET_LINE_LENGTH ( FT,7); BEGIN PUT (FT, "X"); PUT (FT, Y, FORE => 1, AFT => 2, EXP => 1); -- 1.34E+2 EXCEPTION WHEN LAYOUT_ERROR => FAILED ("LAYOUT_ERROR RAISED - 3 FLOAT"); END; BEGIN PUT (FT, "Z"); PUT (FT, Z, FORE => 1); FAILED ("LAYOUT_ERROR NOT RAISED - FLOAT 2"); EXCEPTION WHEN LAYOUT_ERROR => NULL; WHEN OTHERS => FAILED ("SOME EXCEPTION RAISED - 3 FLOAT"); END; CHECK_FILE (FT, "1.34E+02#1.2E+02#X#1.34E+2#Z#@%"); BEGIN DELETE (FT); EXCEPTION WHEN USE_ERROR => NULL; END; EXCEPTION WHEN INCOMPLETE => NULL; END; RESULT; END CE3806E;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . I N T E R R U P T _ M A N A G E M E N T . -- -- O P E R A T I O N S -- -- -- -- B o d y -- -- -- -- Copyright (C) 1991-1994, Florida State University -- -- Copyright (C) 1995-2006, 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 POSIX-like version of this package. -- Note: this file can only be used for POSIX compliant systems. with Interfaces.C; -- used for int -- size_t -- unsigned with System.OS_Interface; -- used for various type, constant, and operations with System.Storage_Elements; -- used for To_Address -- Integer_Address package body System.Interrupt_Management.Operations is use Interfaces.C; use System.OS_Interface; --------------------- -- Local Variables -- --------------------- Initial_Action : array (Signal) of aliased struct_sigaction; Default_Action : aliased struct_sigaction; Ignore_Action : aliased struct_sigaction; ---------------------------- -- Thread_Block_Interrupt -- ---------------------------- procedure Thread_Block_Interrupt (Interrupt : Interrupt_ID) is Result : Interfaces.C.int; Mask : aliased sigset_t; begin Result := sigemptyset (Mask'Access); pragma Assert (Result = 0); Result := sigaddset (Mask'Access, Signal (Interrupt)); pragma Assert (Result = 0); Result := pthread_sigmask (SIG_BLOCK, Mask'Unchecked_Access, null); pragma Assert (Result = 0); end Thread_Block_Interrupt; ------------------------------ -- Thread_Unblock_Interrupt -- ------------------------------ procedure Thread_Unblock_Interrupt (Interrupt : Interrupt_ID) is Mask : aliased sigset_t; Result : Interfaces.C.int; begin Result := sigemptyset (Mask'Access); pragma Assert (Result = 0); Result := sigaddset (Mask'Access, Signal (Interrupt)); pragma Assert (Result = 0); Result := pthread_sigmask (SIG_UNBLOCK, Mask'Unchecked_Access, null); pragma Assert (Result = 0); end Thread_Unblock_Interrupt; ------------------------ -- Set_Interrupt_Mask -- ------------------------ procedure Set_Interrupt_Mask (Mask : access Interrupt_Mask) is Result : Interfaces.C.int; begin Result := pthread_sigmask (SIG_SETMASK, Mask, null); pragma Assert (Result = 0); end Set_Interrupt_Mask; procedure Set_Interrupt_Mask (Mask : access Interrupt_Mask; OMask : access Interrupt_Mask) is Result : Interfaces.C.int; begin Result := pthread_sigmask (SIG_SETMASK, Mask, OMask); pragma Assert (Result = 0); end Set_Interrupt_Mask; ------------------------ -- Get_Interrupt_Mask -- ------------------------ procedure Get_Interrupt_Mask (Mask : access Interrupt_Mask) is Result : Interfaces.C.int; begin Result := pthread_sigmask (SIG_SETMASK, null, Mask); pragma Assert (Result = 0); end Get_Interrupt_Mask; -------------------- -- Interrupt_Wait -- -------------------- function Interrupt_Wait (Mask : access Interrupt_Mask) return Interrupt_ID is Result : Interfaces.C.int; Sig : aliased Signal; begin Result := sigwait (Mask, Sig'Access); if Result /= 0 then return 0; end if; return Interrupt_ID (Sig); end Interrupt_Wait; ---------------------------- -- Install_Default_Action -- ---------------------------- procedure Install_Default_Action (Interrupt : Interrupt_ID) is Result : Interfaces.C.int; begin Result := sigaction (Signal (Interrupt), Initial_Action (Signal (Interrupt))'Access, null); pragma Assert (Result = 0); end Install_Default_Action; --------------------------- -- Install_Ignore_Action -- --------------------------- procedure Install_Ignore_Action (Interrupt : Interrupt_ID) is Result : Interfaces.C.int; begin Result := sigaction (Signal (Interrupt), Ignore_Action'Access, null); pragma Assert (Result = 0); end Install_Ignore_Action; ------------------------- -- Fill_Interrupt_Mask -- ------------------------- procedure Fill_Interrupt_Mask (Mask : access Interrupt_Mask) is Result : Interfaces.C.int; begin Result := sigfillset (Mask); pragma Assert (Result = 0); end Fill_Interrupt_Mask; -------------------------- -- Empty_Interrupt_Mask -- -------------------------- procedure Empty_Interrupt_Mask (Mask : access Interrupt_Mask) is Result : Interfaces.C.int; begin Result := sigemptyset (Mask); pragma Assert (Result = 0); end Empty_Interrupt_Mask; --------------------------- -- Add_To_Interrupt_Mask -- --------------------------- procedure Add_To_Interrupt_Mask (Mask : access Interrupt_Mask; Interrupt : Interrupt_ID) is Result : Interfaces.C.int; begin Result := sigaddset (Mask, Signal (Interrupt)); pragma Assert (Result = 0); end Add_To_Interrupt_Mask; -------------------------------- -- Delete_From_Interrupt_Mask -- -------------------------------- procedure Delete_From_Interrupt_Mask (Mask : access Interrupt_Mask; Interrupt : Interrupt_ID) is Result : Interfaces.C.int; begin Result := sigdelset (Mask, Signal (Interrupt)); pragma Assert (Result = 0); end Delete_From_Interrupt_Mask; --------------- -- Is_Member -- --------------- function Is_Member (Mask : access Interrupt_Mask; Interrupt : Interrupt_ID) return Boolean is Result : Interfaces.C.int; begin Result := sigismember (Mask, Signal (Interrupt)); pragma Assert (Result = 0 or else Result = 1); return Result = 1; end Is_Member; ------------------------- -- Copy_Interrupt_Mask -- ------------------------- procedure Copy_Interrupt_Mask (X : out Interrupt_Mask; Y : Interrupt_Mask) is begin X := Y; end Copy_Interrupt_Mask; ---------------------------- -- Interrupt_Self_Process -- ---------------------------- procedure Interrupt_Self_Process (Interrupt : Interrupt_ID) is Result : Interfaces.C.int; begin Result := kill (getpid, Signal (Interrupt)); pragma Assert (Result = 0); end Interrupt_Self_Process; -------------------------- -- Setup_Interrupt_Mask -- -------------------------- procedure Setup_Interrupt_Mask is begin -- Mask task for all signals. The original mask of the Environment task -- will be recovered by Interrupt_Manager task during the elaboration -- of s-interr.adb. Set_Interrupt_Mask (All_Tasks_Mask'Access); end Setup_Interrupt_Mask; begin declare mask : aliased sigset_t; allmask : aliased sigset_t; Result : Interfaces.C.int; begin Interrupt_Management.Initialize; for Sig in 1 .. Signal'Last loop Result := sigaction (Sig, null, Initial_Action (Sig)'Unchecked_Access); -- ??? [assert 1] -- we can't check Result here since sigaction will fail on -- SIGKILL, SIGSTOP, and possibly other signals -- pragma Assert (Result = 0); end loop; -- Setup the masks to be exported. Result := sigemptyset (mask'Access); pragma Assert (Result = 0); Result := sigfillset (allmask'Access); pragma Assert (Result = 0); Default_Action.sa_flags := 0; Default_Action.sa_mask := mask; Default_Action.sa_handler := Storage_Elements.To_Address (Storage_Elements.Integer_Address (SIG_DFL)); Ignore_Action.sa_flags := 0; Ignore_Action.sa_mask := mask; Ignore_Action.sa_handler := Storage_Elements.To_Address (Storage_Elements.Integer_Address (SIG_IGN)); for J in Interrupt_ID loop -- We need to check whether J is in Keep_Unmasked because -- the index type of the Keep_Unmasked array is not always -- Interrupt_ID; it may be a subtype of Interrupt_ID. if J in Keep_Unmasked'Range and then Keep_Unmasked (J) then Result := sigaddset (mask'Access, Signal (J)); pragma Assert (Result = 0); Result := sigdelset (allmask'Access, Signal (J)); pragma Assert (Result = 0); end if; end loop; -- The Keep_Unmasked signals should be unmasked for Environment task Result := pthread_sigmask (SIG_UNBLOCK, mask'Unchecked_Access, null); pragma Assert (Result = 0); -- Get the signal mask of the Environment Task Result := pthread_sigmask (SIG_SETMASK, null, mask'Unchecked_Access); pragma Assert (Result = 0); -- Setup the constants exported Environment_Mask := Interrupt_Mask (mask); All_Tasks_Mask := Interrupt_Mask (allmask); end; end System.Interrupt_Management.Operations;
-- Copyright 2017-2021 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 Get_Val (Seed: Integer; Off_By_One: Boolean) return Integer is Result : Integer := Seed; begin if Off_By_One then -- START Result := Result - 1; end if; Result := Result * 8; if Off_By_One then Result := Result + 1; end if; return Result; end Get_Val; procedure Do_Nothing (Val: in out Integer) is begin null; end Do_Nothing; procedure Call_Me is begin null; end Call_Me; procedure Increment (Val : in out Integer) is begin Val := Val + 1; end Increment; end Pck;
-- Text -- See https://pdc-svpaap1.umd.edu/policies/apt_forms.html for the CVTemplate.docx. I had issues with this, perhaps MS-Word/LibreOffice, perhaps my inability to work with WYSIWYG programs: For example, in II I would try and add an item in II.A.3 and it doesn't get the indent, but the one before. The TAB key then doesn't seem to work, and skips over wehre you expect it go to. and then the underlining is suddenly on.... is that a LibreOffice bug? I had many more of these mishaps, and decided to switch to the latex version. The docs template should also give an example how they expect the indentation to work, and the UID and name is confusing. As given, the indentation in some sections DOES NOT MAKE SENSE. E.g. in I it works. ADS: If you are lucky with a unique name, you can fill in your name in the "Authors" make the "200 items" something larger if you need more (so it's all on one page) if it's not unique, Their custom format is explained here: http://adsabs.harvard.edu/abs_doc/help_pages/customformat.html "The sole exception is when the work is a product of a large group. Candidates should designate the identity of the lead or corresponding author for joint authorships using * or placing that name in bold. Candidates should also identify which undergraduate, graduate and postdoctoral and Faculty Research Assistants were co-authors. " %[s][c][n.m]f[e] c \ (la)tex Do this in two tabs running classic ADS --------------------------------------- Databases to query: select all three: Astronomy , Physics, arXiv e-prints by default Physics is skipped. Authors: Teuben 1st. tab: All refereed articles 2nd tab: All non-refereed publications SEND QUERY then select "select all records" return "custom format" sort by {date (oldest first)} -- if thatis what you want, and I recommend this one for easier use of reference numbers [13,21] in the PS Teuben format: %% %zn %W \n \\item \n %\5.1L %\Y, ``%\T'', %\J, %\({\\bf )V\(} ), %\p-%\P. [{\\bf %c cit.}] email to: teuben@gmail.com then click "retrieve selected records" corrected Huard format: %% %zn %W \n \\item \n %\25.1L {\\underline{%\Y}}, ``{\\emph{%\T}}'', {\\bf{%\J}}, %\V\, %\p-%\P. [{\\bf %c cit.}] still needed a few manual edits: - <NUMPAGES> sometimes is used, remove them, use the pp. notation e.g. A46- becomes A46, 14 pp. Some additional cleanup will always be needed. I've found some arXiv entry that had also a paper entry. all the \items's go between \begin{enumerate}[resume,label=\textbf{\arabic*}.] \end{enumerate} I decided to keep the books without numbering (historic), so those are itemize , instead of enumerate again, with custom format: %% %zn %W \n \\item \n %\5.1L %\Y, ``%\T'', %\J, %\({\\bf )V\(} ), %\p-%\P. [{\\bf %c cit.}] you get something like this. I added a ordinal (the %zn) and article type as a latex comment ahead of the entry. % 2 ARTICLE \item Teuben, P.~J.~and Sanders, R.~H.\ 1985, ``Dynamical rules for barred spiral galaxies'', Monthly Notices of the Royal Astronomical Society, {\bf 212} , 257-273.\ [{\bf 76 cit.}] % 15 ARTICLE \item Welch, W.~J., and 36 colleagues.\ 1996, "The Berkeley-Illinois-Maryland-Association Millimeter Array", Publications of the Astronomical Society of the Pacific, {\bf 108} , 93- [{\bf 141 cit.}] The things missing are - bold-face your name {\bf Teuben, P~J.} - Huard has a solution for this. - if more than 5 (in this case) authors, my name is not mentioned where in the list it occurs. this is formally not according to UMD guidelines.
---------------------------------------- -- Copyright (C) 2019 Dmitriy Shadrin -- -- All rights reserved. -- ---------------------------------------- with Pal; with Ada.Finalization; with Ada.Strings.Unbounded; --use Ada.Strings.Unbounded; -------------------------------------------------------------------------------- package ConfigTree is ----------------------------------------------------------------------------- type Node is tagged limited private; type NodePtr is access Node; function IsNull (ptr : in NodePtr) return Pal.bool is (ptr = null) with inline; function GetFirst (Object : in out Node) return NodePtr with inline; function GetNext (Object : in out Node) return NodePtr with inline; function GetChild (Object : in out Node; path : in String) return NodePtr; function GetValue (Object : in out Node; path : in String; default : in String := "") return String; function GetValue (Object : in out Node) return String; function GetName (Object : in out Node) return String; ----------------------------------------------------------------------------- type Tree is tagged limited private; function GetChild (Object : in out Tree; path : in String) return NodePtr; function GetValue (Object : in out Tree; path : in String; default : in String := "") return String; private ----------------------------------------------------------------------------- type Node is limited new Ada.Finalization.Limited_Controlled with record parent : NodePtr; -- parent node next : NodePtr; -- reference to next node on the same level previous : NodePtr; -- reference to next node on the same level childFirst : NodePtr; -- list of childs (reference to first child) childLast : NodePtr; -- list of childs (reference to last child) name : Ada.Strings.Unbounded.Unbounded_String; -- name of node data : Ada.Strings.Unbounded.Unbounded_String; -- data end record; procedure Initialize (Object : in out Node); procedure Finalize (Object : in out Node); ----------------------------------------------------------------------------- type Tree is new Ada.Finalization.Limited_Controlled with record root : NodePtr; -- reference to root node end record; procedure Initialize (Object : in out Tree); procedure Finalize (Object : in out Tree); end ConfigTree;
-- Copyright 2016-2019 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/>. with Pck; use Pck; procedure Foo_OC22_002 is type Small is new Integer range Ident (1) .. Ident (10); type Table is array (1 .. 3) of Small; A1 : Table := (3, 5, 8); begin Do_Nothing (A1'Address); -- STOP end Foo_OC22_002;
with Lto18_Pkg; use Lto18_Pkg; package Lto18 is procedure Proc (Driver : Rec); end Lto18;
------------------------------------------------------------------------------ -- -- -- 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.Generic_Collections; package AMF.UML.Components.Collections is pragma Preelaborate; package UML_Component_Collections is new AMF.Generic_Collections (UML_Component, UML_Component_Access); type Set_Of_UML_Component is new UML_Component_Collections.Set with null record; Empty_Set_Of_UML_Component : constant Set_Of_UML_Component; type Ordered_Set_Of_UML_Component is new UML_Component_Collections.Ordered_Set with null record; Empty_Ordered_Set_Of_UML_Component : constant Ordered_Set_Of_UML_Component; type Bag_Of_UML_Component is new UML_Component_Collections.Bag with null record; Empty_Bag_Of_UML_Component : constant Bag_Of_UML_Component; type Sequence_Of_UML_Component is new UML_Component_Collections.Sequence with null record; Empty_Sequence_Of_UML_Component : constant Sequence_Of_UML_Component; private Empty_Set_Of_UML_Component : constant Set_Of_UML_Component := (UML_Component_Collections.Set with null record); Empty_Ordered_Set_Of_UML_Component : constant Ordered_Set_Of_UML_Component := (UML_Component_Collections.Ordered_Set with null record); Empty_Bag_Of_UML_Component : constant Bag_Of_UML_Component := (UML_Component_Collections.Bag with null record); Empty_Sequence_Of_UML_Component : constant Sequence_Of_UML_Component := (UML_Component_Collections.Sequence with null record); end AMF.UML.Components.Collections;
package body Hello_World_CB is function HW_CB(Request : AWS.Status.Data) return AWS.Response.Data is begin return AWS.Response.Build("text/html", "<p>Hello World</p>"); end; end Hello_World_CB;
package body impact.d3.collision.point_Collector is overriding procedure addContactPoint (Self : in out Item; normalOnBInWorld : in math.Vector_3; pointInWorld : in math.Vector_3; depth : in math.Real ) is begin if depth < Self.m_distance then Self.m_hasResult := True; Self.m_normalOnBInWorld := normalOnBInWorld; Self.m_pointInWorld := pointInWorld; Self.m_distance := depth; -- negative means penetration end if; end addContactPoint; end impact.d3.collision.point_Collector;
with Memory.DRAM; use Memory.DRAM; package body Test.DRAM is procedure Test_Open is mem : DRAM_Pointer := Create_DRAM(cas_cycles => 2, rcd_cycles => 3, rp_cycles => 4, wb_cycles => 1, multiplier => 2, word_size => 4, page_size => 1024, page_count => 2048, width => 2, burst_size => 2, open_page_mode => True); begin Check(Get_Time(mem.all) = 0); Check(Get_Writes(mem.all) = 0); Check(Get_Cost(mem.all) = 0); Read(mem.all, 0, 4); -- Miss: 2 * (2 * 2 + 3 + 4) = 22 Check(Get_Time(mem.all) = 22); Check(Get_Writes(mem.all) = 0); Read(mem.all, 4, 4); -- Hit: 2 * (2 * 2) = 8 Check(Get_Time(mem.all) = 22 + 8); Read(mem.all, 2097152, 4); -- Miss (new bank): 2 * (2 * 2 + 3 + 4) = 22 Check(Get_Time(mem.all) = 22 + 8 + 22); Read(mem.all, 8, 8); -- Hit: 2 * (2 * 4) = 16 Check(Get_Time(mem.all) = 22 + 8 + 22 + 16); Write(mem.all, 2097152, 8); -- Hit: 2 * (2 * 4) = 16 Check(Get_Time(mem.all) = 22 + 8 + 22 + 16 + 16); Check(Get_Writes(mem.all) = 1); Write(mem.all, 2097152 - 4, 8); -- Miss/Hit -- 2 * (2 * 2 + 3 + 4) + -- 2 * (2 * 2) = 32 Check(Get_Time(mem.all) = 22 + 8 + 22 + 16 + 16 + 30); Check(Get_Writes(mem.all) = 2); Read(mem.all, 4, 4); -- Miss+wb: 2 * (2 * 2 + 3 + 4 + 1) = 24 Check(Get_Time(mem.all) = 22 + 8 + 22 + 16 + 16 + 30 + 24); Check(Get_Writes(mem.all) = 2); Destroy(Memory_Pointer(mem)); end Test_Open; procedure Test_Closed is mem : DRAM_Pointer := Create_DRAM(cas_cycles => 2, rcd_cycles => 3, rp_cycles => 4, wb_cycles => 1, multiplier => 2, word_size => 4, page_size => 1024, page_count => 16384, width => 2, burst_size => 2, open_page_mode => False); begin Check(Get_Time(mem.all) = 0); Check(Get_Writes(mem.all) = 0); Check(Get_Cost(mem.all) = 0); Destroy(Memory_Pointer(mem)); end Test_Closed; procedure Run_Tests is begin Test_Open; Test_Closed; end Run_Tests; end Test.DRAM;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- S Y S T E M . W I D _ E N U M -- -- -- -- S p e c -- -- -- -- 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. -- -- -- ------------------------------------------------------------------------------ -- This package contains the routine used for Enumeration_Type'Width package System.Wid_Enum is pragma Pure; function Width_Enumeration_8 (Names : String; Indexes : System.Address; Lo, Hi : Natural) return Natural; -- Used to compute Enum'Width where Enum is some enumeration subtype -- other than those defined in package Standard. Names is a string with -- a lower bound of 1 containing the characters of all the enumeration -- literals concatenated together in sequence. Indexes is the address -- of an array of type array (0 .. N) of Natural_8, where N is the -- number of enumeration literals in the type. The Indexes values are -- the starting subscript of each enumeration literal, indexed by Pos -- values, with an extra entry at the end containing Names'Length + 1. -- The reason that Indexes is passed by address is that the actual type -- is created on the fly by the expander. -- -- Lo and Hi are the Pos values of the lower and upper bounds of the -- subtype. The result is the value of Width, i.e. the maximum value -- of the length of any enumeration literal in the given range. function Width_Enumeration_16 (Names : String; Indexes : System.Address; Lo, Hi : Natural) return Natural; -- Identical to Width_Enumeration_8 except that it handles types -- using array (0 .. Num) of Natural_16 for the Indexes table. function Width_Enumeration_32 (Names : String; Indexes : System.Address; Lo, Hi : Natural) return Natural; -- Identical to Width_Enumeration_8 except that it handles types -- using array (0 .. Num) of Natural_32 for the Indexes table. end System.Wid_Enum;
------------------------------------------------------------------------------ -- -- -- Matreshka Project -- -- -- -- Web Framework -- -- -- -- Runtime Library 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 League.Characters; package body Servlet.HTTP_Cookies is function Is_Valid_HTTP_Token (String : League.Strings.Universal_String) return Boolean; ------------ -- Create -- ------------ function Create (Name : League.Strings.Universal_String; Value : League.Strings.Universal_String) return Cookie is begin if not Is_Valid_HTTP_Token (Name) then raise Constraint_Error with "Invalid name of cookie"; end if; return (Name => Name, Value => Value, Comment => <>, Domain => <>, Path => <>, Secure => False, HTTP_Only => False); end Create; ----------------- -- Get_Comment -- ----------------- function Get_Comment (Self : Cookie'Class) return League.Strings.Universal_String is begin return Self.Comment; end Get_Comment; ---------------- -- Get_Domain -- ---------------- function Get_Domain (Self : Cookie'Class) return League.Strings.Universal_String is begin return Self.Domain; end Get_Domain; ------------------- -- Get_HTTP_Only -- ------------------- function Get_HTTP_Only (Self : Cookie'Class) return Boolean is begin return Self.HTTP_Only; end Get_HTTP_Only; -------------- -- Get_Name -- -------------- function Get_Name (Self : Cookie'Class) return League.Strings.Universal_String is begin return Self.Name; end Get_Name; -------------- -- Get_Path -- -------------- function Get_Path (Self : Cookie'Class) return League.String_Vectors.Universal_String_Vector is begin return Self.Path; end Get_Path; -------------- -- Get_Path -- -------------- function Get_Path (Self : Cookie'Class) return League.Strings.Universal_String is use type League.Strings.Universal_String; begin if Self.Path.Is_Empty then return League.Strings.Empty_Universal_String; else return '/' & Self.Path.Join ('/'); -- XXX Path segments should be escaped. end if; end Get_Path; ---------------- -- Get_Secure -- ---------------- function Get_Secure (Self : Cookie'Class) return Boolean is begin return Self.Secure; end Get_Secure; --------------- -- Get_Value -- --------------- function Get_Value (Self : Cookie'Class) return League.Strings.Universal_String is begin return Self.Value; end Get_Value; ---------------- -- Initialize -- ---------------- procedure Initialize (Self : in out Cookie; Name : League.Strings.Universal_String; Value : League.Strings.Universal_String) is begin if not Is_Valid_HTTP_Token (Name) then raise Constraint_Error with "Invalid name of cookie"; end if; Self.Name := Name; Self.Value := Value; Self.Comment.Clear; Self.Domain.Clear; Self.Path.Clear; Self.Secure := False; Self.HTTP_Only := False; end Initialize; -------------- -- Is_Empty -- -------------- function Is_Empty (Self : Cookie'Class) return Boolean is begin return Self.Name.Is_Empty; end Is_Empty; ------------------------- -- Is_Valid_HTTP_Token -- ------------------------- function Is_Valid_HTTP_Token (String : League.Strings.Universal_String) return Boolean is begin -- [RFC 2068] -- -- token = 1*<any CHAR except CTLs or tspecials> -- -- tspecials = "(" \| ")" \| "<" \| ">" \| "@" -- \| "," \| ";" \| ":" \| "\" \| <"> -- \| "/" \| "[" \| "]" \| "?" \| "=" -- \| "{" \| "}" \| SP \| HT -- -- CHAR = <any US-ASCII character (octets 0 - 127)> -- CTL = <any US-ASCII control character -- (octets 0 - 31) and DEL (127)> -- SP = <US-ASCII SP, space (32)> -- HT = <US-ASCII HT, horizontal-tab (9)> if String.Is_Empty then return False; else for J in 1 .. String.Length loop declare W : constant Wide_Wide_Character := String (J).To_Wide_Wide_Character; begin if W in Wide_Wide_Character'Val (0) .. Wide_Wide_Character'Val (32) \| Wide_Wide_Character'Val (127) .. Wide_Wide_Character'Last \| '(' \| ')' \| '<' \| '>' \| '@' \| ',' \| ';' \| ':' \| '\' \| '"' \| '/' \| '[' \| ']' \| '?' \| '=' \| '{' \| '}' then return False; end if; end; end loop; return True; end if; end Is_Valid_HTTP_Token; ------------------- -- Set_HTTP_Only -- ------------------- procedure Set_HTTP_Only (Self : in out Cookie'Class; To : Boolean := True) is begin Self.HTTP_Only := To; end Set_HTTP_Only; -------------- -- Set_Path -- -------------- procedure Set_Path (Self : in out Cookie'Class; To : League.String_Vectors.Universal_String_Vector) is begin Self.Path := To; end Set_Path; end Servlet.HTTP_Cookies;
with openGL.Geometry; package openGL.Model.sphere.colored -- -- Models a colored sphere. -- is type Item is new openGL.Model.sphere.item with -- TODO: Make private. record Color : lucid_Color; end record; type View is access all Item'Class; --------- --- Forge -- function new_Sphere (Radius : in Real; Color : in lucid_Color) return View; -------------- --- Attributes -- overriding function to_GL_Geometries (Self : access Item; Textures : access Texture.name_Map_of_texture'Class; Fonts : in Font.font_id_Map_of_font) return Geometry.views; end openGL.Model.sphere.colored;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- S Y S T E M . D I M . M K S -- -- -- -- S p e c -- -- -- -- Copyright (C) 2011-2013, 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. -- -- -- ------------------------------------------------------------------------------ -- Defines the MKS dimension system which is the SI system of units -- Some other prefixes of this system are defined in a child package (see -- System.Dim_Mks.Other_Prefixes) in order to avoid too many constant -- declarations in this package. -- The dimension terminology is defined in System.Dim_IO package with Ada.Numerics; package System.Dim.Mks is e : constant := Ada.Numerics.e; Pi : constant := Ada.Numerics.Pi; -- Dimensioned type Mks_Type type Mks_Type is new Long_Long_Float with Dimension_System => ( (Unit_Name => Meter, Unit_Symbol => 'm', Dim_Symbol => 'L'), (Unit_Name => Kilogram, Unit_Symbol => "kg", Dim_Symbol => 'M'), (Unit_Name => Second, Unit_Symbol => 's', Dim_Symbol => 'T'), (Unit_Name => Ampere, Unit_Symbol => 'A', Dim_Symbol => 'I'), (Unit_Name => Kelvin, Unit_Symbol => 'K', Dim_Symbol => '@'), (Unit_Name => Mole, Unit_Symbol => "mol", Dim_Symbol => 'N'), (Unit_Name => Candela, Unit_Symbol => "cd", Dim_Symbol => 'J')); -- SI Base dimensioned subtypes subtype Length is Mks_Type with Dimension => (Symbol => 'm', Meter => 1, others => 0); subtype Mass is Mks_Type with Dimension => (Symbol => "kg", Kilogram => 1, others => 0); subtype Time is Mks_Type with Dimension => (Symbol => 's', Second => 1, others => 0); subtype Electric_Current is Mks_Type with Dimension => (Symbol => 'A', Ampere => 1, others => 0); subtype Thermodynamic_Temperature is Mks_Type with Dimension => (Symbol => 'K', Kelvin => 1, others => 0); subtype Amount_Of_Substance is Mks_Type with Dimension => (Symbol => "mol", Mole => 1, others => 0); subtype Luminous_Intensity is Mks_Type with Dimension => (Symbol => "cd", Candela => 1, others => 0); -- Initialize SI Base unit values -- Turn off the all the dimension warnings for these basic assignments -- since otherwise we would get complaints about assigning dimensionless -- values to dimensioned subtypes (we can't assign 1.0m to m). pragma Warnings (Off, "assumed to be"); m : constant Length := 1.0; kg : constant Mass := 1.0; s : constant Time := 1.0; A : constant Electric_Current := 1.0; K : constant Thermodynamic_Temperature := 1.0; mol : constant Amount_Of_Substance := 1.0; cd : constant Luminous_Intensity := 1.0; pragma Warnings (On, "assumed to be"); -- SI Derived dimensioned subtypes subtype Absorbed_Dose is Mks_Type with Dimension => (Symbol => "Gy", Meter => 2, Second => -2, others => 0); subtype Angle is Mks_Type with Dimension => (Symbol => "rad", others => 0); subtype Area is Mks_Type with Dimension => ( Meter => 2, others => 0); subtype Catalytic_Activity is Mks_Type with Dimension => (Symbol => "kat", Second => -1, Mole => 1, others => 0); subtype Celsius_Temperature is Mks_Type with Dimension => (Symbol => "°C", Kelvin => 1, others => 0); subtype Electric_Capacitance is Mks_Type with Dimension => (Symbol => 'F', Meter => -2, Kilogram => -1, Second => 4, Ampere => 2, others => 0); subtype Electric_Charge is Mks_Type with Dimension => (Symbol => 'C', Second => 1, Ampere => 1, others => 0); subtype Electric_Conductance is Mks_Type with Dimension => (Symbol => 'S', Meter => -2, Kilogram => -1, Second => 3, Ampere => 2, others => 0); subtype Electric_Potential_Difference is Mks_Type with Dimension => (Symbol => 'V', Meter => 2, Kilogram => 1, Second => -3, Ampere => -1, others => 0); subtype Electric_Resistance is Mks_Type with Dimension => (Symbol => "Ω", Meter => 2, Kilogram => 1, Second => -3, Ampere => -2, others => 0); subtype Energy is Mks_Type with Dimension => (Symbol => 'J', Meter => 2, Kilogram => 1, Second => -2, others => 0); subtype Equivalent_Dose is Mks_Type with Dimension => (Symbol => "Sv", Meter => 2, Second => -2, others => 0); subtype Force is Mks_Type with Dimension => (Symbol => 'N', Meter => 1, Kilogram => 1, Second => -2, others => 0); subtype Frequency is Mks_Type with Dimension => (Symbol => "Hz", Second => -1, others => 0); subtype Illuminance is Mks_Type with Dimension => (Symbol => "lx", Meter => -2, Candela => 1, others => 0); subtype Inductance is Mks_Type with Dimension => (Symbol => 'H', Meter => 2, Kilogram => 1, Second => -2, Ampere => -2, others => 0); subtype Luminous_Flux is Mks_Type with Dimension => (Symbol => "lm", Candela => 1, others => 0); subtype Magnetic_Flux is Mks_Type with Dimension => (Symbol => "Wb", Meter => 2, Kilogram => 1, Second => -2, Ampere => -1, others => 0); subtype Magnetic_Flux_Density is Mks_Type with Dimension => (Symbol => 'T', Kilogram => 1, Second => -2, Ampere => -1, others => 0); subtype Power is Mks_Type with Dimension => (Symbol => 'W', Meter => 2, Kilogram => 1, Second => -3, others => 0); subtype Pressure is Mks_Type with Dimension => (Symbol => "Pa", Meter => -1, Kilogram => 1, Second => -2, others => 0); subtype Radioactivity is Mks_Type with Dimension => (Symbol => "Bq", Second => -1, others => 0); subtype Solid_Angle is Mks_Type with Dimension => (Symbol => "sr", others => 0); subtype Speed is Mks_Type with Dimension => ( Meter => 1, Second => -1, others => 0); subtype Volume is Mks_Type with Dimension => ( Meter => 3, others => 0); -- Initialize derived dimension values -- Turn off the all the dimension warnings for these basic assignments -- since otherwise we would get complaints about assigning dimensionless -- values to dimensioned subtypes. pragma Warnings (Off, "assumed to be"); rad : constant Angle := 1.0; sr : constant Solid_Angle := 1.0; Hz : constant Frequency := 1.0; N : constant Force := 1.0; Pa : constant Pressure := 1.0; J : constant Energy := 1.0; W : constant Power := 1.0; C : constant Electric_Charge := 1.0; V : constant Electric_Potential_Difference := 1.0; F : constant Electric_Capacitance := 1.0; Ohm : constant Electric_Resistance := 1.0; Si : constant Electric_Conductance := 1.0; Wb : constant Magnetic_Flux := 1.0; T : constant Magnetic_Flux_Density := 1.0; H : constant Inductance := 1.0; dC : constant Celsius_Temperature := 273.15; lm : constant Luminous_Flux := 1.0; lx : constant Illuminance := 1.0; Bq : constant Radioactivity := 1.0; Gy : constant Absorbed_Dose := 1.0; Sv : constant Equivalent_Dose := 1.0; kat : constant Catalytic_Activity := 1.0; -- SI prefixes for Meter um : constant Length := 1.0E-06; -- micro (u) mm : constant Length := 1.0E-03; -- milli cm : constant Length := 1.0E-02; -- centi dm : constant Length := 1.0E-01; -- deci dam : constant Length := 1.0E+01; -- deka hm : constant Length := 1.0E+02; -- hecto km : constant Length := 1.0E+03; -- kilo Mem : constant Length := 1.0E+06; -- mega -- SI prefixes for Kilogram ug : constant Mass := 1.0E-09; -- micro (u) mg : constant Mass := 1.0E-06; -- milli cg : constant Mass := 1.0E-05; -- centi dg : constant Mass := 1.0E-04; -- deci g : constant Mass := 1.0E-03; -- gram dag : constant Mass := 1.0E-02; -- deka hg : constant Mass := 1.0E-01; -- hecto Meg : constant Mass := 1.0E+03; -- mega -- SI prefixes for Second us : constant Time := 1.0E-06; -- micro (u) ms : constant Time := 1.0E-03; -- milli cs : constant Time := 1.0E-02; -- centi ds : constant Time := 1.0E-01; -- deci das : constant Time := 1.0E+01; -- deka hs : constant Time := 1.0E+02; -- hecto ks : constant Time := 1.0E+03; -- kilo Mes : constant Time := 1.0E+06; -- mega -- Other constants for Second min : constant Time := 60.0 s; hour : constant Time := 60.0 * min; day : constant Time := 24.0 * hour; year : constant Time := 365.25 * day; -- SI prefixes for Ampere mA : constant Electric_Current := 1.0E-03; -- milli cA : constant Electric_Current := 1.0E-02; -- centi dA : constant Electric_Current := 1.0E-01; -- deci daA : constant Electric_Current := 1.0E+01; -- deka hA : constant Electric_Current := 1.0E+02; -- hecto kA : constant Electric_Current := 1.0E+03; -- kilo MeA : constant Electric_Current := 1.0E+06; -- mega pragma Warnings (On, "assumed to be"); end System.Dim.Mks;
-- package pc_1_coeff_17 -- -- Predictor_Rule : Integration_Rule renames Predictor_32_17; -- -- Corrector_Rule : Integration_Rule renames Corrector_33_17; -- -- Final_Step_Corrector : Real renames Final_Step_Corrector_33_17; -- generic type Real is digits <>; package pc_1_coeff_17 is subtype PC_Rule_Range is Integer range 0..31; type Integration_Rule is array(PC_Rule_Range) of Real; Extrap_Factor: constant Real := 1.0 / 15.8; Predictor_32_17 : constant Integration_Rule := ( -1.62472980947547285227912948691595204E-1 , 1.51846575484458773430336413812753196E+0 , -5.68313970441214142340495425745202565E+0 , 1.00050734670521388742024808461071612E+1 , -5.61854336297953874414035267260123444E+0 , -6.41511270402391939529842383747530560E+0 , 6.59402419366119591267336173438292271E+0 , 6.73389647814116072687447173034733748E+0 , -4.86700881396898624573986118676698199E+0 , -8.64478706711790617969744057119346501E+0 , 6.63950727514010549784482933422989055E-1 , 9.20584617745705343258283037112855880E+0 , 5.19291395136070380968021848017215355E+0 , -5.96875633034033333049422865420452374E+0 , -9.72525166371917802502970850620895075E+0 , -9.95483190234079632968918740363838844E-1 , 9.52700922317356348545779899395211586E+0 , 8.36629002979632377094330540813030109E+0 , -3.85140687351134092395168103549558921E+0 , -1.19484970796233066876477705100278548E+1 , -4.44168726638781250188880979736295583E+0 , 1.01593092041960707363001655682217274E+1 , 1.14434446021422622131134674483204015E+1 , -5.04683008000810008640273594832825778E+0 , -1.56394540669719939074019577890952650E+1 , 4.58226091321959434664888304431326364E-1 , 1.90978849948879625945213856074456873E+1 , -1.62929715322749462770004952327020878E+0 , -2.47069184123582886764830758984010759E+1 , 2.64970064547578370104165815171826716E+1 , -1.32754569867641443423432949584113725E+1 , 4.15676238628928173030237375397761510E+0 ); Predictor_32_extrap_to_17 : constant Integration_Rule := ( 1.36170338100944228833244474089595536E-1 , -1.43627006830559893033227429680231347E+0 , 6.25426101053819487878676687905366217E+0 , -1.37007265543019152786589106916978149E+1 , 1.30180684411558539611462169446664638E+1 , 3.37161992934220452136765391206638380E+0 , -1.44967104901233064320465797867265537E+1 , -2.32976036259699042473128857293279032E+0 , 1.60135143422803149804126763227308538E+1 , 6.09415040781672732848112078705410452E+0 , -1.67176567383205210974706254692379378E+1 , -1.24784473750736143913368532411975415E+1 , 1.33560980157391979480655078492820117E+1 , 1.88295870130376820754771101489794362E+1 , -4.21972488741453009458242453116599415E+0 , -2.16905844193546925713292133005795100E+1 , -8.54977852575513347873329401429507024E+0 , 1.83162714746860914505261967956328830E+1 , 2.03691056825979617972191189828938736E+1 , -9.48894410534496198964999690653173315E+0 , -2.69829180340256333702722180576512020E+1 , -1.05463051869620197709087430018367894E+0 , 2.73423581859878178943934360569196619E+1 , 1.00399919777284775215768531822227871E+1 , -2.52328248015840951873717383878101787E+1 , -1.55533819955664366838517778040311197E+1 , 2.76995237685588538548398240808673052E+1 , 1.34928731717967644615465425025854988E+1 , -4.47413113609792192188253274754918855E+1 , 3.67681104676958786532390848303135661E+1 , -1.58467700133578032514837230255466989E+1 , 4.41873602373768882185576611252393568E+0 ); Corrector_33_17 : constant Integration_Rule := ( 4.98168398855966025659830340469982468E-3 , -4.51613208728487145714279319138577943E-2 , 1.62172454961820758387144902609866889E-1 , -2.66736718543866567001890246179627645E-1 , 1.17456847072785594212726095808335063E-1 , 1.96866047179146830607213954647420838E-1 , -1.36406446406406306686104779385869613E-1 , -2.10316570120453320678394972110799891E-1 , 7.08775822889284787661100350119805011E-2 , 2.42273511266352912579478510626232678E-1 , 6.07880076103313559217517180111815585E-2 , -2.08884152342191241654946666209678123E-1 , -2.06927786051030923340239805288218292E-1 , 6.27988202459660113353878599356576194E-2 , 2.64368799640054028698998748639507920E-1 , 1.46893121647767128072743038831631258E-1 , -1.58366061762764557700156430430808771E-1 , -2.87895985515915602425491040068879095E-1 , -6.97454945893382033173477264815729488E-2 , 2.53738018963797141239773267604182993E-1 , 2.80867798494825232899917918565546520E-1 , -6.06446297592698498469263002734874671E-2 , -3.58323214027075377289296944856532071E-1 , -1.78281079905509944614996373606226778E-1 , 3.01776031852680498634277131438819591E-1 , 3.68005656150613531276021055250876534E-1 , -2.15472206527322468891573729855813413E-1 , -5.07830439816322016584924426165303395E-1 , 2.84771043627340798318221042098526303E-1 , 5.99446533852551009537456116171727083E-1 , -1.00303000540072804419740748556957105E+0 , 1.20147256716041481639865238776711029E+0 ); Final_Step_Corrector_33_17 : constant Real := 2.94467585637107351658652771972942886E-1; Predictor_31_17 : constant Integration_Rule := ( 0.0, -1.66288025996788291979014146692279247E-1 , 1.61314625598600037148364551586909605E+0 , -6.34652284483809191615748750922343187E+0 , 1.20925290950580058969215358176485194E+1 , -8.55543001730046005814737604555588414E+0 , -6.03856653603814841772670915680964009E+0 , 9.87411753435123356567413853432060800E+0 , 5.84792178429449472740424201798429506E+0 , -8.79080704693799352277751159942444752E+0 , -8.68433491492276051348785151885634521E+0 , 5.23249514341292630582386320899518599E+0 , 1.15501269956505581429385972255865776E+1 , 1.19015803599446214851405436363081260E+0 , -1.12735863726613656709402177491395534E+1 , -8.58724535293452427603673411259105530E+0 , 6.11779894831184736325921309026516388E+0 , 1.33143757032492108804679352846582872E+1 , 2.54498194351809454946350642124060281E+0 , -1.26899547687530867831866333263973675E+1 , -1.10392955600528269217184624438165837E+1 , 7.22114406303264771332361646862478847E+0 , 1.64284437998856731324743466498097621E+1 , -5.67080726395450006591274670119935468E-2 , -1.90090554969964743313479857481245026E+1 , -5.16273643185844088179660001589396301E+0 , 2.25693367707791379806394135476958962E+1 , 3.23942573862421619313560030459267391E+0 , -3.16177593803619854016308619241162746E+1 , 3.01300772494106219311088419792550374E+1 , -1.41999300670040827526500215273680735E+1 , 4.25214182773744383761004386084408864E+0 ); Corrector_33_extrap_to_18 : constant Integration_Rule := ( 4.64957172265568290617642035306327849E-3 , -5.32364345477780197326227382703065444E-2 , 2.58904041696766065932598884556662776E-1 , -6.72055793630148256966630050895269478E-1 , 9.15794996938466947765310910581055406E-1 , -3.86620357119493628669435032828971106E-1 , -5.29883785715189114108400207057360403E-1 , 4.61979036844325805108905000116698707E-1 , 4.56013862422632895360734280356379472E-1 , -3.59931859280603516471244037106034340E-1 , -5.22220187225208102066130902592553281E-1 , 1.53874467374816594859432240887279253E-1 , 5.76875866062408347780792620531227060E-1 , 1.37956101295865753817956167030461936E-1 , -5.04828211846707284644976890397154485E-1 , -4.35382776657718965561179636154178742E-1 , 2.60044938908876237049241916677437476E-1 , 6.18922127068426163141800392336135070E-1 , 1.04569667951157313542505041254343853E-1 , -6.09174833550661787094532384167567230E-1 , -4.73809758741684910775201463003244463E-1 , 4.24807949760191321053725822758113827E-1 , 7.60794586900441190078935262601197249E-1 , -1.70176212754445615018762081075796958E-1 , -9.85612736737263156756894612628934325E-1 , -7.10483049990096277149603714051640309E-4 , 1.30351505862644156114775006541164752E+0 , -2.58013361253619469261814185766801641E-1 , -1.84206431797194761511067211764574917E+0 , 2.56815524822308907107299393885690785E+0 , -1.88282334284095169147611053155693178E+0 , 1.40485051786555008449720031230200151E+0 ); Final_Step_Corrector_33_extrap_to_18 : constant Real := 2.74836413261300194882473461828327737E-1; Corrector_33_18 : constant Integration_Rule := ( -4.29063799602363300332554290338226295E-3 , 4.38930332480966809796959379076409981E-2 , -1.84407586326769458272582523016445115E-1 , 3.86018410068741543924126535404563539E-1 , -3.39672522737244306236877595500955353E-1 , -1.15641698427106085154098431312500252E-1 , 3.67714580948230418726334597592131207E-1 , 8.51130013530862502298476133473910856E-2 , -3.54666284501439138817890595269239766E-1 , -1.81416311108832538094079171518532074E-1 , 2.88833826526463644786676422021725394E-1 , 3.22344332863848596675379797234396480E-1 , -1.21000123850099483378649506353159374E-1 , -4.05936344466723412585600990426609324E-1 , -1.33568166316278517562718545082911589E-1 , 3.36386586562306821405499326466245392E-1 , 3.72313509686552044866666445265398842E-1 , -9.84025206013759090927347524342649613E-2 , -4.67682460545670749579065020203992459E-1 , -2.14997145748892282681215582758083950E-1 , 3.66795460695756672861508217500605439E-1 , 4.70583855446769988483400163170587136E-1 , -1.30277395110943088424372240845988236E-1 , -6.01970902280695395288554055750991530E-1 , -1.23767834937687118949723498842400676E-1 , 6.63435227624153102184263640709067511E-1 , 2.88648820827314256520865647122187408E-1 , -8.20338185422574932346236812125224486E-1 , -1.72358326182689102131382649210764114E-1 , 1.25220166246515912046347289775591826E+0 , -1.34961004668931826085713491119588305E+0 , 1.29052692128136021194977625758860908E+0 ); Final_Step_Corrector_33_18 : constant Real := 2.85195263652524058398728925664860798E-1; Predictor_Rule : Integration_Rule renames Predictor_31_17; --Predictor_Rule : Integration_Rule renames Predictor_32_extrap_to_17; Corrector_Rule : Integration_Rule renames Corrector_33_17; --Corrector_Rule : Integration_Rule renames Corrector_33_extrap_to_18; Final_Step_Corrector : Real renames Final_Step_Corrector_33_17; --Final_Step_Corrector : Real renames Final_Step_Corrector_33_extrap_to_18; end pc_1_coeff_17;
-- CC3234A.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 A PRIVATE OR LIMITED PRIVATE FORMAL TYPE DENOTES ITS -- ACTUAL PARAMETER AN ARRAY TYPE, AND OPERATIONS OF THE FORMAL -- TYPE ARE IDENTIFIED WITH CORRESPONDING OPERATIONS OF THE ACTUAL -- TYPE. -- HISTORY: -- TBN 09/15/88 CREATED ORIGINAL TEST. WITH REPORT; USE REPORT; PROCEDURE CC3234A IS GENERIC TYPE T IS PRIVATE; PACKAGE P IS SUBTYPE SUB_T IS T; PAC_VAR : T; END P; GENERIC TYPE T IS LIMITED PRIVATE; PACKAGE LP IS SUBTYPE SUB_T IS T; PAC_VAR : T; END LP; BEGIN TEST ("CC3234A", "CHECK THAT A PRIVATE OR LIMITED PRIVATE " & "FORMAL TYPE DENOTES ITS ACTUAL PARAMETER AN " & "ARRAY TYPE, AND OPERATIONS OF THE " & "FORMAL TYPE ARE IDENTIFIED WITH CORRESPONDING " & "OPERATIONS OF THE ACTUAL TYPE"); DECLARE -- PRIVATE TYPE. TYPE ARRAY_TYPE IS ARRAY (1..10) OF INTEGER; OBJ_ARR : ARRAY_TYPE := (OTHERS => 1); PACKAGE P1 IS NEW P (ARRAY_TYPE); USE P1; TYPE NEW_T IS NEW SUB_T; OBJ_NEWT : NEW_T; BEGIN PAC_VAR := SUB_T'(1, 1, 1, 1, 1, 1, 1, 1, 1, 1); IF PAC_VAR /= OBJ_ARR THEN FAILED ("INCORRECT RESULTS - 1"); END IF; OBJ_ARR(1) := PAC_VAR(2) + OBJ_ARR(1); IF OBJ_ARR(1) <= PAC_VAR(1) THEN FAILED ("INCORRECT RESULTS - 2"); END IF; PAC_VAR(1) := PAC_VAR(1) * OBJ_ARR(3); IF PAC_VAR NOT IN ARRAY_TYPE THEN FAILED ("INCORRECT RESULTS - 3"); END IF; IF OBJ_ARR NOT IN SUB_T THEN FAILED ("INCORRECT RESULTS - 4"); END IF; IF ARRAY_TYPE'FIRST /= SUB_T'FIRST THEN FAILED ("INCORRECT RESULTS - 5"); END IF; OBJ_ARR(1..5) := PAC_VAR(6..10); IF OBJ_ARR(1..5) /= (1, 1, 1, 1, 1) THEN FAILED ("INCORRECT RESULTS - 6"); END IF; PAC_VAR := (1, 1, 1, 1, 1, 2, 2, 2, 2, 2); OBJ_NEWT := (1, 1, 1, 1, 1, 1, 1, 1, 1, 1); OBJ_NEWT := NEW_T(PAC_VAR); IF OBJ_NEWT(3..7) /= (1, 1, 1, 2, 2) THEN FAILED ("INCORRECT RESULTS - 7"); END IF; IF OBJ_NEWT NOT IN NEW_T THEN FAILED ("INCORRECT RESULTS - 8"); END IF; END; DECLARE -- LIMITED PRIVATE TYPE. TYPE ARRAY_TYPE IS ARRAY (1..10) OF INTEGER; OBJ_ARR : ARRAY_TYPE := (OTHERS => 1); PACKAGE P1 IS NEW LP (ARRAY_TYPE); USE P1; TYPE NEW_T IS NEW SUB_T; OBJ_NEWT : NEW_T; BEGIN PAC_VAR := SUB_T'(1, 1, 1, 1, 1, 1, 1, 1, 1, 1); IF PAC_VAR /= OBJ_ARR THEN FAILED ("INCORRECT RESULTS - 9"); END IF; OBJ_ARR(1) := PAC_VAR(2) + OBJ_ARR(1); IF OBJ_ARR(1) <= PAC_VAR(1) THEN FAILED ("INCORRECT RESULTS - 10"); END IF; PAC_VAR(1) := PAC_VAR(1) * OBJ_ARR(3); IF PAC_VAR NOT IN ARRAY_TYPE THEN FAILED ("INCORRECT RESULTS - 11"); END IF; IF OBJ_ARR NOT IN SUB_T THEN FAILED ("INCORRECT RESULTS - 12"); END IF; IF ARRAY_TYPE'FIRST /= SUB_T'FIRST THEN FAILED ("INCORRECT RESULTS - 13"); END IF; OBJ_ARR(1..5) := PAC_VAR(6..10); IF OBJ_ARR(1..5) /= (1, 1, 1, 1, 1) THEN FAILED ("INCORRECT RESULTS - 14"); END IF; PAC_VAR := (1, 1, 1, 1, 1, 2, 2, 2, 2, 2); OBJ_NEWT := (1, 1, 1, 1, 1, 1, 1, 1, 1, 1); OBJ_NEWT := NEW_T(PAC_VAR); IF OBJ_NEWT(3..7) /= (1, 1, 1, 2, 2) THEN FAILED ("INCORRECT RESULTS - 15"); END IF; IF OBJ_NEWT NOT IN NEW_T THEN FAILED ("INCORRECT RESULTS - 16"); END IF; END; RESULT; END CC3234A;
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<item_version>0</item_version> <item class_id="22" tracking_level="1" version="0" object_id="_208"> <mId>1</mId> <mTag>flashMemAccess</mTag> <mType>0</mType> <sub_regions> <count>0</count> <item_version>0</item_version> </sub_regions> <basic_blocks> <count>17</count> <item_version>0</item_version> <item>20</item> <item>23</item> <item>33</item> <item>35</item> <item>37</item> <item>45</item> <item>51</item> <item>54</item> <item>56</item> <item>59</item> <item>67</item> <item>73</item> <item>76</item> <item>78</item> <item>80</item> <item>82</item> <item>84</item> </basic_blocks> <mII>1</mII> <mDepth>3</mDepth> <mMinTripCount>-1</mMinTripCount> <mMaxTripCount>-1</mMaxTripCount> <mMinLatency>2</mMinLatency> <mMaxLatency>2</mMaxLatency> <mIsDfPipe>0</mIsDfPipe> <mDfPipe class_id="-1"/> </item> </cdfg_regions> <fsm class_id="24" tracking_level="1" version="0" object_id="_209"> <states class_id="25" tracking_level="0" version="0"> <count>3</count> <item_version>0</item_version> <item class_id="26" tracking_level="1" version="0" object_id="_210"> <id>1</id> <operations class_id="27" tracking_level="0" version="0"> <count>41</count> <item_version>0</item_version> <item class_id="28" tracking_level="1" version="0" object_id="_211"> <id>15</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_212"> <id>16</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_213"> <id>17</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_214"> <id>18</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_215"> <id>19</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_216"> <id>21</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_217"> <id>22</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_218"> <id>24</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_219"> <id>25</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_220"> <id>26</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_221"> <id>27</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_222"> <id>28</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_223"> <id>29</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_224"> <id>30</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_225"> <id>31</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_226"> <id>36</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_227"> <id>38</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_228"> <id>39</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_229"> <id>40</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_230"> <id>41</id> <stage>2</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_231"> <id>43</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_232"> <id>44</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_233"> <id>46</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_234"> <id>47</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_235"> <id>48</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_236"> <id>49</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_237"> <id>52</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_238"> <id>57</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_239"> <id>58</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_240"> <id>60</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_241"> <id>61</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_242"> <id>62</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_243"> <id>63</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_244"> <id>64</id> <stage>2</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_245"> <id>65</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_246"> <id>66</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_247"> <id>68</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_248"> <id>69</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_249"> <id>70</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_250"> <id>71</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_251"> <id>74</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_252"> <id>2</id> <operations> <count>3</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_253"> <id>41</id> <stage>1</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_254"> <id>42</id> <stage>2</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_255"> <id>64</id> <stage>1</stage> <latency>2</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_256"> <id>3</id> <operations> <count>18</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_257"> <id>9</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_258"> <id>10</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_259"> <id>11</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_260"> <id>12</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_261"> <id>13</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_262"> <id>14</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_263"> <id>32</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_264"> <id>34</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_265"> <id>42</id> <stage>1</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_266"> <id>50</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_267"> <id>53</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_268"> <id>55</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_269"> <id>72</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_270"> <id>75</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_271"> <id>77</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_272"> <id>79</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_273"> <id>81</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_274"> <id>83</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> </states> <transitions class_id="29" tracking_level="0" version="0"> <count>2</count> <item_version>0</item_version> <item class_id="30" tracking_level="1" version="0" object_id="_275"> <inState>1</inState> <outState>2</outState> <condition class_id="31" tracking_level="0" version="0"> <id>78</id> <sop class_id="32" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="33" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_276"> <inState>2</inState> <outState>3</outState> <condition> <id>79</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> </transitions> </fsm> <res class_id="34" tracking_level="1" version="0" object_id="_277"> <dp_component_resource class_id="35" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </dp_component_resource> <dp_expression_resource> <count>13</count> <item_version>0</item_version> <item class_id="36" tracking_level="0" version="0"> <first>ap_block_state1_pp0_stage0_iter0 ( or ) </first> <second class_id="37" tracking_level="0" version="0"> <count>4</count> <item_version>0</item_version> <item class_id="38" tracking_level="0" version="0"> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_block_state2_io ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_block_state3_io ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_predicate_op11_read_state1 ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_predicate_op35_read_state1 ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_predicate_op46_write_state2 ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_predicate_op56_write_state3 ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>grp_fu_134_p2 ( icmp ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>13</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>13</second> </item> </second> </item> <item> <first>grp_fu_139_p2 ( + ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>13</second> </item> <item> <first>(1P1)</first> <second>2</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>20</second> </item> </second> </item> <item> <first>grp_fu_150_p2 ( + ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>32</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>39</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_load_A ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_load_B ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_state_cmp_full ( icmp ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>2</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>8</second> </item> </second> </item> </dp_expression_resource> <dp_fifo_resource> <count>0</count> <item_version>0</item_version> </dp_fifo_resource> <dp_memory_resource> <count>1</count> <item_version>0</item_version> <item> <first>memArray_V_U</first> <second> <count>7</count> <item_version>0</item_version> <item> <first>(0Words)</first> <second>65536</second> </item> <item> <first>(1Bits)</first> <second>64</second> </item> <item> <first>(2Banks)</first> <second>1</second> </item> <item> <first>(3WBitsBanks)</first> <second>4194304</second> </item> <item> <first>BRAM</first> <second>256</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>0</second> </item> </second> </item> </dp_memory_resource> <dp_multiplexer_resource> <count>11</count> <item_version>0</item_version> <item> <first>ap_NS_iter1_fsm</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>3</second> </item> <item> <first>(1Bits)</first> <second>2</second> </item> <item> <first>(2Count)</first> <second>6</second> </item> <item> <first>LUT</first> <second>15</second> </item> </second> </item> <item> <first>ap_NS_iter2_fsm</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>3</second> </item> <item> <first>(1Bits)</first> <second>2</second> </item> <item> <first>(2Count)</first> <second>6</second> </item> <item> <first>LUT</first> <second>15</second> </item> </second> </item> <item> <first>ap_done</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>flashAggregateMemCmd_1_blk_n</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>inputWord_address_V</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>32</second> </item> <item> <first>(2Count)</first> <second>64</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>inputWord_count_V</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>13</second> </item> <item> <first>(2Count)</first> <second>26</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>memArray_V_address0</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>3</second> </item> <item> <first>(1Bits)</first> <second>16</second> </item> <item> <first>(2Count)</first> <second>48</second> </item> <item> <first>LUT</first> <second>15</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_data_out</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>64</second> </item> <item> <first>(2Count)</first> <second>128</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_state</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>3</second> </item> <item> <first>(1Bits)</first> <second>2</second> </item> <item> <first>(2Count)</first> <second>6</second> </item> <item> <first>LUT</first> <second>15</second> </item> </second> </item> <item> <first>rdDataOut_V_V_TDATA_blk_n</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>wrDataIn_V_V_TDATA_blk_n</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> </dp_multiplexer_resource> <dp_register_resource> <count>17</count> <item_version>0</item_version> <item> <first>ap_CS_iter0_fsm</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>ap_CS_iter1_fsm</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>2</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>2</second> </item> </second> </item> <item> <first>ap_CS_iter2_fsm</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>2</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>2</second> </item> </second> </item> <item> <first>ap_done_reg</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>inputWord_address_V</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>32</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>32</second> </item> </second> </item> <item> <first>inputWord_count_V</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>13</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>13</second> </item> </second> </item> <item> <first>inputWord_rdOrWr_V</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>inputWord_rdOrWr_V_l_reg_254</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>inputWord_rdOrWr_V_l_reg_254_pp0_iter1_reg</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>memState</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>memState_load_reg_250</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>memState_load_reg_250_pp0_iter1_reg</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_payload_A</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>64</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>64</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_payload_B</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>64</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>64</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_sel_rd</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_sel_wr</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_state</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>2</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>2</second> </item> </second> </item> </dp_register_resource> <dp_dsp_resource> <count>0</count> <item_version>0</item_version> </dp_dsp_resource> <dp_component_map class_id="39" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </dp_component_map> <dp_expression_map> <count>3</count> <item_version>0</item_version> <item class_id="40" tracking_level="0" version="0"> <first>grp_fu_134_p2 ( icmp ) </first> <second> <count>2</count> <item_version>0</item_version> <item>43</item> <item>65</item> </second> </item> <item> <first>grp_fu_139_p2 ( + ) </first> <second> <count>2</count> <item_version>0</item_version> <item>46</item> <item>68</item> </second> </item> <item> <first>grp_fu_150_p2 ( + ) </first> <second> <count>2</count> <item_version>0</item_version> <item>48</item> <item>70</item> </second> </item> </dp_expression_map> <dp_fifo_map> <count>0</count> <item_version>0</item_version> </dp_fifo_map> <dp_memory_map> <count>1</count> <item_version>0</item_version> <item> <first>memArray_V_U</first> <second> <count>1</count> <item_version>0</item_version> <item>186</item> </second> </item> </dp_memory_map> </res> <node_label_latency class_id="41" tracking_level="0" version="0"> <count>53</count> <item_version>0</item_version> <item class_id="42" tracking_level="0" version="0"> <first>15</first> <second class_id="43" tracking_level="0" version="0"> <first>0</first> <second>0</second> </second> </item> <item> <first>16</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>17</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>18</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>19</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>21</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>22</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>24</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>25</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>26</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>27</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>28</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>29</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>30</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>31</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>32</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>34</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>36</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>38</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>39</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>40</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>41</first> <second> <first>0</first> <second>1</second> </second> </item> <item> <first>42</first> <second> <first>1</first> <second>1</second> </second> </item> <item> <first>43</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>44</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>46</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>47</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>48</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>49</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>50</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>52</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>53</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>55</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>57</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>58</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>60</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>61</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>62</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>63</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>64</first> <second> <first>0</first> <second>1</second> </second> </item> <item> <first>65</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>66</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>68</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>69</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>70</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>71</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>72</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>74</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>75</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>77</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>79</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>81</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>83</first> <second> <first>2</first> <second>0</second> </second> </item> </node_label_latency> <bblk_ent_exit class_id="44" tracking_level="0" version="0"> <count>17</count> <item_version>0</item_version> <item class_id="45" tracking_level="0" version="0"> <first>20</first> <second class_id="46" tracking_level="0" version="0"> <first>0</first> <second>2</second> </second> </item> <item> <first>23</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>33</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>35</first> <second> <first>2</first> <second>2</second> </second> </item> <item> <first>37</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>45</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>51</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>54</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>56</first> <second> <first>2</first> <second>2</second> </second> </item> <item> <first>59</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>67</first> <second> <first>0</first> <second>1</second> </second> </item> <item> <first>73</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>76</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>78</first> <second> <first>2</first> <second>2</second> </second> </item> <item> <first>80</first> <second> <first>2</first> <second>2</second> </second> </item> <item> <first>82</first> <second> <first>2</first> <second>2</second> </second> </item> <item> <first>84</first> <second> <first>2</first> <second>2</second> </second> </item> </bblk_ent_exit> <regions class_id="47" tracking_level="0" version="0"> <count>2</count> <item_version>0</item_version> <item class_id="48" tracking_level="1" version="0" object_id="_278"> <region_name>flashMemAccess</region_name> <basic_blocks> <count>17</count> <item_version>0</item_version> <item>20</item> <item>23</item> <item>33</item> <item>35</item> <item>37</item> <item>45</item> <item>54</item> <item>51</item> <item>56</item> <item>59</item> <item>67</item> <item>76</item> <item>73</item> <item>78</item> <item>80</item> <item>82</item> <item>84</item> </basic_blocks> <nodes> <count>59</count> <item_version>0</item_version> <item>9</item> <item>10</item> 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<interval>0</interval> <pipe_depth>0</pipe_depth> </item> <item class_id_reference="48" object_id="_279"> <region_name>flashMemAccess</region_name> <basic_blocks> <count>17</count> <item_version>0</item_version> <item>20</item> <item>23</item> <item>33</item> <item>35</item> <item>37</item> <item>45</item> <item>51</item> <item>54</item> <item>56</item> <item>59</item> <item>67</item> <item>73</item> <item>76</item> <item>78</item> <item>80</item> <item>82</item> <item>84</item> </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>3</pipe_depth> </item> </regions> <dp_fu_nodes class_id="49" tracking_level="0" version="0"> <count>29</count> <item_version>0</item_version> <item class_id="50" tracking_level="0" version="0"> <first>76</first> <second> <count>1</count> <item_version>0</item_version> <item>21</item> </second> </item> <item> <first>84</first> <second> <count>1</count> <item_version>0</item_version> <item>24</item> </second> </item> <item> <first>90</first> <second> <count>1</count> <item_version>0</item_version> <item>57</item> </second> </item> <item> <first>98</first> <second> <count>1</count> <item_version>0</item_version> <item>62</item> </second> </item> <item> <first>104</first> <second> <count>2</count> <item_version>0</item_version> <item>42</item> <item>42</item> </second> </item> <item> <first>111</first> <second> <count>1</count> <item_version>0</item_version> <item>40</item> </second> </item> <item> <first>118</first> <second> <count>4</count> <item_version>0</item_version> <item>41</item> <item>41</item> <item>64</item> <item>64</item> </second> </item> <item> <first>125</first> <second> <count>1</count> <item_version>0</item_version> <item>63</item> </second> </item> <item> <first>134</first> <second> <count>2</count> <item_version>0</item_version> <item>43</item> <item>65</item> </second> </item> <item> <first>139</first> <second> <count>2</count> <item_version>0</item_version> <item>46</item> <item>68</item> </second> </item> <item> <first>144</first> <second> <count>2</count> <item_version>0</item_version> <item>47</item> <item>69</item> </second> </item> <item> <first>150</first> <second> <count>2</count> <item_version>0</item_version> <item>48</item> <item>70</item> </second> </item> <item> <first>155</first> <second> <count>2</count> <item_version>0</item_version> <item>49</item> <item>71</item> </second> </item> <item> <first>161</first> <second> <count>2</count> <item_version>0</item_version> <item>52</item> <item>74</item> </second> </item> <item> <first>167</first> <second> <count>1</count> <item_version>0</item_version> <item>15</item> </second> </item> <item> <first>171</first> <second> <count>1</count> <item_version>0</item_version> <item>16</item> </second> </item> <item> <first>176</first> <second> <count>1</count> <item_version>0</item_version> <item>17</item> </second> </item> <item> <first>182</first> <second> <count>1</count> <item_version>0</item_version> <item>18</item> </second> </item> <item> <first>186</first> <second> <count>1</count> <item_version>0</item_version> <item>25</item> </second> </item> <item> <first>190</first> <second> <count>1</count> <item_version>0</item_version> <item>26</item> </second> </item> <item> <first>196</first> <second> <count>1</count> <item_version>0</item_version> <item>27</item> </second> </item> <item> <first>206</first> <second> <count>1</count> <item_version>0</item_version> <item>28</item> </second> </item> <item> <first>212</first> <second> <count>1</count> <item_version>0</item_version> <item>29</item> </second> </item> <item> <first>220</first> <second> <count>1</count> <item_version>0</item_version> <item>30</item> </second> </item> <item> <first>226</first> <second> <count>1</count> <item_version>0</item_version> <item>31</item> </second> </item> <item> <first>232</first> <second> <count>1</count> <item_version>0</item_version> <item>38</item> </second> </item> <item> <first>236</first> <second> <count>1</count> <item_version>0</item_version> <item>39</item> </second> </item> <item> <first>241</first> <second> <count>1</count> <item_version>0</item_version> <item>60</item> </second> </item> <item> <first>245</first> <second> <count>1</count> <item_version>0</item_version> <item>61</item> </second> </item> </dp_fu_nodes> <dp_fu_nodes_expression class_id="52" tracking_level="0" version="0"> <count>12</count> <item_version>0</item_version> <item class_id="53" tracking_level="0" version="0"> <first>grp_fu_134</first> <second> <count>2</count> <item_version>0</item_version> <item>43</item> <item>65</item> </second> </item> <item> <first>grp_fu_139</first> <second> <count>2</count> <item_version>0</item_version> <item>46</item> <item>68</item> </second> </item> <item> <first>grp_fu_150</first> <second> <count>2</count> <item_version>0</item_version> <item>48</item> <item>70</item> </second> </item> <item> <first>memArray_V_addr_1_gep_fu_125</first> <second> <count>1</count> <item_version>0</item_version> <item>63</item> </second> </item> <item> <first>memArray_V_addr_gep_fu_111</first> <second> <count>1</count> <item_version>0</item_version> <item>40</item> </second> </item> <item> <first>tmp_2_fu_232</first> <second> <count>1</count> <item_version>0</item_version> <item>38</item> </second> </item> <item> <first>tmp_4_fu_186</first> <second> <count>1</count> <item_version>0</item_version> <item>25</item> </second> </item> <item> <first>tmp_5_fu_212</first> <second> <count>1</count> <item_version>0</item_version> <item>29</item> </second> </item> <item> <first>tmp_6_fu_241</first> <second> <count>1</count> <item_version>0</item_version> <item>60</item> </second> </item> <item> <first>tmp_6_i_fu_236</first> <second> <count>1</count> <item_version>0</item_version> <item>39</item> </second> </item> <item> <first>tmp_9_i_fu_245</first> <second> <count>1</count> <item_version>0</item_version> <item>61</item> </second> </item> <item> <first>tmp_count_V_load_new_fu_196</first> <second> <count>1</count> <item_version>0</item_version> <item>27</item> </second> </item> </dp_fu_nodes_expression> <dp_fu_nodes_module> <count>0</count> <item_version>0</item_version> </dp_fu_nodes_module> <dp_fu_nodes_io> <count>16</count> <item_version>0</item_version> <item> <first>StgValue_13_store_fu_190</first> <second> <count>1</count> <item_version>0</item_version> <item>26</item> </second> </item> <item> <first>StgValue_15_store_fu_206</first> <second> <count>1</count> <item_version>0</item_version> <item>28</item> </second> </item> <item> <first>StgValue_17_store_fu_220</first> <second> <count>1</count> <item_version>0</item_version> <item>30</item> </second> </item> <item> <first>StgValue_18_store_fu_226</first> <second> <count>1</count> <item_version>0</item_version> <item>31</item> </second> </item> <item> <first>grp_store_fu_144</first> <second> <count>2</count> <item_version>0</item_version> <item>47</item> <item>69</item> </second> </item> <item> <first>grp_store_fu_155</first> <second> <count>2</count> <item_version>0</item_version> <item>49</item> <item>71</item> </second> </item> <item> <first>grp_store_fu_161</first> <second> <count>2</count> <item_version>0</item_version> <item>52</item> <item>74</item> </second> </item> <item> <first>grp_write_fu_104</first> <second> <count>2</count> <item_version>0</item_version> <item>42</item> <item>42</item> </second> </item> <item> <first>inputWord_count_V_lo_load_fu_176</first> <second> <count>1</count> <item_version>0</item_version> <item>17</item> </second> </item> <item> <first>inputWord_rdOrWr_V_l_load_fu_182</first> <second> <count>1</count> <item_version>0</item_version> <item>18</item> </second> </item> <item> <first>memState_load_load_fu_167</first> <second> <count>1</count> <item_version>0</item_version> <item>15</item> </second> </item> <item> <first>p_Val2_s_load_fu_171</first> <second> <count>1</count> <item_version>0</item_version> <item>16</item> </second> </item> <item> <first>tmp_1_nbreadreq_fu_90</first> <second> <count>1</count> <item_version>0</item_version> <item>57</item> </second> </item> <item> <first>tmp_3_read_fu_84</first> <second> <count>1</count> <item_version>0</item_version> <item>24</item> </second> </item> <item> <first>tmp_V_1_read_fu_98</first> <second> <count>1</count> <item_version>0</item_version> <item>62</item> </second> </item> <item> <first>tmp_nbreadreq_fu_76</first> <second> <count>1</count> <item_version>0</item_version> <item>21</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="54" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="55" tracking_level="0" version="0"> <first class_id="56" tracking_level="0" version="0"> <first>memArray_V</first> <second>0</second> </first> <second> <count>4</count> <item_version>0</item_version> <item>41</item> <item>41</item> <item>64</item> <item>64</item> </second> </item> </dp_mem_port_nodes> <dp_reg_nodes> <count>10</count> <item_version>0</item_version> <item> <first>250</first> <second> <count>1</count> <item_version>0</item_version> <item>15</item> </second> </item> <item> <first>254</first> <second> <count>1</count> <item_version>0</item_version> <item>18</item> </second> </item> <item> <first>258</first> <second> <count>1</count> <item_version>0</item_version> <item>21</item> </second> </item> <item> <first>262</first> <second> <count>1</count> <item_version>0</item_version> <item>40</item> </second> </item> <item> <first>267</first> <second> <count>1</count> <item_version>0</item_version> <item>43</item> </second> </item> <item> <first>271</first> <second> <count>1</count> <item_version>0</item_version> <item>57</item> </second> </item> <item> <first>275</first> <second> 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<count>1</count> <item_version>0</item_version> <item>15</item> </second> </item> <item> <first>tmp_1_reg_271</first> <second> <count>1</count> <item_version>0</item_version> <item>57</item> </second> </item> <item> <first>tmp_8_i_reg_267</first> <second> <count>1</count> <item_version>0</item_version> <item>43</item> </second> </item> <item> <first>tmp_V_1_reg_275</first> <second> <count>1</count> <item_version>0</item_version> <item>62</item> </second> </item> <item> <first>tmp_V_reg_289</first> <second> <count>1</count> <item_version>0</item_version> <item>41</item> </second> </item> <item> <first>tmp_i_reg_285</first> <second> <count>1</count> <item_version>0</item_version> <item>65</item> </second> </item> <item> <first>tmp_reg_258</first> <second> <count>1</count> <item_version>0</item_version> <item>21</item> </second> </item> </dp_regname_nodes> <dp_reg_phi> <count>0</count> <item_version>0</item_version> </dp_reg_phi> <dp_regname_phi> <count>0</count> 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</second> </item> <item> <first>read</first> <second> <count>1</count> <item_version>0</item_version> <item>62</item> </second> </item> </second> </item> </dp_port_io_nodes> <port2core class_id="59" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="60" tracking_level="0" version="0"> <first>7</first> <second>FIFO_SRL</second> </item> </port2core> <node2core> <count>0</count> <item_version>0</item_version> </node2core> </syndb> </boost_serialization>
-------------------------------------------------------------------------------------------------------------------- -- Copyright (c) 2013-2020, Luke A. Guest -- -- This software is provided 'as-is', without any express or implied -- warranty. In no event will the authors be held liable for any damages -- arising from the use of this software. -- -- Permission is granted to anyone to use this software for any purpose, -- including commercial applications, and to alter it and redistribute it -- freely, subject to the following restrictions: -- -- 1. The origin of this software must not be misrepresented; you must not -- claim that you wrote the original software. If you use this software -- in a product, an acknowledgment in the product documentation would be -- appreciated but is not required. -- -- 2. Altered source versions must be plainly marked as such, and must not be -- misrepresented as being the original software. -- -- 3. This notice may not be removed or altered from any source -- distribution. -------------------------------------------------------------------------------------------------------------------- with Interfaces.C; private with SDL.C_Pointers; package body SDL.Video.Renderers.Makers is package C renames Interfaces.C; function Get_Internal_Window (Self : in SDL.Video.Windows.Window) return SDL.C_Pointers.Windows_Pointer with Convention => Ada, Import => True; function Get_Internal_Surface (Self : in SDL.Video.Surfaces.Surface) return SDL.Video.Surfaces.Internal_Surface_Pointer with Import => True, Convention => Ada; procedure Create (Rend : in out Renderer; Window : in out SDL.Video.Windows.Window; Driver : in Positive; Flags : in Renderer_Flags := Default_Renderer_Flags) is function SDL_Create_Renderer (W : in SDL.C_Pointers.Windows_Pointer; Index : in C.int; Flags : in Renderer_Flags) return SDL.C_Pointers.Renderer_Pointer with Import => True, Convention => C, External_Name => "SDL_CreateRenderer"; begin Rend.Internal := SDL_Create_Renderer (Get_Internal_Window (Window), C.int (Driver), Flags); end Create; procedure Create (Rend : in out Renderer; Window : in out SDL.Video.Windows.Window; Flags : in Renderer_Flags := Default_Renderer_Flags) is function SDL_Create_Renderer (W : in SDL.C_Pointers.Windows_Pointer; Index : in C.int; Flags : in Renderer_Flags) return SDL.C_Pointers.Renderer_Pointer with Import => True, Convention => C, External_Name => "SDL_CreateRenderer"; begin Rend.Internal := SDL_Create_Renderer (Get_Internal_Window (Window), -1, Flags); Rend.Owns := True; end Create; procedure Create (Rend : in out Renderer; Surface : in SDL.Video.Surfaces.Surface) is function SDL_Create_Software_Renderer (S : in SDL.Video.Surfaces.Internal_Surface_Pointer) return SDL.C_Pointers.Renderer_Pointer with Import => True, Convention => C, External_Name => "SDL_CreateSoftwareRenderer"; begin Rend.Internal := SDL_Create_Software_Renderer (Get_Internal_Surface (Surface)); Rend.Owns := True; end Create; end SDL.Video.Renderers.Makers;
------------------------------------------------------------------------------ -- -- -- 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. ------------------------------------------------------------------------------ -- LinearGradient is a kind of gradient that fills a graphical element by -- smoothly changing color values along a vector. ------------------------------------------------------------------------------ with AMF.DG.Gradients; package AMF.DG.Linear_Gradients is pragma Preelaborate; type DG_Linear_Gradient is limited interface and AMF.DG.Gradients.DG_Gradient; type DG_Linear_Gradient_Access is access all DG_Linear_Gradient'Class; for DG_Linear_Gradient_Access'Storage_Size use 0; not overriding function Get_X1 (Self : not null access constant DG_Linear_Gradient) return AMF.Real is abstract; -- Getter of LinearGradient::x1. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's width that is the x start point of the gradient. not overriding procedure Set_X1 (Self : not null access DG_Linear_Gradient; To : AMF.Real) is abstract; -- Setter of LinearGradient::x1. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's width that is the x start point of the gradient. not overriding function Get_X2 (Self : not null access constant DG_Linear_Gradient) return AMF.Real is abstract; -- Getter of LinearGradient::x2. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's width that is the x end point of the gradient. not overriding procedure Set_X2 (Self : not null access DG_Linear_Gradient; To : AMF.Real) is abstract; -- Setter of LinearGradient::x2. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's width that is the x end point of the gradient. not overriding function Get_Y1 (Self : not null access constant DG_Linear_Gradient) return AMF.Real is abstract; -- Getter of LinearGradient::y1. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's height that is the y start point of the gradient. not overriding procedure Set_Y1 (Self : not null access DG_Linear_Gradient; To : AMF.Real) is abstract; -- Setter of LinearGradient::y1. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's height that is the y start point of the gradient. not overriding function Get_Y2 (Self : not null access constant DG_Linear_Gradient) return AMF.Real is abstract; -- Getter of LinearGradient::y2. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's height that is the y end point of the gradient. not overriding procedure Set_Y2 (Self : not null access DG_Linear_Gradient; To : AMF.Real) is abstract; -- Setter of LinearGradient::y2. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's height that is the y end point of the gradient. end AMF.DG.Linear_Gradients;
----------------------------------------------------------------------------- -- -- -- GNAT RUNTIME COMPONENTS -- -- -- -- A D A . C H A R A C T E R S . H A N D L I N G -- -- -- -- S p e c -- -- -- -- $Revision: 2 $ -- -- -- -- This specification is adapted from the Ada Reference Manual for use with -- -- GNAT. In accordance with the copyright of that document, you can freely -- -- copy and modify this specification, provided that if you redistribute a -- -- modified version, any changes that you have made are clearly indicated. -- -- -- ------------------------------------------------------------------------------ package Ada.Characters.Handling is pragma Preelaborate (Handling); ---------------------------------------- -- Character Classification Functions -- ---------------------------------------- function Is_Control (Item : in Character) return Boolean; function Is_Graphic (Item : in Character) return Boolean; function Is_Letter (Item : in Character) return Boolean; function Is_Lower (Item : in Character) return Boolean; function Is_Upper (Item : in Character) return Boolean; function Is_Basic (Item : in Character) return Boolean; function Is_Digit (Item : in Character) return Boolean; function Is_Decimal_Digit (Item : in Character) return Boolean renames Is_Digit; function Is_Hexadecimal_Digit (Item : in Character) return Boolean; function Is_Alphanumeric (Item : in Character) return Boolean; function Is_Special (Item : in Character) return Boolean; --------------------------------------------------- -- Conversion Functions for Character and String -- --------------------------------------------------- function To_Lower (Item : in Character) return Character; function To_Upper (Item : in Character) return Character; function To_Basic (Item : in Character) return Character; function To_Lower (Item : in String) return String; function To_Upper (Item : in String) return String; function To_Basic (Item : in String) return String; ---------------------------------------------------------------------- -- Classifications of and Conversions Between Character and ISO 646 -- ---------------------------------------------------------------------- subtype ISO_646 is Character range Character'Val (0) .. Character'Val (127); function Is_ISO_646 (Item : in Character) return Boolean; function Is_ISO_646 (Item : in String) return Boolean; function To_ISO_646 (Item : in Character; Substitute : in ISO_646 := ' ') return ISO_646; function To_ISO_646 (Item : in String; Substitute : in ISO_646 := ' ') return String; ------------------------------------------------------ -- Classifications of Wide_Character and Characters -- ------------------------------------------------------ function Is_Character (Item : in Wide_Character) return Boolean; function Is_String (Item : in Wide_String) return Boolean; ------------------------------------------------------ -- Conversions between Wide_Character and Character -- ------------------------------------------------------ function To_Character (Item : in Wide_Character; Substitute : in Character := ' ') return Character; function To_String (Item : in Wide_String; Substitute : in Character := ' ') return String; function To_Wide_Character (Item : in Character) return Wide_Character; function To_Wide_String (Item : in String) return Wide_String; private pragma Inline (Is_Control); pragma Inline (Is_Graphic); pragma Inline (Is_Letter); pragma Inline (Is_Lower); pragma Inline (Is_Upper); pragma Inline (Is_Basic); pragma Inline (Is_Digit); pragma Inline (Is_Hexadecimal_Digit); pragma Inline (Is_Alphanumeric); pragma Inline (Is_Special); pragma Inline (To_Lower); pragma Inline (To_Upper); pragma Inline (To_Basic); pragma Inline (Is_ISO_646); pragma Inline (Is_Character); pragma Inline (To_Character); pragma Inline (To_Wide_Character); end Ada.Characters.Handling;
with Ada.Assertions; use Ada.Assertions; with Rejuvenation.String_Utils; use Rejuvenation.String_Utils; with Rejuvenation.Utils; use Rejuvenation.Utils; package body Predefined_Rewriters is -- Localize Ada Nodes in defining files Standard_Unit_Filename : constant String := "__standard"; -- libadalang uses the standard unit for the standard type function Is_In_Standard_Unit (Node : Ada_Node'Class) return Boolean; function Is_In_Standard_Unit (Node : Ada_Node'Class) return Boolean is begin return Ends_With (Node.Unit.Get_Filename, Standard_Unit_Filename); end Is_In_Standard_Unit; function Is_In_AStrUnb (Node : Ada_Node'Class) return Boolean; function Is_In_AStrUnb (Node : Ada_Node'Class) return Boolean is begin return Ends_With (Node.Unit.Get_Filename, "\adainclude\a-strunb.ads"); end Is_In_AStrUnb; -- Is Standard Ada Type checks function Is_Standard_Type_Expression (Match : Match_Pattern; Placeholder_Name, Standard_Type_Name : String) return Boolean; function Is_Standard_Type_Expression (Match : Match_Pattern; Placeholder_Name, Standard_Type_Name : String) return Boolean is T : constant Base_Type_Decl := Get_Expression_Type (Match, Placeholder_Name); begin Assert (Check => not T.Is_Null, Message => "Is_Standard_Type_Expression - " & "Unexpectedly Base Type Decl is null"); return Raw_Signature (T.F_Name) = Standard_Type_Name and then Is_In_Standard_Unit (T); end Is_Standard_Type_Expression; function Is_Boolean_Expression (Match : Match_Pattern; Placeholder_Name : String) return Boolean is (Is_Standard_Type_Expression (Match, Placeholder_Name, "Boolean")); function Is_Integer_Expression (Match : Match_Pattern; Placeholder_Name : String) return Boolean is (Is_Standard_Type_Expression (Match, Placeholder_Name, "Integer")); function Is_Float_Expression (Match : Match_Pattern; Placeholder_Name : String) return Boolean is (Is_Standard_Type_Expression (Match, Placeholder_Name, "Float")); function Is_String_Expression (Match : Match_Pattern; Placeholder_Name : String) return Boolean is (Is_Standard_Type_Expression (Match, Placeholder_Name, "String")); function Is_Unbounded_String (Match : Match_Pattern; Placeholder_Name : String) return Boolean is T : constant Base_Type_Decl := Get_Expression_Type (Match, Placeholder_Name); begin return Raw_Signature (T.F_Name) = "Unbounded_String" and then Is_In_AStrUnb (T); end Is_Unbounded_String; -- For each function call, the function with the given name -- and type of arguments is matched. -- However the found function depends on the particular import relations, -- so we need to check if the defining file is right -- even when the name and types are checked! function Is_Referenced_Decl_Defined_In_AStrUnb (N : Name) return Boolean is Decl : constant Basic_Decl := N.P_Referenced_Decl; begin Assert (Check => not Decl.Is_Null, Message => "Is_Referenced_Decl_Defined_In_AStrUnb - " & "Unexpectedly Decl is null"); return Is_In_AStrUnb (Decl); end Is_Referenced_Decl_Defined_In_AStrUnb; end Predefined_Rewriters;
-- This spec has been automatically generated from STM32F072x.svd pragma Restrictions (No_Elaboration_Code); pragma Ada_2012; pragma Style_Checks (Off); with System; package STM32_SVD.IWDG is pragma Preelaborate; --------------- -- Registers -- --------------- subtype KR_KEY_Field is STM32_SVD.UInt16; -- Key register type KR_Register is record -- Write-only. Key value KEY : KR_KEY_Field := 16#0#; -- unspecified Reserved_16_31 : STM32_SVD.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for KR_Register use record KEY at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; subtype PR_PR_Field is STM32_SVD.UInt3; -- Prescaler register type PR_Register is record -- Prescaler divider PR : PR_PR_Field := 16#0#; -- unspecified Reserved_3_31 : STM32_SVD.UInt29 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PR_Register use record PR at 0 range 0 .. 2; Reserved_3_31 at 0 range 3 .. 31; end record; subtype RLR_RL_Field is STM32_SVD.UInt12; -- Reload register type RLR_Register is record -- Watchdog counter reload value RL : RLR_RL_Field := 16#FFF#; -- unspecified Reserved_12_31 : STM32_SVD.UInt20 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for RLR_Register use record RL at 0 range 0 .. 11; Reserved_12_31 at 0 range 12 .. 31; end record; subtype SR_PVU_Field is STM32_SVD.Bit; subtype SR_RVU_Field is STM32_SVD.Bit; subtype SR_WVU_Field is STM32_SVD.Bit; -- Status register type SR_Register is record -- Read-only. Watchdog prescaler value update PVU : SR_PVU_Field; -- Read-only. Watchdog counter reload value update RVU : SR_RVU_Field; -- Read-only. Watchdog counter window value update WVU : SR_WVU_Field; -- unspecified Reserved_3_31 : STM32_SVD.UInt29; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for SR_Register use record PVU at 0 range 0 .. 0; RVU at 0 range 1 .. 1; WVU at 0 range 2 .. 2; Reserved_3_31 at 0 range 3 .. 31; end record; subtype WINR_WIN_Field is STM32_SVD.UInt12; -- Window register type WINR_Register is record -- Watchdog counter window value WIN : WINR_WIN_Field := 16#FFF#; -- unspecified Reserved_12_31 : STM32_SVD.UInt20 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for WINR_Register use record WIN at 0 range 0 .. 11; Reserved_12_31 at 0 range 12 .. 31; end record; ----------------- -- Peripherals -- ----------------- -- Independent watchdog type IWDG_Peripheral is record -- Key register KR : aliased KR_Register; -- Prescaler register PR : aliased PR_Register; -- Reload register RLR : aliased RLR_Register; -- Status register SR : aliased SR_Register; -- Window register WINR : aliased WINR_Register; end record with Volatile; for IWDG_Peripheral use record KR at 16#0# range 0 .. 31; PR at 16#4# range 0 .. 31; RLR at 16#8# range 0 .. 31; SR at 16#C# range 0 .. 31; WINR at 16#10# range 0 .. 31; end record; -- Independent watchdog IWDG_Periph : aliased IWDG_Peripheral with Import, Address => System'To_Address (16#40003000#); end STM32_SVD.IWDG;
-- { dg-do compile } -- { dg-options "-O2" } package Opt28 is function Full_Filename (Filename : String) return String; end Opt28;
-- ----------------------------------------------------------------- -- -- -- -- This 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 software 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. -- -- -- -- ----------------------------------------------------------------- -- -- ----------------------------------------------------------------- -- -- This is a translation, to the Ada programming language, of the -- -- original C test files written by Sam Lantinga - www.libsdl.org -- -- translation made by Antonio F. Vargas - www.adapower.net/~avargas -- -- ----------------------------------------------------------------- -- with System.OS_Interface; with Interfaces.C.Strings; with Ada.Text_IO; use Ada.Text_IO; with GNAT.OS_Lib; with SDL.Thread; with SDL.Error; with SDL.Quit; with Lib_C; with TortureThread_Sprogs; use TortureThread_Sprogs; procedure TortureThread is package C renames Interfaces.C; use type C.int; package CS renames Interfaces.C.Strings; package Tr renames SDL.Thread; use type Tr.SDL_Thread_ptr; package Er renames SDL.Error; type threads_Array is array (C.int range 0 .. NUMTHREADS - 1) of Tr.SDL_Thread_ptr; pragma Convention (C, threads_Array); threads : threads_Array; begin -- Load the SDL library if SDL.Init(0) < 0 then Put_Line ("Couldn't initialize SDL: " & Er.Get_Error); GNAT.OS_Lib.OS_Exit (1); end if; SDL.Quit.atexit (SDL.SDL_Quit'Access); Lib_C.Set_Signal (System.OS_Interface.SIGSEGV, null); for i in threads'Range loop time_for_threads_to_die (i) := 0; threads (i) := Tr.CreateThread (ThreadFunc'Access, To_Address (i)); if threads (i) = Tr.null_SDL_Thread_ptr then Put_Line ("Couldn't create thread: " & Er.Get_Error); GNAT.OS_Lib.OS_Exit (1); end if; end loop; for i in time_for_threads_to_die'Range loop time_for_threads_to_die (i) := 1; end loop; for i in reverse threads'Range loop Tr.WaitThread (threads (i), null); end loop; GNAT.OS_Lib.OS_Exit (0); -- Never reached end TortureThread;
------------------------------------------------------------------------------ -- -- -- Matreshka Project -- -- -- -- Localization, Internationalization, Globalization for Ada -- -- -- -- Runtime Library Component -- -- -- ------------------------------------------------------------------------------ -- -- -- Copyright © 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 Ada.Directories; with Ada.Streams.Stream_IO; with League.Stream_Element_Vectors.Internals; with League.Text_Codecs; with Matreshka.Internals.Stream_Element_Vectors; with Matreshka.Internals.Unicode.Characters.Latin; package body Matreshka.Internals.Settings.Ini_Files is use Ada.Streams; use League.Stream_Element_Vectors; use League.Strings; use Matreshka.Internals.Unicode; use Matreshka.Internals.Unicode.Characters.Latin; package Section_Maps is new Ada.Containers.Hashed_Maps (League.Strings.Universal_String, Maps.Map, League.Strings.Hash, League.Strings."=", Maps."="); -- This map is used to group key/value pairs in sections for serialization. Line_Delimiter : constant Stream_Element_Array := (0 => Line_Feed); -- Line_Delimiter : constant Stream_Element_Array -- := (0 => Carriage_Return, 1 => Line_Feed); -- Operating system dependent delimiter of lines in the text file. function To_Locale_String (Item : League.Strings.Universal_String) return String; -- Converts Universal_String to locale 8-bit string to use as file name for -- standard Ada library subprograms. procedure Load (Self : in out Ini_File_Settings'Class); -- Loads data from the file. procedure Parse (Self : in out Ini_File_Settings'Class; Data : League.Stream_Element_Vectors.Stream_Element_Vector); -- Parses data. function Serialize (Self : Ini_File_Settings) return League.Stream_Element_Vectors.Stream_Element_Vector; -- Serializes data. function Decode_Key (Data : Ada.Streams.Stream_Element_Array) return League.Strings.Universal_String; -- Decodes key representation in the file into Universal_String. function Decode_Value (Data : Ada.Streams.Stream_Element_Array) return League.Strings.Universal_String renames Decode_Key; -- Decodes value representation in the file into Universal_String. function Encode_Key (Key : League.Strings.Universal_String) return League.Stream_Element_Vectors.Stream_Element_Vector; -- Encodes key to representation in the file. function Encode_Value (Key : League.Strings.Universal_String) return League.Stream_Element_Vectors.Stream_Element_Vector renames Encode_Key; -- Encodes value to representation in the file. function From_Hex (Image : Ada.Streams.Stream_Element_Array) return Matreshka.Internals.Unicode.Code_Unit_32; -- Constructs Unicode code point from hexadecimal image. Returns -- Code_Unit_32'Last when conversion failed. -------------- -- Contains -- -------------- overriding function Contains (Self : Ini_File_Settings; Key : League.Strings.Universal_String) return Boolean is begin return Self.Values.Contains (Key); end Contains; ------------ -- Create -- ------------ function Create (Manager : not null access Abstract_Manager'Class; File_Name : League.Strings.Universal_String) return not null Settings_Access is begin return Aux : constant not null Settings_Access := new Ini_File_Settings' (Counter => <>, Manager => Manager, File_Name => File_Name, Modified => False, Values => Maps.Empty_Map) do declare Self : Ini_File_Settings'Class renames Ini_File_Settings'Class (Aux.all); begin Self.Load; end; end return; end Create; ---------------- -- Decode_Key -- ---------------- function Decode_Key (Data : Ada.Streams.Stream_Element_Array) return League.Strings.Universal_String is Key : League.Strings.Universal_String; Index : Stream_Element_Offset := Data'First; Code : Code_Unit_32; begin while Index <= Data'Last loop Code := Code_Unit_32'Last; if Data (Index) = Percent_Sign then if Data (Index + 1) = Latin_Capital_Letter_U then -- Unicode long format. if Index + 7 <= Data'Last then Code := From_Hex (Data (Index + 2 .. Index + 7)); end if; Index := Index + 8; elsif Data (Index + 1) = Latin_Small_Letter_U then -- Unicode short format. if Index + 5 <= Data'Last then Code := From_Hex (Data (Index + 2 .. Index + 5)); end if; Index := Index + 6; else -- Two digits format. if Index + 2 <= Data'Last then Code := From_Hex (Data (Index + 1 .. Index + 2)); end if; Index := Index + 3; end if; else Code := Code_Unit_32 (Data (Index)); Index := Index + 1; end if; if Is_Valid (Code) then Key.Append (Wide_Wide_Character'Val (Code)); end if; end loop; return Key; end Decode_Key; ---------------- -- Encode_Key -- ---------------- function Encode_Key (Key : League.Strings.Universal_String) return League.Stream_Element_Vectors.Stream_Element_Vector is Aux : Stream_Element_Vector; Code : Code_Point; To_Hex : constant array (Code_Unit_32 range 0 .. 15) of Stream_Element := (Digit_Zero, Digit_One, Digit_Two, Digit_Three, Digit_Four, Digit_Five, Digit_Six, Digit_Seven, Digit_Eight, Digit_Nine, Latin_Capital_Letter_A, Latin_Capital_Letter_B, Latin_Capital_Letter_C, Latin_Capital_Letter_D, Latin_Capital_Letter_E, Latin_Capital_Letter_F); begin for J in 1 .. Key.Length loop Code := Wide_Wide_Character'Pos (Key.Element (J).To_Wide_Wide_Character); if Code in Space .. Tilde then Aux.Append (Stream_Element (Code)); elsif Code <= 16#FF# then -- Two digits format. Aux.Append (Percent_Sign); Aux.Append (To_Hex ((Code / 16) mod 16)); Aux.Append (To_Hex (Code mod 16)); elsif Code <= 16#FFFF# then -- Short Unicode form. Aux.Append (Percent_Sign); Aux.Append (Latin_Small_Letter_U); Aux.Append (To_Hex ((Code / 4096) mod 16)); Aux.Append (To_Hex ((Code / 256) mod 16)); Aux.Append (To_Hex ((Code / 16) mod 16)); Aux.Append (To_Hex (Code mod 16)); else -- Long Unicode form. Aux.Append (Percent_Sign); Aux.Append (Latin_Capital_Letter_U); Aux.Append (To_Hex ((Code / 1048576) mod 16)); Aux.Append (To_Hex ((Code / 65536) mod 16)); Aux.Append (To_Hex ((Code / 4096) mod 16)); Aux.Append (To_Hex ((Code / 256) mod 16)); Aux.Append (To_Hex ((Code / 16) mod 16)); Aux.Append (To_Hex (Code mod 16)); end if; end loop; return Aux; end Encode_Key; -------------- -- Finalize -- -------------- overriding procedure Finalize (Self : not null access Ini_File_Settings) is begin Self.Sync; end Finalize; -------------- -- From_Hex -- -------------- function From_Hex (Image : Ada.Streams.Stream_Element_Array) return Matreshka.Internals.Unicode.Code_Unit_32 is Code : Code_Unit_32 := 0; Index : Stream_Element_Offset := Image'First; begin while Index <= Image'Last loop Code := Code * 16; if Image (Index) in Digit_Zero .. Digit_Nine then Code := Code + Code_Unit_32 (Image (Index)) - Digit_Zero; elsif Image (Index) in Latin_Capital_Letter_A .. Latin_Capital_Letter_F then Code := Code + Code_Unit_32 (Image (Index)) - Latin_Capital_Letter_A + 10; elsif Image (Index) in Latin_Small_Letter_A .. Latin_Small_Letter_F then Code := Code + Code_Unit_32 (Image (Index)) - Latin_Small_Letter_A + 10; else return Code_Unit_32'Last; end if; if Code not in Code_Point then return Code_Unit_32'Last; end if; Index := Index + 1; end loop; return Code; end From_Hex; ---------- -- Load -- ---------- procedure Load (Self : in out Ini_File_Settings'Class) is use Ada.Streams.Stream_IO; File : File_Type; Buffer : Stream_Element_Array (1 .. 1024); Data : Stream_Element_Vector; Last : Stream_Element_Offset; begin if Ada.Directories.Exists (To_Locale_String (Self.File_Name)) then -- Load content of the file. Open (File, In_File, To_Locale_String (Self.File_Name)); loop Read (File, Buffer, Last); exit when Last < Buffer'First; Data.Append (Buffer (Buffer'First .. Last)); end loop; Close (File); -- Parse. Self.Parse (Data); end if; end Load; ---------- -- Name -- ---------- overriding function Name (Self : not null access Ini_File_Settings) return League.Strings.Universal_String is begin return Self.File_Name; end Name; ----------- -- Parse -- ----------- procedure Parse (Self : in out Ini_File_Settings'Class; Data : League.Stream_Element_Vectors.Stream_Element_Vector) is use Matreshka.Internals.Stream_Element_Vectors; procedure Parse_Line; -- Determine boundary of the next line. Buffer : constant Shared_Stream_Element_Vector_Access := League.Stream_Element_Vectors.Internals.Internal (Data); Line_First : Stream_Element_Offset; Line_Last : Stream_Element_Offset; Equal_Index : Stream_Element_Offset; Key_Last : Stream_Element_Offset; Value_First : Stream_Element_Offset; Current_Section : Universal_String; Key : Universal_String; ---------------- -- Parse_Line -- ---------------- procedure Parse_Line is begin Line_First := Line_Last + 1; -- Skip leading whitespaces. while Line_First < Buffer.Length loop exit when Buffer.Value (Line_First) /= Space and Buffer.Value (Line_First) /= Character_Tabulation and Buffer.Value (Line_First) /= Carriage_Return and Buffer.Value (Line_First) /= Line_Feed; Line_First := Line_First + 1; end loop; Line_Last := Line_First; Equal_Index := Line_First - 1; -- Scan line. while Line_Last < Buffer.Length loop -- Exit when end of line is reached. exit when Buffer.Value (Line_Last) = Carriage_Return or Buffer.Value (Line_Last) = Line_Feed; -- Save position of first occurrence of equal sign. if Buffer.Value (Line_Last) = Equals_Sign and Equal_Index < Line_First then Equal_Index := Line_Last; end if; Line_Last := Line_Last + 1; end loop; Line_Last := Line_Last - 1; -- Remove trailing whitespaces. loop exit when Buffer.Value (Line_Last) /= Character_Tabulation and Buffer.Value (Line_Last) /= Space; Line_Last := Line_Last - 1; end loop; -- Determine key and value boundary. if Equal_Index >= Line_First then Key_Last := Equal_Index - 1; while Key_Last >= Line_First loop exit when Buffer.Value (Key_Last) /= Character_Tabulation and Buffer.Value (Key_Last) /= Space; Key_Last := Key_Last - 1; end loop; Value_First := Equal_Index + 1; while Value_First <= Line_Last loop exit when Buffer.Value (Value_First) /= Character_Tabulation and Buffer.Value (Value_First) /= Space; Value_First := Value_First + 1; end loop; end if; end Parse_Line; begin Line_Last := -1; loop Parse_Line; exit when Line_Last < Line_First; if Buffer.Value (Line_First) = Semicolon then -- This is a comment line. null; elsif Buffer.Value (Line_First) = Left_Square_Bracket then -- Section. Line_First := Line_First + 1; if Buffer.Value (Line_Last) = Right_Square_Bracket then Key_Last := Line_Last - 1; else Key_Last := Line_Last; end if; -- Strip leading whitespaces. while Line_First <= Key_Last loop exit when Buffer.Value (Line_First) /= Character_Tabulation and Buffer.Value (Line_First) /= Space; Line_First := Line_First + 1; end loop; -- Strip trailing whitespaces. while Key_Last >= Line_First loop exit when Buffer.Value (Key_Last) /= Character_Tabulation and Buffer.Value (Key_Last) /= Space; Key_Last := Key_Last - 1; end loop; Current_Section := Decode_Key (Buffer.Value (Line_First .. Key_Last)); elsif Equal_Index >= Line_First then -- Key/value pair. Key := Current_Section; if not Key.Is_Empty then Key.Append ('/'); end if; Key.Append (Decode_Key (Buffer.Value (Line_First .. Key_Last))); if not Self.Values.Contains (Key) then Self.Values.Insert (Key, To_Stream_Element_Vector (Buffer.Value (Value_First .. Line_Last))); end if; else -- Incorrect line. null; end if; end loop; end Parse; ------------ -- Remove -- ------------ overriding procedure Remove (Self : in out Ini_File_Settings; Key : League.Strings.Universal_String) is begin if Self.Values.Contains (Key) then Self.Values.Delete (Key); Self.Modified := True; end if; end Remove; --------------- -- Serialize -- --------------- function Serialize (Self : Ini_File_Settings) return League.Stream_Element_Vectors.Stream_Element_Vector is procedure Group_Pair (Position : Maps.Cursor); -- Add pair into sections map. procedure Serialize_Section (Position : Section_Maps.Cursor); -- Serialize specified section and its key/value pairs. procedure Serialize_Pair (Position : Maps.Cursor); -- Serialize specified key/value pair. Aux : League.Stream_Element_Vectors.Stream_Element_Vector; Sections : Section_Maps.Map; ---------------- -- Group_Pair -- ---------------- procedure Group_Pair (Position : Maps.Cursor) is procedure Insert_Pair (Section_Key : Universal_String; Section_Values : in out Maps.Map); -- Insert current key/value pair into the specified section. It -- removes first component of key name. Key : constant Universal_String := Maps.Key (Position); Value : constant Stream_Element_Vector := Maps.Element (Position); Index : constant Natural := Key.Index ('/'); Section_Position : Section_Maps.Cursor; ----------------- -- Insert_Pair -- ----------------- procedure Insert_Pair (Section_Key : Universal_String; Section_Values : in out Maps.Map) is begin if Index = 0 then Section_Values.Insert (Key, Value); else Section_Values.Insert (Key.Slice (Index + 1, Key.Length), Value); end if; end Insert_Pair; begin if Index = 0 then Section_Position := Sections.Find (Empty_Universal_String); if not Section_Maps.Has_Element (Section_Position) then Sections.Insert (Empty_Universal_String, Maps.Empty_Map); Section_Position := Sections.Find (Empty_Universal_String); end if; else Section_Position := Sections.Find (Key.Slice (1, Index - 1)); if not Section_Maps.Has_Element (Section_Position) then Sections.Insert (Key.Slice (1, Index - 1), Maps.Empty_Map); Section_Position := Sections.Find (Key.Slice (1, Index - 1)); end if; end if; Sections.Update_Element (Section_Position, Insert_Pair'Access); end Group_Pair; -------------------- -- Serialize_Pair -- -------------------- procedure Serialize_Pair (Position : Maps.Cursor) is Key : constant Universal_String := Maps.Key (Position); Value : constant Stream_Element_Vector := Maps.Element (Position); begin Aux.Append (Encode_Key (Key)); Aux.Append (Equals_Sign); Aux.Append (Value); Aux.Append (Line_Delimiter); end Serialize_Pair; ----------------------- -- Serialize_Section -- ----------------------- procedure Serialize_Section (Position : Section_Maps.Cursor) is Section : constant Universal_String := Section_Maps.Key (Position); Values : constant Maps.Map := Section_Maps.Element (Position); begin Aux.Append (Left_Square_Bracket); Aux.Append (Encode_Key (Section)); Aux.Append (Right_Square_Bracket); Aux.Append (Line_Delimiter); Values.Iterate (Serialize_Pair'Access); Aux.Append (Line_Delimiter); end Serialize_Section; begin -- Group key/value pair into sections. Self.Values.Iterate (Group_Pair'Access); -- Serialize sections and their key/value pairs. Sections.Iterate (Serialize_Section'Access); return Aux; end Serialize; --------------- -- Set_Value -- --------------- overriding procedure Set_Value (Self : in out Ini_File_Settings; Key : League.Strings.Universal_String; Value : League.Holders.Holder) is begin Self.Modified := True; Self.Values.Include (Key, Encode_Value (League.Holders.Element (Value))); end Set_Value; ---------- -- Sync -- ---------- overriding procedure Sync (Self : in out Ini_File_Settings) is use Ada.Streams.Stream_IO; use League.Stream_Element_Vectors.Internals; Name : constant String := To_Locale_String (Self.File_Name); File : File_Type; Data : Stream_Element_Vector; begin if Self.Modified then -- Serialize data. Data := Serialize (Self); -- Creates directory when necessary. Ada.Directories.Create_Path (Ada.Directories.Containing_Directory (Name)); -- Writes data into file. Create (File, Out_File, Name); Write (File, Internal (Data).Value (0 .. Internal (Data).Length - 1)); Close (File); Self.Modified := False; end if; end Sync; ---------------------- -- To_Locale_String -- ---------------------- function To_Locale_String (Item : League.Strings.Universal_String) return String is Aux : constant Stream_Element_Array := League.Text_Codecs.Codec_For_Application_Locale.Encode (Item).To_Stream_Element_Array; Str : String (1 .. Aux'Length); for Str'Address use Aux'Address; pragma Import (Ada, Str); begin return Str; end To_Locale_String; ----------- -- Value -- ----------- overriding function Value (Self : Ini_File_Settings; Key : League.Strings.Universal_String) return League.Holders.Holder is begin if Self.Values.Contains (Key) then return League.Holders.To_Holder (Decode_Value (Self.Values.Element (Key).To_Stream_Element_Array)); else return League.Holders.Empty_Holder; end if; end Value; end Matreshka.Internals.Settings.Ini_Files;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . W I D E _ T E X T _ I O . I N T E G E R _ A U X -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2006, 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 Ada.Wide_Text_IO.Generic_Aux; use Ada.Wide_Text_IO.Generic_Aux; with System.Img_BIU; use System.Img_BIU; with System.Img_Int; use System.Img_Int; with System.Img_LLB; use System.Img_LLB; with System.Img_LLI; use System.Img_LLI; with System.Img_LLW; use System.Img_LLW; with System.Img_WIU; use System.Img_WIU; with System.Val_Int; use System.Val_Int; with System.Val_LLI; use System.Val_LLI; package body Ada.Wide_Text_IO.Integer_Aux is ----------------------- -- Local Subprograms -- ----------------------- procedure Load_Integer (File : File_Type; Buf : out String; Ptr : in out Natural); -- This is an auxiliary routine that is used to load an possibly signed -- integer literal value from the input file into Buf, starting at Ptr + 1. -- On return, Ptr is set to the last character stored. ------------- -- Get_Int -- ------------- procedure Get_Int (File : File_Type; Item : out Integer; Width : Field) is Buf : String (1 .. Field'Last); Ptr : aliased Integer := 1; Stop : Integer := 0; begin if Width /= 0 then Load_Width (File, Width, Buf, Stop); String_Skip (Buf, Ptr); else Load_Integer (File, Buf, Stop); end if; Item := Scan_Integer (Buf, Ptr'Access, Stop); Check_End_Of_Field (Buf, Stop, Ptr, Width); end Get_Int; ------------- -- Get_LLI -- ------------- procedure Get_LLI (File : File_Type; Item : out Long_Long_Integer; Width : Field) is Buf : String (1 .. Field'Last); Ptr : aliased Integer := 1; Stop : Integer := 0; begin if Width /= 0 then Load_Width (File, Width, Buf, Stop); String_Skip (Buf, Ptr); else Load_Integer (File, Buf, Stop); end if; Item := Scan_Long_Long_Integer (Buf, Ptr'Access, Stop); Check_End_Of_Field (Buf, Stop, Ptr, Width); end Get_LLI; -------------- -- Gets_Int -- -------------- procedure Gets_Int (From : String; Item : out Integer; Last : out Positive) is Pos : aliased Integer; begin String_Skip (From, Pos); Item := Scan_Integer (From, Pos'Access, From'Last); Last := Pos - 1; exception when Constraint_Error => raise Data_Error; end Gets_Int; -------------- -- Gets_LLI -- -------------- procedure Gets_LLI (From : String; Item : out Long_Long_Integer; Last : out Positive) is Pos : aliased Integer; begin String_Skip (From, Pos); Item := Scan_Long_Long_Integer (From, Pos'Access, From'Last); Last := Pos - 1; exception when Constraint_Error => raise Data_Error; end Gets_LLI; ------------------ -- Load_Integer -- ------------------ procedure Load_Integer (File : File_Type; Buf : out String; Ptr : in out Natural) is Hash_Loc : Natural; Loaded : Boolean; begin Load_Skip (File); Load (File, Buf, Ptr, '+', '-'); Load_Digits (File, Buf, Ptr, Loaded); if Loaded then Load (File, Buf, Ptr, '#', ':', Loaded); if Loaded then Hash_Loc := Ptr; Load_Extended_Digits (File, Buf, Ptr); Load (File, Buf, Ptr, Buf (Hash_Loc)); end if; Load (File, Buf, Ptr, 'E', 'e', Loaded); if Loaded then -- Note: it is strange to allow a minus sign, since the syntax -- does not, but that is what ACVC test CE3704F, case (6) wants. Load (File, Buf, Ptr, '+', '-'); Load_Digits (File, Buf, Ptr); end if; end if; end Load_Integer; ------------- -- Put_Int -- ------------- procedure Put_Int (File : File_Type; Item : Integer; Width : Field; Base : Number_Base) is Buf : String (1 .. Field'Last); Ptr : Natural := 0; begin if Base = 10 and then Width = 0 then Set_Image_Integer (Item, Buf, Ptr); elsif Base = 10 then Set_Image_Width_Integer (Item, Width, Buf, Ptr); else Set_Image_Based_Integer (Item, Base, Width, Buf, Ptr); end if; Put_Item (File, Buf (1 .. Ptr)); end Put_Int; ------------- -- Put_LLI -- ------------- procedure Put_LLI (File : File_Type; Item : Long_Long_Integer; Width : Field; Base : Number_Base) is Buf : String (1 .. Field'Last); Ptr : Natural := 0; begin if Base = 10 and then Width = 0 then Set_Image_Long_Long_Integer (Item, Buf, Ptr); elsif Base = 10 then Set_Image_Width_Long_Long_Integer (Item, Width, Buf, Ptr); else Set_Image_Based_Long_Long_Integer (Item, Base, Width, Buf, Ptr); end if; Put_Item (File, Buf (1 .. Ptr)); end Put_LLI; -------------- -- Puts_Int -- -------------- procedure Puts_Int (To : out String; Item : Integer; Base : Number_Base) is Buf : String (1 .. Field'Last); Ptr : Natural := 0; begin if Base = 10 then Set_Image_Width_Integer (Item, To'Length, Buf, Ptr); else Set_Image_Based_Integer (Item, Base, To'Length, Buf, Ptr); end if; if Ptr > To'Length then raise Layout_Error; else To (To'First .. To'First + Ptr - 1) := Buf (1 .. Ptr); end if; end Puts_Int; -------------- -- Puts_LLI -- -------------- procedure Puts_LLI (To : out String; Item : Long_Long_Integer; Base : Number_Base) is Buf : String (1 .. Field'Last); Ptr : Natural := 0; begin if Base = 10 then Set_Image_Width_Long_Long_Integer (Item, To'Length, Buf, Ptr); else Set_Image_Based_Long_Long_Integer (Item, Base, To'Length, Buf, Ptr); end if; if Ptr > To'Length then raise Layout_Error; else To (To'First .. To'First + Ptr - 1) := Buf (1 .. Ptr); end if; end Puts_LLI; end Ada.Wide_Text_IO.Integer_Aux;
-- This spec has been automatically generated from STM32L4x2.svd pragma Restrictions (No_Elaboration_Code); pragma Ada_2012; pragma Style_Checks (Off); with HAL; with System; package STM32_SVD.PWR is pragma Preelaborate; --------------- -- Registers -- --------------- subtype CR1_LPMS_Field is HAL.UInt3; subtype CR1_VOS_Field is HAL.UInt2; -- Power control register 1 type CR1_Register is record -- Low-power mode selection LPMS : CR1_LPMS_Field := 16#0#; -- unspecified Reserved_3_7 : HAL.UInt5 := 16#0#; -- Disable backup domain write protection DBP : Boolean := False; -- Voltage scaling range selection VOS : CR1_VOS_Field := 16#1#; -- unspecified Reserved_11_13 : HAL.UInt3 := 16#0#; -- Low-power run LPR : Boolean := False; -- unspecified Reserved_15_31 : HAL.UInt17 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for CR1_Register use record LPMS at 0 range 0 .. 2; Reserved_3_7 at 0 range 3 .. 7; DBP at 0 range 8 .. 8; VOS at 0 range 9 .. 10; Reserved_11_13 at 0 range 11 .. 13; LPR at 0 range 14 .. 14; Reserved_15_31 at 0 range 15 .. 31; end record; subtype CR2_PLS_Field is HAL.UInt3; -- CR2_PVME array type CR2_PVME_Field_Array is array (1 .. 4) of Boolean with Component_Size => 1, Size => 4; -- Type definition for CR2_PVME type CR2_PVME_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PVME as a value Val : HAL.UInt4; when True => -- PVME as an array Arr : CR2_PVME_Field_Array; end case; end record with Unchecked_Union, Size => 4; for CR2_PVME_Field use record Val at 0 range 0 .. 3; Arr at 0 range 0 .. 3; end record; -- Power control register 2 type CR2_Register is record -- Power voltage detector enable PVDE : Boolean := False; -- Power voltage detector level selection PLS : CR2_PLS_Field := 16#0#; -- Peripheral voltage monitoring 1 enable: VDDUSB vs. 1.2V PVME : CR2_PVME_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_8_8 : HAL.Bit := 16#0#; -- VDDIO2 Independent I/Os supply valid IOSV : Boolean := False; -- VDDUSB USB supply valid USV : Boolean := False; -- unspecified Reserved_11_31 : HAL.UInt21 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for CR2_Register use record PVDE at 0 range 0 .. 0; PLS at 0 range 1 .. 3; PVME at 0 range 4 .. 7; Reserved_8_8 at 0 range 8 .. 8; IOSV at 0 range 9 .. 9; USV at 0 range 10 .. 10; Reserved_11_31 at 0 range 11 .. 31; end record; -- CR3_EWUP array type CR3_EWUP_Field_Array is array (1 .. 5) of Boolean with Component_Size => 1, Size => 5; -- Type definition for CR3_EWUP type CR3_EWUP_Field (As_Array : Boolean := False) is record case As_Array is when False => -- EWUP as a value Val : HAL.UInt5; when True => -- EWUP as an array Arr : CR3_EWUP_Field_Array; end case; end record with Unchecked_Union, Size => 5; for CR3_EWUP_Field use record Val at 0 range 0 .. 4; Arr at 0 range 0 .. 4; end record; -- Power control register 3 type CR3_Register is record -- Enable Wakeup pin WKUP1 EWUP : CR3_EWUP_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_5_7 : HAL.UInt3 := 16#0#; -- SRAM2 retention in Standby mode RRS : Boolean := False; -- unspecified Reserved_9_9 : HAL.Bit := 16#0#; -- Apply pull-up and pull-down configuration APC : Boolean := False; -- unspecified Reserved_11_14 : HAL.UInt4 := 16#0#; -- Enable internal wakeup line EWF : Boolean := True; -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for CR3_Register use record EWUP at 0 range 0 .. 4; Reserved_5_7 at 0 range 5 .. 7; RRS at 0 range 8 .. 8; Reserved_9_9 at 0 range 9 .. 9; APC at 0 range 10 .. 10; Reserved_11_14 at 0 range 11 .. 14; EWF at 0 range 15 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- CR4_WP array type CR4_WP_Field_Array is array (1 .. 5) of Boolean with Component_Size => 1, Size => 5; -- Type definition for CR4_WP type CR4_WP_Field (As_Array : Boolean := False) is record case As_Array is when False => -- WP as a value Val : HAL.UInt5; when True => -- WP as an array Arr : CR4_WP_Field_Array; end case; end record with Unchecked_Union, Size => 5; for CR4_WP_Field use record Val at 0 range 0 .. 4; Arr at 0 range 0 .. 4; end record; -- Power control register 4 type CR4_Register is record -- Wakeup pin WKUP1 polarity WP : CR4_WP_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_5_7 : HAL.UInt3 := 16#0#; -- VBAT battery charging enable VBE : Boolean := False; -- VBAT battery charging resistor selection VBRS : Boolean := False; -- unspecified Reserved_10_31 : HAL.UInt22 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for CR4_Register use record WP at 0 range 0 .. 4; Reserved_5_7 at 0 range 5 .. 7; VBE at 0 range 8 .. 8; VBRS at 0 range 9 .. 9; Reserved_10_31 at 0 range 10 .. 31; end record; -- SR1_CWUF array type SR1_CWUF_Field_Array is array (1 .. 5) of Boolean with Component_Size => 1, Size => 5; -- Type definition for SR1_CWUF type SR1_CWUF_Field (As_Array : Boolean := False) is record case As_Array is when False => -- CWUF as a value Val : HAL.UInt5; when True => -- CWUF as an array Arr : SR1_CWUF_Field_Array; end case; end record with Unchecked_Union, Size => 5; for SR1_CWUF_Field use record Val at 0 range 0 .. 4; Arr at 0 range 0 .. 4; end record; -- Power status register 1 type SR1_Register is record -- Read-only. Wakeup flag 1 CWUF : SR1_CWUF_Field; -- unspecified Reserved_5_7 : HAL.UInt3; -- Read-only. Standby flag CSBF : Boolean; -- unspecified Reserved_9_14 : HAL.UInt6; -- Read-only. Wakeup flag internal WUFI : Boolean; -- unspecified Reserved_16_31 : HAL.UInt16; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for SR1_Register use record CWUF at 0 range 0 .. 4; Reserved_5_7 at 0 range 5 .. 7; CSBF at 0 range 8 .. 8; Reserved_9_14 at 0 range 9 .. 14; WUFI at 0 range 15 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- SR2_PVMO array type SR2_PVMO_Field_Array is array (1 .. 4) of Boolean with Component_Size => 1, Size => 4; -- Type definition for SR2_PVMO type SR2_PVMO_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PVMO as a value Val : HAL.UInt4; when True => -- PVMO as an array Arr : SR2_PVMO_Field_Array; end case; end record with Unchecked_Union, Size => 4; for SR2_PVMO_Field use record Val at 0 range 0 .. 3; Arr at 0 range 0 .. 3; end record; -- Power status register 2 type SR2_Register is record -- unspecified Reserved_0_7 : HAL.UInt8; -- Read-only. Low-power regulator started REGLPS : Boolean; -- Read-only. Low-power regulator flag REGLPF : Boolean; -- Read-only. Voltage scaling flag VOSF : Boolean; -- Read-only. Power voltage detector output PVDO : Boolean; -- Read-only. Peripheral voltage monitoring output: VDDUSB vs. 1.2 V PVMO : SR2_PVMO_Field; -- unspecified Reserved_16_31 : HAL.UInt16; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for SR2_Register use record Reserved_0_7 at 0 range 0 .. 7; REGLPS at 0 range 8 .. 8; REGLPF at 0 range 9 .. 9; VOSF at 0 range 10 .. 10; PVDO at 0 range 11 .. 11; PVMO at 0 range 12 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- SCR_WUF array type SCR_WUF_Field_Array is array (1 .. 5) of Boolean with Component_Size => 1, Size => 5; -- Type definition for SCR_WUF type SCR_WUF_Field (As_Array : Boolean := False) is record case As_Array is when False => -- WUF as a value Val : HAL.UInt5; when True => -- WUF as an array Arr : SCR_WUF_Field_Array; end case; end record with Unchecked_Union, Size => 5; for SCR_WUF_Field use record Val at 0 range 0 .. 4; Arr at 0 range 0 .. 4; end record; -- Power status clear register type SCR_Register is record -- Write-only. Clear wakeup flag 1 WUF : SCR_WUF_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_5_7 : HAL.UInt3 := 16#0#; -- Write-only. Clear standby flag SBF : Boolean := False; -- unspecified Reserved_9_31 : HAL.UInt23 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for SCR_Register use record WUF at 0 range 0 .. 4; Reserved_5_7 at 0 range 5 .. 7; SBF at 0 range 8 .. 8; Reserved_9_31 at 0 range 9 .. 31; end record; -- PUCRA_PU array type PUCRA_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRA_PU type PUCRA_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRA_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRA_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port A pull-up control register type PUCRA_Register is record -- Port A pull-up bit y (y=0..15) PU : PUCRA_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRA_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRA_PD array type PDCRA_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRA_PD type PDCRA_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRA_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRA_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port A pull-down control register type PDCRA_Register is record -- Port A pull-down bit y (y=0..15) PD : PDCRA_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRA_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRB_PU array type PUCRB_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRB_PU type PUCRB_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRB_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRB_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port B pull-up control register type PUCRB_Register is record -- Port B pull-up bit y (y=0..15) PU : PUCRB_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRB_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRB_PD array type PDCRB_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRB_PD type PDCRB_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRB_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRB_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port B pull-down control register type PDCRB_Register is record -- Port B pull-down bit y (y=0..15) PD : PDCRB_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRB_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRC_PU array type PUCRC_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRC_PU type PUCRC_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRC_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRC_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port C pull-up control register type PUCRC_Register is record -- Port C pull-up bit y (y=0..15) PU : PUCRC_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRC_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRC_PD array type PDCRC_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRC_PD type PDCRC_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRC_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRC_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port C pull-down control register type PDCRC_Register is record -- Port C pull-down bit y (y=0..15) PD : PDCRC_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRC_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRD_PU array type PUCRD_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRD_PU type PUCRD_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRD_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRD_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port D pull-up control register type PUCRD_Register is record -- Port D pull-up bit y (y=0..15) PU : PUCRD_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRD_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRD_PD array type PDCRD_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRD_PD type PDCRD_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRD_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRD_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port D pull-down control register type PDCRD_Register is record -- Port D pull-down bit y (y=0..15) PD : PDCRD_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRD_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRE_PU array type PUCRE_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRE_PU type PUCRE_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRE_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRE_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port E pull-up control register type PUCRE_Register is record -- Port E pull-up bit y (y=0..15) PU : PUCRE_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRE_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRE_PD array type PDCRE_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRE_PD type PDCRE_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRE_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRE_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port E pull-down control register type PDCRE_Register is record -- Port E pull-down bit y (y=0..15) PD : PDCRE_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRE_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRF_PU array type PUCRF_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRF_PU type PUCRF_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRF_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRF_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port F pull-up control register type PUCRF_Register is record -- Port F pull-up bit y (y=0..15) PU : PUCRF_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRF_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRF_PD array type PDCRF_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRF_PD type PDCRF_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRF_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRF_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port F pull-down control register type PDCRF_Register is record -- Port F pull-down bit y (y=0..15) PD : PDCRF_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRF_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRG_PU array type PUCRG_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRG_PU type PUCRG_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRG_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRG_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port G pull-up control register type PUCRG_Register is record -- Port G pull-up bit y (y=0..15) PU : PUCRG_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRG_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRG_PD array type PDCRG_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRG_PD type PDCRG_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRG_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRG_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port G pull-down control register type PDCRG_Register is record -- Port G pull-down bit y (y=0..15) PD : PDCRG_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRG_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRH_PU array type PUCRH_PU_Field_Array is array (0 .. 1) of Boolean with Component_Size => 1, Size => 2; -- Type definition for PUCRH_PU type PUCRH_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt2; when True => -- PU as an array Arr : PUCRH_PU_Field_Array; end case; end record with Unchecked_Union, Size => 2; for PUCRH_PU_Field use record Val at 0 range 0 .. 1; Arr at 0 range 0 .. 1; end record; -- Power Port H pull-up control register type PUCRH_Register is record -- Port H pull-up bit y (y=0..1) PU : PUCRH_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_2_31 : HAL.UInt30 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRH_Register use record PU at 0 range 0 .. 1; Reserved_2_31 at 0 range 2 .. 31; end record; -- PDCRH_PD array type PDCRH_PD_Field_Array is array (0 .. 1) of Boolean with Component_Size => 1, Size => 2; -- Type definition for PDCRH_PD type PDCRH_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt2; when True => -- PD as an array Arr : PDCRH_PD_Field_Array; end case; end record with Unchecked_Union, Size => 2; for PDCRH_PD_Field use record Val at 0 range 0 .. 1; Arr at 0 range 0 .. 1; end record; -- Power Port H pull-down control register type PDCRH_Register is record -- Port H pull-down bit y (y=0..1) PD : PDCRH_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_2_31 : HAL.UInt30 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRH_Register use record PD at 0 range 0 .. 1; Reserved_2_31 at 0 range 2 .. 31; end record; ----------------- -- Peripherals -- ----------------- -- Power control type PWR_Peripheral is record -- Power control register 1 CR1 : aliased CR1_Register; -- Power control register 2 CR2 : aliased CR2_Register; -- Power control register 3 CR3 : aliased CR3_Register; -- Power control register 4 CR4 : aliased CR4_Register; -- Power status register 1 SR1 : aliased SR1_Register; -- Power status register 2 SR2 : aliased SR2_Register; -- Power status clear register SCR : aliased SCR_Register; -- Power Port A pull-up control register PUCRA : aliased PUCRA_Register; -- Power Port A pull-down control register PDCRA : aliased PDCRA_Register; -- Power Port B pull-up control register PUCRB : aliased PUCRB_Register; -- Power Port B pull-down control register PDCRB : aliased PDCRB_Register; -- Power Port C pull-up control register PUCRC : aliased PUCRC_Register; -- Power Port C pull-down control register PDCRC : aliased PDCRC_Register; -- Power Port D pull-up control register PUCRD : aliased PUCRD_Register; -- Power Port D pull-down control register PDCRD : aliased PDCRD_Register; -- Power Port E pull-up control register PUCRE : aliased PUCRE_Register; -- Power Port E pull-down control register PDCRE : aliased PDCRE_Register; -- Power Port F pull-up control register PUCRF : aliased PUCRF_Register; -- Power Port F pull-down control register PDCRF : aliased PDCRF_Register; -- Power Port G pull-up control register PUCRG : aliased PUCRG_Register; -- Power Port G pull-down control register PDCRG : aliased PDCRG_Register; -- Power Port H pull-up control register PUCRH : aliased PUCRH_Register; -- Power Port H pull-down control register PDCRH : aliased PDCRH_Register; end record with Volatile; for PWR_Peripheral use record CR1 at 16#0# range 0 .. 31; CR2 at 16#4# range 0 .. 31; CR3 at 16#8# range 0 .. 31; CR4 at 16#C# range 0 .. 31; SR1 at 16#10# range 0 .. 31; SR2 at 16#14# range 0 .. 31; SCR at 16#18# range 0 .. 31; PUCRA at 16#20# range 0 .. 31; PDCRA at 16#24# range 0 .. 31; PUCRB at 16#28# range 0 .. 31; PDCRB at 16#2C# range 0 .. 31; PUCRC at 16#30# range 0 .. 31; PDCRC at 16#34# range 0 .. 31; PUCRD at 16#38# range 0 .. 31; PDCRD at 16#3C# range 0 .. 31; PUCRE at 16#40# range 0 .. 31; PDCRE at 16#44# range 0 .. 31; PUCRF at 16#48# range 0 .. 31; PDCRF at 16#4C# range 0 .. 31; PUCRG at 16#50# range 0 .. 31; PDCRG at 16#54# range 0 .. 31; PUCRH at 16#58# range 0 .. 31; PDCRH at 16#5C# range 0 .. 31; end record; -- Power control PWR_Periph : aliased PWR_Peripheral with Import, Address => System'To_Address (16#40007000#); end STM32_SVD.PWR;
-------------------------------------------------------- -- E n c o d i n g s -- -- -- -- Tools for convertion strings between Unicode and -- -- national/vendor character sets. -- -- - - - - - - - - - -- -- Read copyright and license at the end of this file -- -------------------------------------------------------- package body Encodings.Classes is function Get_Class (Object : in Coder; C : in Wide_Character) return Character_Class; pragma Inline (Get_Class); ------------ -- Decode -- ------------ procedure Decode (Text : in Raw_String; Text_Last : out Natural; Result : out Wide_String; Result_Last : out Natural; Classes : out Character_Classes; Object : in out Coder) is Index : Cache_Index; X : Positive; begin Decode (Text, Text_Last, Result, Result_Last, Object.Map); if Object.Map = UTF_8 then for J in Result'First .. Result_Last loop Index := Wide_Character'Pos (Result (J)) mod Cache_Index'Last + 1; if Object.Wide (Index) = Result (J) and Object.Cache (Index) /= Unknown then Classes (J) := Object.Cache (Index); else Classes (J) := Get_Class (Object, Result (J)); Object.Cache (Index) := Classes (J); Object.Wide (Index) := Result (J); if Classes (J) = Unknown then Object.Prefix := Result (J); else Object.Prefix := ' '; end if; end if; end loop; else X := Result'First; for J in Text'First .. Text_Last loop if Object.Classes (Text (J)) /= Unknown then Classes (X) := Object.Classes (Text (J)); else Classes (X) := Get_Class (Object, Result (X)); Object.Classes (Text (J)) := Classes (X); if Classes (X) = Unknown then Object.Prefix := Result (X); else Object.Prefix := ' '; end if; end if; X := X + 1; end loop; end if; end Decode; --------------- -- Get_Class -- --------------- function Get_Class (Object : in Coder; C : in Wide_Character) return Character_Class is begin if Object.Prefix = ' ' then return Get_Class ((1 => C)); else return Get_Class (Object.Prefix & C); end if; end Get_Class; end Encodings.Classes; ------------------------------------------------------------------------------ -- Copyright (c) 2006-2013, Maxim Reznik -- 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 Maxim Reznik, 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 OWNER 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. ------------------------------------------------------------------------------
----------------------------------------------------------------------- -- el-contexts-tests - Tests the EL contexts -- 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. ----------------------------------------------------------------------- with Util.Tests; package EL.Contexts.Tests is procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite); type Test is new Util.Tests.Test with null record; procedure Test_Context_Properties (T : in out Test); end EL.Contexts.Tests;
------------------------------------------------------------------------------- -- This file is part of libsparkcrypto. -- -- Copyright (C) 2010, Alexander Senier -- Copyright (C) 2010, secunet Security Networks AG -- 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 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. ------------------------------------------------------------------------------- with LSC.Internal.Types; use type LSC.Internal.Types.Word64; use type LSC.Internal.Types.Index; ------------------------------------------------------------------------------- -- Operations over 64-bit words ------------------------------------------------------------------------------- package LSC.Internal.Ops64 is pragma Pure; -- Perform XOR on two 64-bit words @V0@ and @V1@ function XOR2 (V0, V1 : Types.Word64) return Types.Word64 with Post => XOR2'Result = (V0 xor V1); pragma Inline (XOR2); -- Perform XOR on two arrays of 64-bit words -- -- @Left@ - First input array <br> -- @Right@ - Second input array <br> -- @Result@ - Result array <br> procedure Block_XOR (Left : in Types.Word64_Array_Type; Right : in Types.Word64_Array_Type; Result : out Types.Word64_Array_Type) with Depends => (Result =>+ (Left, Right)), Pre => Left'First = Right'First and Left'Last = Right'Last and Right'First = Result'First and Right'Last = Result'Last, Post => (for all I in Types.Index range Left'First .. Left'Last => (Result (I) = XOR2 (Left (I), Right (I)))); pragma Inline (Block_XOR); -- Convert the eight byte values @Byte0@ .. @Byte7@ to a 64-bit word function Bytes_To_Word (Byte0 : Types.Byte; Byte1 : Types.Byte; Byte2 : Types.Byte; Byte3 : Types.Byte; Byte4 : Types.Byte; Byte5 : Types.Byte; Byte6 : Types.Byte; Byte7 : Types.Byte) return Types.Word64; pragma Inline (Bytes_To_Word); -- Copy all elements of @Source@ to @Dest@. Should @Source@ be shorter than -- @Dest@, remaining elements stay unchanged. procedure Block_Copy (Source : in Types.Word64_Array_Type; Dest : in out Types.Word64_Array_Type) with Depends => (Dest =>+ Source), Pre => Source'First = Dest'First and Source'Last <= Dest'Last, Post => (for all P in Types.Index range Source'First .. Source'Last => (Dest (P) = Source (P))); pragma Inline (Block_Copy); end LSC.Internal.Ops64;
function Factorial(N : Positive) return Positive is Result : Positive := 1; begin if N > 1 then Result := N * Factorial(N - 1); end if; return Result; end Factorial;
with gel.Window.setup, gel.Applet.gui_world, gel.Camera, gel.Mouse, gel.Sprite, gel.Events, gel.Forge, Physics, float_Math, lace.Response, lace.Event.utility, Ada.Calendar, Ada.Text_IO, Ada.Exceptions; pragma unreferenced (gel.Window.setup); procedure launch_mouse_Selection -- -- Places a sphere sprite in the world and registers an event repsonse to -- handle mouse clicks on the sprite. -- is use lace.Event.utility, ada.Text_IO; begin lace.Event.utility.use_text_Logger ("event.log"); lace.Event.utility.Logger.ignore (to_Kind (gel.Mouse.motion_Event'Tag)); declare use gel.Applet, ada.Calendar; the_Applet : constant gel.Applet.gui_world.view := gel.Forge.new_gui_Applet ("mouse Selection", space_Kind => physics.Bullet); the_Ball : constant gel.Sprite.view := gel.Forge.new_ball_Sprite (the_Applet.World (1), mass => 0.0); type retreat_Sprite is new lace.Response.item with record Sprite : gel.Sprite.view; end record; overriding procedure respond (Self : in out retreat_Sprite; to_Event : in lace.Event.Item'Class) is use float_Math; begin put_Line ("retreat_Sprite"); Self.Sprite.Site_is (self.Sprite.Site - the_Applet.gui_Camera.world_Rotation * (0.0, 0.0, 1.0)); end respond; retreat_Sprite_Response : aliased retreat_Sprite := (lace.Response.item with sprite => the_Ball); type advance_Sprite is new lace.Response.item with record Sprite : gel.Sprite.view; end record; overriding procedure respond (Self : in out advance_Sprite; to_Event : in lace.Event.Item'Class) is use float_Math; begin put_Line ("advance_Sprite"); Self.Sprite.Site_is (self.Sprite.Site + the_Applet.gui_Camera.world_Rotation * (0.0, 0.0, 1.0)); end respond; advance_Sprite_Response : aliased advance_Sprite := (lace.Response.Item with sprite => the_Ball); next_render_Time : ada.calendar.Time; begin the_Ball.add (advance_Sprite_Response'unchecked_access, to_Kind (gel.events.sprite_click_down_Event'Tag), the_Applet.Name); the_Ball.add (retreat_Sprite_Response'unchecked_access, to_Kind (gel.events.sprite_click_up_Event'Tag), the_Applet.Name); the_Applet.gui_world .add (the_Ball, and_Children => False); the_Applet.gui_Camera.Site_is ((0.0, 0.0, 5.0)); the_Applet.enable_simple_Dolly (in_World => 1); the_Applet.enable_Mouse (detect_Motion => False); next_render_Time := ada.calendar.Clock; while the_Applet.is_open loop the_Applet.gui_World.evolve (by => 1.0/60.0); the_Ball.respond; the_Applet.freshen; next_render_Time := next_render_Time + 1.0/60.0; delay until next_render_Time; end loop; the_Applet.destroy; end; lace.Event.utility.close; exception when E : others => lace.Event.utility.close; put_Line ("Exception detected in 'launch_mouse_Selection' ..."); put_Line (ada.Exceptions.Exception_Information (E)); end launch_mouse_Selection;
------------------------------------------------------------------------------ -- -- -- GNAT RUNTIME COMPONENTS -- -- -- -- S Y S T E M . G E N E R I C _ C _ M A T H _ I N T E R F A C E -- -- -- -- 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 is the Ada Cert Math specific version of s-gcmain.ads. -- @llrset s-gcmain.ads -- Generic C Math Interface -- ======================== -- Provide the elementary mathematical functions support library packages. -- This package is an implementation of the Ada elementary functions -- using the C math library. The C library is assumed to be conforming -- with ISO/IEC 9899:1999 (C99). In particular, all identities specified -- in chapter F.9 must hold. Furthermore, the accuracy of the various -- functions is assumed to be sufficient for the strict mode specified -- in Annex G of the Ada standard. -- For environments where this is not true, the generic Ada implementations -- should be used. These only require the standard arithmetic operations. -- Typically, the generic functions are imported from C as follows. -- For the C type "float": -- function Sin (X : Float) return Float; -- pragma Import (C, Sin, "sinf"); -- or for the C type "double": -- function Sin (X : Long_Float) return Long_Float; -- pragma Import (C, Sin, "sin"); -- or for the C type "long double": -- function Sin (X : Long_Long_Float) return Long_Long_Float -- pragma Import (C, Sin, "sinl"); generic type Float_Type is digits <>; with function C_Sqrt (X : Float_Type) return Float_Type is <>; with function C_Log (X : Float_Type) return Float_Type is <>; with function C_Exp (X : Float_Type) return Float_Type is <>; with function C_Pow (X, Y : Float_Type) return Float_Type is <>; with function C_Sin (X : Float_Type) return Float_Type is <>; with function C_Cos (X : Float_Type) return Float_Type is <>; with function C_Tan (X : Float_Type) return Float_Type is <>; with function C_Asin (X : Float_Type) return Float_Type is <>; with function C_Acos (X : Float_Type) return Float_Type is <>; with function C_Atan2 (Y, X : Float_Type) return Float_Type is <>; with function C_Sinh (X : Float_Type) return Float_Type is <>; with function C_Cosh (X : Float_Type) return Float_Type is <>; with function C_Tanh (X : Float_Type) return Float_Type is <>; with function C_Asinh (X : Float_Type) return Float_Type is <>; with function C_Acosh (X : Float_Type) return Float_Type is <>; with function C_Atanh (Y : Float_Type) return Float_Type is <>; package System.Generic_C_Math_Interface is pragma Pure (Generic_C_Math_Interface); -- pragma Assert (Float_Type'Signed_Zeros); -- Assertion fails on e500v2 targets pragma Assert (Float_Type'Machine_Radix = 2); function Sqrt (X : Float_Type'Base) return Float_Type'Base; -- @llr Sqrt (Float_Type) -- This function shall return the square root of <X> function Log (X : Float_Type'Base) return Float_Type'Base; -- @llr Log (Float_Type) -- This function shall return the logarithm of <X> function Log (X, Base : Float_Type'Base) return Float_Type'Base; -- @llr Log (Float_Type; Float_Type) -- This function shall compute the logarithm of <X> with the specified base function Exp (X : Float_Type'Base) return Float_Type'Base; -- @llr Exp (Float_Type) -- This function shall compute the exponent of <X> function "" (Left, Right : Float_Type'Base) return Float_Type'Base; -- @llr "" (Float_Type; Float_Type) -- This function shall compute <Left> to the power of <Right> function Sin (X : Float_Type'Base) return Float_Type'Base; -- @llr Sin (Float_Type) -- This function shall return the sine of <X> function Sin (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Sin (Float_Type; Float_Type) -- This function shall return the sine of <X> with the specified base function Cos (X : Float_Type'Base) return Float_Type'Base; -- @llr Cos (Float_Type) -- This function shall return the cosine of <X> function Cos (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Cos (Float_Type; Float_Type) -- This function shall return the cosine of <X> with the specified base function Tan (X : Float_Type'Base) return Float_Type'Base; -- @llr Tan (Float_Type) -- This function shall return the tangent of <X> function Tan (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Tan (Float_Type; Float_Type) -- This function shall return the tangent of <X> with the specified base function Cot (X : Float_Type'Base) return Float_Type'Base; -- @llr Cot (Float_Type) -- This function shall return the cotangent of <X> function Cot (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Cot (Float_Type; Float_Type) -- This function shall return the cotangent of <X> with the specified base function Arcsin (X : Float_Type'Base) return Float_Type'Base; -- @llr Arcsin (Float_Type) -- This function shall return the inverse sine of <X> function Arcsin (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Arcsin (Float_Type; Float_Type) -- This function shall return the inverse sine of <X> with the specified -- base function Arccos (X : Float_Type'Base) return Float_Type'Base; -- @llr Arccos (Float_Type) -- This function shall return the inverse cosine of <X> function Arccos (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Arccos (Float_Type; Float_Type) -- This function shall return the inverse cosine of <X> with the specified -- base function Arctan (Y : Float_Type'Base; X : Float_Type'Base := 1.0) return Float_Type'Base; -- @llr Arctan (Float_Type; Float_Type) -- This function shall compute the principal value of the inverse tangent -- of <Y> / <X> function Arctan (Y : Float_Type'Base; X : Float_Type'Base := 1.0; Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Arctan (Float_Type; Float_Type; Float_Type) -- This function shall compute the principal value of the inverse tangent -- of <Y> / <X> with the specified base function Arccot (X : Float_Type'Base; Y : Float_Type'Base := 1.0) return Float_Type'Base; -- @llr Arccot (Float_Type; Float_Type) -- This function shall compute the principal value of the inverse cotangent -- of <Y> / <X> function Arccot (X : Float_Type'Base; Y : Float_Type'Base := 1.0; Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Arccot (Float_Type; Float_Type; FLoat_Type) -- This function shall compute the principal value of the inverse cotangent -- of <Y> / <X> with the specified base function Sinh (X : Float_Type'Base) return Float_Type'Base; -- @llr Sinh (Float_Type) -- This function shall return the hyperbolic sine of <X> function Cosh (X : Float_Type'Base) return Float_Type'Base; -- @llr Cosh (Float_Type) -- This function shall return the hyperbolic cosine of <X> function Tanh (X : Float_Type'Base) return Float_Type'Base; -- @llr Tanh (Float_Type) -- This function shall return the hyperbolic tangent of <X> function Coth (X : Float_Type'Base) return Float_Type'Base; -- @llr Coth (Float_Type) -- This function shall return the hyperbolic cotangent of <X> function Arcsinh (X : Float_Type'Base) return Float_Type'Base; -- @llr Arcsinh (Float_Type) -- This function shall return the inverse hyperbolic sine of <X> function Arccosh (X : Float_Type'Base) return Float_Type'Base; -- @llr Arccosh (Float_Type) -- This function shall return the inverse hyperbolic cosine of <X> function Arctanh (X : Float_Type'Base) return Float_Type'Base; -- @llr Arctanh (Float_Type) -- This function shall return the inverse hyperbolic tangent of <X> function Arccoth (X : Float_Type'Base) return Float_Type'Base; -- @llr Arccoth (Float_Type) -- This function shall return the inverse hyperbolic cotangent of <X> end System.Generic_C_Math_Interface;
package Missile is type Missile_State is (ALIVE, TOUCHED, DEAD); type Missile is record State : Missile_State := DEAD; X : Integer; Y : Integer; Max_Y: Integer; Speed : Integer; end record; procedure appear_mis(s : in out Missile; X : Integer; Y : Integer; Max_Y : Integer) with Pre => Y /= Max_Y and s.State /= ALIVE, Post => s.State = ALIVE; procedure move_mis(s : in out Missile) with Pre => s.State /= DEAD; end Missile;
----------------------------------------------------------------------- -- util-log-appenders-consoles -- Console log appenders -- Copyright (C) 2001 - 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. ----------------------------------------------------------------------- -- Write log events to the console. package Util.Log.Appenders.Consoles is type Console_Appender (Length : Positive) is new Appender with private; type Console_Appender_Access is access all Console_Appender'Class; overriding procedure Append (Self : in out Console_Appender; Message : in Util.Strings.Builders.Builder; Date : in Ada.Calendar.Time; Level : in Level_Type; Logger : in String); -- Flush the log events. overriding procedure Flush (Self : in out Console_Appender); -- Create a console appender and configure it according to the properties function Create (Name : in String; Properties : in Util.Properties.Manager; Default : in Level_Type) return Appender_Access; private type Console_Appender (Length : Positive) is new Appender (Length) with record Stderr : Boolean := False; Prefix : Util.Properties.Value; end record; end Util.Log.Appenders.Consoles;
-- This file is generated by SWIG. Please do not modify by hand. -- with Interfaces.C; with Interfaces.C.Pointers; package xcb.Pointers is -- xcb_connection_t_Pointer -- package C_xcb_connection_t_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.xcb_connection_t, element_Array => xcb.xcb_connection_t_Array, default_Terminator => 0); subtype xcb_connection_t_Pointer is C_xcb_connection_t_Pointers.Pointer; -- xcb_connection_t_Pointer_Array -- type xcb_connection_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_connection_t_Pointer; -- xcb_special_event_t_Pointer -- package C_xcb_special_event_t_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.xcb_special_event_t, element_Array => xcb.xcb_special_event_t_Array, default_Terminator => 0); subtype xcb_special_event_t_Pointer is C_xcb_special_event_t_Pointers.Pointer; -- xcb_special_event_t_Pointer_Array -- type xcb_special_event_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_special_event_t_Pointer; -- xcb_window_t_Pointer -- package C_xcb_window_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_window_t, Element_Array => xcb.xcb_window_t_array, Default_Terminator => 0); subtype xcb_window_t_Pointer is C_xcb_window_t_Pointers.Pointer; -- xcb_window_t_Pointer_Array -- type xcb_window_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_window_t_Pointer; -- xcb_pixmap_t_Pointer -- package C_xcb_pixmap_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_pixmap_t, Element_Array => xcb.xcb_pixmap_t_array, Default_Terminator => 0); subtype xcb_pixmap_t_Pointer is C_xcb_pixmap_t_Pointers.Pointer; -- xcb_pixmap_t_Pointer_Array -- type xcb_pixmap_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_pixmap_t_Pointer; -- xcb_cursor_t_Pointer -- package C_xcb_cursor_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_cursor_t, Element_Array => xcb.xcb_cursor_t_array, Default_Terminator => 0); subtype xcb_cursor_t_Pointer is C_xcb_cursor_t_Pointers.Pointer; -- xcb_cursor_t_Pointer_Array -- type xcb_cursor_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_cursor_t_Pointer; -- xcb_font_t_Pointer -- package C_xcb_font_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_font_t, Element_Array => xcb.xcb_font_t_array, Default_Terminator => 0); subtype xcb_font_t_Pointer is C_xcb_font_t_Pointers.Pointer; -- xcb_font_t_Pointer_Array -- type xcb_font_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_font_t_Pointer; -- xcb_gcontext_t_Pointer -- package C_xcb_gcontext_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_gcontext_t, Element_Array => xcb.xcb_gcontext_t_array, Default_Terminator => 0); subtype xcb_gcontext_t_Pointer is C_xcb_gcontext_t_Pointers.Pointer; -- xcb_gcontext_t_Pointer_Array -- type xcb_gcontext_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_gcontext_t_Pointer; -- xcb_colormap_t_Pointer -- package C_xcb_colormap_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_colormap_t, Element_Array => xcb.xcb_colormap_t_array, Default_Terminator => 0); subtype xcb_colormap_t_Pointer is C_xcb_colormap_t_Pointers.Pointer; -- xcb_colormap_t_Pointer_Array -- type xcb_colormap_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_colormap_t_Pointer; -- xcb_atom_t_Pointer -- package C_xcb_atom_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_atom_t, Element_Array => xcb.xcb_atom_t_array, Default_Terminator => 0); subtype xcb_atom_t_Pointer is C_xcb_atom_t_Pointers.Pointer; -- xcb_atom_t_Pointer_Array -- type xcb_atom_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_atom_t_Pointer; -- xcb_drawable_t_Pointer -- package C_xcb_drawable_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_drawable_t, Element_Array => xcb.xcb_drawable_t_array, Default_Terminator => 0); subtype xcb_drawable_t_Pointer is C_xcb_drawable_t_Pointers.Pointer; -- xcb_drawable_t_Pointer_Array -- type xcb_drawable_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_drawable_t_Pointer; -- xcb_fontable_t_Pointer -- package C_xcb_fontable_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_fontable_t, Element_Array => xcb.xcb_fontable_t_array, Default_Terminator => 0); subtype xcb_fontable_t_Pointer is C_xcb_fontable_t_Pointers.Pointer; -- xcb_fontable_t_Pointer_Array -- type xcb_fontable_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_fontable_t_Pointer; -- xcb_bool32_t_Pointer -- package C_xcb_bool32_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_bool32_t, Element_Array => xcb.xcb_bool32_t_array, Default_Terminator => 0); subtype xcb_bool32_t_Pointer is C_xcb_bool32_t_Pointers.Pointer; -- xcb_bool32_t_Pointer_Array -- type xcb_bool32_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_bool32_t_Pointer; -- xcb_visualid_t_Pointer -- package C_xcb_visualid_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_visualid_t, Element_Array => xcb.xcb_visualid_t_array, Default_Terminator => 0); subtype xcb_visualid_t_Pointer is C_xcb_visualid_t_Pointers.Pointer; -- xcb_visualid_t_Pointer_Array -- type xcb_visualid_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_visualid_t_Pointer; -- xcb_timestamp_t_Pointer -- package C_xcb_timestamp_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_timestamp_t, Element_Array => xcb.xcb_timestamp_t_array, Default_Terminator => 0); subtype xcb_timestamp_t_Pointer is C_xcb_timestamp_t_Pointers.Pointer; -- xcb_timestamp_t_Pointer_Array -- type xcb_timestamp_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_timestamp_t_Pointer; -- xcb_keysym_t_Pointer -- package C_xcb_keysym_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_keysym_t, Element_Array => xcb.xcb_keysym_t_array, Default_Terminator => 0); subtype xcb_keysym_t_Pointer is C_xcb_keysym_t_Pointers.Pointer; -- xcb_keysym_t_Pointer_Array -- type xcb_keysym_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_keysym_t_Pointer; -- xcb_keycode_t_Pointer -- package C_xcb_keycode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_keycode_t, Element_Array => xcb.xcb_keycode_t_array, Default_Terminator => 0); subtype xcb_keycode_t_Pointer is C_xcb_keycode_t_Pointers.Pointer; -- xcb_keycode_t_Pointer_Array -- type xcb_keycode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_keycode_t_Pointer; -- xcb_keycode32_t_Pointer -- package C_xcb_keycode32_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_keycode32_t, Element_Array => xcb.xcb_keycode32_t_array, Default_Terminator => 0); subtype xcb_keycode32_t_Pointer is C_xcb_keycode32_t_Pointers.Pointer; -- xcb_keycode32_t_Pointer_Array -- type xcb_keycode32_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_keycode32_t_Pointer; -- xcb_button_t_Pointer -- package C_xcb_button_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_button_t, Element_Array => xcb.xcb_button_t_array, Default_Terminator => 0); subtype xcb_button_t_Pointer is C_xcb_button_t_Pointers.Pointer; -- xcb_button_t_Pointer_Array -- type xcb_button_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_button_t_Pointer; -- xcb_visual_class_t_Pointer -- package C_xcb_visual_class_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_visual_class_t, Element_Array => xcb.xcb_visual_class_t_array, Default_Terminator => xcb.xcb_visual_class_t'Val (0)); subtype xcb_visual_class_t_Pointer is C_xcb_visual_class_t_Pointers.Pointer; -- xcb_visual_class_t_Pointer_Array -- type xcb_visual_class_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_visual_class_t_Pointer; -- xcb_event_mask_t_Pointer -- package C_xcb_event_mask_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_event_mask_t, Element_Array => xcb.xcb_event_mask_t_array, Default_Terminator => xcb.xcb_event_mask_t'Val (0)); subtype xcb_event_mask_t_Pointer is C_xcb_event_mask_t_Pointers.Pointer; -- xcb_event_mask_t_Pointer_Array -- type xcb_event_mask_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_event_mask_t_Pointer; -- xcb_backing_store_t_Pointer -- package C_xcb_backing_store_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_backing_store_t, Element_Array => xcb.xcb_backing_store_t_array, Default_Terminator => xcb.xcb_backing_store_t'Val (0)); subtype xcb_backing_store_t_Pointer is C_xcb_backing_store_t_Pointers.Pointer; -- xcb_backing_store_t_Pointer_Array -- type xcb_backing_store_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_backing_store_t_Pointer; -- xcb_image_order_t_Pointer -- package C_xcb_image_order_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_image_order_t, Element_Array => xcb.xcb_image_order_t_array, Default_Terminator => xcb.xcb_image_order_t'Val (0)); subtype xcb_image_order_t_Pointer is C_xcb_image_order_t_Pointers.Pointer; -- xcb_image_order_t_Pointer_Array -- type xcb_image_order_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_image_order_t_Pointer; -- xcb_mod_mask_t_Pointer -- package C_xcb_mod_mask_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_mod_mask_t, Element_Array => xcb.xcb_mod_mask_t_array, Default_Terminator => xcb.xcb_mod_mask_t'Val (0)); subtype xcb_mod_mask_t_Pointer is C_xcb_mod_mask_t_Pointers.Pointer; -- xcb_mod_mask_t_Pointer_Array -- type xcb_mod_mask_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_mod_mask_t_Pointer; -- xcb_key_but_mask_t_Pointer -- package C_xcb_key_but_mask_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_key_but_mask_t, Element_Array => xcb.xcb_key_but_mask_t_array, Default_Terminator => xcb.xcb_key_but_mask_t'Val (0)); subtype xcb_key_but_mask_t_Pointer is C_xcb_key_but_mask_t_Pointers.Pointer; -- xcb_key_but_mask_t_Pointer_Array -- type xcb_key_but_mask_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_key_but_mask_t_Pointer; -- xcb_window_enum_t_Pointer -- package C_xcb_window_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_window_enum_t, Element_Array => xcb.xcb_window_enum_t_array, Default_Terminator => xcb.xcb_window_enum_t'Val (0)); subtype xcb_window_enum_t_Pointer is C_xcb_window_enum_t_Pointers.Pointer; -- xcb_window_enum_t_Pointer_Array -- type xcb_window_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_window_enum_t_Pointer; -- xcb_button_mask_t_Pointer -- package C_xcb_button_mask_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_button_mask_t, Element_Array => xcb.xcb_button_mask_t_array, Default_Terminator => xcb.xcb_button_mask_t'Val (0)); subtype xcb_button_mask_t_Pointer is C_xcb_button_mask_t_Pointers.Pointer; -- xcb_button_mask_t_Pointer_Array -- type xcb_button_mask_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_button_mask_t_Pointer; -- xcb_motion_t_Pointer -- package C_xcb_motion_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_motion_t, Element_Array => xcb.xcb_motion_t_array, Default_Terminator => xcb.xcb_motion_t'Val (0)); subtype xcb_motion_t_Pointer is C_xcb_motion_t_Pointers.Pointer; -- xcb_motion_t_Pointer_Array -- type xcb_motion_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_motion_t_Pointer; -- xcb_notify_detail_t_Pointer -- package C_xcb_notify_detail_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_notify_detail_t, Element_Array => xcb.xcb_notify_detail_t_array, Default_Terminator => xcb.xcb_notify_detail_t'Val (0)); subtype xcb_notify_detail_t_Pointer is C_xcb_notify_detail_t_Pointers.Pointer; -- xcb_notify_detail_t_Pointer_Array -- type xcb_notify_detail_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_notify_detail_t_Pointer; -- xcb_notify_mode_t_Pointer -- package C_xcb_notify_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_notify_mode_t, Element_Array => xcb.xcb_notify_mode_t_array, Default_Terminator => xcb.xcb_notify_mode_t'Val (0)); subtype xcb_notify_mode_t_Pointer is C_xcb_notify_mode_t_Pointers.Pointer; -- xcb_notify_mode_t_Pointer_Array -- type xcb_notify_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_notify_mode_t_Pointer; -- xcb_visibility_t_Pointer -- package C_xcb_visibility_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_visibility_t, Element_Array => xcb.xcb_visibility_t_array, Default_Terminator => xcb.xcb_visibility_t'Val (0)); subtype xcb_visibility_t_Pointer is C_xcb_visibility_t_Pointers.Pointer; -- xcb_visibility_t_Pointer_Array -- type xcb_visibility_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_visibility_t_Pointer; -- xcb_place_t_Pointer -- package C_xcb_place_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_place_t, Element_Array => xcb.xcb_place_t_array, Default_Terminator => xcb.xcb_place_t'Val (0)); subtype xcb_place_t_Pointer is C_xcb_place_t_Pointers.Pointer; -- xcb_place_t_Pointer_Array -- type xcb_place_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_place_t_Pointer; -- xcb_property_t_Pointer -- package C_xcb_property_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_property_t, Element_Array => xcb.xcb_property_t_array, Default_Terminator => xcb.xcb_property_t'Val (0)); subtype xcb_property_t_Pointer is C_xcb_property_t_Pointers.Pointer; -- xcb_property_t_Pointer_Array -- type xcb_property_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_property_t_Pointer; -- xcb_time_t_Pointer -- package C_xcb_time_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_time_t, Element_Array => xcb.xcb_time_t_array, Default_Terminator => xcb.xcb_time_t'Val (0)); subtype xcb_time_t_Pointer is C_xcb_time_t_Pointers.Pointer; -- xcb_time_t_Pointer_Array -- type xcb_time_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_time_t_Pointer; -- xcb_atom_enum_t_Pointer -- package C_xcb_atom_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_atom_enum_t, Element_Array => xcb.xcb_atom_enum_t_array, Default_Terminator => xcb.xcb_atom_enum_t'Val (0)); subtype xcb_atom_enum_t_Pointer is C_xcb_atom_enum_t_Pointers.Pointer; -- xcb_atom_enum_t_Pointer_Array -- type xcb_atom_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_atom_enum_t_Pointer; -- xcb_colormap_state_t_Pointer -- package C_xcb_colormap_state_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_colormap_state_t, Element_Array => xcb.xcb_colormap_state_t_array, Default_Terminator => xcb.xcb_colormap_state_t'Val (0)); subtype xcb_colormap_state_t_Pointer is C_xcb_colormap_state_t_Pointers.Pointer; -- xcb_colormap_state_t_Pointer_Array -- type xcb_colormap_state_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_colormap_state_t_Pointer; -- xcb_colormap_enum_t_Pointer -- package C_xcb_colormap_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_colormap_enum_t, Element_Array => xcb.xcb_colormap_enum_t_array, Default_Terminator => xcb.xcb_colormap_enum_t'Val (0)); subtype xcb_colormap_enum_t_Pointer is C_xcb_colormap_enum_t_Pointers.Pointer; -- xcb_colormap_enum_t_Pointer_Array -- type xcb_colormap_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_colormap_enum_t_Pointer; -- xcb_mapping_t_Pointer -- package C_xcb_mapping_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_mapping_t, Element_Array => xcb.xcb_mapping_t_array, Default_Terminator => xcb.xcb_mapping_t'Val (0)); subtype xcb_mapping_t_Pointer is C_xcb_mapping_t_Pointers.Pointer; -- xcb_mapping_t_Pointer_Array -- type xcb_mapping_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_mapping_t_Pointer; -- xcb_window_class_t_Pointer -- package C_xcb_window_class_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_window_class_t, Element_Array => xcb.xcb_window_class_t_array, Default_Terminator => xcb.xcb_window_class_t'Val (0)); subtype xcb_window_class_t_Pointer is C_xcb_window_class_t_Pointers.Pointer; -- xcb_window_class_t_Pointer_Array -- type xcb_window_class_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_window_class_t_Pointer; -- xcb_cw_t_Pointer -- package C_xcb_cw_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_cw_t, Element_Array => xcb.xcb_cw_t_array, Default_Terminator => xcb.xcb_cw_t'Val (0)); subtype xcb_cw_t_Pointer is C_xcb_cw_t_Pointers.Pointer; -- xcb_cw_t_Pointer_Array -- type xcb_cw_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.xcb_cw_t_Pointer; -- xcb_back_pixmap_t_Pointer -- package C_xcb_back_pixmap_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_back_pixmap_t, Element_Array => xcb.xcb_back_pixmap_t_array, Default_Terminator => xcb.xcb_back_pixmap_t'Val (0)); subtype xcb_back_pixmap_t_Pointer is C_xcb_back_pixmap_t_Pointers.Pointer; -- xcb_back_pixmap_t_Pointer_Array -- type xcb_back_pixmap_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_back_pixmap_t_Pointer; -- xcb_gravity_t_Pointer -- package C_xcb_gravity_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_gravity_t, Element_Array => xcb.xcb_gravity_t_array, Default_Terminator => xcb.xcb_gravity_t'Val (0)); subtype xcb_gravity_t_Pointer is C_xcb_gravity_t_Pointers.Pointer; -- xcb_gravity_t_Pointer_Array -- type xcb_gravity_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_gravity_t_Pointer; -- xcb_map_state_t_Pointer -- package C_xcb_map_state_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_map_state_t, Element_Array => xcb.xcb_map_state_t_array, Default_Terminator => xcb.xcb_map_state_t'Val (0)); subtype xcb_map_state_t_Pointer is C_xcb_map_state_t_Pointers.Pointer; -- xcb_map_state_t_Pointer_Array -- type xcb_map_state_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_map_state_t_Pointer; -- xcb_set_mode_t_Pointer -- package C_xcb_set_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_set_mode_t, Element_Array => xcb.xcb_set_mode_t_array, Default_Terminator => xcb.xcb_set_mode_t'Val (0)); subtype xcb_set_mode_t_Pointer is C_xcb_set_mode_t_Pointers.Pointer; -- xcb_set_mode_t_Pointer_Array -- type xcb_set_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_set_mode_t_Pointer; -- xcb_config_window_t_Pointer -- package C_xcb_config_window_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_config_window_t, Element_Array => xcb.xcb_config_window_t_array, Default_Terminator => xcb.xcb_config_window_t'Val (0)); subtype xcb_config_window_t_Pointer is C_xcb_config_window_t_Pointers.Pointer; -- xcb_config_window_t_Pointer_Array -- type xcb_config_window_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_config_window_t_Pointer; -- xcb_stack_mode_t_Pointer -- package C_xcb_stack_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_stack_mode_t, Element_Array => xcb.xcb_stack_mode_t_array, Default_Terminator => xcb.xcb_stack_mode_t'Val (0)); subtype xcb_stack_mode_t_Pointer is C_xcb_stack_mode_t_Pointers.Pointer; -- xcb_stack_mode_t_Pointer_Array -- type xcb_stack_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_stack_mode_t_Pointer; -- xcb_circulate_t_Pointer -- package C_xcb_circulate_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_circulate_t, Element_Array => xcb.xcb_circulate_t_array, Default_Terminator => xcb.xcb_circulate_t'Val (0)); subtype xcb_circulate_t_Pointer is C_xcb_circulate_t_Pointers.Pointer; -- xcb_circulate_t_Pointer_Array -- type xcb_circulate_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_circulate_t_Pointer; -- xcb_prop_mode_t_Pointer -- package C_xcb_prop_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_prop_mode_t, Element_Array => xcb.xcb_prop_mode_t_array, Default_Terminator => xcb.xcb_prop_mode_t'Val (0)); subtype xcb_prop_mode_t_Pointer is C_xcb_prop_mode_t_Pointers.Pointer; -- xcb_prop_mode_t_Pointer_Array -- type xcb_prop_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_prop_mode_t_Pointer; -- xcb_get_property_type_t_Pointer -- package C_xcb_get_property_type_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_get_property_type_t, Element_Array => xcb.xcb_get_property_type_t_array, Default_Terminator => xcb.xcb_get_property_type_t'Val (0)); subtype xcb_get_property_type_t_Pointer is C_xcb_get_property_type_t_Pointers.Pointer; -- xcb_get_property_type_t_Pointer_Array -- type xcb_get_property_type_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_get_property_type_t_Pointer; -- xcb_send_event_dest_t_Pointer -- package C_xcb_send_event_dest_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_send_event_dest_t, Element_Array => xcb.xcb_send_event_dest_t_array, Default_Terminator => xcb.xcb_send_event_dest_t'Val (0)); subtype xcb_send_event_dest_t_Pointer is C_xcb_send_event_dest_t_Pointers.Pointer; -- xcb_send_event_dest_t_Pointer_Array -- type xcb_send_event_dest_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_send_event_dest_t_Pointer; -- xcb_grab_mode_t_Pointer -- package C_xcb_grab_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_grab_mode_t, Element_Array => xcb.xcb_grab_mode_t_array, Default_Terminator => xcb.xcb_grab_mode_t'Val (0)); subtype xcb_grab_mode_t_Pointer is C_xcb_grab_mode_t_Pointers.Pointer; -- xcb_grab_mode_t_Pointer_Array -- type xcb_grab_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_grab_mode_t_Pointer; -- xcb_grab_status_t_Pointer -- package C_xcb_grab_status_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_grab_status_t, Element_Array => xcb.xcb_grab_status_t_array, Default_Terminator => xcb.xcb_grab_status_t'Val (0)); subtype xcb_grab_status_t_Pointer is C_xcb_grab_status_t_Pointers.Pointer; -- xcb_grab_status_t_Pointer_Array -- type xcb_grab_status_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_grab_status_t_Pointer; -- xcb_cursor_enum_t_Pointer -- package C_xcb_cursor_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_cursor_enum_t, Element_Array => xcb.xcb_cursor_enum_t_array, Default_Terminator => xcb.xcb_cursor_enum_t'Val (0)); subtype xcb_cursor_enum_t_Pointer is C_xcb_cursor_enum_t_Pointers.Pointer; -- xcb_cursor_enum_t_Pointer_Array -- type xcb_cursor_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_cursor_enum_t_Pointer; -- xcb_button_index_t_Pointer -- package C_xcb_button_index_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_button_index_t, Element_Array => xcb.xcb_button_index_t_array, Default_Terminator => xcb.xcb_button_index_t'Val (0)); subtype xcb_button_index_t_Pointer is C_xcb_button_index_t_Pointers.Pointer; -- xcb_button_index_t_Pointer_Array -- type xcb_button_index_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_button_index_t_Pointer; -- xcb_grab_t_Pointer -- package C_xcb_grab_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_grab_t, Element_Array => xcb.xcb_grab_t_array, Default_Terminator => xcb.xcb_grab_t'Val (0)); subtype xcb_grab_t_Pointer is C_xcb_grab_t_Pointers.Pointer; -- xcb_grab_t_Pointer_Array -- type xcb_grab_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_grab_t_Pointer; -- xcb_allow_t_Pointer -- package C_xcb_allow_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_allow_t, Element_Array => xcb.xcb_allow_t_array, Default_Terminator => xcb.xcb_allow_t'Val (0)); subtype xcb_allow_t_Pointer is C_xcb_allow_t_Pointers.Pointer; -- xcb_allow_t_Pointer_Array -- type xcb_allow_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_allow_t_Pointer; -- xcb_input_focus_t_Pointer -- package C_xcb_input_focus_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_input_focus_t, Element_Array => xcb.xcb_input_focus_t_array, Default_Terminator => xcb.xcb_input_focus_t'Val (0)); subtype xcb_input_focus_t_Pointer is C_xcb_input_focus_t_Pointers.Pointer; -- xcb_input_focus_t_Pointer_Array -- type xcb_input_focus_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_input_focus_t_Pointer; -- xcb_font_draw_t_Pointer -- package C_xcb_font_draw_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_font_draw_t, Element_Array => xcb.xcb_font_draw_t_array, Default_Terminator => xcb.xcb_font_draw_t'Val (0)); subtype xcb_font_draw_t_Pointer is C_xcb_font_draw_t_Pointers.Pointer; -- xcb_font_draw_t_Pointer_Array -- type xcb_font_draw_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_font_draw_t_Pointer; -- xcb_gc_t_Pointer -- package C_xcb_gc_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_gc_t, Element_Array => xcb.xcb_gc_t_array, Default_Terminator => xcb.xcb_gc_t'Val (0)); subtype xcb_gc_t_Pointer is C_xcb_gc_t_Pointers.Pointer; -- xcb_gc_t_Pointer_Array -- type xcb_gc_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.xcb_gc_t_Pointer; -- xcb_gx_t_Pointer -- package C_xcb_gx_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_gx_t, Element_Array => xcb.xcb_gx_t_array, Default_Terminator => xcb.xcb_gx_t'Val (0)); subtype xcb_gx_t_Pointer is C_xcb_gx_t_Pointers.Pointer; -- xcb_gx_t_Pointer_Array -- type xcb_gx_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.xcb_gx_t_Pointer; -- xcb_line_style_t_Pointer -- package C_xcb_line_style_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_line_style_t, Element_Array => xcb.xcb_line_style_t_array, Default_Terminator => xcb.xcb_line_style_t'Val (0)); subtype xcb_line_style_t_Pointer is C_xcb_line_style_t_Pointers.Pointer; -- xcb_line_style_t_Pointer_Array -- type xcb_line_style_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_line_style_t_Pointer; -- xcb_cap_style_t_Pointer -- package C_xcb_cap_style_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_cap_style_t, Element_Array => xcb.xcb_cap_style_t_array, Default_Terminator => xcb.xcb_cap_style_t'Val (0)); subtype xcb_cap_style_t_Pointer is C_xcb_cap_style_t_Pointers.Pointer; -- xcb_cap_style_t_Pointer_Array -- type xcb_cap_style_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_cap_style_t_Pointer; -- xcb_join_style_t_Pointer -- package C_xcb_join_style_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_join_style_t, Element_Array => xcb.xcb_join_style_t_array, Default_Terminator => xcb.xcb_join_style_t'Val (0)); subtype xcb_join_style_t_Pointer is C_xcb_join_style_t_Pointers.Pointer; -- xcb_join_style_t_Pointer_Array -- type xcb_join_style_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_join_style_t_Pointer; -- xcb_fill_style_t_Pointer -- package C_xcb_fill_style_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_fill_style_t, Element_Array => xcb.xcb_fill_style_t_array, Default_Terminator => xcb.xcb_fill_style_t'Val (0)); subtype xcb_fill_style_t_Pointer is C_xcb_fill_style_t_Pointers.Pointer; -- xcb_fill_style_t_Pointer_Array -- type xcb_fill_style_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_fill_style_t_Pointer; -- xcb_fill_rule_t_Pointer -- package C_xcb_fill_rule_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_fill_rule_t, Element_Array => xcb.xcb_fill_rule_t_array, Default_Terminator => xcb.xcb_fill_rule_t'Val (0)); subtype xcb_fill_rule_t_Pointer is C_xcb_fill_rule_t_Pointers.Pointer; -- xcb_fill_rule_t_Pointer_Array -- type xcb_fill_rule_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_fill_rule_t_Pointer; -- xcb_subwindow_mode_t_Pointer -- package C_xcb_subwindow_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_subwindow_mode_t, Element_Array => xcb.xcb_subwindow_mode_t_array, Default_Terminator => xcb.xcb_subwindow_mode_t'Val (0)); subtype xcb_subwindow_mode_t_Pointer is C_xcb_subwindow_mode_t_Pointers.Pointer; -- xcb_subwindow_mode_t_Pointer_Array -- type xcb_subwindow_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_subwindow_mode_t_Pointer; -- xcb_arc_mode_t_Pointer -- package C_xcb_arc_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_arc_mode_t, Element_Array => xcb.xcb_arc_mode_t_array, Default_Terminator => xcb.xcb_arc_mode_t'Val (0)); subtype xcb_arc_mode_t_Pointer is C_xcb_arc_mode_t_Pointers.Pointer; -- xcb_arc_mode_t_Pointer_Array -- type xcb_arc_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_arc_mode_t_Pointer; -- xcb_clip_ordering_t_Pointer -- package C_xcb_clip_ordering_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_clip_ordering_t, Element_Array => xcb.xcb_clip_ordering_t_array, Default_Terminator => xcb.xcb_clip_ordering_t'Val (0)); subtype xcb_clip_ordering_t_Pointer is C_xcb_clip_ordering_t_Pointers.Pointer; -- xcb_clip_ordering_t_Pointer_Array -- type xcb_clip_ordering_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_clip_ordering_t_Pointer; -- xcb_coord_mode_t_Pointer -- package C_xcb_coord_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_coord_mode_t, Element_Array => xcb.xcb_coord_mode_t_array, Default_Terminator => xcb.xcb_coord_mode_t'Val (0)); subtype xcb_coord_mode_t_Pointer is C_xcb_coord_mode_t_Pointers.Pointer; -- xcb_coord_mode_t_Pointer_Array -- type xcb_coord_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_coord_mode_t_Pointer; -- xcb_poly_shape_t_Pointer -- package C_xcb_poly_shape_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_poly_shape_t, Element_Array => xcb.xcb_poly_shape_t_array, Default_Terminator => xcb.xcb_poly_shape_t'Val (0)); subtype xcb_poly_shape_t_Pointer is C_xcb_poly_shape_t_Pointers.Pointer; -- xcb_poly_shape_t_Pointer_Array -- type xcb_poly_shape_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_poly_shape_t_Pointer; -- xcb_image_format_t_Pointer -- package C_xcb_image_format_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_image_format_t, Element_Array => xcb.xcb_image_format_t_array, Default_Terminator => xcb.xcb_image_format_t'Val (0)); subtype xcb_image_format_t_Pointer is C_xcb_image_format_t_Pointers.Pointer; -- xcb_image_format_t_Pointer_Array -- type xcb_image_format_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_image_format_t_Pointer; -- xcb_colormap_alloc_t_Pointer -- package C_xcb_colormap_alloc_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_colormap_alloc_t, Element_Array => xcb.xcb_colormap_alloc_t_array, Default_Terminator => xcb.xcb_colormap_alloc_t'Val (0)); subtype xcb_colormap_alloc_t_Pointer is C_xcb_colormap_alloc_t_Pointers.Pointer; -- xcb_colormap_alloc_t_Pointer_Array -- type xcb_colormap_alloc_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_colormap_alloc_t_Pointer; -- xcb_color_flag_t_Pointer -- package C_xcb_color_flag_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_color_flag_t, Element_Array => xcb.xcb_color_flag_t_array, Default_Terminator => xcb.xcb_color_flag_t'Val (0)); subtype xcb_color_flag_t_Pointer is C_xcb_color_flag_t_Pointers.Pointer; -- xcb_color_flag_t_Pointer_Array -- type xcb_color_flag_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_color_flag_t_Pointer; -- xcb_pixmap_enum_t_Pointer -- package C_xcb_pixmap_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_pixmap_enum_t, Element_Array => xcb.xcb_pixmap_enum_t_array, Default_Terminator => xcb.xcb_pixmap_enum_t'Val (0)); subtype xcb_pixmap_enum_t_Pointer is C_xcb_pixmap_enum_t_Pointers.Pointer; -- xcb_pixmap_enum_t_Pointer_Array -- type xcb_pixmap_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_pixmap_enum_t_Pointer; -- xcb_font_enum_t_Pointer -- package C_xcb_font_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_font_enum_t, Element_Array => xcb.xcb_font_enum_t_array, Default_Terminator => xcb.xcb_font_enum_t'Val (0)); subtype xcb_font_enum_t_Pointer is C_xcb_font_enum_t_Pointers.Pointer; -- xcb_font_enum_t_Pointer_Array -- type xcb_font_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_font_enum_t_Pointer; -- xcb_query_shape_of_t_Pointer -- package C_xcb_query_shape_of_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_query_shape_of_t, Element_Array => xcb.xcb_query_shape_of_t_array, Default_Terminator => xcb.xcb_query_shape_of_t'Val (0)); subtype xcb_query_shape_of_t_Pointer is C_xcb_query_shape_of_t_Pointers.Pointer; -- xcb_query_shape_of_t_Pointer_Array -- type xcb_query_shape_of_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_query_shape_of_t_Pointer; -- xcb_kb_t_Pointer -- package C_xcb_kb_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_kb_t, Element_Array => xcb.xcb_kb_t_array, Default_Terminator => xcb.xcb_kb_t'Val (0)); subtype xcb_kb_t_Pointer is C_xcb_kb_t_Pointers.Pointer; -- xcb_kb_t_Pointer_Array -- type xcb_kb_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.xcb_kb_t_Pointer; -- xcb_led_mode_t_Pointer -- package C_xcb_led_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_led_mode_t, Element_Array => xcb.xcb_led_mode_t_array, Default_Terminator => xcb.xcb_led_mode_t'Val (0)); subtype xcb_led_mode_t_Pointer is C_xcb_led_mode_t_Pointers.Pointer; -- xcb_led_mode_t_Pointer_Array -- type xcb_led_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_led_mode_t_Pointer; -- xcb_auto_repeat_mode_t_Pointer -- package C_xcb_auto_repeat_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_auto_repeat_mode_t, Element_Array => xcb.xcb_auto_repeat_mode_t_array, Default_Terminator => xcb.xcb_auto_repeat_mode_t'Val (0)); subtype xcb_auto_repeat_mode_t_Pointer is C_xcb_auto_repeat_mode_t_Pointers.Pointer; -- xcb_auto_repeat_mode_t_Pointer_Array -- type xcb_auto_repeat_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_auto_repeat_mode_t_Pointer; -- xcb_blanking_t_Pointer -- package C_xcb_blanking_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_blanking_t, Element_Array => xcb.xcb_blanking_t_array, Default_Terminator => xcb.xcb_blanking_t'Val (0)); subtype xcb_blanking_t_Pointer is C_xcb_blanking_t_Pointers.Pointer; -- xcb_blanking_t_Pointer_Array -- type xcb_blanking_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_blanking_t_Pointer; -- xcb_exposures_t_Pointer -- package C_xcb_exposures_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_exposures_t, Element_Array => xcb.xcb_exposures_t_array, Default_Terminator => xcb.xcb_exposures_t'Val (0)); subtype xcb_exposures_t_Pointer is C_xcb_exposures_t_Pointers.Pointer; -- xcb_exposures_t_Pointer_Array -- type xcb_exposures_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_exposures_t_Pointer; -- xcb_host_mode_t_Pointer -- package C_xcb_host_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_host_mode_t, Element_Array => xcb.xcb_host_mode_t_array, Default_Terminator => xcb.xcb_host_mode_t'Val (0)); subtype xcb_host_mode_t_Pointer is C_xcb_host_mode_t_Pointers.Pointer; -- xcb_host_mode_t_Pointer_Array -- type xcb_host_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_host_mode_t_Pointer; -- xcb_family_t_Pointer -- package C_xcb_family_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_family_t, Element_Array => xcb.xcb_family_t_array, Default_Terminator => xcb.xcb_family_t'Val (0)); subtype xcb_family_t_Pointer is C_xcb_family_t_Pointers.Pointer; -- xcb_family_t_Pointer_Array -- type xcb_family_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_family_t_Pointer; -- xcb_access_control_t_Pointer -- package C_xcb_access_control_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_access_control_t, Element_Array => xcb.xcb_access_control_t_array, Default_Terminator => xcb.xcb_access_control_t'Val (0)); subtype xcb_access_control_t_Pointer is C_xcb_access_control_t_Pointers.Pointer; -- xcb_access_control_t_Pointer_Array -- type xcb_access_control_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_access_control_t_Pointer; -- xcb_close_down_t_Pointer -- package C_xcb_close_down_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_close_down_t, Element_Array => xcb.xcb_close_down_t_array, Default_Terminator => xcb.xcb_close_down_t'Val (0)); subtype xcb_close_down_t_Pointer is C_xcb_close_down_t_Pointers.Pointer; -- xcb_close_down_t_Pointer_Array -- type xcb_close_down_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_close_down_t_Pointer; -- xcb_kill_t_Pointer -- package C_xcb_kill_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_kill_t, Element_Array => xcb.xcb_kill_t_array, Default_Terminator => xcb.xcb_kill_t'Val (0)); subtype xcb_kill_t_Pointer is C_xcb_kill_t_Pointers.Pointer; -- xcb_kill_t_Pointer_Array -- type xcb_kill_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_kill_t_Pointer; -- xcb_screen_saver_t_Pointer -- package C_xcb_screen_saver_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_screen_saver_t, Element_Array => xcb.xcb_screen_saver_t_array, Default_Terminator => xcb.xcb_screen_saver_t'Val (0)); subtype xcb_screen_saver_t_Pointer is C_xcb_screen_saver_t_Pointers.Pointer; -- xcb_screen_saver_t_Pointer_Array -- type xcb_screen_saver_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_screen_saver_t_Pointer; -- xcb_mapping_status_t_Pointer -- package C_xcb_mapping_status_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_mapping_status_t, Element_Array => xcb.xcb_mapping_status_t_array, Default_Terminator => xcb.xcb_mapping_status_t'Val (0)); subtype xcb_mapping_status_t_Pointer is C_xcb_mapping_status_t_Pointers.Pointer; -- xcb_mapping_status_t_Pointer_Array -- type xcb_mapping_status_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_mapping_status_t_Pointer; -- xcb_map_index_t_Pointer -- package C_xcb_map_index_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_map_index_t, Element_Array => xcb.xcb_map_index_t_array, Default_Terminator => xcb.xcb_map_index_t'Val (0)); subtype xcb_map_index_t_Pointer is C_xcb_map_index_t_Pointers.Pointer; -- xcb_map_index_t_Pointer_Array -- type xcb_map_index_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_map_index_t_Pointer; -- xcb_render_pict_type_t_Pointer -- package C_xcb_render_pict_type_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_pict_type_t, Element_Array => xcb.xcb_render_pict_type_t_array, Default_Terminator => xcb.xcb_render_pict_type_t'Val (0)); subtype xcb_render_pict_type_t_Pointer is C_xcb_render_pict_type_t_Pointers.Pointer; -- xcb_render_pict_type_t_Pointer_Array -- type xcb_render_pict_type_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_pict_type_t_Pointer; -- xcb_render_picture_enum_t_Pointer -- package C_xcb_render_picture_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_picture_enum_t, Element_Array => xcb.xcb_render_picture_enum_t_array, Default_Terminator => xcb.xcb_render_picture_enum_t'Val (0)); subtype xcb_render_picture_enum_t_Pointer is C_xcb_render_picture_enum_t_Pointers.Pointer; -- xcb_render_picture_enum_t_Pointer_Array -- type xcb_render_picture_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_picture_enum_t_Pointer; -- xcb_render_pict_op_t_Pointer -- package C_xcb_render_pict_op_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_pict_op_t, Element_Array => xcb.xcb_render_pict_op_t_array, Default_Terminator => xcb.xcb_render_pict_op_t'Val (0)); subtype xcb_render_pict_op_t_Pointer is C_xcb_render_pict_op_t_Pointers.Pointer; -- xcb_render_pict_op_t_Pointer_Array -- type xcb_render_pict_op_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_pict_op_t_Pointer; -- xcb_render_poly_edge_t_Pointer -- package C_xcb_render_poly_edge_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_poly_edge_t, Element_Array => xcb.xcb_render_poly_edge_t_array, Default_Terminator => xcb.xcb_render_poly_edge_t'Val (0)); subtype xcb_render_poly_edge_t_Pointer is C_xcb_render_poly_edge_t_Pointers.Pointer; -- xcb_render_poly_edge_t_Pointer_Array -- type xcb_render_poly_edge_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_poly_edge_t_Pointer; -- xcb_render_poly_mode_t_Pointer -- package C_xcb_render_poly_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_poly_mode_t, Element_Array => xcb.xcb_render_poly_mode_t_array, Default_Terminator => xcb.xcb_render_poly_mode_t'Val (0)); subtype xcb_render_poly_mode_t_Pointer is C_xcb_render_poly_mode_t_Pointers.Pointer; -- xcb_render_poly_mode_t_Pointer_Array -- type xcb_render_poly_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_poly_mode_t_Pointer; -- xcb_render_cp_t_Pointer -- package C_xcb_render_cp_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_cp_t, Element_Array => xcb.xcb_render_cp_t_array, Default_Terminator => xcb.xcb_render_cp_t'Val (0)); subtype xcb_render_cp_t_Pointer is C_xcb_render_cp_t_Pointers.Pointer; -- xcb_render_cp_t_Pointer_Array -- type xcb_render_cp_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_cp_t_Pointer; -- xcb_render_sub_pixel_t_Pointer -- package C_xcb_render_sub_pixel_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_sub_pixel_t, Element_Array => xcb.xcb_render_sub_pixel_t_array, Default_Terminator => xcb.xcb_render_sub_pixel_t'Val (0)); subtype xcb_render_sub_pixel_t_Pointer is C_xcb_render_sub_pixel_t_Pointers.Pointer; -- xcb_render_sub_pixel_t_Pointer_Array -- type xcb_render_sub_pixel_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_sub_pixel_t_Pointer; -- xcb_render_repeat_t_Pointer -- package C_xcb_render_repeat_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_repeat_t, Element_Array => xcb.xcb_render_repeat_t_array, Default_Terminator => xcb.xcb_render_repeat_t'Val (0)); subtype xcb_render_repeat_t_Pointer is C_xcb_render_repeat_t_Pointers.Pointer; -- xcb_render_repeat_t_Pointer_Array -- type xcb_render_repeat_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_repeat_t_Pointer; -- xcb_render_glyph_t_Pointer -- package C_xcb_render_glyph_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_glyph_t, Element_Array => xcb.xcb_render_glyph_t_array, Default_Terminator => 0); subtype xcb_render_glyph_t_Pointer is C_xcb_render_glyph_t_Pointers.Pointer; -- xcb_render_glyph_t_Pointer_Array -- type xcb_render_glyph_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_glyph_t_Pointer; -- xcb_render_glyphset_t_Pointer -- package C_xcb_render_glyphset_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_glyphset_t, Element_Array => xcb.xcb_render_glyphset_t_array, Default_Terminator => 0); subtype xcb_render_glyphset_t_Pointer is C_xcb_render_glyphset_t_Pointers.Pointer; -- xcb_render_glyphset_t_Pointer_Array -- type xcb_render_glyphset_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_glyphset_t_Pointer; -- xcb_render_picture_t_Pointer -- package C_xcb_render_picture_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_picture_t, Element_Array => xcb.xcb_render_picture_t_array, Default_Terminator => 0); subtype xcb_render_picture_t_Pointer is C_xcb_render_picture_t_Pointers.Pointer; -- xcb_render_picture_t_Pointer_Array -- type xcb_render_picture_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_picture_t_Pointer; -- xcb_render_pictformat_t_Pointer -- package C_xcb_render_pictformat_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_pictformat_t, Element_Array => xcb.xcb_render_pictformat_t_array, Default_Terminator => 0); subtype xcb_render_pictformat_t_Pointer is C_xcb_render_pictformat_t_Pointers.Pointer; -- xcb_render_pictformat_t_Pointer_Array -- type xcb_render_pictformat_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_pictformat_t_Pointer; -- xcb_render_fixed_t_Pointer -- package C_xcb_render_fixed_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_fixed_t, Element_Array => xcb.xcb_render_fixed_t_array, Default_Terminator => 0); subtype xcb_render_fixed_t_Pointer is C_xcb_render_fixed_t_Pointers.Pointer; -- xcb_render_fixed_t_Pointer_Array -- type xcb_render_fixed_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_fixed_t_Pointer; -- iovec_Pointer -- package C_iovec_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.iovec, element_Array => xcb.iovec_Array, default_Terminator => 0); subtype iovec_Pointer is C_iovec_Pointers.Pointer; -- iovec_Pointer_Array -- type iovec_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.iovec_Pointer; -- xcb_send_request_flags_t_Pointer -- package C_xcb_send_request_flags_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_send_request_flags_t, Element_Array => xcb.xcb_send_request_flags_t_array, Default_Terminator => xcb.xcb_send_request_flags_t'Val (0)); subtype xcb_send_request_flags_t_Pointer is C_xcb_send_request_flags_t_Pointers.Pointer; -- xcb_send_request_flags_t_Pointer_Array -- type xcb_send_request_flags_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_send_request_flags_t_Pointer; -- xcb_pict_format_t_Pointer -- package C_xcb_pict_format_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_pict_format_t, Element_Array => xcb.xcb_pict_format_t_array, Default_Terminator => xcb.xcb_pict_format_t'Val (0)); subtype xcb_pict_format_t_Pointer is C_xcb_pict_format_t_Pointers.Pointer; -- xcb_pict_format_t_Pointer_Array -- type xcb_pict_format_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_pict_format_t_Pointer; -- xcb_pict_standard_t_Pointer -- package C_xcb_pict_standard_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_pict_standard_t, Element_Array => xcb.xcb_pict_standard_t_array, Default_Terminator => xcb.xcb_pict_standard_t'Val (0)); subtype xcb_pict_standard_t_Pointer is C_xcb_pict_standard_t_Pointers.Pointer; -- xcb_pict_standard_t_Pointer_Array -- type xcb_pict_standard_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_pict_standard_t_Pointer; -- xcb_render_util_composite_text_stream_t_Pointer -- package C_xcb_render_util_composite_text_stream_t_Pointers is new interfaces .c .Pointers (Index => interfaces.c.size_t, Element => xcb.xcb_render_util_composite_text_stream_t, element_Array => xcb.xcb_render_util_composite_text_stream_t_Array, default_Terminator => 0); subtype xcb_render_util_composite_text_stream_t_Pointer is C_xcb_render_util_composite_text_stream_t_Pointers.Pointer; -- xcb_render_util_composite_text_stream_t_Pointer_Array -- type xcb_render_util_composite_text_stream_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_util_composite_text_stream_t_Pointer; -- xcb_glx_pixmap_t_Pointer -- package C_xcb_glx_pixmap_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_pixmap_t, Element_Array => xcb.xcb_glx_pixmap_t_array, Default_Terminator => 0); subtype xcb_glx_pixmap_t_Pointer is C_xcb_glx_pixmap_t_Pointers.Pointer; -- xcb_glx_pixmap_t_Pointer_Array -- type xcb_glx_pixmap_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_pixmap_t_Pointer; -- xcb_glx_context_t_Pointer -- package C_xcb_glx_context_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_context_t, Element_Array => xcb.xcb_glx_context_t_array, Default_Terminator => 0); subtype xcb_glx_context_t_Pointer is C_xcb_glx_context_t_Pointers.Pointer; -- xcb_glx_context_t_Pointer_Array -- type xcb_glx_context_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_context_t_Pointer; -- xcb_glx_pbuffer_t_Pointer -- package C_xcb_glx_pbuffer_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_pbuffer_t, Element_Array => xcb.xcb_glx_pbuffer_t_array, Default_Terminator => 0); subtype xcb_glx_pbuffer_t_Pointer is C_xcb_glx_pbuffer_t_Pointers.Pointer; -- xcb_glx_pbuffer_t_Pointer_Array -- type xcb_glx_pbuffer_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_pbuffer_t_Pointer; -- xcb_glx_window_t_Pointer -- package C_xcb_glx_window_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_window_t, Element_Array => xcb.xcb_glx_window_t_array, Default_Terminator => 0); subtype xcb_glx_window_t_Pointer is C_xcb_glx_window_t_Pointers.Pointer; -- xcb_glx_window_t_Pointer_Array -- type xcb_glx_window_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_window_t_Pointer; -- xcb_glx_fbconfig_t_Pointer -- package C_xcb_glx_fbconfig_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_fbconfig_t, Element_Array => xcb.xcb_glx_fbconfig_t_array, Default_Terminator => 0); subtype xcb_glx_fbconfig_t_Pointer is C_xcb_glx_fbconfig_t_Pointers.Pointer; -- xcb_glx_fbconfig_t_Pointer_Array -- type xcb_glx_fbconfig_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_fbconfig_t_Pointer; -- xcb_glx_drawable_t_Pointer -- package C_xcb_glx_drawable_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_drawable_t, Element_Array => xcb.xcb_glx_drawable_t_array, Default_Terminator => 0); subtype xcb_glx_drawable_t_Pointer is C_xcb_glx_drawable_t_Pointers.Pointer; -- xcb_glx_drawable_t_Pointer_Array -- type xcb_glx_drawable_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_drawable_t_Pointer; -- xcb_glx_float32_t_Pointer -- package C_xcb_glx_float32_t_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.xcb_glx_float32_t, element_Array => xcb.xcb_glx_float32_t_Array, default_Terminator => 0.0); subtype xcb_glx_float32_t_Pointer is C_xcb_glx_float32_t_Pointers.Pointer; -- xcb_glx_float32_t_Pointer_Array -- type xcb_glx_float32_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_float32_t_Pointer; -- xcb_glx_float64_t_Pointer -- package C_xcb_glx_float64_t_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.xcb_glx_float64_t, element_Array => xcb.xcb_glx_float64_t_Array, default_Terminator => 0.0); subtype xcb_glx_float64_t_Pointer is C_xcb_glx_float64_t_Pointers.Pointer; -- xcb_glx_float64_t_Pointer_Array -- type xcb_glx_float64_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_float64_t_Pointer; -- xcb_glx_bool32_t_Pointer -- package C_xcb_glx_bool32_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_bool32_t, Element_Array => xcb.xcb_glx_bool32_t_array, Default_Terminator => 0); subtype xcb_glx_bool32_t_Pointer is C_xcb_glx_bool32_t_Pointers.Pointer; -- xcb_glx_bool32_t_Pointer_Array -- type xcb_glx_bool32_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_bool32_t_Pointer; -- xcb_glx_context_tag_t_Pointer -- package C_xcb_glx_context_tag_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_context_tag_t, Element_Array => xcb.xcb_glx_context_tag_t_array, Default_Terminator => 0); subtype xcb_glx_context_tag_t_Pointer is C_xcb_glx_context_tag_t_Pointers.Pointer; -- xcb_glx_context_tag_t_Pointer_Array -- type xcb_glx_context_tag_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_context_tag_t_Pointer; -- xcb_glx_pbcet_t_Pointer -- package C_xcb_glx_pbcet_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_pbcet_t, Element_Array => xcb.xcb_glx_pbcet_t_array, Default_Terminator => xcb.xcb_glx_pbcet_t'Val (0)); subtype xcb_glx_pbcet_t_Pointer is C_xcb_glx_pbcet_t_Pointers.Pointer; -- xcb_glx_pbcet_t_Pointer_Array -- type xcb_glx_pbcet_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_pbcet_t_Pointer; -- xcb_glx_pbcdt_t_Pointer -- package C_xcb_glx_pbcdt_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_pbcdt_t, Element_Array => xcb.xcb_glx_pbcdt_t_array, Default_Terminator => xcb.xcb_glx_pbcdt_t'Val (0)); subtype xcb_glx_pbcdt_t_Pointer is C_xcb_glx_pbcdt_t_Pointers.Pointer; -- xcb_glx_pbcdt_t_Pointer_Array -- type xcb_glx_pbcdt_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_pbcdt_t_Pointer; -- xcb_glx_gc_t_Pointer -- package C_xcb_glx_gc_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_gc_t, Element_Array => xcb.xcb_glx_gc_t_array, Default_Terminator => xcb.xcb_glx_gc_t'Val (0)); subtype xcb_glx_gc_t_Pointer is C_xcb_glx_gc_t_Pointers.Pointer; -- xcb_glx_gc_t_Pointer_Array -- type xcb_glx_gc_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_gc_t_Pointer; -- xcb_glx_rm_t_Pointer -- package C_xcb_glx_rm_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_rm_t, Element_Array => xcb.xcb_glx_rm_t_array, Default_Terminator => xcb.xcb_glx_rm_t'Val (0)); subtype xcb_glx_rm_t_Pointer is C_xcb_glx_rm_t_Pointers.Pointer; -- xcb_glx_rm_t_Pointer_Array -- type xcb_glx_rm_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_rm_t_Pointer; -- Display_Pointer -- package C_Display_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.Display, element_Array => xcb.Display_Array, default_Terminator => 0); subtype Display_Pointer is C_Display_Pointers.Pointer; -- Display_Pointer_Array -- type Display_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.Display_Pointer; -- XEventQueueOwner_Pointer -- package C_XEventQueueOwner_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.XEventQueueOwner, Element_Array => xcb.XEventQueueOwner_array, Default_Terminator => xcb.XEventQueueOwner'Val (0)); subtype XEventQueueOwner_Pointer is C_XEventQueueOwner_Pointers.Pointer; -- XEventQueueOwner_Pointer_Array -- type XEventQueueOwner_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .XEventQueueOwner_Pointer; end xcb.Pointers;
------------------------------------------------------------------------------ -- -- -- 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. ------------------------------------------------------------------------------ -- A parameter set is an element that provides alternative sets of inputs or -- outputs that a behavior may use. ------------------------------------------------------------------------------ limited with AMF.UML.Constraints.Collections; with AMF.UML.Named_Elements; limited with AMF.UML.Parameters.Collections; package AMF.UML.Parameter_Sets is pragma Preelaborate; type UML_Parameter_Set is limited interface and AMF.UML.Named_Elements.UML_Named_Element; type UML_Parameter_Set_Access is access all UML_Parameter_Set'Class; for UML_Parameter_Set_Access'Storage_Size use 0; not overriding function Get_Condition (Self : not null access constant UML_Parameter_Set) return AMF.UML.Constraints.Collections.Set_Of_UML_Constraint is abstract; -- Getter of ParameterSet::condition. -- -- 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. not overriding function Get_Parameter (Self : not null access constant UML_Parameter_Set) return AMF.UML.Parameters.Collections.Set_Of_UML_Parameter is abstract; -- Getter of ParameterSet::parameter. -- -- Parameters in the parameter set. end AMF.UML.Parameter_Sets;
-- An Ada source file which is supposed to be Ada95 only, but has -- some Ada 2005 code in it. procedure Has_05 is begin -- Introduce a deliberate Ada 2005 construct to verify that -- the style_checker uses -gnat05, and that the compiler -- therefore flags this as a violation. raise Constraint_Error with "Bad Message"; end Has_05;
-- C39006G.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 PROGRAM_ERROR IS RAISED BY AN ATTEMPT TO CALL A -- SUBPROGRAM WHOSE BODY IS NOT YET ELABORATED. USE A PACKAGE -- WITH OPTIONAL BODY, WHERE THE SUBPROGRAM IS CALLED IN THE BODY. -- HISTORY: -- BCB 08/01/88 CREATED ORIGINAL TEST. WITH REPORT; USE REPORT; PROCEDURE C39006G IS PROCEDURE INIT (X : IN OUT INTEGER); PACKAGE P IS END P; PACKAGE BODY P IS X : INTEGER := IDENT_INT(5); BEGIN TEST ("C39006G", "CHECK THAT PROGRAM_ERROR IS RAISED BY " & "AN ATTEMPT TO CALL A SUBPROGRAM WHOSE " & "BODY IS NOT YET ELABORATED. USE A " & "PACKAGE WITH OPTIONAL BODY, WHERE THE " & "SUBPROGRAM IS CALLED IN THE BODY"); INIT(X); FAILED ("NO EXCEPTION RAISED"); IF X /= IDENT_INT(10) THEN COMMENT ("TOTALLY IRRELEVANT"); END IF; RESULT; EXCEPTION WHEN PROGRAM_ERROR => RESULT; WHEN OTHERS => FAILED ("OTHER EXCEPTION WAS RAISED"); RESULT; END P; PROCEDURE INIT (X : IN OUT INTEGER) IS BEGIN X := IDENT_INT(10); END INIT; BEGIN NULL; END C39006G;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- S Y S T E M . P A C K _ 3 4 -- -- -- -- S p e c -- -- -- -- Copyright (C) 1992-2019, 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. -- -- -- ------------------------------------------------------------------------------ -- Handling of packed arrays with Component_Size = 34 package System.Pack_34 is pragma Preelaborate; Bits : constant := 34; type Bits_34 is mod 2 ** Bits; for Bits_34'Size use Bits; -- In all subprograms below, Rev_SSO is set True if the array has the -- non-default scalar storage order. function Get_34 (Arr : System.Address; N : Natural; Rev_SSO : Boolean) return Bits_34 with Inline; -- Arr is the address of the packed array, N is the zero-based -- subscript. This element is extracted and returned. procedure Set_34 (Arr : System.Address; N : Natural; E : Bits_34; Rev_SSO : Boolean) with Inline; -- Arr is the address of the packed array, N is the zero-based -- subscript. This element is set to the given value. function GetU_34 (Arr : System.Address; N : Natural; Rev_SSO : Boolean) return Bits_34 with Inline; -- Arr is the address of the packed array, N is the zero-based -- subscript. This element is extracted and returned. This version -- is used when Arr may represent an unaligned address. procedure SetU_34 (Arr : System.Address; N : Natural; E : Bits_34; Rev_SSO : Boolean) with Inline; -- Arr is the address of the packed array, N is the zero-based -- subscript. This element is set to the given value. This version -- is used when Arr may represent an unaligned address end System.Pack_34;
-- PACKAGE Extended_Real.Elementary_Functions -- -- Taylor series are used to get Exp, Sin and Cos. Once these are calculated, -- Newton-Raphson iteration gives inverse functions: Log, Arccos, and Arcsin, -- Arctan. Similarly, starting with the function G(Y) = Y(-N), -- Newton-Raphson iteration gives the inverse: F(X) = X(-1/N), -- the reciprocal of the Nth root of X. Newton-Raphson is used directly to get -- Sqrt, Inverse, and Inverse_Nth_root. Inverse(X) is the reciprocal of -- of X. It's usually faster than the "/" function, (One / X). -- -- Newton-Raphson iteration is used to calculate Y = F(a) when F's inverse -- function G(Y) is known. (G satisfies G(F(a)) = a.) Say we want Y = F(a), -- We can't calculate F, but given a Y we can calculate G(Y) and we know a. Then -- use Newton-Raphson to solve for Y in equation G(Y) = a. The iteration is -- -- dG/dY(Y_0) = (G(Y_0) - a) / (Y_0 - Y_1), or, -- -- Y_1 = Y_0 - (G(Y_0) - a) / dG/dY(Y_0). -- -- For example, if want F(a) = Log(a), and we can get G(Y) = Exp(Y), then we -- iterate for Y = Log(a) using: -- -- Y_1 = Y_0 - (Exp(Y_0) - a) / Exp(Y_0). -- -- Similarly, if we want F(a) = a(-1/N) and we know G(Y) = Y(-N), then: -- -- Y_1 = Y_0 - (Y_0*(-N) - a) / (-NY*(-N-1), -- -- = Y_0 - (1 - aY_0*N) Y / (-N). -- -- Argument reduction is necessary in most of the routines. Some of the -- arg reduction ideas come from Brent, D M Smith, D H Bailey. -- generic -- Functions for type Real. Must be correct to 48 bits. -- You should never have to enter these parameters, as long as -- they are visible at instantiation. Log is natural. with function Sqrt (X : Real) return Real is <>; with function Log (X : Real) return Real is <>; -- Natural log. (ln) with function Exp (X : Real) return Real is <>; -- inverse of log with function Arcsin (X : Real) return Real is <>; -- inverse of sin with function Arctan (Y : Real; X : Real := 1.0) return Real is <>; package Extended_Real.Elementary_Functions is function Sqrt (X : e_Real) return e_Real; function Exp (X : e_Real) return e_Real; function Log (X : e_Real) return e_Real; function Log (X : e_Real; Base : e_Real) return e_Real; function Sin (X : e_Real) return e_Real; function Sin (X : e_Real; Cycle : e_Real) return e_Real; function Cos (X : e_Real) return e_Real; function Cos (X : e_Real; Cycle : e_Real) return e_Real; function Arcsin (X : e_Real) return e_Real; function Arccos (X : e_Real) return e_Real; function "" (Left : e_Real; Right : e_Real) return e_Real; function Arctan (X : e_Real) return e_Real; -- Output is in range [-Pi/2 .. Pi/2] only. Arctan (Infinity) = Pi/2. function Reciprocal (X : e_Real) return e_Real; -- Newton-Raphson inversion. Usually faster than One / X. function Divide (Z, X : e_Real) return e_Real; -- Newton-Raphson Z / X. function Reciprocal_Nth_Root (X : e_Real; N : Positive) return e_Real; -- Reciprocal of the N-th root of X: X(-1/N) = 1 / X(1/N). One way -- to get the N-th root of X is to take One / Reciprocal_Nth_Root(X, N). -- N must be less than Radix - 1, which is usually 229 - 1. -- (This function is non-standard, but is used by some of the other -- routines, so might as well export it.) function Reciprocal_Sqrt (X : e_Real) return e_Real; function e_Quarter_Pi return e_Real; -- returns Pi/4 by arcsin method. function e_Log_2 return e_Real; -- returns Log(2.0). function e_Inverse_Pi return e_Real; -- returns 1/Pi by arcsin method. function e_Inverse_Sqrt_2 return e_Real; -- returns 1/Sqrt(2.0). function e_Half_Inverse_Log_2 return e_Real; -- returns 0.5/Log(2.0). -- The above constants are calculated to max available precision. -- They are all slightly less than one - the the highest precision -- that this package is capable of. So the above versions are -- preferred to the ones given below, which are somewhat -- greater than one. function e_Pi return e_Real; -- returns Pi by arcsin method. E_Argument_Error : Exception; end Extended_Real.Elementary_Functions;
package Test_Subtypes is end Test_Subtypes;
------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- S Y S T E M . S E C O N D A R Y _ S T A C K -- -- -- -- S p e c -- -- -- -- $Revision: 2 $ -- -- -- -- Copyright (c) 1992,1993,1994 NYU, All Rights Reserved -- -- -- -- The GNAT library is free software; you can redistribute it and/or modify -- -- it under terms of the GNU Library General Public License as published by -- -- the Free Software Foundation; either version 2, or (at your option) any -- -- later version. The GNAT 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 -- -- the GNAT library; see the file COPYING.LIB. If not, write to the Free -- -- Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. -- -- -- ------------------------------------------------------------------------------ with System.Storage_Elements; use System.Storage_Elements; with System.Storage_Pools; use System.Storage_Pools; package System.Secondary_Stack is type Secondary_Stack_Pool is new Root_Storage_Pool with null record; function Storage_Size (Pool : Secondary_Stack_Pool) return Storage_Count; procedure Allocate (Pool : in out Secondary_Stack_Pool; Address : out System.Address; Storage_Size : in Storage_Count; Alignment : in Storage_Count); procedure Deallocate (Pool : in out Secondary_Stack_Pool; Address : in System.Address; Storage_Size : in Storage_Count; Alignment : in Storage_Count); type Mark_Id is private; -- Type used to mark the stack. procedure SS_Init (Stk : out Address; Size : Natural); -- Initialize the secondary stack with a main stack of the given Size. -- All further allocations which do not overflow the main stack will not -- generate dynamic (de)allocation calls. If the main Stack overflows -- a new chuck of at least the same size will be allocated and linked -- to the previous chunk. -- -- Note: the reason that Stk is passed is that SS_Init is called before -- the proper interface is established to obtain the address of the -- stack using System.Task_Specific_Data.Get_Sec_Stack_Addr. procedure SS_Free (Stk : Address); -- Release the memory allocated for the Secondary Stack. That is to say, -- all the allocated chuncks. function SS_Mark return Mark_Id; -- Return the Mark corresponding to the current state of the stack procedure SS_Release (M : Mark_Id); -- Restore the state of the stack corresponding to the mark M. If an -- additional chunk have been allocated, it will never be freed during a generic with procedure Put_Line (S : String); procedure SS_Info; -- Debugging procedure used to print out secondary Stack allocation -- information. This procedure is generic in order to avoid a direct -- dependance on a particular IO package. SS_Pool : Secondary_Stack_Pool; -- the pool for the secondary stack private type Mark_Id is new Integer; end System.Secondary_Stack;
-- 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 url = require("url") local json = require("json") name = "CertSpotter" type = "cert" function start() setratelimit(2) end function vertical(ctx, domain) local page, err = request({['url']=buildurl(domain)}) if (err ~= nil and err ~= "") then return end local resp = json.decode(page) if (resp == nil or #resp == 0) then return end for i, r in pairs(resp) do for i, name in pairs(r['dns_names']) do sendnames(ctx, name) end end end function buildurl(domain) local params = { ['domain']=domain, ['include_subdomains']="true", ['match_wildcards']="true", expand="dns_names", } return "https://api.certspotter.com/v1/issuances?" .. url.build_query_string(params) 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
with Ada.Text_IO; use Ada.Text_IO; with Command_Line; procedure TC_CMD_Builtins is Cmd_1 : aliased constant String := "help"; Cmd_2 : aliased constant String := "help echo"; Cmd_3 : aliased constant String := "echo -n test"; Cmd_4 : aliased constant String := "echo test"; begin Ada.Text_IO.Put_Line ("$ " & Cmd_1); Command_Line.Run (Cmd_1, Put'Access, Put_Line'Access); Ada.Text_IO.Put_Line ("$ " & Cmd_2); Command_Line.Run (Cmd_2, Put'Access, Put_Line'Access); Ada.Text_IO.Put_Line ("$ " & Cmd_3); Command_Line.Run (Cmd_3, Put'Access, Put_Line'Access); Ada.Text_IO.Put_Line ("$ " & Cmd_4); Command_Line.Run (Cmd_4, Put'Access, Put_Line'Access); end TC_CMD_Builtins;
-- ----------------------------------------------------------------- -- -- -- -- This 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 software 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. -- -- -- -- ----------------------------------------------------------------- -- -- ----------------------------------------------------------------- -- -- This is a translation, to the Ada programming language, of the -- -- original C test files written by Sam Lantinga - www.libsdl.org -- -- translation made by Antonio F. Vargas - www.adapower.net/~avargas -- -- ----------------------------------------------------------------- -- with Interfaces.C.Strings; with Ada.Text_IO; use Ada.Text_IO; with Ada.Characters.Latin_1; with Ada.Characters.Handling; with Ada.Command_Line; with GNAT.OS_Lib; with SDL.Cdrom; with SDL.Types; use SDL.Types; with SDL.Error; with SDL.Quit; with SDL.Timer; procedure TestCdrom is package C renames Interfaces.C; use type C.int; package CS renames Interfaces.C.Strings; package int_IO is new Integer_IO (C.int); package CL renames Ada.Command_Line; package Latin_1 renames Ada.Characters.Latin_1; package CH renames Ada.Characters.Handling; package CD renames SDL.Cdrom; use type CD.CDstatus; use type CD.CD_ptr; package Er renames SDL.Error; package T renames SDL.Timer; -- ====================================== procedure PrintStatus (driveindex : C.int; cdrom : CD.CD_ptr) is status : CD.CDstatus; -- status_str : CS.chars_ptr; type String_Access is access String; status_str : String_Access; begin status := CD.SDL_CDStatus (cdrom); case status is when CD.TRAYEMPTY => status_str := new String'("tray empty"); when CD.STOPPED => status_str := new String'("stopped"); when CD.PLAYING => status_str := new String'("playing"); when CD.PAUSED => status_str := new String'("paused"); when CD.ERROR => status_str := new String'("error state"); when others => null; end case; Put_Line ("Drive " & C.int'Image (driveindex) & " " & status_str.all); if status >= CD.PLAYING then declare -- m, s, f : aliased C.int; m, s, f : C.int; begin -- CD.FRAMES_TO_MSF (cdrom.cur_frame, m'Access, s'Access, f'Access); CD.FRAMES_TO_MSF (cdrom.cur_frame, m, s, f); Put_Line ("Currently playing track " & Uint8'Image (cdrom.track (cdrom.cur_track).id) & C.int'Image (m) & " " & C.int'Image (s)); end; end if; end PrintStatus; -- ====================================== procedure ListTracks (cdrom : CD.CD_ptr) is m, s, f : aliased C.int; Dummy_CDstatus : CD.CDstatus; begin Dummy_CDstatus := CD.SDL_CDStatus (cdrom); Put_Line ("Drive tracks: " & C.int'Image (cdrom.numtracks)); for i in C.int range 0 .. cdrom.numtracks - 1 loop -- CD.FRAMES_TO_MSF (C.int (cdrom.track (i).lenght), -- m'Access, s'Access, f'Access); CD.FRAMES_TO_MSF (C.int (cdrom.track (i).lenght), m, s, f); if f > 0 then s := s + 1; end if; Put_Line (Latin_1.HT & "Track (index " & C.int'Image (i) & ")" & Uint8'Image (cdrom.track (i).id) & " " & C.int'Image (m) & " " & C.int'Image (s)); end loop; end ListTracks; -- ====================================== procedure PrintUsage (Prog_Name : String) is begin Put_Line ("Usage: " & Prog_Name & " [drive#] [command] [command] ..."); Put_Line ("Where 'command' is one of: "); Put_Line (" -status"); Put_Line (" -list"); Put_Line (" -play [first_track] [first_frame] [num_tracks] [num_frames]"); Put_Line (" -pause"); Put_Line (" -resume"); Put_Line (" -stop"); Put_Line (" -eject"); Put_Line (" -sleep <miliseconds>"); end PrintUsage; -- ====================================== i : Integer; drive : C.int; cdrom : CD.CD_ptr; begin -- Initialize SDL first if SDL.Init (SDL.INIT_CDROM) < 0 then Put_Line ("Couldn't initialize SDL: " & Er.Get_Error); GNAT.OS_Lib.OS_Exit (1); end if; SDL.Quit.atexit (SDL.SDL_Quit'Access); -- Find out how many CD-ROM drives are connected to the system if CD.CDNumDrives = 0 then Put_Line ("No CD-ROM devices detected"); GNAT.OS_Lib.OS_Exit (0); end if; Put_Line ("Drives available: " & C.int'Image (CD.CDNumDrives)); for i in C.int range 0 .. CD.CDNumDrives - 1 loop Put_Line ("Drive " & C.int'Image (i) & CS.Value (CD.CDName (i))); end loop; -- Open the CD-ROM drive := 0; i := 1; if (CL.Argument_Count > 0) and then (CH.Is_Digit (CL.Argument (i)(1))) then declare use int_IO; last : Positive; begin Get (CL.Argument (i), drive, last); i := i + 1; end; end if; cdrom := CD.CDOpen (drive); if cdrom = null then Put_Line ("Couldn't open drive " & C.int'Image (drive) & ":" & Er.Get_Error); GNAT.OS_Lib.OS_Exit (2); end if; -- #ifdef TEST_NULLCD -- cdrom := null; -- #endif -- Find out which function to perform while i <= CL.Argument_Count loop if CL.Argument (i) = "-status" then PrintStatus (drive, cdrom); elsif CL.Argument (i) = "-list" then ListTracks (cdrom); elsif CL.Argument (i) = "-play" then declare strack, sframe : C.int; ntrack, nframe : C.int; begin strack := 0; if (i + 1 <= CL.Argument_Count) and then (CH.Is_Digit (CL.Argument (i + 1)(1))) then declare use int_IO; last : Positive; begin i := i + 1; Get (CL.Argument (i), strack, last); end; end if; sframe := 0; if (i + 1 <= CL.Argument_Count) and then (CH.Is_Digit (CL.Argument (i + 1)(1))) then declare use int_IO; last : Positive; begin i := i + 1; Get (CL.Argument (i), sframe, last); end; end if; ntrack := 0; if (i + 1 <= CL.Argument_Count) and then (CH.Is_Digit (CL.Argument (i + 1)(1))) then declare use int_IO; last : Positive; begin i := i + 1; Get (CL.Argument (i), ntrack, last); end; end if; nframe := 0; if (i + 1 <= CL.Argument_Count) and then (CH.Is_Digit (CL.Argument (i + 1)(1))) then declare use int_IO; last : Positive; begin i := i + 1; Get (CL.Argument (i), nframe, last); end; end if; if CD.INDRIVE (CD.SDL_CDStatus (cdrom)) then if CD.CDPlayTracks (cdrom, strack, sframe, ntrack, nframe) < 0 then Put_Line ("Couldn't play tracks " & C.int'Image (strack) & " " & C.int'Image (sframe) & " " & C.int'Image (ntrack) & " " & C.int'Image (nframe) & " " & Er.Get_Error); end if; else Put_Line ("No CD in drive!"); end if; end; -- declare elsif CL.Argument (i) = "-pause" then if CD.CDPause (cdrom) < 0 then Put_Line ("Couldn't pause CD: " & Er.Get_Error); end if; elsif CL.Argument (i) = "-resume" then if CD.CDResume (cdrom) < 0 then Put_Line ("Couldn't resume CD: " & Er.Get_Error); end if; elsif CL.Argument (i) = "-stop" then if CD.CDStop (cdrom) < 0 then Put_Line ("Couldn't eject CD: " & Er.Get_Error); end if; elsif CL.Argument (i) = "-eject" then if CD.CDEject (cdrom) < 0 then Put_Line ("Couldn't eject CD: " & Er.Get_Error); end if; elsif (CL.Argument (i) = "-sleep") and ((i + 1 <= CL.Argument_Count) and then CH.Is_Digit (CL.Argument (i + 1)(1))) then declare use int_IO; last : Positive; the_delay : C.int; begin i := i + 1; Get (CL.Argument (i), the_delay, last); T.SDL_Delay (Uint32 (the_delay)); Put_Line ("Delayed " & C.int'Image (the_delay) & " milliseconds"); end; else PrintUsage (CL.Command_Name); CD.CDClose (cdrom); GNAT.OS_Lib.OS_Exit (1); end if; i := i + 1; end loop; PrintStatus (drive, cdrom); CD.CDClose (cdrom); GNAT.OS_Lib.OS_Exit (0); end TestCdrom;
-- This spec has been automatically generated from STM32F427x.svd pragma Restrictions (No_Elaboration_Code); pragma Ada_2012; with System; with HAL; package STM32_SVD.SYSCFG is pragma Preelaborate; --------------- -- Registers -- --------------- -------------------- -- MEMRM_Register -- -------------------- subtype MEMRM_MEM_MODE_Field is HAL.UInt2; -- memory remap register type MEMRM_Register is record -- MEM_MODE MEM_MODE : MEMRM_MEM_MODE_Field := 16#0#; -- unspecified Reserved_2_31 : HAL.UInt30 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for MEMRM_Register use record MEM_MODE at 0 range 0 .. 1; Reserved_2_31 at 0 range 2 .. 31; end record; ------------------ -- PMC_Register -- ------------------ -- peripheral mode configuration register type PMC_Register is record -- unspecified Reserved_0_15 : HAL.Short := 16#0#; -- ADC1DC2 ADC1DC2 : Boolean := False; -- ADC2DC2 ADC2DC2 : Boolean := False; -- ADC3DC2 ADC3DC2 : Boolean := False; -- unspecified Reserved_19_22 : HAL.UInt4 := 16#0#; -- Ethernet PHY interface selection MII_RMII_SEL : Boolean := False; -- unspecified Reserved_24_31 : HAL.Byte := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PMC_Register use record Reserved_0_15 at 0 range 0 .. 15; ADC1DC2 at 0 range 16 .. 16; ADC2DC2 at 0 range 17 .. 17; ADC3DC2 at 0 range 18 .. 18; Reserved_19_22 at 0 range 19 .. 22; MII_RMII_SEL at 0 range 23 .. 23; Reserved_24_31 at 0 range 24 .. 31; end record; ---------------------- -- EXTICR1_Register -- ---------------------- ------------------ -- EXTICR1.EXTI -- ------------------ -- EXTICR1_EXTI array element subtype EXTICR1_EXTI_Element is HAL.UInt4; -- EXTICR1_EXTI array type EXTICR1_EXTI_Field_Array is array (0 .. 3) of EXTICR1_EXTI_Element with Component_Size => 4, Size => 16; -- Type definition for EXTICR1_EXTI type EXTICR1_EXTI_Field (As_Array : Boolean := False) is record case As_Array is when False => -- EXTI as a value Val : HAL.Short; when True => -- EXTI as an array Arr : EXTICR1_EXTI_Field_Array; end case; end record with Unchecked_Union, Size => 16; for EXTICR1_EXTI_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- external interrupt configuration register 1 type EXTICR1_Register is record -- EXTI x configuration (x = 0 to 3) EXTI : EXTICR1_EXTI_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.Short := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for EXTICR1_Register use record EXTI at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; ---------------------- -- EXTICR2_Register -- ---------------------- ------------------ -- EXTICR2.EXTI -- ------------------ -- EXTICR2_EXTI array element subtype EXTICR2_EXTI_Element is HAL.UInt4; -- EXTICR2_EXTI array type EXTICR2_EXTI_Field_Array is array (4 .. 7) of EXTICR2_EXTI_Element with Component_Size => 4, Size => 16; -- Type definition for EXTICR2_EXTI type EXTICR2_EXTI_Field (As_Array : Boolean := False) is record case As_Array is when False => -- EXTI as a value Val : HAL.Short; when True => -- EXTI as an array Arr : EXTICR2_EXTI_Field_Array; end case; end record with Unchecked_Union, Size => 16; for EXTICR2_EXTI_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- external interrupt configuration register 2 type EXTICR2_Register is record -- EXTI x configuration (x = 4 to 7) EXTI : EXTICR2_EXTI_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.Short := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for EXTICR2_Register use record EXTI at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; ---------------------- -- EXTICR3_Register -- ---------------------- ------------------ -- EXTICR3.EXTI -- ------------------ -- EXTICR3_EXTI array element subtype EXTICR3_EXTI_Element is HAL.UInt4; -- EXTICR3_EXTI array type EXTICR3_EXTI_Field_Array is array (8 .. 11) of EXTICR3_EXTI_Element with Component_Size => 4, Size => 16; -- Type definition for EXTICR3_EXTI type EXTICR3_EXTI_Field (As_Array : Boolean := False) is record case As_Array is when False => -- EXTI as a value Val : HAL.Short; when True => -- EXTI as an array Arr : EXTICR3_EXTI_Field_Array; end case; end record with Unchecked_Union, Size => 16; for EXTICR3_EXTI_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- external interrupt configuration register 3 type EXTICR3_Register is record -- EXTI x configuration (x = 8 to 11) EXTI : EXTICR3_EXTI_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.Short := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for EXTICR3_Register use record EXTI at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; ---------------------- -- EXTICR4_Register -- ---------------------- ------------------ -- EXTICR4.EXTI -- ------------------ -- EXTICR4_EXTI array element subtype EXTICR4_EXTI_Element is HAL.UInt4; -- EXTICR4_EXTI array type EXTICR4_EXTI_Field_Array is array (12 .. 15) of EXTICR4_EXTI_Element with Component_Size => 4, Size => 16; -- Type definition for EXTICR4_EXTI type EXTICR4_EXTI_Field (As_Array : Boolean := False) is record case As_Array is when False => -- EXTI as a value Val : HAL.Short; when True => -- EXTI as an array Arr : EXTICR4_EXTI_Field_Array; end case; end record with Unchecked_Union, Size => 16; for EXTICR4_EXTI_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- external interrupt configuration register 4 type EXTICR4_Register is record -- EXTI x configuration (x = 12 to 15) EXTI : EXTICR4_EXTI_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.Short := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for EXTICR4_Register use record EXTI at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -------------------- -- CMPCR_Register -- -------------------- -- Compensation cell control register type CMPCR_Register is record -- Read-only. Compensation cell power-down CMP_PD : Boolean; -- unspecified Reserved_1_7 : HAL.UInt7; -- Read-only. READY READY : Boolean; -- unspecified Reserved_9_31 : HAL.UInt23; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for CMPCR_Register use record CMP_PD at 0 range 0 .. 0; Reserved_1_7 at 0 range 1 .. 7; READY at 0 range 8 .. 8; Reserved_9_31 at 0 range 9 .. 31; end record; ----------------- -- Peripherals -- ----------------- -- System configuration controller type SYSCFG_Peripheral is record -- memory remap register MEMRM : MEMRM_Register; -- peripheral mode configuration register PMC : PMC_Register; -- external interrupt configuration register 1 EXTICR1 : EXTICR1_Register; -- external interrupt configuration register 2 EXTICR2 : EXTICR2_Register; -- external interrupt configuration register 3 EXTICR3 : EXTICR3_Register; -- external interrupt configuration register 4 EXTICR4 : EXTICR4_Register; -- Compensation cell control register CMPCR : CMPCR_Register; end record with Volatile; for SYSCFG_Peripheral use record MEMRM at 0 range 0 .. 31; PMC at 4 range 0 .. 31; EXTICR1 at 8 range 0 .. 31; EXTICR2 at 12 range 0 .. 31; EXTICR3 at 16 range 0 .. 31; EXTICR4 at 20 range 0 .. 31; CMPCR at 32 range 0 .. 31; end record; -- System configuration controller SYSCFG_Periph : aliased SYSCFG_Peripheral with Import, Address => SYSCFG_Base; end STM32_SVD.SYSCFG;
----------------------------------------------------------------------- -- util-strings-transforms -- Various Text Transformation Utilities -- Copyright (C) 2001, 2002, 2003, 2009, 2010, 2015, 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 Util.Texts.Transforms; with Ada.Strings.Unbounded; with Ada.Characters.Handling; package Util.Strings.Transforms is pragma Preelaborate; use Ada.Strings.Unbounded; package TR is new Util.Texts.Transforms (Stream => Unbounded_String, Char => Character, Input => String, Put => Ada.Strings.Unbounded.Append, To_Upper => Ada.Characters.Handling.To_Upper, To_Lower => Ada.Characters.Handling.To_Lower); -- Capitalize the string into the result stream. procedure Capitalize (Content : in String; Into : in out Unbounded_String) renames TR.Capitalize; function Capitalize (Content : String) return String renames TR.Capitalize; -- Translate the input string into an upper case string in the result stream. procedure To_Upper_Case (Content : in String; Into : in out Unbounded_String) renames TR.To_Upper_Case; function To_Upper_Case (Content : String) return String renames TR.To_Upper_Case; -- Translate the input string into a lower case string in the result stream. procedure To_Lower_Case (Content : in String; Into : in out Unbounded_String) renames TR.To_Lower_Case; function To_Lower_Case (Content : String) return String renames TR.To_Lower_Case; -- Write in the output stream the value as a \uNNNN encoding form. procedure To_Hex (Into : in out Unbounded_String; Value : in Character) renames TR.To_Hex; -- Escape the content into the result stream using the JavaScript -- escape rules. procedure Escape_Javascript (Content : in String; Into : in out Unbounded_String) renames TR.Escape_Java_Script; function Escape_Javascript (Content : String) return String; -- Escape the content into the result stream using the Java -- escape rules. procedure Escape_Java (Content : in String; Into : in out Unbounded_String) renames TR.Escape_Java; function Escape_Java (Content : String) return String; -- Escape the content into the result stream using the XML -- escape rules: -- '<' -> '<' -- '>' -> '>' -- ''' -> ''' -- '&' -> '&' -- -> '&#nnn;' if Character'Pos >= 128 procedure Escape_Xml (Content : in String; Into : in out Unbounded_String) renames TR.Escape_Xml; function Escape_Xml (Content : String) return String; procedure Translate_Xml_Entity (Entity : in String; Into : in out Unbounded_String) renames TR.Translate_Xml_Entity; procedure Unescape_Xml (Content : in String; Translator : not null access procedure (Entity : in String; Into : in out Unbounded_String) := Translate_Xml_Entity'Access; Into : in out Unbounded_String) renames TR.Unescape_Xml; end Util.Strings.Transforms;
with System; package Init2 is type Small is mod 22; for Small'Size use 2; type Count is mod 29; for Count'Size use 9; type Arr1 is array (1 .. 3) of Count; pragma Pack (Arr1); for Arr1'Size use 27; for Arr1'Scalar_Storage_Order use System.Low_Order_First; type R1 is record S1 : Small; I : Integer; S2 : Small; A : Arr1; B : Boolean; end record; for R1'Bit_Order use System.Low_Order_First; for R1'Scalar_Storage_Order use System.Low_Order_First; for R1 use record S1 at 0 range 0 .. 1; I at 0 range 2 .. 33; S2 at 0 range 34 .. 35; A at 0 range 36 .. 62; B at 0 range 63 .. 63; end record; for R1'Size use 64; type Arr2 is array (1 .. 3) of Count; pragma Pack (Arr2); for Arr2'Size use 27; for Arr2'Scalar_Storage_Order use System.High_Order_First; type R2 is record S1 : Small; I : Integer; S2 : Small; A : Arr2; B : Boolean; end record; for R2'Bit_Order use System.High_Order_First; for R2'Scalar_Storage_Order use System.High_Order_First; for R2 use record S1 at 0 range 0 .. 1; I at 0 range 2 .. 33; S2 at 0 range 34 .. 35; A at 0 range 36 .. 62; B at 0 range 63 .. 63; end record; for R2'Size use 64; My_R1 : constant R1 := (S1 => 2, I => 16#12345678#, S2 => 1, A => (16#AB#, 16#CD#, 16#EF#), B => True); My_R2 : constant R2 := (S1 => 2, I => 16#12345678#, S2 => 1, A => (16#AB#, 16#CD#, 16#EF#), B => True); end Init2;
-- C64109F.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 ARRAYS THAT ARE COMPONENTS OF RECORDS ARE PASSED CORRECTLY -- TO SUBPROGRAMS. SPECIFICALLY, -- (F) CHECK THAT A FORMAL PARAMETER CAN BE USED AS AN ACTUAL IN -- ANOTHER CALL. -- CPP 8/20/84 WITH REPORT; USE REPORT; PROCEDURE C64109F IS BEGIN TEST ("C64109F", "CHECK THAT ARRAYS WHICH ARE COMPONENTS OF " & "RECORDS ARE PASSED CORRECTLY TO SUBPROGRAMS - " & "FORMAL AS AN ACTUAL"); DECLARE -- (F) TYPE ARRAY_TYPE IS ARRAY (POSITIVE RANGE <>) OF INTEGER; SUBTYPE ARRAY_SUBTYPE IS ARRAY_TYPE (IDENT_INT(1)..IDENT_INT(5)); TYPE RECORD_TYPE IS RECORD I : INTEGER; A : ARRAY_SUBTYPE; END RECORD; REC : RECORD_TYPE := (I => 23, A => (1..3 => 7, 4..5 => 9)); BOOL : BOOLEAN; PROCEDURE P_CALLED (A : IN OUT ARRAY_TYPE) IS BEGIN IF A /= (7, 7, 7, 9, 9) THEN FAILED ("IN OUT PARAM NOT RECEIVED CORRECTLY"); END IF; IF A'FIRST /= 1 OR A'LAST /= 5 THEN FAILED ("BOUNDS WRONG - IN OUT"); END IF; A := (6, 6, 6, 6, 6); END P_CALLED; PROCEDURE P (A : IN OUT ARRAY_TYPE) IS BEGIN P_CALLED (A); END P; FUNCTION F_CALLED (A : ARRAY_SUBTYPE) RETURN BOOLEAN IS GOOD : BOOLEAN; BEGIN GOOD := (A = (7, 7, 7, 9, 9)); IF NOT GOOD THEN FAILED ("IN PARAMETER NOT RECEIVED CORRECTLY"); END IF; IF A'FIRST /= 1 OR A'LAST /= IDENT_INT(5) THEN FAILED ("BOUNDS WRONG - FUNCTION"); END IF; RETURN GOOD; END F_CALLED; FUNCTION F (A : ARRAY_TYPE) RETURN BOOLEAN IS BEGIN RETURN (F_CALLED (A)); END F; PROCEDURE P_OUT_CALLED (A : OUT ARRAY_TYPE) IS BEGIN IF A'FIRST /= 1 OR A'LAST /= 5 THEN FAILED ("BOUNDS WRONG - OUT"); END IF; A := (8, 8, 8, 8, 8); END P_OUT_CALLED; PROCEDURE P_OUT (A : OUT ARRAY_TYPE) IS BEGIN P_OUT_CALLED (A); A := (9, 9, 9, 9, 9); END P_OUT; BEGIN -- (F) P (REC.A); IF REC.A /= (6, 6, 6, 6, 6) THEN FAILED ("IN OUT PARAM NOT RETURNED CORRECTLY"); END IF; REC.A := (7, 7, 7, 9, 9); BOOL := F (REC.A); IF NOT BOOL THEN FAILED ("IN PARAM NOT RETURNED CORRECTLY"); END IF; REC.A := (7, 7, 7, 9, 9); P_OUT (REC.A); IF REC.A /= (9, 9, 9, 9, 9) THEN FAILED ("OUT PARAM NOT RETURNED CORRECTLY - 2"); END IF; END; -- (F) -------------------------------------------- RESULT; END C64109F;
with Ada.Assertions; use Ada.Assertions; package body Memory.Perfect_Prefetch is function Create_Perfect_Prefetch(mem : access Memory_Type'Class) return Perfect_Prefetch_Pointer is result : constant Perfect_Prefetch_Pointer := new Perfect_Prefetch_Type; begin Set_Memory(result.all, mem); return result; end Create_Perfect_Prefetch; function Clone(mem : Perfect_Prefetch_Type) return Memory_Pointer is result : constant Perfect_Prefetch_Pointer := new Perfect_Prefetch_Type'(mem); begin return Memory_Pointer(result); end Clone; procedure Reset(mem : in out Perfect_Prefetch_Type; context : in Natural) is begin Reset(Container_Type(mem), context); mem.pending := 0; end Reset; procedure Read(mem : in out Perfect_Prefetch_Type; address : in Address_Type; size : in Positive) is begin if mem.pending > 0 then Advance(mem, mem.pending); mem.pending := 0; end if; Start(mem); Do_Read(mem, address, size); Commit(mem, mem.pending); end Read; procedure Write(mem : in out Perfect_Prefetch_Type; address : in Address_Type; size : in Positive) is begin Write(Container_Type(mem), address, size); Advance(mem, mem.pending); mem.pending := 0; end Write; procedure Idle(mem : in out Perfect_Prefetch_Type; cycles : in Time_Type) is begin if cycles > mem.pending then mem.pending := 0; else mem.pending := mem.pending - cycles; end if; Advance(mem, cycles); end Idle; function To_String(mem : Perfect_Prefetch_Type) return Unbounded_String is result : Unbounded_String; begin Append(result, "(perfect "); Append(result, To_String(Container_Type(mem))); Append(result, ")"); return result; end To_String; function Get_Cost(mem : Perfect_Prefetch_Type) return Cost_Type is begin return Get_Cost(Container_Type(mem)); end Get_Cost; procedure Generate(mem : in Perfect_Prefetch_Type; sigs : in out Unbounded_String; code : in out Unbounded_String) is begin Assert(False, "Memory.Perfect_Prefetch.Generate not implemented"); end Generate; end Memory.Perfect_Prefetch;
No-one has translated the rtdealer example into Ada yet. Be the first to create rtdealer in Ada and get one free Internet! If you're the author of the Ada binding, this is a great way to get people to use 0MQ in Ada. To submit a new translation email it to zeromq-dev@lists.zeromq.org. Please: * Stick to identical functionality and naming used in examples so that readers can easily compare languages. * You MUST place your name as author in the examples so readers can contact you. * You MUST state in the email that you license your code under the MIT/X11 license. Subscribe to this list at http://lists.zeromq.org/mailman/listinfo/zeromq-dev.
------------------------------------------------------------------------------ -- -- -- Copyright (C) 2015-2017, AdaCore -- -- -- -- Redistribution and use in source and binary forms, with or without -- -- modification, are permitted provided that the following conditions are -- -- met: -- -- 1. Redistributions of source code must retain the above copyright -- -- notice, this list of conditions and the following disclaimer. -- -- 2. 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. -- -- 3. Neither the name of STMicroelectronics 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. -- -- -- -- -- -- This file is based on: -- -- -- -- @file stm32f4xx_hal_adc.c -- -- @author MCD Application Team -- -- @version V1.3.1 -- -- @date 25-March-2015 -- -- @brief Header file of ADC HAL module. -- -- -- -- COPYRIGHT(c) 2014 STMicroelectronics -- ------------------------------------------------------------------------------ with STM32_SVD.ADC; use STM32_SVD.ADC; package body STM32.ADC is procedure Set_Sequence_Position (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Regular_Channel_Rank) with Inline; procedure Set_Sampling_Time (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Sample_Time : Channel_Sampling_Times) with Inline; procedure Set_Injected_Channel_Sequence_Position (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Injected_Channel_Rank) with Inline; procedure Set_Injected_Channel_Offset (This : in out Analog_To_Digital_Converter; Rank : Injected_Channel_Rank; Offset : Injected_Data_Offset) with Inline; ------------ -- Enable -- ------------ procedure Enable (This : in out Analog_To_Digital_Converter) is begin if not This.CR2.ADON then This.CR2.ADON := True; delay until Clock + ADC_Stabilization; end if; end Enable; ------------- -- Disable -- ------------- procedure Disable (This : in out Analog_To_Digital_Converter) is begin This.CR2.ADON := False; end Disable; ------------- -- Enabled -- ------------- function Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.ADON); ---------------------- -- Conversion_Value -- ---------------------- function Conversion_Value (This : Analog_To_Digital_Converter) return UInt16 is begin return This.DR.DATA; end Conversion_Value; --------------------------- -- Data_Register_Address -- --------------------------- function Data_Register_Address (This : Analog_To_Digital_Converter) return System.Address is (This.DR'Address); ------------------------------- -- Injected_Conversion_Value -- ------------------------------- function Injected_Conversion_Value (This : Analog_To_Digital_Converter; Rank : Injected_Channel_Rank) return UInt16 is begin case Rank is when 1 => return This.JDR1.JDATA; when 2 => return This.JDR2.JDATA; when 3 => return This.JDR3.JDATA; when 4 => return This.JDR4.JDATA; end case; end Injected_Conversion_Value; -------------------------------- -- Multimode_Conversion_Value -- -------------------------------- function Multimode_Conversion_Value return UInt32 is (C_ADC_Periph.CDR.Val); -------------------- -- Configure_Unit -- -------------------- procedure Configure_Unit (This : in out Analog_To_Digital_Converter; Resolution : ADC_Resolution; Alignment : Data_Alignment) is begin This.CR1.RES := ADC_Resolution'Enum_Rep (Resolution); This.CR2.ALIGN := Alignment = Left_Aligned; end Configure_Unit; ------------------------ -- Current_Resolution -- ------------------------ function Current_Resolution (This : Analog_To_Digital_Converter) return ADC_Resolution is (ADC_Resolution'Val (This.CR1.RES)); ----------------------- -- Current_Alignment -- ----------------------- function Current_Alignment (This : Analog_To_Digital_Converter) return Data_Alignment is ((if This.CR2.ALIGN then Left_Aligned else Right_Aligned)); --------------------------------- -- Configure_Common_Properties -- --------------------------------- procedure Configure_Common_Properties (Mode : Multi_ADC_Mode_Selections; Prescalar : ADC_Prescalars; DMA_Mode : Multi_ADC_DMA_Modes; Sampling_Delay : Sampling_Delay_Selections) is begin C_ADC_Periph.CCR.MULT := Multi_ADC_Mode_Selections'Enum_Rep (Mode); C_ADC_Periph.CCR.DELAY_k := Sampling_Delay_Selections'Enum_Rep (Sampling_Delay); C_ADC_Periph.CCR.DMA := Multi_ADC_DMA_Modes'Enum_Rep (DMA_Mode); C_ADC_Periph.CCR.ADCPRE := ADC_Prescalars'Enum_Rep (Prescalar); end Configure_Common_Properties; ----------------------------------- -- Configure_Regular_Conversions -- ----------------------------------- procedure Configure_Regular_Conversions (This : in out Analog_To_Digital_Converter; Continuous : Boolean; Trigger : Regular_Channel_Conversion_Trigger; Enable_EOC : Boolean; Conversions : Regular_Channel_Conversions) is begin This.CR2.EOCS := Enable_EOC; This.CR2.CONT := Continuous; This.CR1.SCAN := Conversions'Length > 1; if Trigger.Enabler /= Trigger_Disabled then This.CR2.EXTSEL := External_Events_Regular_Group'Enum_Rep (Trigger.Event); This.CR2.EXTEN := External_Trigger'Enum_Rep (Trigger.Enabler); else This.CR2.EXTSEL := 0; This.CR2.EXTEN := 0; end if; for Rank in Conversions'Range loop declare Conversion : Regular_Channel_Conversion renames Conversions (Rank); begin Configure_Regular_Channel (This, Conversion.Channel, Rank, Conversion.Sample_Time); -- We check the VBat first because that channel is also used for -- the temperature sensor channel on some MCUs, in which case the -- VBat conversion is the only one done. This order reflects that -- hardware behavior. if VBat_Conversion (This, Conversion.Channel) then Enable_VBat_Connection; elsif VRef_TemperatureSensor_Conversion (This, Conversion.Channel) then Enable_VRef_TemperatureSensor_Connection; end if; end; end loop; This.SQR1.L := UInt4 (Conversions'Length - 1); -- biased rep end Configure_Regular_Conversions; ------------------------------------ -- Configure_Injected_Conversions -- ------------------------------------ procedure Configure_Injected_Conversions (This : in out Analog_To_Digital_Converter; AutoInjection : Boolean; Trigger : Injected_Channel_Conversion_Trigger; Enable_EOC : Boolean; Conversions : Injected_Channel_Conversions) is begin This.CR2.EOCS := Enable_EOC; -- Injected channels cannot be converted continuously. The only -- exception is when an injected channel is configured to be converted -- automatically after regular channels in continuous mode. See note in -- RM 13.3.5, pg 390, and "Auto-injection" section on pg 392. This.CR1.JAUTO := AutoInjection; if Trigger.Enabler /= Trigger_Disabled then This.CR2.JEXTEN := External_Trigger'Enum_Rep (Trigger.Enabler); This.CR2.JEXTSEL := External_Events_Injected_Group'Enum_Rep (Trigger.Event); else This.CR2.JEXTEN := 0; This.CR2.JEXTSEL := 0; end if; for Rank in Conversions'Range loop declare Conversion : Injected_Channel_Conversion renames Conversions (Rank); begin Configure_Injected_Channel (This, Conversion.Channel, Rank, Conversion.Sample_Time, Conversion.Offset); -- We check the VBat first because that channel is also used for -- the temperature sensor channel on some MCUs, in which case the -- VBat conversion is the only one done. This order reflects that -- hardware behavior. if VBat_Conversion (This, Conversion.Channel) then Enable_VBat_Connection; elsif VRef_TemperatureSensor_Conversion (This, Conversion.Channel) then Enable_VRef_TemperatureSensor_Connection; end if; end; end loop; This.JSQR.JL := UInt2 (Conversions'Length - 1); -- biased rep end Configure_Injected_Conversions; ---------------------------- -- Enable_VBat_Connection -- ---------------------------- procedure Enable_VBat_Connection is begin C_ADC_Periph.CCR.VBATE := True; end Enable_VBat_Connection; ------------------ -- VBat_Enabled -- ------------------ function VBat_Enabled return Boolean is (C_ADC_Periph.CCR.VBATE); ---------------------------------------------- -- Enable_VRef_TemperatureSensor_Connection -- ---------------------------------------------- procedure Enable_VRef_TemperatureSensor_Connection is begin C_ADC_Periph.CCR.TSVREFE := True; delay until Clock + Temperature_Sensor_Stabilization; end Enable_VRef_TemperatureSensor_Connection; -------------------------------------- -- VRef_TemperatureSensor_Connected -- -------------------------------------- function VRef_TemperatureSensor_Enabled return Boolean is (C_ADC_Periph.CCR.TSVREFE); ---------------------------------- -- Regular_Conversions_Expected -- ---------------------------------- function Regular_Conversions_Expected (This : Analog_To_Digital_Converter) return Natural is (Natural (This.SQR1.L) + 1); ----------------------------------- -- Injected_Conversions_Expected -- ----------------------------------- function Injected_Conversions_Expected (This : Analog_To_Digital_Converter) return Natural is (Natural (This.JSQR.JL) + 1); ----------------------- -- Scan_Mode_Enabled -- ----------------------- function Scan_Mode_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR1.SCAN); --------------------------- -- EOC_Selection_Enabled -- --------------------------- function EOC_Selection_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.EOCS); ------------------------------- -- Configure_Regular_Channel -- ------------------------------- procedure Configure_Regular_Channel (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Regular_Channel_Rank; Sample_Time : Channel_Sampling_Times) is begin Set_Sampling_Time (This, Channel, Sample_Time); Set_Sequence_Position (This, Channel, Rank); end Configure_Regular_Channel; -------------------------------- -- Configure_Injected_Channel -- -------------------------------- procedure Configure_Injected_Channel (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Injected_Channel_Rank; Sample_Time : Channel_Sampling_Times; Offset : Injected_Data_Offset) is begin Set_Sampling_Time (This, Channel, Sample_Time); Set_Injected_Channel_Sequence_Position (This, Channel, Rank); Set_Injected_Channel_Offset (This, Rank, Offset); end Configure_Injected_Channel; ---------------------- -- Start_Conversion -- ---------------------- procedure Start_Conversion (This : in out Analog_To_Digital_Converter) is begin if External_Trigger'Val (This.CR2.EXTEN) /= Trigger_Disabled then return; end if; if Multi_ADC_Mode_Selections'Val (C_ADC_Periph.CCR.MULT) = Independent or else This'Address = STM32_SVD.ADC1_Base then This.CR2.SWSTART := True; end if; end Start_Conversion; ------------------------ -- Conversion_Started -- ------------------------ function Conversion_Started (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.SWSTART); ------------------------------- -- Start_Injected_Conversion -- ------------------------------- procedure Start_Injected_Conversion (This : in out Analog_To_Digital_Converter) is begin This.CR2.JSWSTART := True; end Start_Injected_Conversion; --------------------------------- -- Injected_Conversion_Started -- --------------------------------- function Injected_Conversion_Started (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.JSWSTART); ------------------------------ -- Watchdog_Enable_Channels -- ------------------------------ procedure Watchdog_Enable_Channels (This : in out Analog_To_Digital_Converter; Mode : Multiple_Channels_Watchdog; Low : Watchdog_Threshold; High : Watchdog_Threshold) is begin This.HTR.HT := High; This.LTR.LT := Low; -- see RM 13.3.7, pg 391, table 66 case Mode is when Watchdog_All_Regular_Channels => This.CR1.AWDEN := True; when Watchdog_All_Injected_Channels => This.CR1.JAWDEN := True; when Watchdog_All_Both_Kinds => This.CR1.AWDEN := True; This.CR1.JAWDEN := True; end case; end Watchdog_Enable_Channels; ----------------------------- -- Watchdog_Enable_Channel -- ----------------------------- procedure Watchdog_Enable_Channel (This : in out Analog_To_Digital_Converter; Mode : Single_Channel_Watchdog; Channel : Analog_Input_Channel; Low : Watchdog_Threshold; High : Watchdog_Threshold) is begin This.HTR.HT := High; This.LTR.LT := Low; -- Set then channel This.CR1.AWDCH := Channel; -- Enable single channel mode This.CR1.AWDSGL := True; case Mode is when Watchdog_Single_Regular_Channel => This.CR1.AWDEN := True; when Watchdog_Single_Injected_Channel => This.CR1.JAWDEN := True; when Watchdog_Single_Both_Kinds => This.CR1.AWDEN := True; This.CR1.JAWDEN := True; end case; end Watchdog_Enable_Channel; ---------------------- -- Watchdog_Disable -- ---------------------- procedure Watchdog_Disable (This : in out Analog_To_Digital_Converter) is begin This.CR1.AWDEN := False; This.CR1.JAWDEN := False; -- clearing the single-channel bit (AWGSDL) is not required to disable, -- per the RM table 66, section 13.3.7, pg 391, but seems cleanest This.CR1.AWDSGL := False; end Watchdog_Disable; ---------------------- -- Watchdog_Enabled -- ---------------------- function Watchdog_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR1.AWDEN or This.CR1.JAWDEN); -- per the RM table 66, section 13.3.7, pg 391 ------------------------------- -- Enable_Discontinuous_Mode -- ------------------------------- procedure Enable_Discontinuous_Mode (This : in out Analog_To_Digital_Converter; Regular : Boolean; -- if False, enabling for Injected channels Count : Discontinuous_Mode_Channel_Count) is begin if Regular then This.CR1.JDISCEN := False; This.CR1.DISCEN := True; else -- Injected This.CR1.DISCEN := False; This.CR1.JDISCEN := True; end if; This.CR1.DISCNUM := UInt3 (Count - 1); -- biased end Enable_Discontinuous_Mode; ---------------------------------------- -- Disable_Discontinuous_Mode_Regular -- --------------------------------------- procedure Disable_Discontinuous_Mode_Regular (This : in out Analog_To_Digital_Converter) is begin This.CR1.DISCEN := False; end Disable_Discontinuous_Mode_Regular; ----------------------------------------- -- Disable_Discontinuous_Mode_Injected -- ----------------------------------------- procedure Disable_Discontinuous_Mode_Injected (This : in out Analog_To_Digital_Converter) is begin This.CR1.JDISCEN := False; end Disable_Discontinuous_Mode_Injected; ---------------------------------------- -- Discontinuous_Mode_Regular_Enabled -- ---------------------------------------- function Discontinuous_Mode_Regular_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR1.DISCEN); ----------------------------------------- -- Discontinuous_Mode_Injected_Enabled -- ----------------------------------------- function Discontinuous_Mode_Injected_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR1.JDISCEN); --------------------------- -- AutoInjection_Enabled -- --------------------------- function AutoInjection_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR1.JAUTO); ---------------- -- Enable_DMA -- ---------------- procedure Enable_DMA (This : in out Analog_To_Digital_Converter) is begin This.CR2.DMA := True; end Enable_DMA; ----------------- -- Disable_DMA -- ----------------- procedure Disable_DMA (This : in out Analog_To_Digital_Converter) is begin This.CR2.DMA := False; end Disable_DMA; ----------------- -- DMA_Enabled -- ----------------- function DMA_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.DMA); ------------------------------------ -- Enable_DMA_After_Last_Transfer -- ------------------------------------ procedure Enable_DMA_After_Last_Transfer (This : in out Analog_To_Digital_Converter) is begin This.CR2.DDS := True; end Enable_DMA_After_Last_Transfer; ------------------------------------- -- Disable_DMA_After_Last_Transfer -- ------------------------------------- procedure Disable_DMA_After_Last_Transfer (This : in out Analog_To_Digital_Converter) is begin This.CR2.DDS := False; end Disable_DMA_After_Last_Transfer; ------------------------------------- -- DMA_Enabled_After_Last_Transfer -- ------------------------------------- function DMA_Enabled_After_Last_Transfer (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.DDS); ------------------------------------------ -- Multi_Enable_DMA_After_Last_Transfer -- ------------------------------------------ procedure Multi_Enable_DMA_After_Last_Transfer is begin C_ADC_Periph.CCR.DMA := 1; end Multi_Enable_DMA_After_Last_Transfer; ------------------------------------------- -- Multi_Disable_DMA_After_Last_Transfer -- ------------------------------------------- procedure Multi_Disable_DMA_After_Last_Transfer is begin C_ADC_Periph.CCR.DMA := 0; end Multi_Disable_DMA_After_Last_Transfer; ------------------------------------------- -- Multi_DMA_Enabled_After_Last_Transfer -- ------------------------------------------- function Multi_DMA_Enabled_After_Last_Transfer return Boolean is (C_ADC_Periph.CCR.DMA = 1); --------------------- -- Poll_For_Status -- --------------------- procedure Poll_For_Status (This : in out Analog_To_Digital_Converter; Flag : ADC_Status_Flag; Success : out Boolean; Timeout : Time_Span := Time_Span_Last) is Deadline : constant Time := Clock + Timeout; begin Success := False; while Clock < Deadline loop if Status (This, Flag) then Success := True; exit; end if; end loop; end Poll_For_Status; ------------ -- Status -- ------------ function Status (This : Analog_To_Digital_Converter; Flag : ADC_Status_Flag) return Boolean is begin case Flag is when Overrun => return This.SR.OVR; when Regular_Channel_Conversion_Started => return This.SR.STRT; when Injected_Channel_Conversion_Started => return This.SR.JSTRT; when Injected_Channel_Conversion_Complete => return This.SR.JEOC; when Regular_Channel_Conversion_Complete => return This.SR.EOC; when Analog_Watchdog_Event_Occurred => return This.SR.AWD; end case; end Status; ------------------ -- Clear_Status -- ------------------ procedure Clear_Status (This : in out Analog_To_Digital_Converter; Flag : ADC_Status_Flag) is begin case Flag is when Overrun => This.SR.OVR := False; when Regular_Channel_Conversion_Started => This.SR.STRT := False; when Injected_Channel_Conversion_Started => This.SR.JSTRT := False; when Injected_Channel_Conversion_Complete => This.SR.JEOC := False; when Regular_Channel_Conversion_Complete => This.SR.EOC := False; when Analog_Watchdog_Event_Occurred => This.SR.AWD := False; end case; end Clear_Status; ----------------------- -- Enable_Interrupts -- ----------------------- procedure Enable_Interrupts (This : in out Analog_To_Digital_Converter; Source : ADC_Interrupts) is begin case Source is when Overrun => This.CR1.OVRIE := True; when Injected_Channel_Conversion_Complete => This.CR1.JEOCIE := True; when Regular_Channel_Conversion_Complete => This.CR1.EOCIE := True; when Analog_Watchdog_Event => This.CR1.AWDIE := True; end case; end Enable_Interrupts; ----------------------- -- Interrupt_Enabled -- ----------------------- function Interrupt_Enabled (This : Analog_To_Digital_Converter; Source : ADC_Interrupts) return Boolean is begin case Source is when Overrun => return This.CR1.OVRIE; when Injected_Channel_Conversion_Complete => return This.CR1.JEOCIE; when Regular_Channel_Conversion_Complete => return This.CR1.EOCIE; when Analog_Watchdog_Event => return This.CR1.AWDIE; end case; end Interrupt_Enabled; ------------------------ -- Disable_Interrupts -- ------------------------ procedure Disable_Interrupts (This : in out Analog_To_Digital_Converter; Source : ADC_Interrupts) is begin case Source is when Overrun => This.CR1.OVRIE := False; when Injected_Channel_Conversion_Complete => This.CR1.JEOCIE := False; when Regular_Channel_Conversion_Complete => This.CR1.EOCIE := False; when Analog_Watchdog_Event => This.CR1.AWDIE := False; end case; end Disable_Interrupts; ----------------------------- -- Clear_Interrupt_Pending -- ----------------------------- procedure Clear_Interrupt_Pending (This : in out Analog_To_Digital_Converter; Source : ADC_Interrupts) is begin case Source is when Overrun => This.SR.OVR := False; when Injected_Channel_Conversion_Complete => This.SR.JEOC := False; when Regular_Channel_Conversion_Complete => This.SR.EOC := False; when Analog_Watchdog_Event => This.SR.AWD := False; end case; end Clear_Interrupt_Pending; --------------------------- -- Set_Sequence_Position -- --------------------------- procedure Set_Sequence_Position (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Regular_Channel_Rank) is begin case Rank is when 1 .. 6 => This.SQR3.SQ.Arr (Integer (Rank)) := Channel; when 7 .. 12 => This.SQR2.SQ.Arr (Integer (Rank)) := Channel; when 13 .. 16 => This.SQR1.SQ.Arr (Integer (Rank)) := Channel; end case; end Set_Sequence_Position; -------------------------------------------- -- Set_Injected_Channel_Sequence_Position -- -------------------------------------------- procedure Set_Injected_Channel_Sequence_Position (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Injected_Channel_Rank) is begin This.JSQR.JSQ.Arr (Integer (Rank)) := Channel; end Set_Injected_Channel_Sequence_Position; ----------------------- -- Set_Sampling_Time -- ----------------------- procedure Set_Sampling_Time (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Sample_Time : Channel_Sampling_Times) is begin if Channel > 9 then This.SMPR1.SMP.Arr (Natural (Channel)) := Channel_Sampling_Times'Enum_Rep (Sample_Time); else This.SMPR2.SMP.Arr (Natural (Channel)) := Channel_Sampling_Times'Enum_Rep (Sample_Time); end if; end Set_Sampling_Time; --------------------------------- -- Set_Injected_Channel_Offset -- --------------------------------- procedure Set_Injected_Channel_Offset (This : in out Analog_To_Digital_Converter; Rank : Injected_Channel_Rank; Offset : Injected_Data_Offset) is begin case Rank is when 1 => This.JOFR1.JOFFSET1 := Offset; when 2 => This.JOFR2.JOFFSET2 := Offset; when 3 => This.JOFR3.JOFFSET3 := Offset; when 4 => This.JOFR4.JOFFSET4 := Offset; end case; end Set_Injected_Channel_Offset; end STM32.ADC;
------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- I N T E R F A C E S . F O R T R A N -- -- -- -- S p e c -- -- -- -- $Revision: 2 $ -- -- -- -- This specification is adapted from the Ada Reference Manual for use with -- -- GNAT. In accordance with the copyright of that document, you can freely -- -- copy and modify this specification, provided that if you redistribute a -- -- modified version, any changes that you have made are clearly indicated. -- -- -- ------------------------------------------------------------------------------ with Ada.Numerics.Generic_Complex_Types; pragma Elaborate_All (Ada.Numerics.Generic_Complex_Types); package Interfaces.Fortran is pragma Pure (Fortran); type Fortran_Integer is new Integer; type Real is new Float; type Double_Precision is new Long_Float; type Logical is new Boolean; package Single_Precision_Complex_Types is new Ada.Numerics.Generic_Complex_Types (Real); type Complex is new Single_Precision_Complex_Types.Complex; type Imaginary is new Single_Precision_Complex_Types.Imaginary; i : constant Imaginary := Imaginary (Single_Precision_Complex_Types.i); j : constant Imaginary := Imaginary (Single_Precision_Complex_Types.j); type Character_Set is new Character; type Fortran_Character is array (Positive range <>) of Character_Set; pragma Pack (Fortran_Character); function To_Fortran (Item : in Character) return Character_Set; function To_Ada (Item : in Character_Set) return Character; function To_Fortran (Item : in String) return Fortran_Character; function To_Ada (Item : in Fortran_Character) return String; procedure To_Fortran (Item : in String; Target : out Fortran_Character; Last : out Natural); procedure To_Ada (Item : in Fortran_Character; Target : out String; Last : out Natural); end Interfaces.Fortran;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . I N T E R R U P T S . N A M E S -- -- -- -- S p e c -- -- -- -- Copyright (C) 1995-2011, 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/>. -- -- -- ------------------------------------------------------------------------------ -- The standard implementation of this spec contains only dummy interrupt -- names. These dummy entries permit checking out code for correctness of -- semantics, even if interrupts are not supported. -- For specific implementations that fully support interrupts, this package -- spec is replaced by an implementation dependent version that defines the -- interrupts available on the system. package Ada.Interrupts.Names is -- All identifiers in this unit are implementation defined pragma Implementation_Defined; DUMMY_INTERRUPT_1 : constant Interrupt_ID := 1; DUMMY_INTERRUPT_2 : constant Interrupt_ID := 2; end Ada.Interrupts.Names;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . T A S K I N G . A S Y N C _ D E L A Y S -- -- -- -- S p e c -- -- -- -- Copyright (C) 1998-2006, Free Software Foundation, Inc. -- -- -- -- 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. -- -- -- -- -- -- -- -- -- -- -- GNARL was developed by the GNARL team at Florida State University. -- -- Extensive contributions were provided by Ada Core Technologies, Inc. -- -- -- ------------------------------------------------------------------------------ -- This package contains the procedures to implements timeouts (delays) for -- asynchronous select statements. -- Note: the compiler generates direct calls to this interface, via Rtsfind. -- Any changes to this interface may require corresponding compiler changes. package System.Tasking.Async_Delays is -- Suppose the following source code is given: -- select delay When; -- ...continuation for timeout case... -- then abort -- ...abortable part... -- end select; -- The compiler should expand this to the following: -- declare -- DB : aliased Delay_Block; -- begin -- if System.Tasking.Async_Delays.Enqueue_Duration -- (When, DB'Unchecked_Access) -- then -- begin -- A101b : declare -- procedure _clean is -- begin -- System.Tasking.Async_Delays.Cancel_Async_Delay -- (DB'Unchecked_Access); -- return; -- end _clean; -- begin -- abort_undefer.all; -- ...abortable part... -- exception -- when all others => -- declare -- E105b : exception_occurrence; -- begin -- save_occurrence (E105b, get_current_excep.all.all); -- _clean; -- reraise_occurrence_no_defer (E105b); -- end; -- at end -- _clean; -- end A101b; -- exception -- when _abort_signal => -- abort_undefer.all; -- end; -- end if; -- -- if Timed_Out (DB'Unchecked_Access) then -- ...continuation for timeout case... -- end if; -- end; ----------------- -- Delay_Block -- ----------------- type Delay_Block is limited private; type Delay_Block_Access is access all Delay_Block; function Enqueue_Duration (T : Duration; D : Delay_Block_Access) return Boolean; -- Enqueue the specified relative delay. Returns True if the delay has -- been enqueued, False if it has already expired. If the delay has been -- enqueued, abort is deferred. procedure Cancel_Async_Delay (D : Delay_Block_Access); -- Cancel the specified asynchronous delay function Timed_Out (D : Delay_Block_Access) return Boolean; pragma Inline (Timed_Out); -- Return True if the delay specified in D has timed out -- There are child units for delays on Ada.Calendar.Time and -- Ada.Real_Time.Time, so that an application will not need to link in -- features that is not using. private type Delay_Block is record Self_Id : Task_Id; -- ID of the calling task Level : ATC_Level_Base; -- Normally Level is the ATC nesting level of the -- async. select statement to which this delay belongs, but -- after a call has been dequeued we set it to -- ATC_Level_Infinity so that the Cancel operation can -- detect repeated calls, and act idempotently. Resume_Time : Duration; -- The absolute wake up time, represented as Duration Timed_Out : Boolean := False; -- Set to true if the delay has timed out Succ, Pred : Delay_Block_Access; -- A double linked list end record; -- The above "overlaying" of Self_ID and Level to hold other -- data that has a non-overlapping lifetime is an unabashed -- hack to save memory. procedure Time_Enqueue (T : Duration; D : Delay_Block_Access); pragma Inline (Time_Enqueue); -- Used by the child units to enqueue delays on the timer queue -- implemented in the body of this package. end System.Tasking.Async_Delays;
package MIDI is procedure Initialize; procedure Update; end MIDI;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . B B -- -- -- -- S p e c -- -- -- -- Copyright (C) 1999-2002 Universidad Politecnica de Madrid -- -- Copyright (C) 2003-2004 The European Space Agency -- -- Copyright (C) 2003-2021, 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. -- -- -- -- -- -- -- -- -- -- -- -- 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/>. -- -- -- -- GNARL was developed by the GNARL team at Florida State University. -- -- Extensive contributions were provided by Ada Core Technologies, Inc. -- -- -- -- The port of GNARL to bare board targets was initially developed by the -- -- Real-Time Systems Group at the Technical University of Madrid. -- -- -- ------------------------------------------------------------------------------ -- This is the root package of the bare board implementation of the low level -- tasking support for Ravenscar compliant run times. package System.BB is pragma No_Elaboration_Code_All; pragma Pure; -- All of the package specifications in the System.BB hierarchy are system -- independent with the exception of the Parameters package which specifies -- values of constants describing facts about a given system/architecture, -- such as number of interrupt levels or trap vectors. Each box represents -- a package specification, with directly below it the main subprograms -- provided. Lines indicate a dependency of the upper spec on the lower -- one. In addition to the packages listed here, specific ports may define -- specifications for functionality unique to each platform, or to factor -- out common definitions needed in the implementation. -- Most ports will need just two system-specific implementation bodies: -- * s-bbcppr.adb: CPU_Primitives body for each CPU architecture -- * s-bbbosu.adb: Board_Support body for each supported board -- .----------------------------------------------------------. -- \| S Y S T E M . O S _ I N T E R F A C E \| -- '----------------------------------------------------------' -- \| \| \| \| -- \| \| .-------------------. \| \| -- \| \| \| BB.Threads.Queues \| \| \| -- \| \| '-------------------' \| \| -- \| \| Insert \| \| -- \| \| Extract \| \| -- \| \| Change_Priority \| \| -- \| \| \| \| \| -- \| .------------------. .----------------. \| -- \| \| BB.Board_Support \| \| BB.Threads \| \| -- \| '------------------' '----------------' \| -- \| Initialize_Board Thread_Self \| -- \| Set_Alarm Set_Priority \| -- \| Read_Clock Get_Priority \| -- \| Get_Interrupt_Request Sleep/Wakeup \| -- \| \| \| \| \| \| \| -- .---------------. \| .-------------------. .-------------. -- \| BB.Interrupts \| \| \| BB.CPU_Primitives \| \| BB.Time \| -- '---------------' \| '-------------------' '-------------' -- Attach_Handler \| Context_Switch Clock -- Current_Interrupt \| Get_Context Delay_Until -- \| \| Set_Context -- \| \| Install_Handler -- \| \| Disable_Interrupts -- \| \| Enable_Interrupts -- \| \| \| -- .-------------------. .---------------. -- \| BB.Parameters \|-. \| BB.Protection \| -- '-------------------' \|-. '---------------' -- '-------------------' \| Enter_Kernel -- '------------------' Leave_Kernel end System.BB;
with Common_Formal_Containers; use Common_Formal_Containers; package AFRL.CMASI.OperatingRegion.SPARK_Boundary with SPARK_Mode is pragma Annotate (GNATprove, Terminating, SPARK_Boundary); type OperatingRegionAreas is record KeepInAreas : Int64_Vect; KeepOutAreas : Int64_Vect; end record; function Get_Areas (Region : OperatingRegion) return OperatingRegionAreas with Global => null; end AFRL.CMASI.OperatingRegion.SPARK_Boundary;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- S Y S T E M . T R A C E B A C K _ E N T R I E S -- -- -- -- B o d y -- -- -- -- Copyright (C) 2003-2014, 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. -- -- -- ------------------------------------------------------------------------------ pragma Polling (Off); -- We must turn polling off for this unit, because otherwise we get -- elaboration circularities with Ada.Exceptions. pragma Compiler_Unit_Warning; package body System.Traceback_Entries is ------------ -- PC_For -- ------------ function PC_For (TB_Entry : Traceback_Entry) return System.Address is begin return TB_Entry; end PC_For; ------------------ -- TB_Entry_For -- ------------------ function TB_Entry_For (PC : System.Address) return Traceback_Entry is begin return PC; end TB_Entry_For; end System.Traceback_Entries;
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<originalName>sendWord.dest.V</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>56367264</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>3</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>113</item> </oprand_edges> <opcode>load</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>4</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_11"> <Value> <Obj> <type>0</type> <id>21</id> <name>_ln64</name> <fileName>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>64</lineNumber> <contextFuncName>ethernet_remover</contextFuncName> <contextNormFuncName>ethernet_remover</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</first> <second>ethernet_remover</second> </first> <second>64</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>55795856</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>10</count> <item_version>0</item_version> <item>114</item> <item>115</item> <item>117</item> <item>118</item> <item>120</item> <item>121</item> <item>123</item> <item>124</item> <item>126</item> <item>127</item> </oprand_edges> <opcode>switch</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.65</m_delay> <m_topoIndex>5</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_12"> <Value> <Obj> <type>0</type> <id>23</id> <name>p_Result_5</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;512, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_512_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;512, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879863472</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>400</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>342</item> <item>343</item> <item>344</item> <item>345</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>63</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_13"> <Value> <Obj> <type>0</type> <id>24</id> <name>zext_ln414</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;512, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_512_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;512, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879632112</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>512</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>346</item> </oprand_edges> <opcode>zext</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>64</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_14"> <Value> <Obj> <type>0</type> <id>25</id> <name>p_Result_6</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;64, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_64_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;64, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>1852402793</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>50</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>347</item> <item>348</item> <item>349</item> <item>350</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>65</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_15"> <Value> <Obj> <type>0</type> <id>26</id> <name>zext_ln414_1</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;64, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_64_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;64, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879513712</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>64</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>351</item> </oprand_edges> <opcode>zext</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>66</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_16"> <Value> <Obj> <type>0</type> <id>27</id> <name>m_axis_V_data_V_write_ln304</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_axi_sdata.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>304</lineNumber> <contextFuncName>write</contextFuncName> <contextNormFuncName>write</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_axi_sdata.h</first> <second>write</second> </first> <second>304</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control>auto</control> <opType>adapter</opType> <implIndex>axi4stream</implIndex> <coreName>axis</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>123</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>11</count> <item_version>0</item_version> <item>352</item> <item>353</item> <item>354</item> <item>355</item> <item>356</item> <item>357</item> <item>358</item> <item>359</item> <item>360</item> <item>361</item> <item>362</item> </oprand_edges> <opcode>write</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>67</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_17"> <Value> <Obj> <type>0</type> <id>28</id> <name>br_ln147</name> <fileName>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>147</lineNumber> <contextFuncName>ethernet_remover</contextFuncName> <contextNormFuncName>ethernet_remover</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</first> <second>ethernet_remover</second> </first> <second>147</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>761358192</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>363</item> </oprand_edges> <opcode>br</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.45</m_delay> <m_topoIndex>6</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_18"> <Value> <Obj> <type>0</type> <id>30</id> <name>tmp_1_i</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>136</lineNumber> <contextFuncName>empty</contextFuncName> <contextNormFuncName>empty</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>empty</second> </first> <second>136</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control>auto</control> <opType>fifo</opType> <implIndex>memory</implIndex> 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<lineNumber>111</lineNumber> <contextFuncName>ethernet_remover</contextFuncName> <contextNormFuncName>ethernet_remover</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</first> <second>ethernet_remover</second> </first> <second>111</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879835152</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>270</item> <item>271</item> <item>272</item> </oprand_edges> <opcode>br</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.45</m_delay> <m_topoIndex>8</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_20"> <Value> <Obj> <type>0</type> <id>33</id> <name>eth_level_pkt_read_2</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>145</lineNumber> <contextFuncName>read</contextFuncName> <contextNormFuncName>read</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>read</second> </first> <second>145</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control>auto</control> <opType>fifo</opType> <implIndex>memory</implIndex> <coreName>FIFO</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>78</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1024</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>273</item> <item>274</item> <item>538</item> </oprand_edges> <opcode>read</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>1.45</m_delay> <m_topoIndex>9</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_21"> <Value> <Obj> <type>0</type> <id>34</id> <name>currWord_data_V</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>145</lineNumber> <contextFuncName>read</contextFuncName> <contextNormFuncName>read</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>read</second> </first> <second>145</second> </item> </second> </item> </inlineStackInfo> <originalName>currWord.data.V</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879666512</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>512</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>275</item> </oprand_edges> <opcode>trunc</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>10</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_22"> <Value> <Obj> <type>0</type> <id>35</id> <name>currWord_keep_V</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>145</lineNumber> <contextFuncName>read</contextFuncName> <contextNormFuncName>read</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>read</second> </first> <second>145</second> </item> </second> </item> </inlineStackInfo> <originalName>currWord.keep.V</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879667968</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>64</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>276</item> <item>277</item> <item>278</item> <item>279</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>11</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_23"> <Value> <Obj> <type>0</type> <id>36</id> <name>currWord_last_V_4</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>145</lineNumber> <contextFuncName>read</contextFuncName> <contextNormFuncName>read</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>read</second> </first> <second>145</second> </item> </second> </item> </inlineStackInfo> <originalName>currWord.last.V</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879833024</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>280</item> <item>281</item> <item>282</item> </oprand_edges> <opcode>bitselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>12</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_24"> <Value> <Obj> <type>0</type> <id>37</id> <name>currWord_dest_V_1</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>145</lineNumber> <contextFuncName>read</contextFuncName> <contextNormFuncName>read</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>read</second> </first> <second>145</second> </item> </second> </item> </inlineStackInfo> <originalName>currWord.dest.V</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879556480</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>3</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>283</item> <item>284</item> <item>285</item> <item>286</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>13</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_25"> <Value> <Obj> <type>0</type> <id>38</id> <name>p_Result_i</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>674</lineNumber> <contextFuncName>get</contextFuncName> <contextNormFuncName>get</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>get</second> </first> <second>674</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879639504</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>400</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>288</item> <item>289</item> <item>290</item> <item>291</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>68</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_26"> <Value> <Obj> <type>0</type> <id>39</id> <name>p_Result_1_i</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>674</lineNumber> <contextFuncName>get</contextFuncName> <contextNormFuncName>get</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>get</second> </first> <second>674</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879633232</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>50</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>293</item> <item>294</item> <item>296</item> <item>298</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>69</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_27"> <Value> <Obj> <type>0</type> <id>40</id> <name>trunc_ln674</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>674</lineNumber> <contextFuncName>get</contextFuncName> <contextNormFuncName>get</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>get</second> </first> <second>674</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879668288</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>112</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>299</item> </oprand_edges> <opcode>trunc</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>14</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_28"> <Value> <Obj> <type>0</type> <id>41</id> <name>p_Result_3</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;512, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_512_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;512, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879638704</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>512</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>301</item> <item>302</item> <item>303</item> </oprand_edges> <opcode>bitconcatenate</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>70</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_29"> <Value> <Obj> <type>0</type> <id>42</id> <name>p_Result_4_i</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>674</lineNumber> <contextFuncName>get</contextFuncName> <contextNormFuncName>get</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>get</second> </first> <second>674</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>21</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>14</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>305</item> <item>306</item> <item>307</item> <item>309</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>15</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_30"> <Value> <Obj> <type>0</type> <id>43</id> <name>p_Result_4</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;64, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_64_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;64, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879841232</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>64</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>311</item> <item>312</item> <item>313</item> </oprand_edges> <opcode>bitconcatenate</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>71</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_31"> <Value> <Obj> <type>0</type> <id>44</id> <name>tmp_22</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>819</lineNumber> <contextFuncName>operator bool</contextFuncName> <contextNormFuncName>operator_bool</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator bool</second> </first> <second>819</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>0</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>314</item> <item>315</item> <item>316</item> </oprand_edges> <opcode>bitselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>16</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_32"> <Value> <Obj> <type>0</type> <id>45</id> <name>p_Result_s</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>819</lineNumber> <contextFuncName>operator bool</contextFuncName> <contextNormFuncName>operator_bool</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator bool</second> </first> <second>819</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control>auto</control> <opType>xor</opType> <implIndex>auto</implIndex> <coreName>LogicGate</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>74</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>2</count> <item_version>0</item_version> <item>317</item> <item>318</item> </oprand_edges> <opcode>xor</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>17</m_topoIndex> <m_clusterGroupNumber>1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_33"> <Value> <Obj> <type>0</type> <id>46</id> <name>select_ln121</name> <fileName>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>121</lineNumber> <contextFuncName>ethernet_remover</contextFuncName> <contextNormFuncName>ethernet_remover</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</first> <second>ethernet_remover</second> </first> <second>121</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> 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<fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;512, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_512_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;512, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>0</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>400</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>163</item> <item>164</item> <item>166</item> <item>168</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>40</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_58"> <Value> <Obj> <type>0</type> <id>75</id> <name>zext_ln414_2</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;512, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_512_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;512, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879513712</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>512</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>169</item> </oprand_edges> <opcode>zext</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>41</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_59"> <Value> <Obj> <type>0</type> <id>76</id> <name>p_Result_2</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;64, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_64_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;64, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>0</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>50</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>171</item> <item>172</item> <item>174</item> <item>175</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>42</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_60"> <Value> <Obj> <type>0</type> <id>77</id> <name>zext_ln414_3</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;64, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_64_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;64, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879854456</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>64</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>176</item> </oprand_edges> <opcode>zext</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>43</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_61"> <Value> <Obj> <type>0</type> <id>78</id> <name>select_ln1049</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</first> <second>operator==&lt;32, true&gt;</second> </first> <second>1049</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control>auto</control> <opType>select</opType> <implIndex>auto_sel</implIndex> <coreName>Sel</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>73</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>2</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>177</item> <item>178</item> <item>179</item> </oprand_edges> <opcode>select</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>1</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.27</m_delay> <m_topoIndex>44</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_62"> <Value> <Obj> <type>0</type> <id>79</id> <name>sendWord_data_V</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</first> <second>operator==&lt;32, true&gt;</second> </first> <second>1049</second> </item> </second> </item> </inlineStackInfo> <originalName>sendWord.data.V</originalName> <rtlName></rtlName> <control>auto</control> <opType>select</opType> <implIndex>auto_sel</implIndex> <coreName>Sel</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>73</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>512</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>180</item> <item>181</item> <item>182</item> </oprand_edges> <opcode>select</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.57</m_delay> <m_topoIndex>45</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_63"> <Value> <Obj> <type>0</type> <id>80</id> <name>sendWord_keep_V</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</first> <second>operator==&lt;32, true&gt;</second> </first> <second>1049</second> </item> </second> </item> </inlineStackInfo> <originalName>sendWord.keep.V</originalName> <rtlName></rtlName> <control>auto</control> <opType>select</opType> <implIndex>auto_sel</implIndex> <coreName>Sel</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>73</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>64</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>183</item> <item>184</item> <item>185</item> </oprand_edges> <opcode>select</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.41</m_delay> <m_topoIndex>46</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_64"> <Value> <Obj> <type>0</type> <id>81</id> <name>xor_ln1049</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</first> <second>operator==&lt;32, true&gt;</second> </first> <second>1049</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control>auto</control> <opType>xor</opType> <implIndex>auto</implIndex> <coreName>LogicGate</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>74</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>2</count> <item_version>0</item_version> <item>186</item> <item>188</item> </oprand_edges> <opcode>xor</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>47</m_topoIndex> <m_clusterGroupNumber>2</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_65"> <Value> <Obj> <type>0</type> <id>82</id> <name>sendWord_last_V_4</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</first> <second>operator==&lt;32, true&gt;</second> </first> <second>1049</second> </item> </second> </item> </inlineStackInfo> <originalName>sendWord.last.V</originalName> <rtlName></rtlName> <control>auto</control> <opType>or</opType> <implIndex>auto</implIndex> <coreName>LogicGate</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>74</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>2</count> <item_version>0</item_version> <item>189</item> <item>190</item> </oprand_edges> <opcode>or</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.12</m_delay> <m_topoIndex>48</m_topoIndex> <m_clusterGroupNumber>2</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_66"> <Value> <Obj> <type>0</type> <id>83</id> <name>br_ln86</name> <fileName>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>86</lineNumber> <contextFuncName>ethernet_remover</contextFuncName> <contextNormFuncName>ethernet_remover</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</first> <second>ethernet_remover</second> </first> <second>86</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879861824</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>191</item> <item>192</item> <item>193</item> </oprand_edges> <opcode>br</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>49</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_67"> <Value> <Obj> <type>0</type> <id>85</id> <name>br_ln90</name> <fileName>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>90</lineNumber> <contextFuncName>ethernet_remover</contextFuncName> <contextNormFuncName>ethernet_remover</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</first> <second>ethernet_remover</second> </first> <second>90</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> 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<edge_type>4</edge_type> <source_obj>19</source_obj> <sink_obj>49</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_379"> <id>534</id> <edge_type>4</edge_type> <source_obj>20</source_obj> <sink_obj>50</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_380"> <id>535</id> <edge_type>4</edge_type> <source_obj>18</source_obj> <sink_obj>96</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_381"> <id>536</id> <edge_type>4</edge_type> <source_obj>19</source_obj> <sink_obj>97</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_382"> <id>537</id> <edge_type>4</edge_type> <source_obj>20</source_obj> <sink_obj>98</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_383"> <id>538</id> <edge_type>4</edge_type> <source_obj>30</source_obj> <sink_obj>33</sink_obj> <is_back_edge>0</is_back_edge> </item> 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<item> <first>zext_ln414_fu_440</first> <second> <count>1</count> <item_version>0</item_version> <item>24</item> </second> </item> </dp_fu_nodes_expression> <dp_fu_nodes_module> <count>0</count> <item_version>0</item_version> </dp_fu_nodes_module> <dp_fu_nodes_io> <count>14</count> <item_version>0</item_version> <item> <first>er_fsm_state_load_load_fu_256</first> <second> <count>1</count> <item_version>0</item_version> <item>17</item> </second> </item> <item> <first>grp_nbreadreq_fu_102</first> <second> <count>3</count> <item_version>0</item_version> <item>30</item> <item>54</item> <item>65</item> </second> </item> <item> <first>grp_read_fu_110</first> <second> <count>3</count> <item_version>0</item_version> <item>33</item> <item>57</item> <item>68</item> </second> </item> <item> <first>grp_write_fu_116</first> <second> <count>10</count> <item_version>0</item_version> <item>27</item> <item>27</item> <item>51</item> <item>51</item> <item>62</item> <item>62</item> <item>87</item> <item>87</item> <item>92</item> <item>92</item> </second> </item> <item> <first>p_Val2_1_load_fu_264</first> <second> <count>1</count> <item_version>0</item_version> <item>19</item> </second> </item> <item> <first>p_Val2_s_load_fu_260</first> <second> <count>1</count> <item_version>0</item_version> <item>18</item> </second> </item> <item> <first>sendWord_dest_V_1_load_fu_268</first> <second> <count>1</count> <item_version>0</item_version> <item>20</item> </second> </item> <item> <first>store_ln134_store_fu_319</first> <second> <count>1</count> <item_version>0</item_version> <item>48</item> </second> </item> <item> <first>store_ln134_store_fu_325</first> <second> <count>1</count> <item_version>0</item_version> <item>49</item> </second> </item> <item> <first>store_ln134_store_fu_331</first> <second> <count>1</count> <item_version>0</item_version> <item>50</item> </second> </item> <item> <first>store_ln74_store_fu_434</first> <second> <count>1</count> <item_version>0</item_version> <item>105</item> </second> </item> <item> <first>store_ln94_store_fu_416</first> <second> <count>1</count> <item_version>0</item_version> <item>96</item> </second> </item> <item> <first>store_ln94_store_fu_422</first> <second> <count>1</count> <item_version>0</item_version> <item>97</item> </second> </item> <item> <first>store_ln94_store_fu_428</first> <second> <count>1</count> <item_version>0</item_version> <item>98</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="49" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </dp_mem_port_nodes> <dp_reg_nodes> <count>26</count> <item_version>0</item_version> <item> <first>138</first> <second> <count>1</count> <item_version>0</item_version> <item>95</item> </second> </item> <item> <first>148</first> <second> <count>1</count> <item_version>0</item_version> <item>101</item> </second> </item> <item> <first>175</first> <second> <count>1</count> <item_version>0</item_version> <item>102</item> </second> </item> <item> <first>251</first> <second> <count>2</count> <item_version>0</item_version> <item>61</item> <item>72</item> </second> </item> <item> <first>466</first> <second> <count>1</count> <item_version>0</item_version> <item>17</item> </second> </item> <item> <first>470</first> <second> <count>1</count> <item_version>0</item_version> <item>18</item> </second> </item> <item> <first>475</first> <second> <count>1</count> <item_version>0</item_version> <item>19</item> </second> </item> <item> <first>480</first> <second> <count>1</count> <item_version>0</item_version> <item>20</item> </second> </item> <item> <first>485</first> <second> <count>1</count> <item_version>0</item_version> <item>30</item> </second> </item> <item> <first>489</first> <second> <count>1</count> <item_version>0</item_version> <item>40</item> </second> </item> <item> <first>494</first> <second> <count>1</count> <item_version>0</item_version> <item>42</item> </second> </item> <item> <first>499</first> <second> <count>1</count> <item_version>0</item_version> <item>47</item> </second> </item> <item> <first>504</first> <second> <count>1</count> <item_version>0</item_version> <item>54</item> </second> </item> <item> <first>508</first> <second> <count>1</count> <item_version>0</item_version> <item>58</item> </second> </item> <item> <first>513</first> <second> <count>1</count> <item_version>0</item_version> <item>59</item> </second> </item> <item> <first>518</first> <second> <count>1</count> <item_version>0</item_version> <item>60</item> </second> </item> <item> <first>523</first> <second> <count>1</count> <item_version>0</item_version> <item>65</item> </second> </item> <item> <first>527</first> <second> <count>1</count> <item_version>0</item_version> <item>71</item> </second> </item> <item> <first>531</first> <second> <count>1</count> <item_version>0</item_version> <item>73</item> </second> </item> <item> <first>535</first> <second> <count>1</count> <item_version>0</item_version> <item>79</item> </second> </item> <item> <first>540</first> <second> <count>1</count> <item_version>0</item_version> <item>80</item> </second> </item> <item> <first>545</first> <second> <count>1</count> <item_version>0</item_version> <item>82</item> </second> </item> <item> <first>550</first> <second> <count>1</count> <item_version>0</item_version> <item>24</item> </second> </item> <item> <first>555</first> <second> <count>1</count> <item_version>0</item_version> <item>26</item> </second> </item> <item> <first>560</first> <second> <count>1</count> <item_version>0</item_version> <item>41</item> </second> </item> <item> <first>565</first> <second> <count>1</count> <item_version>0</item_version> <item>43</item> </second> </item> </dp_reg_nodes> <dp_regname_nodes> <count>26</count> <item_version>0</item_version> <item> <first>currWord_last_V_reg_518</first> <second> <count>1</count> <item_version>0</item_version> <item>60</item> </second> </item> <item> <first>er_fsm_state_flag_6_i_reg_148</first> <second> <count>1</count> <item_version>0</item_version> <item>101</item> </second> </item> <item> <first>er_fsm_state_load_reg_466</first> <second> <count>1</count> <item_version>0</item_version> <item>17</item> </second> </item> <item> <first>er_fsm_state_new_0_i_reg_138</first> <second> <count>1</count> <item_version>0</item_version> <item>95</item> </second> </item> <item> <first>er_fsm_state_new_6_i_reg_175</first> <second> <count>1</count> <item_version>0</item_version> <item>102</item> </second> </item> <item> <first>icmp_ln1049_reg_531</first> <second> <count>1</count> <item_version>0</item_version> <item>73</item> </second> </item> <item> <first>p_Result_3_reg_560</first> <second> <count>1</count> <item_version>0</item_version> <item>41</item> </second> </item> <item> <first>p_Result_4_i_reg_494</first> <second> <count>1</count> <item_version>0</item_version> <item>42</item> </second> </item> <item> <first>p_Result_4_reg_565</first> <second> <count>1</count> <item_version>0</item_version> <item>43</item> </second> </item> <item> <first>p_Val2_1_reg_475</first> <second> <count>1</count> <item_version>0</item_version> <item>19</item> </second> </item> <item> <first>p_Val2_s_reg_470</first> <second> <count>1</count> <item_version>0</item_version> <item>18</item> </second> </item> <item> <first>reg_251</first> <second> <count>2</count> <item_version>0</item_version> <item>61</item> <item>72</item> </second> </item> <item> <first>sendWord_data_V_reg_535</first> <second> <count>1</count> <item_version>0</item_version> <item>79</item> </second> </item> <item> <first>sendWord_dest_V_1_reg_480</first> <second> <count>1</count> <item_version>0</item_version> <item>20</item> </second> </item> <item> <first>sendWord_keep_V_reg_540</first> <second> <count>1</count> <item_version>0</item_version> <item>80</item> </second> </item> <item> <first>sendWord_last_V_4_reg_545</first> <second> <count>1</count> <item_version>0</item_version> <item>82</item> </second> </item> <item> <first>sendWord_last_V_5_reg_499</first> <second> <count>1</count> <item_version>0</item_version> <item>47</item> </second> </item> <item> <first>sendWord_last_V_reg_527</first> <second> <count>1</count> <item_version>0</item_version> <item>71</item> </second> </item> <item> <first>tmp_17_reg_508</first> <second> <count>1</count> <item_version>0</item_version> <item>58</item> </second> </item> <item> <first>tmp_18_reg_513</first> <second> <count>1</count> <item_version>0</item_version> <item>59</item> </second> </item> <item> <first>tmp_1_i_reg_485</first> <second> <count>1</count> <item_version>0</item_version> <item>30</item> </second> </item> <item> <first>tmp_i_16_reg_504</first> <second> <count>1</count> <item_version>0</item_version> <item>54</item> </second> </item> <item> <first>tmp_i_reg_523</first> <second> <count>1</count> <item_version>0</item_version> <item>65</item> </second> </item> <item> <first>trunc_ln674_reg_489</first> <second> <count>1</count> <item_version>0</item_version> <item>40</item> </second> </item> <item> <first>zext_ln414_1_reg_555</first> <second> <count>1</count> <item_version>0</item_version> <item>26</item> </second> </item> <item> <first>zext_ln414_reg_550</first> <second> <count>1</count> <item_version>0</item_version> <item>24</item> </second> </item> </dp_regname_nodes> <dp_reg_phi> <count>3</count> <item_version>0</item_version> <item> <first>138</first> <second> <count>1</count> <item_version>0</item_version> <item>95</item> </second> </item> <item> <first>148</first> <second> <count>1</count> <item_version>0</item_version> <item>101</item> </second> </item> <item> <first>175</first> <second> <count>1</count> <item_version>0</item_version> <item>102</item> </second> </item> </dp_reg_phi> <dp_regname_phi> <count>3</count> <item_version>0</item_version> <item> <first>er_fsm_state_flag_6_i_reg_148</first> <second> <count>1</count> <item_version>0</item_version> <item>101</item> </second> </item> <item> <first>er_fsm_state_new_0_i_reg_138</first> <second> <count>1</count> <item_version>0</item_version> <item>95</item> </second> </item> <item> <first>er_fsm_state_new_6_i_reg_175</first> <second> <count>1</count> <item_version>0</item_version> <item>102</item> </second> </item> </dp_regname_phi> <dp_port_io_nodes class_id="50" tracking_level="0" version="0"> <count>6</count> <item_version>0</item_version> <item class_id="51" tracking_level="0" version="0"> <first>eth_level_pkt</first> <second> <count>2</count> <item_version>0</item_version> <item> <first>nbreadreq</first> <second> <count>3</count> <item_version>0</item_version> <item>65</item> <item>54</item> <item>30</item> </second> </item> <item> <first>read</first> <second> <count>3</count> <item_version>0</item_version> <item>68</item> <item>57</item> <item>33</item> </second> </item> </second> </item> <item> <first>m_axis_V_data_V</first> <second> <count>1</count> <item_version>0</item_version> <item> <first>write</first> <second> <count>5</count> <item_version>0</item_version> <item>92</item> <item>87</item> <item>62</item> <item>51</item> <item>27</item> </second> </item> </second> </item> <item> <first>m_axis_V_dest_V</first> <second> <count>1</count> <item_version>0</item_version> <item> <first>write</first> <second> <count>5</count> <item_version>0</item_version> <item>92</item> <item>87</item> <item>62</item> <item>51</item> <item>27</item> </second> </item> </second> </item> <item> <first>m_axis_V_keep_V</first> <second> <count>1</count> <item_version>0</item_version> <item> <first>write</first> <second> <count>5</count> <item_version>0</item_version> <item>92</item> <item>87</item> <item>62</item> <item>51</item> <item>27</item> </second> </item> </second> </item> <item> <first>m_axis_V_last_V</first> <second> <count>1</count> <item_version>0</item_version> <item> <first>write</first> <second> <count>5</count> <item_version>0</item_version> <item>92</item> <item>87</item> <item>62</item> <item>51</item> <item>27</item> </second> </item> </second> </item> <item> <first>m_axis_V_strb_V</first> <second> <count>1</count> <item_version>0</item_version> <item> <first>write</first> <second> <count>5</count> <item_version>0</item_version> <item>92</item> <item>87</item> <item>62</item> <item>51</item> <item>27</item> </second> </item> </second> </item> </dp_port_io_nodes> <port2core> <count>1</count> <item_version>0</item_version> <item> <first>10</first> <second> <first>1150</first> <second>7</second> </second> </item> </port2core> <node2core> <count>20</count> <item_version>0</item_version> <item> <first>27</first> <second> <first>888</first> <second>111</second> </second> </item> <item> <first>30</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>33</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>45</first> <second> <first>25</first> <second>0</second> </second> </item> <item> <first>46</first> <second> <first>49</first> <second>107</second> </second> </item> <item> <first>47</first> <second> <first>23</first> <second>0</second> </second> </item> <item> <first>51</first> <second> <first>888</first> <second>111</second> </second> </item> <item> <first>54</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>57</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>62</first> <second> <first>888</first> <second>111</second> </second> </item> <item> <first>65</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>68</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>73</first> <second> <first>45</first> <second>0</second> </second> </item> <item> <first>78</first> <second> <first>49</first> <second>107</second> </second> </item> <item> <first>79</first> <second> <first>49</first> <second>107</second> </second> </item> <item> <first>80</first> <second> <first>49</first> <second>107</second> </second> </item> <item> <first>81</first> <second> <first>25</first> <second>0</second> </second> </item> <item> <first>82</first> <second> <first>24</first> <second>0</second> </second> </item> <item> <first>87</first> <second> <first>888</first> <second>111</second> </second> </item> <item> <first>92</first> <second> <first>888</first> <second>111</second> </second> </item> </node2core> </syndb> </boost_serialization>
--- src/anet-sockets-inet.adb.orig 2019-10-30 14:36:44 UTC +++ src/anet-sockets-inet.adb @@ -69,7 +69,7 @@ package body Anet.Sockets.Inet is Res : C.int; Sock : Thin.Inet.Sockaddr_In_Type (Family => Socket_Families.Family_Inet); - Len : aliased C.int := Sock'Size / 8; + Len : aliased C.int := Thin.Inet.Sockaddr_In_Size; begin New_Socket.Sock_FD := -1; Src := (Addr => Any_Addr, @@ -116,7 +116,7 @@ package body Anet.Sockets.Inet is Res : C.int; Sock : Thin.Inet.Sockaddr_In_Type (Family => Socket_Families.Family_Inet6); - Len : aliased C.int := Sock'Size / 8; + Len : aliased C.int := Thin.Inet.Sockaddr_In6_Size; begin New_Socket.Sock_FD := -1; Src := (Addr => Any_Addr_V6, @@ -173,7 +173,7 @@ package body Anet.Sockets.Inet is (Result => Thin.C_Bind (S => Socket.Sock_FD, Name => Sockaddr'Address, - Namelen => Sockaddr'Size / 8), + Namelen => Thin.Inet.Sockaddr_In_Size), Message => "Unable to bind IPv4 socket to " & To_String (Address => Address) & "," & Port'Img); end Bind; @@ -200,7 +200,7 @@ package body Anet.Sockets.Inet is (Result => Thin.C_Bind (S => Socket.Sock_FD, Name => Sockaddr'Address, - Namelen => Sockaddr'Size / 8), + Namelen => Thin.Inet.Sockaddr_In6_Size), Message => "Unable to bind IPv6 socket to " & To_String (Address => Address) & "," & Port'Img); end Bind; @@ -220,7 +220,7 @@ package body Anet.Sockets.Inet is (Result => Thin.C_Connect (S => Socket.Sock_FD, Name => Dst'Address, - Namelen => Dst'Size / 8), + Namelen => Thin.Inet.Sockaddr_In_Size), Message => "Unable to connect socket to address " & To_String (Address => Address) & " (" & Port'Img & " )"); end Connect; @@ -240,7 +240,7 @@ package body Anet.Sockets.Inet is (Result => Thin.C_Connect (S => Socket.Sock_FD, Name => Dst'Address, - Namelen => Dst'Size / 8), + Namelen => Thin.Inet.Sockaddr_In6_Size), Message => "Unable to connect socket to address " & To_String (Address => Address) & " (" & Port'Img & " )"); end Connect; @@ -478,7 +478,7 @@ package body Anet.Sockets.Inet is Len => Item'Length, Flags => Constants.Sys.MSG_NOSIGNAL, To => Dst'Address, - Tolen => Dst'Size / 8); + Tolen => Thin.Inet.Sockaddr_In_Size); Errno.Check_Or_Raise (Result => C.int (Res), @@ -510,7 +510,7 @@ package body Anet.Sockets.Inet is Len => Item'Length, Flags => Constants.Sys.MSG_NOSIGNAL, To => Dst'Address, - Tolen => Dst'Size / 8); + Tolen => Thin.Inet.Sockaddr_In6_Size); Errno.Check_Or_Raise (Result => C.int (Res),
-<include_all_series_headers>- with Ada.Unchecked_Conversion; package body -<full_series_name_dots>-.Factory is procedure PutObject (Object : in Avtas.Lmcp.Object.Object_Any; Buffer : in out ByteBuffer); function PackMessage (RootObject : in Avtas.Lmcp.Object.Object_Any; EnableChecksum : in Boolean) return ByteBuffer is -- Allocate space for message, with 15 extra bytes for -- Existence (1 byte), series name (8 bytes), type (4 bytes), version number (2 bytes) MsgSize : constant UInt32 := RootObject.CalculatePackedSize + 15; Buffer : ByteBuffer (HEADER_SIZE + MsgSize + CHECKSUM_SIZE); begin -- add header values Buffer.Put_Int32 (LMCP_CONTROL_STR); Buffer.Put_UInt32 (MsgSize); -- add root object PutObject (RootObject, Buffer); -- add checksum if enabled Buffer.Put_UInt32 (if EnableChecksum then CalculateChecksum (Buffer) else 0); return Buffer; end PackMessage; procedure PutObject (Object : in Avtas.Lmcp.Object.Object_Any; Buffer : in out ByteBuffer) is begin -- If object is null, pack a 0; otherwise, add root object if Object = null then Buffer.Put_Boolean (False); else Buffer.Put_Boolean (True); Buffer.Put_Int64 (Object.GetSeriesNameAsLong); Buffer.Put_UInt32 (Object.GetLmcpType); Buffer.Put_UInt16 (Object.GetSeriesVersion); Object.Pack (Buffer); end if; end PutObject; procedure GetObject (Buffer : in out ByteBuffer; Output : out Avtas.Lmcp.Object.Object_Any) is CtrlStr : Int32; MsgSize : UInt32; MsgExists : Boolean; SeriesId : Int64; MsgType : Uint32; Version : Uint16; begin Output := null; -- default -- TODO: add some kind of warning/error messages for each null case if buffer.Capacity < HEADER_SIZE + CHECKSUM_SIZE then return; end if; Buffer.Get_Int32 (CtrlStr); if CtrlStr /= LMCP_CONTROL_STR then return; end if; Buffer.Get_UInt32 (MsgSize); if Buffer.Capacity < MsgSize then return; end if; if not validate (buffer) then return; end if; Buffer.Get_Boolean (MsgExists); if not MsgExists then return; end if; Buffer.Get_Int64 (SeriesId); Buffer.Get_UInt32 (MsgType); Buffer.Get_UInt16 (Version); Output := CreateObject (SeriesId, MsgType, Version); if Output /= null then Output.Unpack (Buffer); end if; end GetObject; function createObject(seriesId : in Int64; msgType : in UInt32; version: in UInt16) return avtas.lmcp.object.Object_Any is begin -<series_factory_switch>- end createObject; function CalculateChecksum (Buffer : in ByteBuffer) return UInt32 is (Buffer.Checksum (From => 1, To => Buffer.Length - Checksum_Size)); -- We want to compute the checksum of the entire message so we start at -- index 1, but we don't want to include those bytes that either -- will, or already do hold the checksum stored within the message in the -- byte array. That stored checksum is at the very end. function GetObjectSize (Buffer : in ByteBuffer) return UInt32 is Result : UInt32; begin Buffer.Get_UInt32 (Result, First => 5); -- the second UInt32 value in the buffer return Result; end getObjectSize; function Validate (Buffer : in ByteBuffer) return Boolean is Computed_Checksum : UInt32; Existing_Checksum : UInt32; begin Computed_Checksum := CalculateChecksum (Buffer); if Computed_Checksum = 0 then return True; else Buffer.Get_UInt32 (Existing_Checksum, First => Buffer.Length - Checksum_Size + 1); -- the last 4 bytes in the buffer return Computed_Checksum = Existing_Checksum; end if; end Validate; end -<full_series_name_dots>-.Factory;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY COMPONENTS -- -- -- -- S Y S T E M . O S _ V E R S I O N -- -- -- -- S p e c -- -- -- -- Copyright (C) 2010-2020, 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/>. -- -- -- ------------------------------------------------------------------------------ -- This is the VxWorks 653 Partition OS version of this file. If you add an OS -- variant please be sure to update type OS_Version in all variants of this -- file, which is part of the Level A certified run-time libraries. package System.OS_Versions is pragma Pure (System.OS_Versions); type OS_Version is (LynxOS_178, VxWorks_Cert, VxWorks_Cert_RTP, VxWorks_653, VxWorks_MILS); OS : constant OS_Version := VxWorks_653; end System.OS_Versions;
with impact.d3.Shape.convex.internal; -- #include "impact.d3.Shape.convex.internal.polyhedral.box.h" -- #include "BulletCollision/BroadphaseCollision/impact.d3.collision.Proxy.h" // for the types -- #include "LinearMath/impact.d3.Vector.h" package impact.d3.Shape.convex.internal.cylinder -- -- The impact.d3.Shape.convex.internal.cylinder class implements a cylinder shape primitive, centered around the origin. Its central axis aligned -- with the Y axis. impact.d3.Shape.convex.internal.cylinderX is aligned with the X axis and impact.d3.Shape.convex.internal.cylinderZ around the Z axis. -- is type Item is new impact.d3.Shape.convex.internal.item with private; type View is access all Item'Class; overriding procedure calculateLocalInertia (Self : in Item; mass : in math.Real; inertia : out math.Vector_3); overriding function getName (Self : in Item) return String; overriding function localGetSupportingVertexWithoutMargin (Self : in Item; vec : in math.Vector_3) return Math.Vector_3; overriding function localGetSupportingVertex (Self : in Item; vec : in math.Vector_3) return Math.Vector_3; overriding procedure batchedUnitVectorGetSupportingVertexWithoutMargin (Self : in Item; vectors : in Vector_3_array; supportVerticesOut : out Vector_3_array; numVectors : in Integer); function getHalfExtentsWithMargin (Self : in Item) return math.Vector_3; function getHalfExtentsWithoutMargin (Self : in Item) return math.Vector_3; overriding procedure getAabb (Self : in Item; t : in Transform_3d; aabbMin, aabbMax : out math.Vector_3); overriding procedure setMargin (Self : in out Item; collisionMargin : in math.Real); -- procedure calculateLocalInertia (Self : in Item; mass : in math.Real; -- inertia : out math.Vector_3); -- -- Use box inertia. -- // virtual void calculateLocalInertia(impact.d3.Scalar mass,impact.d3.Vector& inertia) const; function getUpAxis (Self : in Item) return Integer; function getRadius (Self : in Item) return math.Real; overriding procedure setLocalScaling (Self : in out Item; scaling : in math.Vector_3); -------------- --- cylinderX -- type cylinderX is new impact.d3.Shape.convex.internal.cylinder.Item with private; overriding function localGetSupportingVertexWithoutMargin (Self : in cylinderX; vec : in math.Vector_3) return Math.Vector_3; overriding procedure batchedUnitVectorGetSupportingVertexWithoutMargin (Self : in cylinderX; vectors : in Vector_3_array; supportVerticesOut : out Vector_3_array; numVectors : in Integer); overriding function getName (Self : in cylinderX) return String; -- virtual const char* getName()const -- { -- return "CylinderX"; -- } overriding function getRadius (Self : in cylinderX) return math.Real; -- virtual impact.d3.Scalar getRadius() const -- { -- return getHalfExtentsWithMargin().getY(); -- } -------------- --- cylinderZ -- type cylinderZ is new impact.d3.Shape.convex.internal.cylinder.Item with private; overriding function localGetSupportingVertexWithoutMargin (Self : in cylinderZ; vec : in math.Vector_3) return Math.Vector_3; overriding procedure batchedUnitVectorGetSupportingVertexWithoutMargin (Self : in cylinderZ; vectors : in Vector_3_array; supportVerticesOut : out Vector_3_array; numVectors : in Integer); overriding function getName (Self : in cylinderZ) return String; -- virtual const char* getName()const -- { -- return "CylinderZ"; -- } overriding function getRadius (Self : in cylinderZ) return math.Real; -- virtual impact.d3.Scalar getRadius() const -- { -- return getHalfExtentsWithMargin().getX(); -- } package Forge is function to_cylinder_Shape (halfExtents : in math.Vector_3) return Item; function to_cylinder_Z_Shape (halfExtents : in math.Vector_3) return cylinderZ; function to_cylinder_X_Shape (halfExtents : in math.Vector_3) return cylinderX; end Forge; private type Item is new impact.d3.Shape.convex.internal.item with record m_upAxis : Integer; end record; type cylinderX is new impact.d3.Shape.convex.internal.cylinder.item with null record; type cylinderZ is new impact.d3.Shape.convex.internal.cylinder.item with null record; end impact.d3.Shape.convex.internal.cylinder;
------------------------------------------------------------------------------ -- -- -- 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. ------------------------------------------------------------------------------ limited with AMF.UML.Combined_Fragments; package AMF.Utp.Determ_Alts is pragma Preelaborate; type Utp_Determ_Alt is limited interface; type Utp_Determ_Alt_Access is access all Utp_Determ_Alt'Class; for Utp_Determ_Alt_Access'Storage_Size use 0; not overriding function Get_Base_Combined_Fragment (Self : not null access constant Utp_Determ_Alt) return AMF.UML.Combined_Fragments.UML_Combined_Fragment_Access is abstract; -- Getter of DetermAlt::base_CombinedFragment. -- not overriding procedure Set_Base_Combined_Fragment (Self : not null access Utp_Determ_Alt; To : AMF.UML.Combined_Fragments.UML_Combined_Fragment_Access) is abstract; -- Setter of DetermAlt::base_CombinedFragment. -- end AMF.Utp.Determ_Alts;
with GID.Buffering; use GID.Buffering; package body GID.Decoding_BMP is procedure Load (image: in out Image_descriptor) is b01, b, br, bg, bb: U8:= 0; x, x_max, y: Natural; -- function Times_257(x: Primary_color_range) return Primary_color_range is pragma Inline(Times_257); begin return 16 * (16 * x) + x; -- this is 257 * x, = 16#0101# * x -- Numbers 8-bit -> no OA warning at instanciation. Returns x if type Primary_color_range is mod 2*8. end Times_257; full_opaque: constant Primary_color_range:= Primary_color_range'Last; -- procedure Pixel_with_palette is pragma Inline(Pixel_with_palette); begin case Primary_color_range'Modulus is when 256 => Put_Pixel( Primary_color_range(image.palette(Integer(b)).red), Primary_color_range(image.palette(Integer(b)).green), Primary_color_range(image.palette(Integer(b)).blue), full_opaque ); when 65_536 => Put_Pixel( Times_257(Primary_color_range(image.palette(Integer(b)).red)), Times_257(Primary_color_range(image.palette(Integer(b)).green)), Times_257(Primary_color_range(image.palette(Integer(b)).blue)), -- Times_257 makes max intensity FF go to FFFF full_opaque ); when others => raise invalid_primary_color_range with "BMP: color range not supported"; end case; end Pixel_with_palette; -- pair: Boolean; bit: Natural range 0..7; -- line_bits: constant Float:= Float(image.width Positive_32 (image.bits_per_pixel)); padded_line_size: constant Positive:= 4 * Integer(Float'Ceiling(line_bits / 32.0)); unpadded_line_size: constant Positive:= Integer(Float'Ceiling(line_bits / 8.0)); -- (in bytes) begin Attach_Stream(image.buffer, image.stream); y:= 0; while y <= Integer (image.height) - 1 loop x:= 0; x_max:= Integer (image.width) - 1; case image.bits_per_pixel is when 1 => -- B/W bit:= 0; Set_X_Y(x,y); while x <= x_max loop if bit=0 then Get_Byte(image.buffer, b01); end if; b:= (b01 and 16#80#) / 16#80#; Pixel_with_palette; b01:= b01 * 2; -- cannot overflow. if bit=7 then bit:= 0; else bit:= bit + 1; end if; x:= x + 1; end loop; when 4 => -- 16 colour image pair:= True; Set_X_Y(x,y); while x <= x_max loop if pair then Get_Byte(image.buffer, b01); b:= (b01 and 16#F0#) / 16#10#; else b:= (b01 and 16#0F#); end if; pair:= not pair; Pixel_with_palette; x:= x + 1; end loop; when 8 => -- 256 colour image Set_X_Y(x,y); while x <= x_max loop Get_Byte(image.buffer, b); Pixel_with_palette; x:= x + 1; end loop; when 24 => -- RGB, 256 colour per primary colour Set_X_Y(x,y); while x <= x_max loop Get_Byte(image.buffer, bb); Get_Byte(image.buffer, bg); Get_Byte(image.buffer, br); case Primary_color_range'Modulus is when 256 => Put_Pixel( Primary_color_range(br), Primary_color_range(bg), Primary_color_range(bb), full_opaque ); when 65_536 => Put_Pixel( Times_257(Primary_color_range(br)), Times_257(Primary_color_range(bg)), Times_257(Primary_color_range(bb)), -- Times_257 makes max intensity FF go to FFFF full_opaque ); when others => raise invalid_primary_color_range with "BMP: color range not supported"; end case; x:= x + 1; end loop; when others => null; end case; for i in unpadded_line_size + 1 .. padded_line_size loop Get_Byte(image.buffer, b); end loop; y:= y + 1; Feedback((y*100) / Integer (image.height)); end loop; end Load; end GID.Decoding_BMP;
-- SPDX-License-Identifier: Apache-2.0 -- -- Copyright (c) 2017 onox <denkpadje@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 Orka.Transforms.SIMD_Quaternions; with Orka.Transforms.Singles.Vectors; package Orka.Transforms.Singles.Quaternions is new Orka.Transforms.SIMD_Quaternions (Orka.Transforms.Singles.Vectors); pragma Preelaborate (Orka.Transforms.Singles.Quaternions);
-- Auto_Counters_Suite.Unique_Ptrs_Tests -- Unit tests for Auto_Counters Unique_Ptrs package -- Copyright (c) 2016, James Humphry - see LICENSE file for details with AUnit.Assertions; with Unique_Ptrs; package body Auto_Counters_Suite.Unique_Ptrs_Tests is use AUnit.Assertions; Resources_Released : Natural := 0; procedure Deletion_Recorder (X : in out String) is pragma Unreferenced (X); begin Resources_Released := Resources_Released + 1; end Deletion_Recorder; package String_Unique_Ptrs is new Unique_Ptrs(T => String, Delete => Deletion_Recorder); use String_Unique_Ptrs; -------------------- -- Register_Tests -- -------------------- procedure Register_Tests (T: in out Unique_Ptrs_Test) is use AUnit.Test_Cases.Registration; begin Register_Routine (T, Check_Unique_Ptrs'Access, "Check Unique_Ptr"); Register_Routine (T, Check_Unique_Const_Ptrs'Access, "Check Unique_Const_Ptr"); end Register_Tests; ---------- -- Name -- ---------- function Name (T : Unique_Ptrs_Test) return Test_String is pragma Unreferenced (T); begin return Format ("Tests of Unique_Ptrs"); end Name; ------------ -- Set_Up -- ------------ procedure Set_Up (T : in out Unique_Ptrs_Test) is begin null; end Set_Up; ----------------------- -- Check_Unique_Ptrs -- ----------------------- procedure Check_Unique_Ptrs (T : in out Test_Cases.Test_Case'Class) is pragma Unreferenced(T); UP1 : Unique_Ptr := Make_Unique_Ptr(new String'("Hello, World!")); procedure Make_UP_from_Local is S : aliased String := "Test"; UP2 : Unique_Ptr(Element => S'Access); pragma Unreferenced (UP2); begin null; end Make_UP_from_Local; Caught_Make_UP_from_Local : Boolean := False; begin Assert (UP1 = "Hello, World!", "Initialized Unique_Ptr not working"); UP1(6):= ':'; Assert (UP1 = "Hello: World!", "Writing via a Unique_Ptr is not working"); UP1.Get(6):= ','; Assert (UP1 = "Hello, World!", "Writing via Unique_Ptr.Get is not working"); Resources_Released := 0; declare UP3 : Unique_Ptr := Make_Unique_Ptr(new String'("Goodbye, World!")); pragma Unreferenced (UP3); begin null; end; Assert (Resources_Released = 1, "Unique_Ptr did not delete contents when destroyed"); begin Make_UP_from_Local; exception when Unique_Ptr_Error => Caught_Make_UP_from_Local := True; end; Assert(Caught_Make_UP_from_Local, "Failed to identify Unique_Ptr being set to a local"); end Check_Unique_Ptrs; ----------------------------- -- Check_Unique_Const_Ptrs -- ----------------------------- procedure Check_Unique_Const_Ptrs (T : in out Test_Cases.Test_Case'Class) is pragma Unreferenced(T); UCP1 : Unique_Const_Ptr := Make_Unique_Const_Ptr(new String'("Hello, World!")); procedure Make_UCP_from_Local is S : aliased String := "Test"; UP2 : Unique_Const_Ptr(Element => S'Access); pragma Unreferenced (UP2); begin null; end Make_UCP_from_Local; Caught_Make_UCP_from_Local : Boolean := False; begin Assert (UCP1 = "Hello, World!", "Initialized Unique_Const_Ptr not working"); Assert (UCP1.Get.all = "Hello, World!", "Access via Unique_Const_Ptr.Get not working"); Resources_Released := 0; declare UCP3 : Unique_Const_Ptr := Make_Unique_Const_Ptr(new String'("Goodbye, World!")); pragma Unreferenced (UCP3); begin null; end; Assert (Resources_Released = 1, "Unique_Const_Ptr did not delete contents when destroyed"); begin Make_UCP_from_Local; exception when Unique_Ptr_Error => Caught_Make_UCP_from_Local := True; end; Assert(Caught_Make_UCP_from_Local, "Failed to identify Unique_Const_Ptr being set to a local"); end Check_Unique_Const_Ptrs; end Auto_Counters_Suite.Unique_Ptrs_Tests;
----------------------------------------------------------------------- -- babel-Streams -- Stream management -- Copyright (C) 2014, 2015 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. ----------------------------------------------------------------------- package body Babel.Streams.Refs is procedure Copy (From : in Stream_Ref; Into : in Stream_Ref) is use type Babel.Files.Buffers.Buffer_Access; From_Stream : constant Stream_Access := From.Value; Into_Stream : constant Stream_Access := Into.Value; Buffer : Babel.Files.Buffers.Buffer_Access; begin From_Stream.Rewind; loop From_Stream.Read (Buffer); exit when Buffer = null; Into_Stream.Write (Buffer); end loop; end Copy; end Babel.Streams.Refs;
with Control; with Ada.Real_Time;use Ada.Real_Time; package body Blinker is protected body Cmd_Type_Access is procedure Send( Cmd : Command_To_Type ) is --binary semaphore begin Command_Is_New := False; if Command_To.Cmd /= Cmd.Cmd then Command_To := Cmd; Command_Is_New := True; end if; end Send; entry Receive( Cmd : out Command_To_Type) when Command_Is_New is begin Cmd := Command_To; end Receive; end Cmd_Type_Access; task body Blinker_Type is Next_Time : Time := Clock + Milliseconds(250); Blinker_Stopped: Boolean := False; On : Boolean := False; Command : Command_To_Type; begin loop Protected_Command.Receive(Command); --if Command.Receiver = Id then case Command.Cmd is --when QUIT => -- Control.Put_Line("Quit"); -- exit; when START => Blinker_Stopped := False; On := not On; if On then Control.Put_Line("B"& Id_Type'Image(Command.Receiver) & "S"); else Control.Put_Line("B" & Id_Type'Image(Command.Receiver) & "E"); end if; case Id is when R => Control.Toggle_LedR; when L => Control.Toggle_LedL; when E => Control.Toggle_LedL; Control.Toggle_LedR; when others => null; end case; when STOP => if not Blinker_Stopped then Control.Put_Line("ABS"); Blinker_Stopped := True; Control.Off_LedL; Control.Off_LedR; end if; end case; --end if; Next_Time := Next_Time + Milliseconds(250); delay until Next_Time; end loop; end Blinker_Type; end Blinker;
------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . C H A R A C T E R S . W I D E _ L A T I N _ 1 -- -- -- -- 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. -- -- -- ------------------------------------------------------------------------------ -- This package provides definitions analogous to those in the RM defined -- package Ada.Characters.Latin_1 except that the type of the constants -- is Wide_Character instead of Character. The provision of this package -- is in accordance with the implementation permission in RM (A.3.3(27)). package Ada.Characters.Wide_Latin_1 is pragma Pure; ------------------------ -- Control Characters -- ------------------------ NUL : constant Wide_Character := Wide_Character'Val (0); SOH : constant Wide_Character := Wide_Character'Val (1); STX : constant Wide_Character := Wide_Character'Val (2); ETX : constant Wide_Character := Wide_Character'Val (3); EOT : constant Wide_Character := Wide_Character'Val (4); ENQ : constant Wide_Character := Wide_Character'Val (5); ACK : constant Wide_Character := Wide_Character'Val (6); BEL : constant Wide_Character := Wide_Character'Val (7); BS : constant Wide_Character := Wide_Character'Val (8); HT : constant Wide_Character := Wide_Character'Val (9); LF : constant Wide_Character := Wide_Character'Val (10); VT : constant Wide_Character := Wide_Character'Val (11); FF : constant Wide_Character := Wide_Character'Val (12); CR : constant Wide_Character := Wide_Character'Val (13); SO : constant Wide_Character := Wide_Character'Val (14); SI : constant Wide_Character := Wide_Character'Val (15); DLE : constant Wide_Character := Wide_Character'Val (16); DC1 : constant Wide_Character := Wide_Character'Val (17); DC2 : constant Wide_Character := Wide_Character'Val (18); DC3 : constant Wide_Character := Wide_Character'Val (19); DC4 : constant Wide_Character := Wide_Character'Val (20); NAK : constant Wide_Character := Wide_Character'Val (21); SYN : constant Wide_Character := Wide_Character'Val (22); ETB : constant Wide_Character := Wide_Character'Val (23); CAN : constant Wide_Character := Wide_Character'Val (24); EM : constant Wide_Character := Wide_Character'Val (25); SUB : constant Wide_Character := Wide_Character'Val (26); ESC : constant Wide_Character := Wide_Character'Val (27); FS : constant Wide_Character := Wide_Character'Val (28); GS : constant Wide_Character := Wide_Character'Val (29); RS : constant Wide_Character := Wide_Character'Val (30); US : constant Wide_Character := Wide_Character'Val (31); ------------------------------------- -- ISO 646 Graphic Wide_Characters -- ------------------------------------- Space : constant Wide_Character := ' '; -- WC'Val(32) Exclamation : constant Wide_Character := '!'; -- WC'Val(33) Quotation : constant Wide_Character := '"'; -- WC'Val(34) Number_Sign : constant Wide_Character := '#'; -- WC'Val(35) Dollar_Sign : constant Wide_Character := '$'; -- WC'Val(36) Percent_Sign : constant Wide_Character := '%'; -- WC'Val(37) Ampersand : constant Wide_Character := '&'; -- WC'Val(38) Apostrophe : constant Wide_Character := '''; -- WC'Val(39) Left_Parenthesis : constant Wide_Character := '('; -- WC'Val(40) Right_Parenthesis : constant Wide_Character := ')'; -- WC'Val(41) Asterisk : constant Wide_Character := '*'; -- WC'Val(42) Plus_Sign : constant Wide_Character := '+'; -- WC'Val(43) Comma : constant Wide_Character := ','; -- WC'Val(44) Hyphen : constant Wide_Character := '-'; -- WC'Val(45) Minus_Sign : Wide_Character renames Hyphen; Full_Stop : constant Wide_Character := '.'; -- WC'Val(46) Solidus : constant Wide_Character := '/'; -- WC'Val(47) -- Decimal digits '0' though '9' are at positions 48 through 57 Colon : constant Wide_Character := ':'; -- WC'Val(58) Semicolon : constant Wide_Character := ';'; -- WC'Val(59) Less_Than_Sign : constant Wide_Character := '<'; -- WC'Val(60) Equals_Sign : constant Wide_Character := '='; -- WC'Val(61) Greater_Than_Sign : constant Wide_Character := '>'; -- WC'Val(62) Question : constant Wide_Character := '?'; -- WC'Val(63) Commercial_At : constant Wide_Character := '@'; -- WC'Val(64) -- Letters 'A' through 'Z' are at positions 65 through 90 Left_Square_Bracket : constant Wide_Character := '['; -- WC'Val (91) Reverse_Solidus : constant Wide_Character := '\'; -- WC'Val (92) Right_Square_Bracket : constant Wide_Character := ']'; -- WC'Val (93) Circumflex : constant Wide_Character := '^'; -- WC'Val (94) Low_Line : constant Wide_Character := '_'; -- WC'Val (95) Grave : constant Wide_Character := '`'; -- WC'Val (96) LC_A : constant Wide_Character := 'a'; -- WC'Val (97) LC_B : constant Wide_Character := 'b'; -- WC'Val (98) LC_C : constant Wide_Character := 'c'; -- WC'Val (99) LC_D : constant Wide_Character := 'd'; -- WC'Val (100) LC_E : constant Wide_Character := 'e'; -- WC'Val (101) LC_F : constant Wide_Character := 'f'; -- WC'Val (102) LC_G : constant Wide_Character := 'g'; -- WC'Val (103) LC_H : constant Wide_Character := 'h'; -- WC'Val (104) LC_I : constant Wide_Character := 'i'; -- WC'Val (105) LC_J : constant Wide_Character := 'j'; -- WC'Val (106) LC_K : constant Wide_Character := 'k'; -- WC'Val (107) LC_L : constant Wide_Character := 'l'; -- WC'Val (108) LC_M : constant Wide_Character := 'm'; -- WC'Val (109) LC_N : constant Wide_Character := 'n'; -- WC'Val (110) LC_O : constant Wide_Character := 'o'; -- WC'Val (111) LC_P : constant Wide_Character := 'p'; -- WC'Val (112) LC_Q : constant Wide_Character := 'q'; -- WC'Val (113) LC_R : constant Wide_Character := 'r'; -- WC'Val (114) LC_S : constant Wide_Character := 's'; -- WC'Val (115) LC_T : constant Wide_Character := 't'; -- WC'Val (116) LC_U : constant Wide_Character := 'u'; -- WC'Val (117) LC_V : constant Wide_Character := 'v'; -- WC'Val (118) LC_W : constant Wide_Character := 'w'; -- WC'Val (119) LC_X : constant Wide_Character := 'x'; -- WC'Val (120) LC_Y : constant Wide_Character := 'y'; -- WC'Val (121) LC_Z : constant Wide_Character := 'z'; -- WC'Val (122) Left_Curly_Bracket : constant Wide_Character := '{'; -- WC'Val (123) Vertical_Line : constant Wide_Character := '\|'; -- WC'Val (124) Right_Curly_Bracket : constant Wide_Character := '}'; -- WC'Val (125) Tilde : constant Wide_Character := '~'; -- WC'Val (126) DEL : constant Wide_Character := Wide_Character'Val (127); -------------------------------------- -- ISO 6429 Control Wide_Characters -- -------------------------------------- IS4 : Wide_Character renames FS; IS3 : Wide_Character renames GS; IS2 : Wide_Character renames RS; IS1 : Wide_Character renames US; Reserved_128 : constant Wide_Character := Wide_Character'Val (128); Reserved_129 : constant Wide_Character := Wide_Character'Val (129); BPH : constant Wide_Character := Wide_Character'Val (130); NBH : constant Wide_Character := Wide_Character'Val (131); Reserved_132 : constant Wide_Character := Wide_Character'Val (132); NEL : constant Wide_Character := Wide_Character'Val (133); SSA : constant Wide_Character := Wide_Character'Val (134); ESA : constant Wide_Character := Wide_Character'Val (135); HTS : constant Wide_Character := Wide_Character'Val (136); HTJ : constant Wide_Character := Wide_Character'Val (137); VTS : constant Wide_Character := Wide_Character'Val (138); PLD : constant Wide_Character := Wide_Character'Val (139); PLU : constant Wide_Character := Wide_Character'Val (140); RI : constant Wide_Character := Wide_Character'Val (141); SS2 : constant Wide_Character := Wide_Character'Val (142); SS3 : constant Wide_Character := Wide_Character'Val (143); DCS : constant Wide_Character := Wide_Character'Val (144); PU1 : constant Wide_Character := Wide_Character'Val (145); PU2 : constant Wide_Character := Wide_Character'Val (146); STS : constant Wide_Character := Wide_Character'Val (147); CCH : constant Wide_Character := Wide_Character'Val (148); MW : constant Wide_Character := Wide_Character'Val (149); SPA : constant Wide_Character := Wide_Character'Val (150); EPA : constant Wide_Character := Wide_Character'Val (151); SOS : constant Wide_Character := Wide_Character'Val (152); Reserved_153 : constant Wide_Character := Wide_Character'Val (153); SCI : constant Wide_Character := Wide_Character'Val (154); CSI : constant Wide_Character := Wide_Character'Val (155); ST : constant Wide_Character := Wide_Character'Val (156); OSC : constant Wide_Character := Wide_Character'Val (157); PM : constant Wide_Character := Wide_Character'Val (158); APC : constant Wide_Character := Wide_Character'Val (159); ----------------------------------- -- Other Graphic Wide_Characters -- ----------------------------------- -- Wide_Character positions 160 (16#A0#) .. 175 (16#AF#) No_Break_Space : constant Wide_Character := Wide_Character'Val (160); NBSP : Wide_Character renames No_Break_Space; Inverted_Exclamation : constant Wide_Character := Wide_Character'Val (161); Cent_Sign : constant Wide_Character := Wide_Character'Val (162); Pound_Sign : constant Wide_Character := Wide_Character'Val (163); Currency_Sign : constant Wide_Character := Wide_Character'Val (164); Yen_Sign : constant Wide_Character := Wide_Character'Val (165); Broken_Bar : constant Wide_Character := Wide_Character'Val (166); Section_Sign : constant Wide_Character := Wide_Character'Val (167); Diaeresis : constant Wide_Character := Wide_Character'Val (168); Copyright_Sign : constant Wide_Character := Wide_Character'Val (169); Feminine_Ordinal_Indicator : constant Wide_Character := Wide_Character'Val (170); Left_Angle_Quotation : constant Wide_Character := Wide_Character'Val (171); Not_Sign : constant Wide_Character := Wide_Character'Val (172); Soft_Hyphen : constant Wide_Character := Wide_Character'Val (173); Registered_Trade_Mark_Sign : constant Wide_Character := Wide_Character'Val (174); Macron : constant Wide_Character := Wide_Character'Val (175); -- Wide_Character positions 176 (16#B0#) .. 191 (16#BF#) Degree_Sign : constant Wide_Character := Wide_Character'Val (176); Ring_Above : Wide_Character renames Degree_Sign; Plus_Minus_Sign : constant Wide_Character := Wide_Character'Val (177); Superscript_Two : constant Wide_Character := Wide_Character'Val (178); Superscript_Three : constant Wide_Character := Wide_Character'Val (179); Acute : constant Wide_Character := Wide_Character'Val (180); Micro_Sign : constant Wide_Character := Wide_Character'Val (181); Pilcrow_Sign : constant Wide_Character := Wide_Character'Val (182); Paragraph_Sign : Wide_Character renames Pilcrow_Sign; Middle_Dot : constant Wide_Character := Wide_Character'Val (183); Cedilla : constant Wide_Character := Wide_Character'Val (184); Superscript_One : constant Wide_Character := Wide_Character'Val (185); Masculine_Ordinal_Indicator : constant Wide_Character := Wide_Character'Val (186); Right_Angle_Quotation : constant Wide_Character := Wide_Character'Val (187); Fraction_One_Quarter : constant Wide_Character := Wide_Character'Val (188); Fraction_One_Half : constant Wide_Character := Wide_Character'Val (189); Fraction_Three_Quarters : constant Wide_Character := Wide_Character'Val (190); Inverted_Question : constant Wide_Character := Wide_Character'Val (191); -- Wide_Character positions 192 (16#C0#) .. 207 (16#CF#) UC_A_Grave : constant Wide_Character := Wide_Character'Val (192); UC_A_Acute : constant Wide_Character := Wide_Character'Val (193); UC_A_Circumflex : constant Wide_Character := Wide_Character'Val (194); UC_A_Tilde : constant Wide_Character := Wide_Character'Val (195); UC_A_Diaeresis : constant Wide_Character := Wide_Character'Val (196); UC_A_Ring : constant Wide_Character := Wide_Character'Val (197); UC_AE_Diphthong : constant Wide_Character := Wide_Character'Val (198); UC_C_Cedilla : constant Wide_Character := Wide_Character'Val (199); UC_E_Grave : constant Wide_Character := Wide_Character'Val (200); UC_E_Acute : constant Wide_Character := Wide_Character'Val (201); UC_E_Circumflex : constant Wide_Character := Wide_Character'Val (202); UC_E_Diaeresis : constant Wide_Character := Wide_Character'Val (203); UC_I_Grave : constant Wide_Character := Wide_Character'Val (204); UC_I_Acute : constant Wide_Character := Wide_Character'Val (205); UC_I_Circumflex : constant Wide_Character := Wide_Character'Val (206); UC_I_Diaeresis : constant Wide_Character := Wide_Character'Val (207); -- Wide_Character positions 208 (16#D0#) .. 223 (16#DF#) UC_Icelandic_Eth : constant Wide_Character := Wide_Character'Val (208); UC_N_Tilde : constant Wide_Character := Wide_Character'Val (209); UC_O_Grave : constant Wide_Character := Wide_Character'Val (210); UC_O_Acute : constant Wide_Character := Wide_Character'Val (211); UC_O_Circumflex : constant Wide_Character := Wide_Character'Val (212); UC_O_Tilde : constant Wide_Character := Wide_Character'Val (213); UC_O_Diaeresis : constant Wide_Character := Wide_Character'Val (214); Multiplication_Sign : constant Wide_Character := Wide_Character'Val (215); UC_O_Oblique_Stroke : constant Wide_Character := Wide_Character'Val (216); UC_U_Grave : constant Wide_Character := Wide_Character'Val (217); UC_U_Acute : constant Wide_Character := Wide_Character'Val (218); UC_U_Circumflex : constant Wide_Character := Wide_Character'Val (219); UC_U_Diaeresis : constant Wide_Character := Wide_Character'Val (220); UC_Y_Acute : constant Wide_Character := Wide_Character'Val (221); UC_Icelandic_Thorn : constant Wide_Character := Wide_Character'Val (222); LC_German_Sharp_S : constant Wide_Character := Wide_Character'Val (223); -- Wide_Character positions 224 (16#E0#) .. 239 (16#EF#) LC_A_Grave : constant Wide_Character := Wide_Character'Val (224); LC_A_Acute : constant Wide_Character := Wide_Character'Val (225); LC_A_Circumflex : constant Wide_Character := Wide_Character'Val (226); LC_A_Tilde : constant Wide_Character := Wide_Character'Val (227); LC_A_Diaeresis : constant Wide_Character := Wide_Character'Val (228); LC_A_Ring : constant Wide_Character := Wide_Character'Val (229); LC_AE_Diphthong : constant Wide_Character := Wide_Character'Val (230); LC_C_Cedilla : constant Wide_Character := Wide_Character'Val (231); LC_E_Grave : constant Wide_Character := Wide_Character'Val (232); LC_E_Acute : constant Wide_Character := Wide_Character'Val (233); LC_E_Circumflex : constant Wide_Character := Wide_Character'Val (234); LC_E_Diaeresis : constant Wide_Character := Wide_Character'Val (235); LC_I_Grave : constant Wide_Character := Wide_Character'Val (236); LC_I_Acute : constant Wide_Character := Wide_Character'Val (237); LC_I_Circumflex : constant Wide_Character := Wide_Character'Val (238); LC_I_Diaeresis : constant Wide_Character := Wide_Character'Val (239); -- Wide_Character positions 240 (16#F0#) .. 255 (16#FF) LC_Icelandic_Eth : constant Wide_Character := Wide_Character'Val (240); LC_N_Tilde : constant Wide_Character := Wide_Character'Val (241); LC_O_Grave : constant Wide_Character := Wide_Character'Val (242); LC_O_Acute : constant Wide_Character := Wide_Character'Val (243); LC_O_Circumflex : constant Wide_Character := Wide_Character'Val (244); LC_O_Tilde : constant Wide_Character := Wide_Character'Val (245); LC_O_Diaeresis : constant Wide_Character := Wide_Character'Val (246); Division_Sign : constant Wide_Character := Wide_Character'Val (247); LC_O_Oblique_Stroke : constant Wide_Character := Wide_Character'Val (248); LC_U_Grave : constant Wide_Character := Wide_Character'Val (249); LC_U_Acute : constant Wide_Character := Wide_Character'Val (250); LC_U_Circumflex : constant Wide_Character := Wide_Character'Val (251); LC_U_Diaeresis : constant Wide_Character := Wide_Character'Val (252); LC_Y_Acute : constant Wide_Character := Wide_Character'Val (253); LC_Icelandic_Thorn : constant Wide_Character := Wide_Character'Val (254); LC_Y_Diaeresis : constant Wide_Character := Wide_Character'Val (255); end Ada.Characters.Wide_Latin_1;
------------------------------------------------------------------------------ -- -- -- GNAT RUNTIME COMPONENTS -- -- -- -- S Y S T E M . G E N E R I C _ C _ M A T H _ I N T E R F A C E -- -- -- -- B o d y -- -- -- -- 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 is the Ada Cert Math specific version of s-gcmain.adb. -- The separate version is necessary, because this system does not provide -- an implementation of tanh, among other hyperbolic functions. The run time -- currently has no code to implement this function, so the only short term -- option was to remove the hyperbolic functions. with Ada.Numerics; use Ada.Numerics; package body System.Generic_C_Math_Interface is subtype T is Float_Type'Base; -- The implementations of these functions start with a summary -- of the Ada requirements for the following: -- * Principal branch of multivalued functions -- * Conditions for raising exceptions -- * Prescribed function results -- * Tightly approximated function results (strict mode only) -- Implementation choices are explained after the summary for each -- elementary function. Exceptions are raised either by checking the -- arguments or the C function result. Prescribed results are satisfied by -- referring to corresponding requirements in C, standard implementation -- practice or by explicit special-casing in the code below. -- If one of the arguments of a function is a NaN, the function will return -- a NaN value or raise Argument_Error. Generally, for functions that -- require Argument_Error to be raised for some arguments will also -- raise Argument_Error for NaN arguments. -- Many comparisons for special cases are inverted using "not" in order -- to make sure the condition is false for NaN values, using the principle -- that any comparison involving a NaN argument evaluates to false. -- Principal branch: -- Describes function result for cases where the mathematical -- function is multivalued. -- Exceptions: -- Describes in what situations exceptions such as -- Argument_Error and Constraint_Error must be raised. -- In addition to these required exceptions, Constraint_Error -- may also be raised instead of yielding an infinity value -- for types T where T'Machine_Overflows is True. -- Prescribed results: -- Describes identities that must be satisfied. -- Tightly approximated results: -- Describes arguments for which the function result must -- be in the model interval of the mathematical result. -- This is required for strict mode. -- Special values: -- These are implementation-defined results arguments with -- special values such as infinities (represented by +Inf and -Inf) -- not-a-number values (written as NaN). Where consistent with the -- Ada standard, the implementation satisfies the identities given -- in Chapter F.9 of the C standard. ---------- -- "" -- ---------- -- Principle branch: -- The result is nonnegative. -- Required exceptions: -- Argument_Error is raised when Left < 0.0, Left is a NaN -- or when Left = 0.0 and Right = 0.0. -- Constraint_Error is raised when Left = 0.0, and Right < 0.0 or is a -- NaN. -- Prescribed results: -- (1) Left 0.0 = 1.0 -- (2) Left 1.0 = Left -- (3) 0.0 Right = 0.0 -- (4) 1.0 Right = 1.0 -- The prescribed result (1) is satisfied by C_Pow. -- Result (2) is not, and therefore is special-cased. -- For case (3) this implementation always returns +0.0, -- while C_Pow would return -0.0 when Left = -0.0 and Right a positive -- odd integer. This would seem inconsistent with the required principle -- branch, although it is debatable whether -0.0 is negative. -- For case (4), C_Pow would return NaN, so a special case is required. function "" (Left, Right : Float_Type'Base) return Float_Type'Base is begin -- The if statements are structured to ensure NaN parameters cause the -- correct exception to be raised (since a NaN will always fail a -- non-equal comparison test). if not (Left > 0.0) then if not (Left = 0.0) or else not (Right /= 0.0) then raise Argument_Error; elsif not (Right >= 0.0) then raise Constraint_Error; else -- Left = 0.0 and Right > 0.0 return 0.0; end if; elsif Right = 1.0 then return Left; elsif Left = 1.0 then return 1.0; end if; return C_Pow (Left, Right); end "*"; ------------ -- Arccos -- ------------ -- (Natural cycle) -- Principal branch: -- The result is in the quadrant containing the point (X, 1.0). -- This quadrant is I or II; thus, the Arccos function ranges -- from 0.0 to approximately Pi. -- Exceptions: -- Argument_Error is raised when abs (X) > 1.0 -- Tightly approximated results: -- Arccos (0.0) = Pi / 2.0; -- Arccos (1.0) = 0.0; -- Since C mandates a NaN result for abs (X) > 1.0 and testing -- for a NaN only requires a single test without calling the "abs" -- function, the result is checked rather than the argument. function Arccos (X : Float_Type'Base) return Float_Type'Base is R : T; begin R := C_Acos (X); if R /= R then raise Argument_Error; else return R; end if; end Arccos; -- (Arbitrary cycle) -- Principal branch: -- The result is in the quadrant containing the point (X, 1.0). -- This quadrant is I or II; thus, the Arccos function ranges -- from 0.0 to approximately Cycle / 2.0. -- Exceptions: -- Argument_Error is raised when abs (X) > 1.0 or when Cycle <= 0.0 -- or when either parameter is a NaN -- Prescribed results: -- Arccos (1.0) = 0.0 -- Tightly approximated results: -- Arccos (0.0) = Cycle / 4.0 -- Since C mandates a NaN result for abs (X) > 1.0 and testing for a NaN -- only requires a single test without calling the "abs" function, the -- result is checked rather than the argument. The tightly approximated -- result may not be obtained by dividing the C_Acos result by Pi, since -- these are transcedental numbers. function Arccos (X, Cycle : Float_Type'Base) return Float_Type'Base is begin if not (Cycle > 0.0) then raise Argument_Error; elsif not (abs X < 1.0) then if X = 1.0 then return 0.0; elsif X = -1.0 then return Cycle / 2.0; end if; raise Argument_Error; end if; if X = 0.0 then return Cycle / 4.0; end if; return C_Acos (X) / (Pi / 2.0) (Cycle / 4.0); end Arccos; ------------- -- Arccosh -- ------------- -- Principal branch: -- The result is positive -- Exceptions: -- Argument_Error is raised when X < 1.0 -- Prescribed results: -- Arccosh (1.0) = 0.0; -- General description -- TODO function Arccosh (X : Float_Type'Base) return Float_Type'Base is begin if X < 1.0 then raise Argument_Error; else return C_Acosh (X); end if; end Arccosh; ------------ -- Arccot -- ------------ -- Natural cycle -- Principal branch: -- The results are in the quadrant containing the point (X, Y). -- This may be any quadrant (I through IV) when the parameter Y is -- specified, but it is restricted to quadrants I and II when that -- parameter is omitted. Thus the range when that parameter is -- specified is approximately -Pi to Pi; when omitted the range is -- 0.0 to Pi. -- Exceptions: -- Argument_Error is raised when parameters X and Y both have the -- value zero -- Prescribed results: -- Arccot (X, 0.0) = 0.0 when X > 0.0 function Arccot (X : Float_Type'Base; Y : Float_Type'Base := 1.0) return Float_Type'Base is begin if X = 0.0 and then Y = 0.0 then raise Argument_Error; else -- Just reverse arguments return Arctan (Y, X); end if; end Arccot; -- Arbitrary cycle function Arccot (X : Float_Type'Base; Y : Float_Type'Base := 1.0; Cycle : Float_Type'Base) return Float_Type'Base is begin if X = 0.0 and then Y = 0.0 then raise Argument_Error; else -- Just reverse arguments return Arctan (Y, X, Cycle); end if; end Arccot; ------------- -- Arccoth -- ------------- -- Exceptions: -- Argument_Error is raised if abs (X) < 1.0 -- Constraint_Error is raised if X = +-1.0 function Arccoth (X : Float_Type'Base) return Float_Type'Base is begin if abs X <= 1.0 then if abs X = 1.0 then raise Constraint_Error; else raise Argument_Error; end if; elsif abs X > 2.0 then return C_Atanh (1.0 / X); else -- 1.0 < abs X <= 2.0. One of X + 1.0 and X - 1.0 is exact, the -- other has error 0 or Epsilon. return 0.5 * (C_Log (abs (X + 1.0)) - C_Log (abs (X - 1.0))); end if; end Arccoth; ------------ -- Arcsin -- ------------ -- (Natural cycle) -- Principal branch: -- The result of the Arcsin function is in the quadrant containing the -- the point (1.0, X). This quadrant is I or IV; thus, the range of the -- function is approximately -Pi/2.0 to Pi/2.0. -- Exceptions: -- Argument_Error is raised when abs X > 1.0 or X is a NaN -- Prescribed results: -- Arcsin (0.0) = 0.0 -- Tightly approximated results: -- Arcsin (1.0) = Pi / 2.0 -- Arcsin (-1.0) = -Pi / 2.0 -- The prescribed result is guaranteed by C, but the tightly approximated -- results are not. function Arcsin (X : Float_Type'Base) return Float_Type'Base is Y : constant T := abs X; begin if not (Y < 1.0) then if X = 1.0 then return Pi / 2.0; elsif X = -1.0 then return -Pi / 2.0; else raise Argument_Error; end if; end if; return C_Asin (X); end Arcsin; -- (Arbitrary cycle) -- Principal branch: -- The result of the Arcsin function is in the quadrant containing the -- the point (1.0, X). This quadrant is I or IV; thus, the range of the -- function is approximately -Cycle/4.0 to Cycle/4.0. -- Exceptions: -- Argument_Error is raised when abs X > 1.0 or X is a NaN -- or when Cycle <= 0.0 or Cycle is a NaN -- Prescribed results: -- Arcsin (0.0) = 0.0 -- Tightly approximated results: -- Arcsin (1.0) = Cycle / 4.0 -- Arcsin (-1.0) = -Cycle / 4.0 -- The prescribed result is guaranteed by C, but the tightly approximated -- results are not. function Arcsin (X, Cycle : Float_Type'Base) return Float_Type'Base is Y : constant T := abs X; begin if not (Cycle > 0.0) then raise Argument_Error; elsif not (Y < 1.0) then if X = 1.0 then return Cycle / 4.0; elsif X = -1.0 then return -Cycle / 4.0; else raise Argument_Error; end if; end if; return C_Asin (X) / (Pi / 2.0) * (Cycle / 4.0); end Arcsin; ------------- -- Arcsinh -- ------------- -- Prescribed results: -- Arcsinh (0.0) = 0.0 -- TODO - general description function Arcsinh (X : Float_Type'Base) return Float_Type'Base is (C_Asinh (X)); ------------ -- Arctan -- ------------ -- (Natural cycle) -- Principal branch: -- The results are in the quadrant containing the point (X, Y). -- This may be any quadrant (I through IV) when the parameter X is -- specified, but it is restricted to quadrants I and IV when that -- parameter is omitted. Thus the range when that parameter is -- specified is approximately -Pi to Pi; when omitted the range is -- -Pi/2.0 to Pi/2.0. -- Exceptions: -- Argument_Error is raised when both X and Y have the value zero. -- Prescribed results: -- Arctan ( X, 0.0) = 0.0, when X > 0.0 -- Tightly approximated results: -- Arctan (0.0, Y) = Pi/2.0, when Y > 0.0 -- Arctan (0.0, Y) = -Pi/2.0, when Y < 0.0 -- Arctan ( X, +0.0) = +Pi, when X < 0.0 -- Arctan ( X, -0.0) = -Pi, when X < 0.0 -- The prescribed result and tightly approximated results are all -- guaranteed by C. function Arctan (Y : Float_Type'Base; X : Float_Type'Base := 1.0) return Float_Type'Base is begin if not (X /= 0.0) and then not (Y /= 0.0) then raise Argument_Error; end if; return C_Atan2 (Y, X); end Arctan; -- (Arbitrary cycle) -- Principal branch: -- The results are in the quadrant containing the point (X, Y). -- This may be any quadrant (I through IV) when the parameter X is -- specified, but it is restricted to quadrants I and IV when that -- parameter is omitted. Thus the range when that parameter is -- specified is approximately -Cycle/2.0 to Cycle/2.0; when omitted -- the range is -Cycle/4.0 to Cycle/4.0. -- Exceptions: -- Argument_Error is raised when both X and Y have the value zero, -- or when Cycle <= 0.0 or Cycle is a NaN. -- Prescribed results: -- Arctan ( X, 0.0, Cycle) = 0.0, when X > 0.0 -- Tightly approximated results: -- Arctan (0.0, Y, Cycle) = Cycle/4.0, when Y > 0.0 -- Arctan (0.0, Y, Cycle) = -Cycle/4.0, when Y < 0.0 -- Arctan ( X, +0.0, Cycle) = Cycle/2.0, when X < 0.0 -- Arctan ( X, -0.0, Cycle) = -Cycle/2.0, when X < 0.0 -- The prescribed result and tightly approximated results are all -- guaranteed by C. function Arctan (Y : Float_Type'Base; X : Float_Type'Base := 1.0; Cycle : Float_Type'Base) return Float_Type'Base is begin if not (Cycle > 0.0) then raise Argument_Error; end if; if X = 0.0 then if Y = 0.0 then raise Argument_Error; elsif Y > 0.0 then return Cycle / 4.0; elsif Y < 0.0 then return -Cycle / 4.0; end if; -- Y is a NaN elsif Y = 0.0 then -- X /= 0 if X > 0.0 then return 0.0; elsif X < 0.0 then return T'Copy_Sign (Cycle / 2.0, Y); end if; -- X is a NaN end if; return C_Atan2 (Y, X) * Cycle / (2.0 * Pi); end Arctan; ------------- -- Arctanh -- ------------- -- Exceptions: -- Argument_Error is raised when abs (X) > 1.0 -- Constraint_Error is raised when X = +-1.0 -- Prescribed results: -- Arctanh (0.0) = 0.0 -- TODO - general description function Arctanh (X : Float_Type'Base) return Float_Type'Base is begin if not (abs (X) < 1.0) then if abs (X) = 1.0 then raise Constraint_Error; else raise Argument_Error; end if; else return C_Atanh (X); end if; end Arctanh; --------- -- Cos -- --------- -- (Natural cycle) -- Prescribed results: -- Cos (0.0) = 1.0 -- Special values: -- Cos (X), where X is positive or negative infinity returns NaN value -- The C_Cos function satisfies all requirements function Cos (X : Float_Type'Base) return Float_Type'Base is begin return C_Cos (X); end Cos; -- (Arbitrary cycle) -- Exceptions: -- Argument_Error is raised when Cycle <= 0 -- Prescribed results: -- Cos (X) = 0.0, when X is K * Cycle / 4.0 with odd integer K -- Cos (X) = 1.0, when X is K * Cycle, with integer K -- Cos (X) = -1.0, with X is K * Cycle / 2.0, with odd integer K -- Special values: -- Cos (X), where X is positive or negative infinity returns a -- NaN value. function Cos (X, Cycle : Float_Type'Base) return Float_Type'Base is begin -- Just reuse the code for Sin. The potential small -- loss of speed is negligible with proper (front-end) inlining. return -Sin (abs X - Cycle * 0.25, Cycle); end Cos; ---------- -- Cosh -- ---------- -- Prescribed results: -- Cosh (0.0) = 1.0 -- Tightly approximated results: -- TODO -- TODO - general description function Cosh (X : Float_Type'Base) return Float_Type'Base is (C_Cosh (X)); --------- -- Cot -- --------- -- (natural cycle) -- Exceptions: -- Constraint_Error is raised when X = 0.0 -- As there is no cotangent function defined for C99, it is implemented -- here in terms of the regular tangent function. function Cot (X : Float_Type'Base) return Float_Type'Base is begin if not (X /= 0.0) then raise Constraint_Error; else return 1.0 / C_Tan (X); end if; end Cot; -- (arbitrary cycle) -- Exceptions: -- Argument_Error is raised when Cycle <= 0 -- Constraint_Error is raised when X = K * Cycle / 2.0, with integer K -- Prescribed results: -- Cot (X) = 0.0, when X is K * Cycle / 4.0 with odd integer K -- Special values: -- Cot (X), where X is positive or negative infinity returns NaN value function Cot (X, Cycle : Float_Type'Base) return Float_Type'Base is T, TA : Float_Type'Base; begin if not (Cycle > 0.0) then raise Argument_Error; end if; T := Float_Type'Base'Remainder (X, Cycle) / Cycle; TA := abs T; if not (T /= 0.0 and then TA /= 0.5) then raise Constraint_Error; end if; if TA = 0.25 then return 0.0; end if; return 1.0 / C_Tan (T * 2.0 * Pi); end Cot; ---------- -- Coth -- ---------- -- Exceptions: -- Argument_Error is raised when X = 0. -- Tightly approximated results: -- TODO -- TODO - general description function Coth (X : Float_Type'Base) return Float_Type'Base is begin if not (X /= 0.0) then raise Argument_Error; else return 1.0 / C_Tanh (X); end if; end Coth; --------- -- Exp -- --------- -- Prescribed results: -- Exp (0.0) = 1.0 -- Special values: -- Exp (X) = +0.0, for X is negative infinity -- Exp (X) = X, for X is positive infinity -- and Float_Type'Machine_Overflows = False -- The C_Exp function satisfies all Ada requirements function Exp (X : Float_Type'Base) return Float_Type'Base is begin return C_Exp (X); end Exp; --------- -- Log -- --------- -- (natural base) -- Exceptions: -- Argument is raised when X < 0.0 -- Constraint_Error is raised when X = 0.0 -- Prescribed results: -- Log (1.0) = 0.0; -- Special values: -- Log (X) = X, for X is positive infinity -- Apart from exceptions, the C_Log function satisfies all constraints function Log (X : Float_Type'Base) return Float_Type'Base is begin -- The if statements are structured to ensure NaN parameters cause the -- correct exception to be raised (since a NaN will always fail a -- non-equal comparison test). if not (X > 0.0) then if X = 0.0 then raise Constraint_Error; end if; raise Argument_Error; end if; return C_Log (X); end Log; -- (arbitrary base) -- Exceptions: -- Argument is raised when X < 0.0, Base <= 0.0 or Base = 1.0 -- Constraint_Error is raised when X = 0.0 -- Prescribed results: -- Log (1.0, Base) = 0.0 -- Special values: -- Log (X, Base) = X, for X is positive infinity -- Apart from exceptions, the C_Log function satisfies all constraints function Log (X, Base : Float_Type'Base) return Float_Type'Base is begin -- Try to execute the common case of X > 0.0 and Base > 1.0 with -- minimal checks. -- Note, the if statements are structured to ensure NaN parameters cause -- the correct exception to be raised (since a NaN will always fail a -- non-equal comparison test). if not (X > 0.0) or else not (Base > 1.0) then if not (X >= 0.0) or else not (Base > 0.0) or else Base = 1.0 then raise Argument_Error; end if; if X = 0.0 then raise Constraint_Error; end if; end if; return C_Log (X) / C_Log (Base); end Log; --------- -- Sin -- --------- -- (Natural cycle) -- Prescribed results: -- Sin (+0.0) = +0.0 -- Sin (-0.0) = -0.0 -- Special values: -- Sin (X), where X is positive or negative infinity returns a -- NaN value. -- The C_Sin function satisfies all requirements function Sin (X : Float_Type'Base) return Float_Type'Base is begin return C_Sin (X); end Sin; -- (Arbitrary cycle) -- Exceptions: -- Argument_Error is raised when Cycle <= 0 -- Prescribed results: -- Sin (-0.0) = -0.0 -- Sin (+0.0) = +0.0 -- Sin (X) = 1.0, when X is K * Cycle + Cycle / 4.0, with integer K -- Sin (X) = -1.0, with X is K * Cycle - Cycle / 4.0, with integer K -- Special values: -- Sin (X), where X is positive or negative infinity returns NaN value function Sin (X, Cycle : Float_Type'Base) return Float_Type'Base is T : Float_Type'Base; begin if not (Cycle > 0.0) then raise Argument_Error; end if; T := Float_Type'Base'Remainder (X, Cycle); -- The following reduction reduces the argument to the interval -- [-0.5 Cycle, 0.5 * Cycle]. The entire reduction is exact. if T > 0.25 * Cycle then T := 0.5 * Cycle - T; elsif T < -0.25 * Cycle then T := -T - 0.5 * Cycle; end if; return C_Sin (T / Cycle * 2.0 * Pi); end Sin; ---------- -- Sinh -- ---------- -- Prescribed results: -- Sinh (0.0) = 0.0 -- TODO - general description function Sinh (X : Float_Type'Base) return Float_Type'Base is (C_Sinh (X)); ---------- -- Sqrt -- ---------- -- Principle branch: -- The result is nonnegative. -- Exceptions: -- Argument_Error is raised when X < 0.0 -- Prescribed results: -- Sqrt (-0.0) = -0.0 -- Sqrt (+0.0) = +0.0 -- Sqrt (1.0) = 1.0 -- Special values: -- Sqrt (X) = X, for X is positive infinity -- C_Sqrt satisfies all requirements function Sqrt (X : Float_Type'Base) return Float_Type'Base is begin if not (X >= 0.0) then raise Argument_Error; end if; return C_Sqrt (X); end Sqrt; --------- -- Tan -- --------- -- (natural cycle) -- Prescribed results: -- Tan (-0.0) = -0.0 -- Tan (+0.0) = +0.0 -- Special values: -- Tan (X) returns a NaN value, when X is positive or negative infinity -- The C_Tan function satisfies all requirements function Tan (X : Float_Type'Base) return Float_Type'Base is begin return C_Tan (X); end Tan; -- (arbitrary cycle) -- Exceptions: -- Argument_Error is raised for Cycle <= 0.0 -- Prescribed results: -- Tan (-0.0, Cycle) = -0.0 -- Tan (+0.0, Cycle) = +0.0 -- Tan (X, Cycle) = 0, for X a multiple of Cycle / 2.0 -- Special values: -- Tan (X, Cycle) returns a NaN value, when X is positive or -- negative infinity function Tan (X, Cycle : Float_Type'Base) return Float_Type'Base is T : Float_Type'Base; TA : Float_Type'Base; begin if not (Cycle > 0.0) then raise Argument_Error; end if; T := Float_Type'Base'Remainder (X, Cycle) / Cycle; TA := abs T; -- The TA = 0.75 case is not needed because the remainder function -- is defined so that it never returns a value greater than Cycle/2, -- the value of TA will always be less than or equal to 0.5. Therefore, -- the condition TA = 0.75 can never be true. if TA = 0.25 then raise Constraint_Error; end if; if TA = 0.5 then return 0.0; end if; return C_Tan (T * 2.0 * Pi); end Tan; ---------- -- Tanh -- ---------- -- Principal branch: -- The absolute value of the result is smaller than 1.0 -- Prescribed results: -- Tanh (0.0) = 0.0 -- TODO - general description function Tanh (X : Float_Type'Base) return Float_Type'Base is (C_Tanh (X)); end System.Generic_C_Math_Interface;
with Ada.Text_IO; with Ada.Command_Line; procedure Symbolica is NumColors : constant := 4; NumSymbols : constant := 3; Length : constant := 5; Width : constant := 5; package IO renames Ada.Text_IO; type Color_T is new Natural range 0 .. NumColors - 1; type Symbol_T is new Natural range 0 .. NumSymbols - 1; type Column_T is new Natural range 1 .. Length; type Row_T is new Natural range 1 .. Width; type Tile_T is record Color : Color_T; Symbol : Symbol_T; end record; type Board_T is Array(Row_T, Column_T) of Tile_T; type Count_T is Array(Color_T, Symbol_T) of Natural; colors : constant Array(Color_T) of Character := ('R', 'B', 'G', 'Y'); symbols : constant Array(Symbol_T) of Character := ('a', 'b', 'c'); original_board, best_board, board : Board_T; best_distance : Natural := Length * Width; total_solutions : Natural := 0; iterations : Natural := 0; tile_count : Count_T := (others => (others => 0)); function TileImage(tile : Tile_T) return String is begin return (colors(tile.Color), symbols(tile.Symbol)); end TileImage; procedure PrintBoard(b : Board_T) is begin for r in Row_T loop for c in Column_T loop IO.Put(TileImage(b(r,c)) & " "); end loop; IO.New_Line; end loop; end PrintBoard; procedure ReadBoard(filename: in String; b : out Board_T) is Not_In : exception; function GetColor(c: Character) return Color_T is begin for color in Color_T'Range loop if colors(color) = c then return color; end if; end loop; raise Not_In; end GetColor; function GetSymbol(s: Character) return Symbol_T is begin for symbol in Symbol_T'Range loop if symbols(symbol) = s then return symbol; end if; end loop; raise Not_In; end GetSymbol; f : IO.File_Type; c,s : Character; eol : Boolean; begin IO.Open(f, IO.In_File, filename); for row in Row_T'Range loop for col in Column_T'Range loop IO.Get(f, c); IO.Get(f, s); b(row, col) := (GetColor(c), GetSymbol(s)); loop IO.Look_Ahead(f,c,eol); exit when eol or else c /= ' '; IO.Get(f, c); end loop; end loop; end loop; IO.Put_Line("Read in original Board"); PrintBoard(b); end ReadBoard; procedure Validate_Counts is counts : Array(Color_T, Symbol_T) of Integer := (others => (others => 0)); count_incorrect : exception; begin for row in Row_T'range loop for col in Column_T'range loop declare o : Tile_T renames original_board(row, col); b : Tile_T renames board(row, col); begin counts(o.Color, o.Symbol) := counts(o.Color, o.Symbol) + 1; counts(b.Color, b.Symbol) := counts(b.Color, b.Symbol) - 1; end; end loop; end loop; for c in Color_T'range loop for s in Symbol_T'range loop if counts(c, s) /= 0 then IO.Put_Line("New Board has incorrect count of " & (colors(c), symbols(s)) & ": " & Integer'Image(counts(c, s))); PrintBoard(board); raise count_incorrect; end if; end loop; end loop; end Validate_Counts; procedure Validate_Integrity is board_integrity : exception; function Pair_Is_Valid(a, b : Tile_T) return Boolean is begin return (a.Color = b.Color and then a.Symbol /= b.Symbol) or else (a.Color /= b.Color and then a.Symbol = b.Symbol); end Pair_Is_Valid; begin for row in Row_T'range loop for col in Column_T'range loop declare b : Tile_T renames board(row, col); begin if (row > Row_T'First and then not Pair_Is_Valid(b, board(row-1, col))) or else (row < Row_T'Last and then not Pair_Is_Valid(b, board(row+1, col))) or else (col > Column_T'First and then not Pair_Is_Valid(b, board(row, col-1))) or else (col < Column_T'Last and then not Pair_Is_Valid(b, board(row, col+1))) then IO.Put_Line("New Board has incorrect incorrectly placed " & TileImage(b) & " at " & Row_T'Image(row) & "," & Column_T'Image(col)); PrintBoard(board); raise board_integrity; end if; end; end loop; end loop; end Validate_Integrity; Perform_Additional_Validation : constant Boolean := False; procedure CompareBoards is distance : Natural := 0; chain : Natural := 0; waiting : Array(Color_T, Symbol_T, Color_T, Symbol_T) of Natural := (others => (others => (others => (others => 0)))); begin if Perform_Additional_Validation then Validate_Counts; Validate_Integrity; end if; total_solutions := total_solutions + 1; for row in Row_T'Range loop for col in Column_T'Range loop declare o : Tile_T renames original_board(row, col); b : Tile_T renames board(row, col); w : natural renames waiting(o.Color, o.Symbol, b.Color, b.Symbol); ow : natural renames waiting(b.Color, b.Symbol, o.Color, o.Symbol); begin if o.Color /= b.Color or else o.Symbol /= b.Symbol then if ow > 0 then ow := ow - 1; chain := chain - 1; distance := distance + 1; else chain := chain + 1; w := w + 1; end if; end if; end; end loop; end loop; if chain > 0 then distance := distance + chain - 1; end if; if distance < best_distance then best_board := board; best_distance := distance; end if; end CompareBoards; procedure Solve(row : Row_T; col : Column_T); procedure Pick(row : Row_T; col : Column_T; c : Color_T; s : Symbol_T) is tc : Natural renames tile_count(c, s); begin if tc = 0 then return; end if; board(row, col) := (c, s); if col = Column_T'Last then if row = Row_T'Last then CompareBoards; else tc := tc - 1; Solve(row + 1, 1); tc := tc + 1; end if; else tc := tc - 1; Solve(row, col + 1); tc := tc + 1; end if; end Pick; pragma inline(Pick); procedure Solve(row : Row_T; col : Column_T) is begin iterations := iterations + 1; if row = 1 then declare left : Tile_T renames board(row, col - 1); begin for color in Color_T'Range loop if color /= left.Color then Pick(row, col, color, left.Symbol); end if; end loop; for symbol in Symbol_T'Range loop if symbol /= left.Symbol then Pick(row, col, left.Color, symbol); end if; end loop; end; elsif col = 1 then declare above : Tile_T renames board(row - 1, col); begin for color in Color_T'Range loop if color /= above.Color then Pick(row, col, color, above.Symbol); end if; end loop; for symbol in Symbol_T'Range loop if symbol /= above.Symbol then Pick(row, col, above.Color, symbol); end if; end loop; end; else declare left : Tile_T renames board(row, col -1); above : Tile_T renames board(row - 1, col); begin if left.Color = above.Color then for symbol in Symbol_T'Range loop if symbol /= left.Symbol and then symbol /= above.Symbol then Pick(row, col, left.Color, symbol); end if; end loop; elsif left.Symbol = above.Symbol then for color in Color_T'Range loop if color /= left.Color and then color /= above.Color then Pick(row, col, color, left.Symbol); end if; end loop; else Pick(row, col, left.Color, above.Symbol); Pick(row, col, above.Color, left.Symbol); end if; end; end if; end Solve; begin ReadBoard(Ada.Command_Line.Argument(1), original_board); for row in Row_T'Range loop for col in Column_T'Range loop declare tile : constant Tile_T := original_board(row, col); begin tile_count(tile.Color, tile.Symbol) := tile_count(tile.Color, tile.Symbol) + 1; end; end loop; end loop; for color in Color_T'Range loop for symbol in Symbol_T'Range loop Pick(1, 1, color, symbol); end loop; end loop; IO.Put_Line("Total Iterations" & Natural'Image(iterations)); IO.Put_Line("Total Solutions found:" & Natural'Image(total_solutions)); IO.Put_Line("Total Swaps: " & Natural'Image(best_distance)); PrintBoard(best_board); end Symbolica;
-- ----------------------------------------------------------------- -- -- AdaSDL -- -- Binding to Simple Direct Media Layer -- -- Copyright (C) 2001 A.M.F.Vargas -- -- Antonio M. F. Vargas -- -- Ponta Delgada - Azores - Portugal -- -- http://www.adapower.net/~avargas -- -- E-mail: avargas@adapower.net -- -- ----------------------------------------------------------------- -- -- -- -- 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. -- -- ----------------------------------------------------------------- -- -- ************************************************************** -- -- This is an Ada binding to SDL ( Simple DirectMedia Layer from -- -- Sam Lantinga - www.libsld.org ) -- -- ************************************************************ -- -- In order to help the Ada programmer, the comments in this file -- -- are, in great extent, a direct copy of the original text in the -- -- SDL header files. -- -- ************************************************************ -- with Interfaces.C.Strings; with SDL.Types; use SDL.Types; with SDL.RWops; package SDL.Audio is pragma Elaborate_Body; package C renames Interfaces.C; type Callback_ptr_Type is access procedure ( userdata : void_ptr; stream : Uint8_ptr; len : C.int); pragma Convention (C, Callback_ptr_Type); -- The calculated values in this structure are calculated by OpenAudio type AudioSpec is record freq : C.int; -- DSP frequency -- samples per second format : Uint16; -- Audio data format channels : Uint8; -- Number of channels: 1 mono, 2 stereo silence : Uint8; -- Audio buffer silence value (calculated) samples : Uint16; -- Audio buffer size in samples padding : Uint16; -- Necessary for some compile environments size : Uint32; -- Audio buffer size in bytes (calculated) -- This function is called when the audio device needs more data. -- 'stream' is a pointer to the audio data buffer -- 'len' is the length of that buffer in bytes. -- Once the callback returns, the buffer will no longer be valid. -- Stereo samples are stored in a LRLRLR ordering. callback : Callback_ptr_Type; userdata : void_ptr; end record; pragma Convention (C, AudioSpec); type AudioSpec_ptr is access all AudioSpec; pragma Convention (C, AudioSpec_ptr); type Format_Flag is mod 216; pragma Convention (C, Format_Flag); type Format_Flag_ptr is access Format_Flag; pragma Convention (C, Format_Flag_ptr); -- Audio format flags (defaults to LSB byte order) -- Unsigned 8-bit samples AUDIO_U8 : constant Format_Flag := 16#0008#; -- Signed 8-bit samples AUDIO_S8 : constant Format_Flag := 16#8008#; -- Unsigned 16-bit samples AUDIO_U16LSB : constant Format_Flag := 16#0010#; -- Signed 16-bit samples AUDIO_S16LSB : constant Format_Flag := 16#8010#; -- As above, but big-endian byte order AUDIO_U16MSB : constant Format_Flag := 16#1010#; -- As above, but big-endian byte order AUDIO_S16MSB : constant Format_Flag := 16#9010#; AUDIO_U16 : constant Format_Flag := AUDIO_U16LSB; AUDIO_S16 : constant Format_Flag := AUDIO_S16LSB; function Get_Audio_U16_Sys return Format_Flag; function Get_Audio_S16_Sys return Format_Flag; -- A structure to hold a set of audio conversion filters and buffers type AudioCVT; type AudioCVT_ptr is access all AudioCVT; pragma Convention (C, AudioCVT_ptr); type filter_ptr is access procedure ( cvt : AudioCVT_ptr; format : Uint16); pragma Convention (C, filter_ptr); type filters_array is array (0 .. 9) of filter_ptr; pragma Convention (C, filters_array); type AudioCVT is record need : C.int; -- Set to 1 if conversion possible src_format : Uint16; -- Source audio format dst_format : Uint16; -- Target audio format rate_incr : C.double; -- Rate conversion increment buf : Uint8_ptr; -- Buffer to hold entire audio data len : C.int; -- Length of original audio buffer len_cvt : C.int; -- Length of converted audio buffer len_mult : C.int; -- buffer must be lenlen_mult big len_ratio : C.double; -- Given len, final size is lenlen_ratio filters : filters_array; filter_index : filters_array; -- Current audio conversion function end record; pragma Convention (C, AudioCVT); -- ------------------- -- Function prototypes -- ------------------- -- These function and procedure are used internally, and should not -- be used unless you have a specific need to specify the audio driver -- you want to use.You should normally use Init or InitSubSystem. function AudioInit (driver_name : C.Strings.chars_ptr) return C.int; pragma Import (C, AudioInit, "SDL_AudioInit"); procedure AudioQuit; pragma Import (C, AudioQuit, "SDL_AudioQuit"); -- This function fills the given character buffer with the name of the -- current audio driver, and returns a pointer to it if the audio driver -- has been initialized. It returns NULL if no driver has been initialized. function AudioDriverName ( namebuf : C.Strings.chars_ptr; maslen : C.int) return C.Strings.chars_ptr; pragma Import (C, AudioDriverName, "SDL_AudioDriverName"); -- This function opens the audio device with the desired parameters, and -- returns 0 if successful, placing the actual hardware parameters in the -- structure pointed to by 'obtained'. If 'obtained' is NULL, the audio -- data passed to the callback function will be guaranteed to be in the -- requested format, and will be automatically converted to the hardware -- audio format if necessary. This function returns -1 if it failed -- to open the audio device, or couldn't set up the audio thread. -- When filling in the desired audio spec structure, -- 'desired.freq' should be the desired audio frequency in samples-per-sec. -- 'desired.format' should be the desired audio format. -- 'desired.samples' is the desired size of the audio buffer, in samples. -- This number should be a power of two, and may be adjusted by the audio -- driver to a value more suitable for the hardware. Good values seem to -- range between 512 and 8096 inclusive, depending on the application and -- CPU speed. Smaller values yield faster response time, but can lead -- to underflow if the application is doing heavy processing and cannot -- fill the audio buffer in time. A stereo sample consists of both right -- and left channels in LR ordering. -- Note that the number of samples is directly related to time by the -- following formula: ms := (samples1000)/freq -- 'desired->size' is the size in bytes of the audio buffer, and is -- calculated by OpenAudio. -- 'desired->silence' is the value used to set the buffer to silence, -- and is calculated by OpenAudio. -- 'desired->callback' should be set to a function that will be called -- when the audio device is ready for more data. It is passed a pointer -- to the audio buffer, and the length in bytes of the audio buffer. -- This function usually runs in a separate thread, and so you should -- protect data structures that it accesses by calling LockAudio -- and UnlockAudio in your code. -- 'desired.userdata' is passed as the first parameter to your callback -- function. -- The audio device starts out playing silence when it's opened, and should -- be enabled for playing by calling PauseAudio(0) when you are ready -- for your audio callback function to be called. Since the audio driver -- may modify the requested size of the audio buffer, you should allocate -- any local mixing buffers after you open the audio device. function OpenAudio ( desired : AudioSpec_ptr; obtained : AudioSpec_ptr) return C.int; pragma Import (C, OpenAudio, "SDL_OpenAudio"); -- Get the current audio state: type audiostatus is new C.int; AUDIO_STOPED : constant := 0; AUDIO_PLAYING : constant := 1; AUDIO_PAUSED : constant := 2; function GetAudioStatus return audiostatus; pragma Import (C, GetAudioStatus, "SDL_GetAudioStatus"); -- This function pauses and unpauses the audio callback processing. -- It should be called with a parameter of 0 after opening the audio -- device to start playing sound. This is so you can safely initialize -- data for your callback function after opening the audio device. -- Silence will be written to the audio device during the pause. procedure PauseAudio (pause_on : C.int); pragma Import (C, PauseAudio, "SDL_PauseAudio"); -- This function loads a WAVE from the data source, automatically freeing -- that source if 'freesrc' is non-zero. For example, to load a WAVE file, -- you could do: -- LoadWAV_RW(RWFromFile("sample.wav", "rb"), 1, ...); -- If this function succeeds, it returns the given AudioSpec, -- filled with the audio data format of the wave data, and sets -- 'audio_buf' to a malloc()'d buffer containing the audio data, -- and sets 'audio_len' to the length of that audio buffer, in bytes. -- You need to free the audio buffer with FreeWAV when you are -- done with it. -- This function returns NULL and sets the SDL error message if the -- wave file cannot be opened, uses an unknown data format, or is -- corrupt. Currently raw and MS-ADPCM WAVE files are supported. function LoadWAV_RW ( src : SDL.RWops.RWops_ptr; freesrc : C.int; spec : AudioSpec_ptr; audio_buf : Uint8_ptr_ptr; audio_len : Uint32_ptr) return AudioSpec_ptr; pragma Import (C, LoadWAV_RW, "SDL_LoadWAV_RW"); function LoadWAV ( file : C.Strings.chars_ptr; spec : AudioSpec_ptr; audio_buf : Uint8_ptr_ptr; audio_len : Uint32_ptr) return AudioSpec_ptr; pragma Inline (LoadWAV); -- LoadWAV_RW_VP not working properly -- for some strange reason. Result is Always null. procedure LoadWAV_RW_VP ( Result : out AudioSpec_ptr; src : SDL.RWops.RWops_ptr; freesrc : C.int; spec : out AudioSpec_ptr; audio_buf : out Uint8_ptr; audio_len : out Uint32); pragma Import (C, LoadWAV_RW_VP, "SDL_LoadWAV_RW"); pragma Import_Valued_Procedure (LoadWAV_RW_VP); procedure Load_WAV ( file : C.Strings.chars_ptr; spec : AudioSpec_ptr; -- out AudioSpec audio_buf : Uint8_ptr_ptr; -- out Uint8_ptr audio_len : Uint32_ptr; -- out Uint32 Valid_WAV : out Boolean); pragma Inline (Load_WAV); -- This function frees data previously allocated with SDL_LoadWAV_RW() procedure FreeWAV (audio_buf : Uint8_ptr); pragma Import (C, FreeWAV, "SDL_FreeWAV"); -- This function takes a source format and rate and a destination format -- and rate, and initializes the 'cvt' structure with information needed -- by ConvertAudio to convert a buffer of audio data from one format -- to the other. -- This function returns 0, or -1 if there was an error. function BuildAudioCVT ( cvt : AudioCVT_ptr; src_format : Uint16; src_channels : Uint8; src_rate : C.int; dst_format : Uint16; dst_channels : Uint8; dst_rate : C.int) return C.int; pragma Import (C, BuildAudioCVT, "SDL_BuildAudioCVT"); -- Once you have initialized the 'cvt' structure using BuildAudioCVT, -- created an audio buffer cvt.buf, and filled it with cvt.len bytes of -- audio data in the source format, this function will convert it in-place -- to the desired format. -- The data conversion may expand the size of the audio data, so the buffer -- cvt.buf should be allocated after the cvt structure is initialized by -- BuildAudioCVT, and should be cvt.len cvt.len_mult bytes long. function ConvertAudio (cvt : AudioCVT_ptr) return C.int; pragma Import (C, ConvertAudio, "SDL_ConvertAudio"); -- This takes two audio buffers of the playing audio format and mixes -- them, performing addition, volume adjustment, and overflow clipping. -- The volume ranges from 0 - 128, and should be set to _MIX_MAXVOLUME -- for full audio volume. Note this does not change hardware volume. -- This is provided for convenience -- you can mix your own audio data. MIX_MAXVOLUME : constant := 128; procedure MixAudio ( dst : Uint8_ptr; src : Uint8_ptr; len : Uint32; volume : C.int); pragma Import (c, MixAudio, "SDL_MixAudio"); -- The lock manipulated by these functions protects the callback function. -- During a LockAudio/UnlockAudio pair, you can be guaranteed that the -- callback function is not running. Do not call these from the callback -- function or you will cause deadlock. procedure LockAudio; pragma Import (C, LockAudio, "SDL_LockAudio"); procedure UnlockAudio; pragma Import (C, UnlockAudio, "SDL_UnlockAudio"); -- This procedure shuts down audio processing and closes the audio device. procedure CloseAudio; pragma Import (C, CloseAudio, "SDL_CloseAudio"); end SDL.Audio;
------------------------------------------------------------------------------ -- -- -- Matreshka Project -- -- -- -- Localization, Internationalization, Globalization for Ada -- -- -- -- Tools Component -- -- -- ------------------------------------------------------------------------------ -- -- -- Copyright © 2011-2015, 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 Ada.Command_Line; with Ada.Wide_Wide_Text_IO; with League.Application; with League.Strings; with UAFLEX.Run; procedure UAFLEX.Driver is procedure Read_Arguments; procedure Print_Usage; function "+" (Item : Wide_Wide_String) return League.Strings.Universal_String renames League.Strings.To_Universal_String; Handler : League.Strings.Universal_String; Input : League.Strings.Universal_String; Tokens : League.Strings.Universal_String; Types : League.Strings.Universal_String; Scanner : League.Strings.Universal_String; ----------------- -- Print_Usage -- ----------------- procedure Print_Usage is use Ada.Wide_Wide_Text_IO; begin Put_Line (Standard_Error, "Usage: uaflex <unit-options> input_file"); Put_Line (Standard_Error, " where <unit-options> contains:"); Put_Line (Standard_Error, " --types Types_Unit - unit for type and condition declarations"); Put_Line (Standard_Error, " --handler Handler_Unit - unit for abstract handler declaration"); Put_Line (Standard_Error, " --scanner Scanner_Unit - unit where scanner is located"); Put_Line (Standard_Error, " --tokens Tokens_Unit - unit where Token type is declared"); end Print_Usage; -------------------- -- Read_Arguments -- -------------------- procedure Read_Arguments is use League.Strings; Is_Types : constant Universal_String := +"--types"; Is_Scanner : constant Universal_String := +"--scanner"; Is_Tokens : constant Universal_String := +"--tokens"; Is_Handler : constant Universal_String := +"--handler"; Last : constant Natural := League.Application.Arguments.Length; Index : Positive := 1; begin while Index <= Last loop declare Next : constant League.Strings.Universal_String := League.Application.Arguments.Element (Index); begin if Index = Last then Input := Next; elsif Next = Is_Types then Index := Index + 1; Types := League.Application.Arguments.Element (Index); elsif Next = Is_Scanner then Index := Index + 1; Scanner := League.Application.Arguments.Element (Index); elsif Next = Is_Tokens then Index := Index + 1; Tokens := League.Application.Arguments.Element (Index); elsif Next = Is_Handler then Index := Index + 1; Handler := League.Application.Arguments.Element (Index); end if; Index := Index + 1; end; end loop; end Read_Arguments; Success : Boolean; begin Read_Arguments; if Handler.Is_Empty or Input.Is_Empty or Tokens.Is_Empty or Types.Is_Empty or Scanner.Is_Empty then Print_Usage; return; end if; UAFLEX.Run (Handler, Input, Tokens, Types, Scanner, Success); if not Success then Ada.Command_Line.Set_Exit_Status (Ada.Command_Line.Failure); end if; end UAFLEX.Driver;
with gel.World; package gel_demo_Server -- -- Provides the server. -- is the_server_World : gel.World.view; task Item is entry start; end Item; end gel_demo_Server;
------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- F N A M E -- -- -- -- B o d y -- -- -- -- 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. -- -- -- ------------------------------------------------------------------------------ with Alloc; with Hostparm; use Hostparm; with Table; with Types; use Types; package body Fname is ----------------------------- -- Dummy Table Definitions -- ----------------------------- -- The following table was used in old versions of the compiler. We retain -- the declarations here for compatibility with old tree files. The new -- version of the compiler does not use this table, and will write out a -- dummy empty table for Tree_Write. type SFN_Entry is record U : Unit_Name_Type; F : File_Name_Type; end record; package SFN_Table is new Table.Table ( Table_Component_Type => SFN_Entry, Table_Index_Type => Int, Table_Low_Bound => 0, Table_Initial => Alloc.SFN_Table_Initial, Table_Increment => Alloc.SFN_Table_Increment, Table_Name => "Fname_Dummy_Table"); --------------------------- -- Is_Internal_File_Name -- --------------------------- function Is_Internal_File_Name (Fname : File_Name_Type; Renamings_Included : Boolean := True) return Boolean is begin if Is_Predefined_File_Name (Fname, Renamings_Included) then return True; -- Once Is_Predefined_File_Name has been called and returns False, -- Name_Buffer contains Fname and Name_Len is set to 8. elsif Name_Buffer (1 .. 2) = "g-" or else Name_Buffer (1 .. 8) = "gnat " then return True; elsif OpenVMS and then (Name_Buffer (1 .. 4) = "dec-" or else Name_Buffer (1 .. 8) = "dec ") then return True; else return False; end if; end Is_Internal_File_Name; ----------------------------- -- Is_Predefined_File_Name -- ----------------------------- -- This should really be a test of unit name, given the possibility of -- pragma Source_File_Name setting arbitrary file names for any files??? -- Once Is_Predefined_File_Name has been called and returns False, -- Name_Buffer contains Fname and Name_Len is set to 8. This is used -- only by Is_Internal_File_Name, and is not part of the official -- external interface of this function. function Is_Predefined_File_Name (Fname : File_Name_Type; Renamings_Included : Boolean := True) return Boolean is begin Get_Name_String (Fname); return Is_Predefined_File_Name (Renamings_Included); end Is_Predefined_File_Name; function Is_Predefined_File_Name (Renamings_Included : Boolean := True) return Boolean is subtype Str8 is String (1 .. 8); Predef_Names : constant array (1 .. 11) of Str8 := ("ada ", -- Ada "interfac", -- Interfaces "system ", -- System -- Remaining entries are only considered if Renamings_Included true "calendar", -- Calendar "machcode", -- Machine_Code "unchconv", -- Unchecked_Conversion "unchdeal", -- Unchecked_Deallocation "directio", -- Direct_IO "ioexcept", -- IO_Exceptions "sequenio", -- Sequential_IO "text_io "); -- Text_IO Num_Entries : constant Natural := 3 + 8 * Boolean'Pos (Renamings_Included); begin -- Remove extension (if present) if Name_Len > 4 and then Name_Buffer (Name_Len - 3) = '.' then Name_Len := Name_Len - 4; end if; -- Definitely false if longer than 12 characters (8.3) if Name_Len > 8 then return False; -- Definitely predefined if prefix is a- i- or s- followed by letter elsif Name_Len >= 3 and then Name_Buffer (2) = '-' and then (Name_Buffer (1) = 'a' or else Name_Buffer (1) = 'i' or else Name_Buffer (1) = 's') and then (Name_Buffer (3) in 'a' .. 'z' or else Name_Buffer (3) in 'A' .. 'Z') then return True; end if; -- Otherwise check against special list, first padding to 8 characters while Name_Len < 8 loop Name_Len := Name_Len + 1; Name_Buffer (Name_Len) := ' '; end loop; for J in 1 .. Num_Entries loop if Name_Buffer (1 .. 8) = Predef_Names (J) then return True; end if; end loop; -- Note: when we return False here, the Name_Buffer contains the -- padded file name. This is not defined for clients of the package, -- but is used by Is_Internal_File_Name. return False; end Is_Predefined_File_Name; --------------- -- Tree_Read -- --------------- procedure Tree_Read is begin SFN_Table.Tree_Read; end Tree_Read; ---------------- -- Tree_Write -- ---------------- procedure Tree_Write is begin SFN_Table.Tree_Write; end Tree_Write; end Fname;
-- -- Copyright 2018 The wookey project team <wookey@ssi.gouv.fr> -- - Ryad Benadjila -- - Arnauld Michelizza -- - Mathieu Renard -- - Philippe Thierry -- - Philippe Trebuchet -- -- 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. -- -- package ewok.syscalls.handler with spark_mode => off is function svc_handler (frame_a : t_stack_frame_access) return t_stack_frame_access; end ewok.syscalls.handler;
with Kernel.Serial_Output; use Kernel.Serial_Output; with Ada.Real_Time; use Ada.Real_Time; --use type Ada.Real_Time.Time_Span; --with System; use System; with Workload; --with Kernel.Peripherals; use Kernel.Peripherals; --use type Kernel.Peripherals.UART_Channel; package body tools is --------------------------------------------------------------------- -- PROCEDIMIENTO QUE IMPRIME LA HORA -- --------------------------------------------------------------------- procedure Current_Time (Origen : Ada.Real_Time.Time)is begin Put_Line (""); Put ("["); --Print_RTClok; --Kernel.Serial_Output.Put (" / "); Kernel.Serial_Output.Put(Duration'Image(To_Duration(Clock - Origen))); Put ("] "); -- Put_Line (""); end Current_Time; --------------------------------------------------------------------- -- PROCEDIMIENTO QUE SACA EL VALOR DE UN ENTERO POR LA UART -- --------------------------------------------------------------------- procedure Print_an_Integer (x : in integer) is begin --Put ("("); Kernel.Serial_Output.Put (Integer'Image(x)); --Put (")"); end Print_an_Integer; --------------------------------------------------------------------- -- PROCEDIMIENTO QUE SACA EL VALOR DE UN FLOAT POR LA UART -- --------------------------------------------------------------------- procedure Print_a_Float (x : in float) is type Float_Printable is digits 2; nx: Float_Printable; begin --Put ("("); nx := Float_Printable (x); Kernel.Serial_Output.Put (Float_Printable'Image(nx)); --Put (")"); end Print_a_Float; --------------------------------------------------------------------- -- PROCEDIMIENTO PARA AVISAR DEL ARRANQUE DE UNA TAREA -- --------------------------------------------------------------------- procedure Starting_Notice (T: in String) is begin Current_Time (Big_Bang); Put (">>> "); Put (T); end Starting_Notice; procedure Finishing_Notice (T: in String) is begin Current_Time (Big_Bang); Put ("--- "); Put (T); end Finishing_Notice; --------------------------------------------------------------------- -- PROCEDIMIENTO QUE HACE CALCULOS -- --------------------------------------------------------------------- Time_per_Kwhetstones : constant Ada.Real_Time.Time_Span := Ada.Real_Time.Nanoseconds (664445); -- anterior (479936); procedure Execution_Time (Time : Ada.Real_Time.Time_Span) is begin Workload.Small_Whetstone (Time / Time_per_Kwhetstones); end Execution_Time; --------------------------------------------------------------------- begin null; end tools;
----------------------------------------------------------------------- -- keystore-gpg_tests -- Test AKT with GPG2 -- Copyright (C) 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.Text_IO; with Util.Test_Caller; with Util.Log.Loggers; with Util.Processes; with Util.Streams.Buffered; with Util.Streams.Pipes; package body Keystore.Fuse_Tests is Log : constant Util.Log.Loggers.Logger := Util.Log.Loggers.Create ("Keystore.Fuse_Tests"); CHECK_MOUNT_PATH : constant String := "regtests/files/check-mount.sh"; package Caller is new Util.Test_Caller (Test, "AKT.Fuse"); procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite) is begin Caller.Add_Test (Suite, "Test AKT.Commands.Mount", Test_Mount'Access); Caller.Add_Test (Suite, "Test AKT.Commands.Mount (Fill)", Test_Mount_Fill'Access); Caller.Add_Test (Suite, "Test AKT.Commands.Mount (Clean)", Test_Mount_Clean'Access); Caller.Add_Test (Suite, "Test AKT.Commands.Mount (Check)", Test_Mount_Check'Access); Caller.Add_Test (Suite, "Test AKT.Commands.Mount (Stress)", Test_Mount_Stress'Access); end Add_Tests; -- ------------------------------ -- Execute the command and get the output in a string. -- ------------------------------ procedure Execute (T : in out Test; Command : in String; Input : in String; Output : in String; Result : out Ada.Strings.Unbounded.Unbounded_String; Status : in Natural := 0) is P : aliased Util.Streams.Pipes.Pipe_Stream; Buffer : Util.Streams.Buffered.Input_Buffer_Stream; begin if Input'Length > 0 then Log.Info ("Execute: {0} < {1}", Command, Input); elsif Output'Length > 0 then Log.Info ("Execute: {0} > {1}", Command, Output); else Log.Info ("Execute: {0}", Command); end if; P.Set_Input_Stream (Input); P.Set_Output_Stream (Output); P.Open (Command, Util.Processes.READ_ALL); -- Write on the process input stream. Result := Ada.Strings.Unbounded.Null_Unbounded_String; Buffer.Initialize (P'Unchecked_Access, 8192); Buffer.Read (Result); P.Close; Ada.Text_IO.Put_Line (Ada.Strings.Unbounded.To_String (Result)); Log.Info ("Command result: {0}", Result); Util.Tests.Assert_Equals (T, Status, P.Get_Exit_Status, "Command '" & Command & "' failed"); end Execute; procedure Execute (T : in out Test; Command : in String; Result : out Ada.Strings.Unbounded.Unbounded_String; Status : in Natural := 0) is begin T.Execute (Command, "", "", Result, Status); end Execute; procedure Execute (T : in out Test; Command : in String; Expect : in String; Status : in Natural := 0) is Path : constant String := Util.Tests.Get_Path ("regtests/expect/" & Expect); Output : constant String := Util.Tests.Get_Test_Path (Expect); Result : Ada.Strings.Unbounded.Unbounded_String; begin T.Execute (Command, "", Output, Result, Status); Util.Tests.Assert_Equal_Files (T, Path, Output, "Command '" & Command & "' invalid output"); end Execute; -- ------------------------------ -- Test the akt keystore creation. -- ------------------------------ procedure Test_Mount (T : in out Test) is Tool : constant String := Util.Tests.Get_Path (CHECK_MOUNT_PATH); Result : Ada.Strings.Unbounded.Unbounded_String; begin -- Create keystore T.Execute (Tool & " START", Result); Util.Tests.Assert_Matches (T, "PASS", Result, "akt keystore creation failed"); end Test_Mount; -- ------------------------------ -- Test the akt mount and filling the keystore. -- ------------------------------ procedure Test_Mount_Fill (T : in out Test) is Tool : constant String := Util.Tests.Get_Path (CHECK_MOUNT_PATH); Result : Ada.Strings.Unbounded.Unbounded_String; begin T.Execute (Tool & " FILL", Result); Util.Tests.Assert_Matches (T, "PASS", Result, "akt keystore mount+fill failed"); end Test_Mount_Fill; -- ------------------------------ -- Test the akt mount and cleaning the keystore. -- ------------------------------ procedure Test_Mount_Clean (T : in out Test) is Tool : constant String := Util.Tests.Get_Path (CHECK_MOUNT_PATH); Result : Ada.Strings.Unbounded.Unbounded_String; begin T.Execute (Tool & " CLEAN", Result); Util.Tests.Assert_Matches (T, "PASS", Result, "akt keystore mount+clean failed"); end Test_Mount_Clean; -- ------------------------------ -- Test the akt mount and checking its content. -- ------------------------------ procedure Test_Mount_Check (T : in out Test) is Tool : constant String := Util.Tests.Get_Path (CHECK_MOUNT_PATH); Result : Ada.Strings.Unbounded.Unbounded_String; begin T.Execute (Tool & " CHECK", Result); Util.Tests.Assert_Matches (T, "PASS", Result, "akt keystore mount+check after stress failed"); end Test_Mount_Check; -- ------------------------------ -- Test the akt mount and stressing the filesystem. -- ------------------------------ procedure Test_Mount_Stress (T : in out Test) is Tool : constant String := Util.Tests.Get_Path (CHECK_MOUNT_PATH); Result : Ada.Strings.Unbounded.Unbounded_String; begin T.Execute (Tool & " BIG", Result); Util.Tests.Assert_Matches (T, "PASS", Result, "akt keystore mount+check after stress failed"); end Test_Mount_Stress; end Keystore.Fuse_Tests;
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<item_version>0</item_version> <item>120</item> </basic_blocks> <mII>4</mII> <mDepth>6</mDepth> <mMinTripCount>-1</mMinTripCount> <mMaxTripCount>-1</mMaxTripCount> <mMinLatency>-1</mMinLatency> <mMaxLatency>-1</mMaxLatency> <mIsDfPipe>0</mIsDfPipe> <mDfPipe class_id="-1"/> </item> <item class_id_reference="22" object_id="_348"> <mId>8</mId> <mTag>Return</mTag> <mType>0</mType> <sub_regions> <count>0</count> <item_version>0</item_version> </sub_regions> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>122</item> </basic_blocks> <mII>-1</mII> <mDepth>-1</mDepth> <mMinTripCount>-1</mMinTripCount> <mMaxTripCount>-1</mMaxTripCount> <mMinLatency>0</mMinLatency> <mMaxLatency>-1</mMaxLatency> <mIsDfPipe>0</mIsDfPipe> <mDfPipe class_id="-1"/> </item> </cdfg_regions> <fsm class_id="24" tracking_level="1" version="0" object_id="_349"> <states class_id="25" tracking_level="0" version="0"> <count>18</count> <item_version>0</item_version> <item class_id="26" tracking_level="1" 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<latency>1</latency> </item> <item class_id_reference="28" object_id="_377"> <id>34</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_378"> <id>35</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_379"> <id>4</id> <operations> <count>6</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_380"> <id>24</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_381"> <id>25</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_382"> <id>36</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_383"> <id>37</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_384"> <id>38</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_385"> <id>39</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_386"> <id>5</id> <operations> <count>8</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_387"> <id>43</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_388"> <id>44</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_389"> <id>45</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_390"> <id>46</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_391"> <id>47</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_392"> <id>48</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_393"> <id>49</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_394"> <id>50</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_395"> <id>6</id> <operations> <count>6</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_396"> <id>41</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_397"> <id>42</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_398"> <id>51</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_399"> <id>52</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_400"> <id>53</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_401"> <id>54</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_402"> <id>7</id> <operations> <count>10</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_403"> <id>58</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_404"> <id>59</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_405"> <id>60</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_406"> <id>61</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_407"> <id>62</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_408"> <id>63</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_409"> <id>64</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_410"> <id>65</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_411"> <id>68</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_412"> <id>71</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_413"> <id>8</id> <operations> <count>2</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_414"> <id>66</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_415"> <id>67</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_416"> <id>9</id> <operations> <count>2</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_417"> <id>69</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_418"> <id>70</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_419"> <id>10</id> <operations> <count>6</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_420"> <id>56</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_421"> <id>57</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_422"> <id>72</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_423"> <id>73</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_424"> <id>74</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_425"> <id>75</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_426"> <id>11</id> <operations> <count>10</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_427"> <id>77</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_428"> <id>78</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_429"> <id>79</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_430"> <id>80</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_431"> <id>81</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_432"> <id>82</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_433"> <id>83</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_434"> <id>84</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_435"> <id>85</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_436"> <id>86</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_437"> <id>12</id> <operations> <count>4</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_438"> <id>90</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_439"> <id>91</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_440"> <id>106</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_441"> <id>108</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_442"> <id>13</id> <operations> <count>4</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_443"> <id>94</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_444"> <id>95</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_445"> <id>109</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_446"> <id>112</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_447"> <id>14</id> <operations> <count>15</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_448"> <id>92</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_449"> <id>93</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_450"> <id>96</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_451"> <id>97</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_452"> <id>98</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_453"> <id>99</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_454"> <id>100</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_455"> <id>101</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_456"> <id>102</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_457"> <id>103</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_458"> <id>104</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_459"> <id>105</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_460"> <id>107</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_461"> <id>113</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_462"> <id>116</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_463"> <id>15</id> <operations> <count>2</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_464"> <id>110</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_465"> <id>111</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_466"> <id>16</id> <operations> <count>2</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_467"> <id>114</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_468"> <id>115</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_469"> <id>17</id> <operations> <count>5</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_470"> <id>88</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_471"> <id>89</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_472"> <id>117</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_473"> <id>118</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_474"> <id>119</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_475"> <id>18</id> <operations> <count>1</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_476"> <id>121</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> </states> <transitions class_id="29" tracking_level="0" version="0"> <count>27</count> <item_version>0</item_version> <item class_id="30" tracking_level="1" version="0" object_id="_477"> <inState>1</inState> <outState>2</outState> <condition class_id="31" tracking_level="0" version="0"> <id>27</id> <sop class_id="32" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="33" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_478"> <inState>2</inState> <outState>3</outState> <condition> <id>34</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item class_id="34" tracking_level="0" version="0"> <first class_id="35" tracking_level="0" version="0"> <first>8</first> <second>4</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_479"> <inState>2</inState> <outState>5</outState> <condition> <id>33</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>8</first> <second>3</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_480"> <inState>2</inState> <outState>7</outState> <condition> <id>32</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>8</first> <second>2</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_481"> <inState>2</inState> <outState>11</outState> <condition> <id>31</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>8</first> <second>1</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_482"> <inState>2</inState> <outState>12</outState> <condition> <id>30</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>8</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_483"> <inState>2</inState> <outState>18</outState> <condition> <id>29</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>5</count> <item_version>0</item_version> <item> <first> <first>8</first> <second>0</second> </first> <second>0</second> </item> <item> <first> <first>8</first> <second>1</second> </first> <second>0</second> </item> <item> <first> <first>8</first> <second>2</second> </first> <second>0</second> </item> <item> <first> <first>8</first> <second>3</second> </first> <second>0</second> </item> <item> <first> <first>8</first> <second>4</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_484"> <inState>3</inState> <outState>4</outState> <condition> <id>65</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_485"> <inState>4</inState> <outState>18</outState> <condition> <id>66</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>29</first> <second>0</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_486"> <inState>4</inState> <outState>3</outState> <condition> <id>67</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>29</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_487"> <inState>5</inState> <outState>6</outState> <condition> <id>68</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_488"> <inState>6</inState> <outState>18</outState> <condition> <id>69</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>46</first> <second>0</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_489"> <inState>6</inState> <outState>5</outState> <condition> <id>70</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>46</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_490"> <inState>7</inState> <outState>8</outState> <condition> <id>71</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_491"> <inState>8</inState> <outState>9</outState> <condition> <id>72</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_492"> <inState>9</inState> <outState>10</outState> <condition> <id>73</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_493"> <inState>10</inState> <outState>18</outState> <condition> <id>74</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>61</first> <second>0</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_494"> <inState>10</inState> <outState>7</outState> <condition> <id>75</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>61</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_495"> <inState>11</inState> <outState>18</outState> <condition> <id>76</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>82</first> <second>0</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_496"> <inState>11</inState> <outState>11</outState> <condition> <id>77</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>82</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_497"> <inState>12</inState> <outState>13</outState> <condition> <id>78</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_498"> <inState>13</inState> <outState>14</outState> <condition> <id>79</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_499"> <inState>14</inState> <outState>15</outState> <condition> <id>80</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_500"> <inState>15</inState> <outState>16</outState> <condition> <id>81</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_501"> <inState>16</inState> <outState>17</outState> <condition> <id>82</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_502"> <inState>17</inState> <outState>18</outState> <condition> <id>83</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>105</first> <second>0</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_503"> <inState>17</inState> <outState>12</outState> <condition> <id>84</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>105</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> </transitions> </fsm> <res class_id="36" tracking_level="1" version="0" object_id="_504"> <dp_component_resource class_id="37" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="38" tracking_level="0" version="0"> <first>pixel_unpack_AXILiteS_s_axi_U (pixel_unpack_AXILiteS_s_axi)</first> <second class_id="39" tracking_level="0" version="0"> <count>3</count> <item_version>0</item_version> <item class_id="40" tracking_level="0" version="0"> <first>BRAM</first> <second>0</second> </item> <item> <first>FF</first> <second>68</second> </item> <item> <first>LUT</first> <second>104</second> </item> </second> </item> </dp_component_resource> <dp_expression_resource> <count>4</count> <item_version>0</item_version> <item> <first>has_user_V_2_fu_290_p2 ( or ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>last_9_2_fu_303_p2 ( or ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>tmp4_fu_284_p2 ( or ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>tmp5_fu_297_p2 ( or ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> </dp_expression_resource> <dp_fifo_resource> <count>0</count> <item_version>0</item_version> </dp_fifo_resource> <dp_memory_resource> <count>0</count> <item_version>0</item_version> </dp_memory_resource> <dp_multiplexer_resource> <count>8</count> <item_version>0</item_version> <item> <first>ap_NS_fsm</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>17</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>17</second> </item> <item> <first>LUT</first> <second>15</second> </item> </second> </item> <item> <first>ap_reg_ppiten_pp4_it1</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>ap_sig_ioackin_out_stream_TREADY</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>in_stream_TDATA_blk_n</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>out_stream_TDATA</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>14</second> </item> <item> <first>(1Bits)</first> <second>24</second> </item> <item> <first>(2Count)</first> <second>336</second> </item> <item> <first>LUT</first> <second>72</second> </item> </second> </item> <item> <first>out_stream_TDATA_blk_n</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>out_stream_TLAST</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>7</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>7</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>out_stream_TUSER</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>4</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>4</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> </dp_multiplexer_resource> <dp_register_resource> <count>22</count> <item_version>0</item_version> <item> <first>ap_CS_fsm</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>16</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>16</second> </item> </second> </item> <item> <first>ap_reg_ioackin_out_stream_TREADY</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>ap_reg_ppiten_pp4_it0</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>ap_reg_ppiten_pp4_it1</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>empty_4_reg_371_1</first> <second> 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<second>24</second> </item> </second> </item> <item> <first>reg_181</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>8</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>8</second> </item> </second> </item> <item> <first>reg_185</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>8</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>8</second> </item> </second> </item> <item> <first>reg_189</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>8</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>8</second> </item> </second> </item> <item> <first>reg_193</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>16</second> 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</second> </item> <item> <first>117</first> <second> <first>7</first> <second>0</second> </second> </item> <item> <first>119</first> <second> <first>7</first> <second>0</second> </second> </item> <item> <first>121</first> <second> <first>8</first> <second>0</second> </second> </item> </node_label_latency> <bblk_ent_exit class_id="46" tracking_level="0" version="0"> <count>7</count> <item_version>0</item_version> <item class_id="47" tracking_level="0" version="0"> <first>23</first> <second class_id="48" tracking_level="0" version="0"> <first>0</first> <second>1</second> </second> </item> <item> <first>40</first> <second> <first>2</first> <second>3</second> </second> </item> <item> <first>55</first> <second> <first>2</first> <second>3</second> </second> </item> <item> <first>76</first> <second> <first>2</first> <second>5</second> </second> </item> <item> <first>87</first> <second> <first>2</first> <second>2</second> </second> </item> <item> <first>120</first> <second> <first>2</first> <second>7</second> </second> </item> <item> <first>122</first> <second> <first>8</first> <second>8</second> </second> </item> </bblk_ent_exit> <regions class_id="49" tracking_level="0" version="0"> <count>5</count> <item_version>0</item_version> <item class_id="50" tracking_level="1" version="0" object_id="_505"> <region_name>Loop 4</region_name> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>55</item> </basic_blocks> <nodes> <count>0</count> <item_version>0</item_version> </nodes> <anchor_node>-1</anchor_node> <region_type>8</region_type> <interval>2</interval> <pipe_depth>2</pipe_depth> </item> <item class_id_reference="50" object_id="_506"> <region_name>Loop 2</region_name> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>87</item> </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>1</pipe_depth> </item> <item class_id_reference="50" object_id="_507"> <region_name>Loop 3</region_name> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>76</item> </basic_blocks> <nodes> <count>0</count> <item_version>0</item_version> </nodes> <anchor_node>-1</anchor_node> <region_type>8</region_type> <interval>4</interval> <pipe_depth>4</pipe_depth> </item> <item class_id_reference="50" object_id="_508"> <region_name>Loop 5</region_name> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>40</item> </basic_blocks> <nodes> <count>0</count> <item_version>0</item_version> </nodes> <anchor_node>-1</anchor_node> <region_type>8</region_type> <interval>2</interval> <pipe_depth>2</pipe_depth> </item> <item class_id_reference="50" object_id="_509"> <region_name>Loop 1</region_name> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>120</item> </basic_blocks> <nodes> <count>0</count> <item_version>0</item_version> </nodes> <anchor_node>-1</anchor_node> <region_type>8</region_type> <interval>4</interval> <pipe_depth>6</pipe_depth> </item> </regions> <dp_fu_nodes class_id="51" tracking_level="0" version="0"> <count>36</count> <item_version>0</item_version> <item class_id="52" tracking_level="0" version="0"> <first>96</first> <second> <count>2</count> <item_version>0</item_version> <item>8</item> <item>8</item> </second> </item> <item> <first>102</first> <second> <count>7</count> <item_version>0</item_version> <item>26</item> <item>43</item> <item>58</item> <item>79</item> <item>90</item> <item>94</item> <item>98</item> </second> </item> <item> <first>112</first> <second> <count>13</count> <item_version>0</item_version> <item>34</item> <item>37</item> <item>49</item> <item>52</item> <item>64</item> <item>67</item> <item>70</item> <item>73</item> <item>84</item> <item>107</item> <item>111</item> <item>115</item> <item>117</item> </second> </item> <item> <first>127</first> <second> <count>7</count> <item_version>0</item_version> <item>27</item> <item>44</item> <item>59</item> <item>80</item> <item>91</item> <item>95</item> <item>99</item> </second> </item> <item> <first>131</first> <second> <count>5</count> <item_version>0</item_version> <item>28</item> <item>45</item> <item>60</item> <item>81</item> <item>100</item> </second> </item> <item> <first>136</first> <second> <count>5</count> <item_version>0</item_version> <item>29</item> <item>46</item> <item>61</item> <item>82</item> <item>101</item> </second> </item> <item> <first>141</first> <second> <count>2</count> <item_version>0</item_version> <item>30</item> <item>65</item> </second> </item> <item> <first>151</first> <second> <count>3</count> <item_version>0</item_version> <item>31</item> <item>71</item> <item>108</item> </second> </item> <item> <first>161</first> <second> <count>2</count> <item_version>0</item_version> <item>35</item> <item>68</item> </second> </item> <item> <first>171</first> <second> <count>2</count> <item_version>0</item_version> <item>50</item> <item>112</item> </second> </item> <item> <first>197</first> <second> <count>1</count> <item_version>0</item_version> <item>32</item> </second> </item> <item> <first>201</first> <second> <count>1</count> <item_version>0</item_version> <item>33</item> </second> </item> <item> <first>210</first> <second> <count>1</count> <item_version>0</item_version> <item>36</item> </second> </item> <item> <first>221</first> <second> <count>1</count> <item_version>0</item_version> <item>47</item> </second> </item> <item> <first>225</first> <second> <count>1</count> <item_version>0</item_version> <item>48</item> </second> </item> <item> <first>230</first> <second> <count>1</count> <item_version>0</item_version> <item>51</item> </second> </item> <item> <first>235</first> <second> <count>1</count> <item_version>0</item_version> <item>62</item> </second> </item> <item> <first>239</first> <second> <count>1</count> <item_version>0</item_version> <item>63</item> </second> </item> <item> <first>244</first> <second> <count>1</count> <item_version>0</item_version> <item>66</item> </second> </item> <item> <first>249</first> <second> <count>1</count> <item_version>0</item_version> <item>69</item> </second> </item> <item> <first>254</first> <second> <count>1</count> <item_version>0</item_version> <item>72</item> </second> </item> <item> <first>259</first> <second> <count>1</count> <item_version>0</item_version> <item>83</item> </second> </item> <item> <first>264</first> <second> <count>1</count> <item_version>0</item_version> <item>106</item> </second> </item> <item> <first>268</first> <second> <count>1</count> <item_version>0</item_version> <item>109</item> </second> </item> <item> <first>272</first> <second> <count>1</count> <item_version>0</item_version> <item>92</item> </second> </item> <item> <first>275</first> <second> <count>1</count> <item_version>0</item_version> <item>93</item> </second> </item> <item> <first>278</first> <second> <count>1</count> <item_version>0</item_version> <item>96</item> </second> </item> <item> <first>281</first> <second> <count>1</count> <item_version>0</item_version> <item>97</item> </second> </item> <item> <first>284</first> <second> <count>1</count> <item_version>0</item_version> <item>102</item> </second> </item> <item> <first>290</first> <second> <count>1</count> <item_version>0</item_version> <item>103</item> </second> </item> <item> <first>297</first> <second> <count>1</count> <item_version>0</item_version> <item>104</item> </second> </item> <item> <first>303</first> <second> <count>1</count> <item_version>0</item_version> <item>105</item> </second> </item> <item> <first>309</first> <second> <count>1</count> <item_version>0</item_version> <item>113</item> </second> </item> <item> <first>313</first> <second> <count>1</count> <item_version>0</item_version> <item>116</item> </second> </item> <item> <first>323</first> <second> <count>1</count> <item_version>0</item_version> <item>110</item> </second> </item> <item> <first>331</first> <second> <count>1</count> <item_version>0</item_version> <item>114</item> </second> </item> </dp_fu_nodes> <dp_fu_nodes_expression class_id="54" tracking_level="0" version="0"> <count>33</count> <item_version>0</item_version> <item class_id="55" tracking_level="0" version="0"> <first>grp_fu_127</first> <second> <count>7</count> <item_version>0</item_version> <item>27</item> <item>44</item> <item>59</item> <item>80</item> <item>91</item> <item>95</item> <item>99</item> </second> </item> <item> <first>grp_fu_131</first> <second> <count>5</count> <item_version>0</item_version> <item>28</item> <item>45</item> <item>60</item> <item>81</item> <item>100</item> </second> </item> <item> <first>grp_fu_136</first> <second> <count>5</count> <item_version>0</item_version> <item>29</item> <item>46</item> <item>61</item> <item>82</item> <item>101</item> </second> </item> <item> <first>grp_fu_141</first> <second> <count>2</count> <item_version>0</item_version> <item>30</item> <item>65</item> </second> </item> <item> <first>grp_fu_151</first> <second> <count>3</count> <item_version>0</item_version> <item>31</item> <item>71</item> <item>108</item> </second> </item> <item> <first>grp_fu_161</first> <second> <count>2</count> <item_version>0</item_version> <item>35</item> <item>68</item> </second> </item> <item> <first>grp_fu_171</first> <second> <count>2</count> <item_version>0</item_version> <item>50</item> <item>112</item> </second> </item> <item> <first>has_user_V_2_fu_290</first> <second> <count>1</count> <item_version>0</item_version> <item>103</item> </second> </item> <item> <first>in_stream_last_V_val1_fu_281</first> <second> <count>1</count> <item_version>0</item_version> <item>97</item> </second> </item> <item> <first>in_stream_last_V_val_fu_275</first> <second> <count>1</count> <item_version>0</item_version> <item>93</item> </second> </item> <item> <first>in_stream_user_V_val1_fu_278</first> <second> <count>1</count> <item_version>0</item_version> <item>96</item> </second> </item> <item> <first>in_stream_user_V_val_fu_272</first> <second> <count>1</count> <item_version>0</item_version> <item>92</item> </second> </item> <item> <first>last_9_2_fu_303</first> <second> <count>1</count> <item_version>0</item_version> <item>105</item> </second> </item> <item> <first>p_Result_14_1_fu_210</first> <second> <count>1</count> <item_version>0</item_version> <item>36</item> </second> </item> <item> <first>p_Result_2_fu_201</first> <second> <count>1</count> <item_version>0</item_version> <item>33</item> </second> </item> <item> <first>p_Result_3_1_fu_323</first> <second> <count>1</count> <item_version>0</item_version> <item>110</item> </second> </item> <item> <first>p_Result_3_2_fu_331</first> <second> <count>1</count> <item_version>0</item_version> <item>114</item> </second> </item> <item> <first>p_Result_3_3_fu_313</first> <second> <count>1</count> <item_version>0</item_version> <item>116</item> </second> </item> <item> <first>p_Result_6_1_fu_244</first> <second> <count>1</count> <item_version>0</item_version> <item>66</item> </second> </item> <item> <first>p_Result_6_2_fu_249</first> <second> <count>1</count> <item_version>0</item_version> <item>69</item> </second> </item> <item> <first>p_Result_6_3_fu_254</first> <second> <count>1</count> <item_version>0</item_version> <item>72</item> </second> </item> <item> <first>p_Result_6_fu_239</first> <second> <count>1</count> <item_version>0</item_version> <item>63</item> </second> </item> <item> <first>p_Result_8_1_fu_230</first> <second> <count>1</count> <item_version>0</item_version> <item>51</item> </second> </item> <item> <first>p_Result_8_fu_225</first> <second> <count>1</count> <item_version>0</item_version> <item>48</item> </second> </item> <item> <first>tmp4_fu_284</first> <second> <count>1</count> <item_version>0</item_version> <item>102</item> </second> </item> <item> <first>tmp5_fu_297</first> <second> <count>1</count> <item_version>0</item_version> <item>104</item> </second> </item> <item> <first>tmp_10_fu_235</first> <second> <count>1</count> <item_version>0</item_version> <item>62</item> </second> </item> <item> <first>tmp_11_fu_221</first> <second> <count>1</count> <item_version>0</item_version> <item>47</item> </second> </item> <item> <first>tmp_12_fu_197</first> <second> <count>1</count> <item_version>0</item_version> <item>32</item> </second> </item> <item> <first>tmp_2_fu_264</first> <second> <count>1</count> <item_version>0</item_version> <item>106</item> </second> </item> <item> <first>tmp_4_fu_268</first> <second> <count>1</count> <item_version>0</item_version> <item>109</item> </second> </item> <item> <first>tmp_6_fu_309</first> <second> <count>1</count> <item_version>0</item_version> <item>113</item> </second> </item> <item> <first>tmp_9_fu_259</first> <second> <count>1</count> <item_version>0</item_version> <item>83</item> </second> </item> </dp_fu_nodes_expression> <dp_fu_nodes_module> <count>0</count> <item_version>0</item_version> </dp_fu_nodes_module> <dp_fu_nodes_io> <count>3</count> <item_version>0</item_version> <item> <first>grp_read_fu_102</first> <second> <count>7</count> <item_version>0</item_version> <item>26</item> <item>43</item> <item>58</item> <item>79</item> <item>90</item> <item>94</item> <item>98</item> </second> </item> <item> <first>grp_read_fu_96</first> <second> <count>2</count> <item_version>0</item_version> <item>8</item> <item>8</item> </second> </item> <item> <first>grp_write_fu_112</first> <second> <count>13</count> <item_version>0</item_version> <item>34</item> <item>37</item> <item>49</item> <item>52</item> <item>64</item> <item>67</item> <item>70</item> <item>73</item> <item>84</item> <item>107</item> <item>111</item> <item>115</item> <item>117</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="56" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </dp_mem_port_nodes> <dp_reg_nodes> <count>14</count> <item_version>0</item_version> <item> <first>181</first> <second> <count>2</count> <item_version>0</item_version> <item>30</item> <item>65</item> </second> </item> <item> <first>185</first> <second> <count>3</count> <item_version>0</item_version> <item>31</item> <item>71</item> <item>108</item> </second> </item> <item> <first>189</first> <second> <count>2</count> <item_version>0</item_version> <item>35</item> <item>68</item> </second> </item> <item> <first>193</first> <second> <count>2</count> <item_version>0</item_version> <item>50</item> <item>112</item> </second> </item> <item> <first>342</first> <second> <count>1</count> <item_version>0</item_version> <item>29</item> </second> </item> <item> <first>347</first> <second> <count>1</count> <item_version>0</item_version> <item>46</item> </second> </item> <item> <first>352</first> <second> <count>1</count> <item_version>0</item_version> <item>61</item> </second> </item> <item> <first>360</first> <second> <count>1</count> <item_version>0</item_version> <item>90</item> </second> </item> <item> <first>366</first> <second> <count>1</count> <item_version>0</item_version> <item>106</item> </second> </item> <item> <first>371</first> <second> <count>1</count> <item_version>0</item_version> <item>94</item> </second> </item> <item> <first>377</first> <second> <count>1</count> <item_version>0</item_version> <item>109</item> </second> </item> <item> <first>382</first> <second> <count>1</count> <item_version>0</item_version> <item>105</item> </second> </item> <item> <first>387</first> <second> <count>1</count> <item_version>0</item_version> <item>113</item> </second> </item> <item> <first>392</first> <second> <count>1</count> <item_version>0</item_version> <item>116</item> </second> </item> </dp_reg_nodes> <dp_regname_nodes> <count>14</count> <item_version>0</item_version> <item> <first>empty_4_reg_371</first> <second> <count>1</count> <item_version>0</item_version> <item>94</item> </second> </item> <item> <first>empty_reg_360</first> <second> <count>1</count> <item_version>0</item_version> <item>90</item> </second> </item> <item> <first>last_1_reg_347</first> <second> <count>1</count> <item_version>0</item_version> <item>46</item> </second> </item> <item> <first>last_2_reg_342</first> <second> <count>1</count> <item_version>0</item_version> <item>29</item> </second> </item> <item> <first>last_9_2_reg_382</first> <second> <count>1</count> <item_version>0</item_version> <item>105</item> </second> </item> <item> <first>last_reg_352</first> <second> <count>1</count> <item_version>0</item_version> <item>61</item> </second> </item> <item> <first>p_Result_3_3_reg_392</first> <second> <count>1</count> <item_version>0</item_version> <item>116</item> </second> </item> <item> <first>reg_181</first> <second> <count>2</count> <item_version>0</item_version> <item>30</item> <item>65</item> </second> </item> <item> 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with openGL.Font.texture, openGL.Geometry; package openGL.Model.Text.lit_colored_textured -- -- Models lit, colored, textured text. -- is type Item is new Model.text.item with record Text : access String; Font_Id : openGL.Font.font_Id; Font : openGL.Font.texture.view; Color : lucid_Color; Centered : Boolean; end record; type View is access all Item'Class; --------- --- Forge -- function new_Text (Scale : in Vector_3; Text : in String; Font : in openGL.Font.font_Id; Color : in lucid_Color; Centered : in Boolean := True) return View; -------------- --- Attributes -- overriding function to_GL_Geometries (Self : access Item; Textures : access Texture.name_Map_of_texture'Class; Fonts : in openGL.Font.font_id_Map_of_font) return Geometry.views; overriding procedure Text_is (Self : in out Item; Now : in String); overriding function Text (Self : in Item) return String; overriding function Font (Self : in Item) return openGL.Font.view; end openGL.Model.Text.lit_colored_textured;
-- Copyright 2011-2015 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 procedure Do_Nothing (A : System.Address) is begin null; end Do_Nothing; end Pck;

pragma Ada_2005; pragma Style_Checks (Off); with Interfaces.C; use Interfaces.C; with System; with Interfaces.C.Strings; with SDL_stdinc_h; package SDL_main_h is C_LINKAGE : aliased constant String := "C" & ASCII.NUL; -- ..\SDL2_tmp\SDL_main.h:86 -- unsupported macro: main SDL_main -- Simple DirectMedia Layer -- Copyright (C) 1997-2018 Sam Lantinga <slouken@libsdl.org> -- This software is provided 'as-is', without any express or implied -- warranty. In no event will the authors be held liable for any damages -- arising from the use of this software. -- Permission is granted to anyone to use this software for any purpose, -- including commercial applications, and to alter it and redistribute it -- freely, subject to the following restrictions: -- 1. The origin of this software must not be misrepresented; you must not -- claim that you wrote the original software. If you use this software -- in a product, an acknowledgment in the product documentation would be -- appreciated but is not required. -- 2. Altered source versions must be plainly marked as such, and must not be -- misrepresented as being the original software. -- 3. This notice may not be removed or altered from any source distribution. -- --* -- * \file SDL_main.h -- * -- * Redefine main() on some platforms so that it is called by SDL. -- -- On Windows SDL provides WinMain(), which parses the command line and passes -- the arguments to your main function. -- If you provide your own WinMain(), you may define SDL_MAIN_HANDLED -- -- On WinRT, SDL provides a main function that initializes CoreApplication, -- creating an instance of IFrameworkView in the process. -- Please note that #include'ing SDL_main.h is not enough to get a main() -- function working. In non-XAML apps, the file, -- src/main/winrt/SDL_WinRT_main_NonXAML.cpp, or a copy of it, must be compiled -- into the app itself. In XAML apps, the function, SDL_WinRTRunApp must be -- called, with a pointer to the Direct3D-hosted XAML control passed in. -- -- On iOS SDL provides a main function that creates an application delegate -- and starts the iOS application run loop. -- See src/video/uikit/SDL_uikitappdelegate.m for more details. -- -- On Android SDL provides a Java class in SDLActivity.java that is the -- main activity entry point. -- See docs/README-android.md for more details on extending that class. -- -- We need to export SDL_main so it can be launched from Java -- On NACL we use ppapi_simple to set up the application helper code, -- then wait for the first PSE_INSTANCE_DIDCHANGEVIEW event before -- starting the user main function. -- All user code is run in a separate thread by ppapi_simple, thus -- allowing for blocking io to take place via nacl_io -- --* -- * \file SDL_main.h -- * -- * The application's main() function must be called with C linkage, -- * and should be declared like this: -- * \code -- * #ifdef __cplusplus -- * extern "C" -- * #endif -- * int main(int argc, char *argv[]) -- * { -- * } -- * \endcode -- --* -- * The prototype for the application's main() function -- function SDL_main (argc : int; argv : System.Address) return int; -- ..\SDL2_tmp\SDL_main.h:117 pragma Import (C, SDL_main, "SDL_main"); --* -- * This is called by the real SDL main function to let the rest of the -- * library know that initialization was done properly. -- * -- * Calling this yourself without knowing what you're doing can cause -- * crashes and hard to diagnose problems with your application. -- procedure SDL_SetMainReady; -- ..\SDL2_tmp\SDL_main.h:132 pragma Import (C, SDL_SetMainReady, "SDL_SetMainReady"); --* -- * This can be called to set the application class at startup -- function SDL_RegisterApp (name : Interfaces.C.Strings.chars_ptr; style : SDL_stdinc_h.Uint32; hInst : System.Address) return int; -- ..\SDL2_tmp\SDL_main.h:139 pragma Import (C, SDL_RegisterApp, "SDL_RegisterApp"); procedure SDL_UnregisterApp; -- ..\SDL2_tmp\SDL_main.h:141 pragma Import (C, SDL_UnregisterApp, "SDL_UnregisterApp"); --* -- * \brief Initializes and launches an SDL/WinRT application. -- * -- * \param mainFunction The SDL app's C-style main(). -- * \param reserved Reserved for future use; should be NULL -- * \return 0 on success, -1 on failure. On failure, use SDL_GetError to retrieve more -- * information on the failure. -- -- vi: set ts=4 sw=4 expandtab: end SDL_main_h;

with Ada.Assertions; use Ada.Assertions; with Ada.Containers.Hashed_Maps; use Ada.Containers; with Ada.Text_IO; use Ada.Text_IO; with Ada.Strings.Hash; procedure Day18 is subtype Input_String is String (1 .. 50); type String_Array is array (Input_String'Range) of Input_String; function Array_Hash (A : String_Array) return Hash_Type is Hash : Hash_Type := 0; begin for I in A'Range loop Hash := Hash + Ada.Strings.Hash (A (I)); end loop; return Hash; end Array_Hash; package Array_Maps is new Hashed_Maps (Key_Type => String_Array, Element_Type => Natural, Hash => Array_Hash, Equivalent_Keys => "="); Grid : String_Array; function Count_Neighbors (X_Start, Y_Start : Natural; Char : Character) return Natural is Result : Natural := 0; begin for Y in Y_Start - 1 .. Y_Start + 1 loop for X in X_Start - 1 .. X_Start + 1 loop if (X /= X_Start or Y /= Y_Start) and (X >= Grid'First and X <= Grid'Last) and (Y >= Grid'First and Y <= Grid'Last) then if Grid (Y) (X) = Char then Result := Result + 1; end if; end if; end loop; end loop; return Result; end Count_Neighbors; function Change_Tile (X, Y : Positive) return Character is Current_Tile : constant Character := Grid (Y) (X); New_Tile : Character := Current_Tile; begin if Current_Tile = '.' then if Count_Neighbors (X, Y, '|') >= 3 then New_Tile := '|'; end if; elsif Current_Tile = '|' then if Count_Neighbors (X, Y, '#') >= 3 then New_Tile := '#'; end if; elsif Current_Tile = '#' then if Count_Neighbors (X, Y, '#') = 0 or Count_Neighbors (X, Y, '|') = 0 then New_Tile := '.'; end if; else Assert (False, "Illegal tile: " & Current_Tile); end if; return New_Tile; end Change_Tile; function Change_Grid return String_Array is New_Grid : String_Array; begin for Y in Grid'Range loop for X in Grid'Range loop New_Grid (Y) (X) := Change_Tile (X, Y); end loop; end loop; return New_Grid; end Change_Grid; function Resource_Value return Natural is Tree_Count : Natural := 0; Lumber_Count : Natural := 0; begin for I in Grid'Range loop for J in Grid'Range loop if Grid (I) (J) = '|' then Tree_Count := Tree_Count + 1; elsif Grid (I) (J) = '#' then Lumber_Count := Lumber_Count + 1; end if; end loop; end loop; return Tree_Count * Lumber_Count; end Resource_Value; begin -- Input Handling declare File : File_Type; begin Open (File, In_File, "input.txt"); for I in Grid'Range loop Grid (I) := Get_Line (File); end loop; Assert (End_Of_File (File), "More input than expected!"); Close (File); end; declare Total : constant Natural := 1000000000; Remaining : Natural := 0; Seen_Grids : Array_Maps.Map; begin Seen_Grids.Insert (Grid, 0); Outer_Loop : for I in 1 .. Total loop Grid := Change_Grid; -- Part 1 if I = 10 then Put_Line ("Part 1 =" & Natural'Image (Resource_Value)); end if; -- Detection of cycle if Seen_Grids.Contains (Grid) then Remaining := (Total - I) mod (I - Seen_Grids (Grid)); exit Outer_Loop; else Seen_Grids.Insert (Grid, I); end if; end loop Outer_Loop; for I in 1 .. Remaining loop Grid := Change_Grid; end loop; Put_Line ("Part 2 =" & Natural'Image (Resource_Value)); end; end Day18;

-- SPDX-FileCopyrightText: 2019 Max Reznik <reznikmm@gmail.com> -- -- SPDX-License-Identifier: MIT ------------------------------------------------------------- package body Program.Nodes.Function_Body_Stubs is function Create (Not_Token : Program.Lexical_Elements.Lexical_Element_Access; Overriding_Token : Program.Lexical_Elements.Lexical_Element_Access; Function_Token : not null Program.Lexical_Elements .Lexical_Element_Access; Name : not null Program.Elements.Defining_Identifiers .Defining_Identifier_Access; Left_Bracket_Token : Program.Lexical_Elements.Lexical_Element_Access; Parameters : Program.Elements.Parameter_Specifications .Parameter_Specification_Vector_Access; Right_Bracket_Token : Program.Lexical_Elements.Lexical_Element_Access; Return_Token : not null Program.Lexical_Elements .Lexical_Element_Access; Not_Token_2 : Program.Lexical_Elements.Lexical_Element_Access; Null_Token : Program.Lexical_Elements.Lexical_Element_Access; Result_Subtype : not null Program.Elements.Element_Access; Is_Token : not null Program.Lexical_Elements .Lexical_Element_Access; Separate_Token : not null Program.Lexical_Elements .Lexical_Element_Access; With_Token : Program.Lexical_Elements.Lexical_Element_Access; Aspects : Program.Elements.Aspect_Specifications .Aspect_Specification_Vector_Access; Semicolon_Token : not null Program.Lexical_Elements .Lexical_Element_Access) return Function_Body_Stub is begin return Result : Function_Body_Stub := (Not_Token => Not_Token, Overriding_Token => Overriding_Token, Function_Token => Function_Token, Name => Name, Left_Bracket_Token => Left_Bracket_Token, Parameters => Parameters, Right_Bracket_Token => Right_Bracket_Token, Return_Token => Return_Token, Not_Token_2 => Not_Token_2, Null_Token => Null_Token, Result_Subtype => Result_Subtype, Is_Token => Is_Token, Separate_Token => Separate_Token, With_Token => With_Token, Aspects => Aspects, Semicolon_Token => Semicolon_Token, Enclosing_Element => null) do Initialize (Result); end return; end Create; function Create (Name : not null Program.Elements.Defining_Identifiers .Defining_Identifier_Access; Parameters : Program.Elements.Parameter_Specifications .Parameter_Specification_Vector_Access; Result_Subtype : not null Program.Elements.Element_Access; Aspects : Program.Elements.Aspect_Specifications .Aspect_Specification_Vector_Access; Is_Part_Of_Implicit : Boolean := False; Is_Part_Of_Inherited : Boolean := False; Is_Part_Of_Instance : Boolean := False; Has_Not : Boolean := False; Has_Overriding : Boolean := False; Has_Not_Null : Boolean := False) return Implicit_Function_Body_Stub is begin return Result : Implicit_Function_Body_Stub := (Name => Name, Parameters => Parameters, Result_Subtype => Result_Subtype, Aspects => Aspects, 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_Not => Has_Not, Has_Overriding => Has_Overriding, Has_Not_Null => Has_Not_Null, Enclosing_Element => null) do Initialize (Result); end return; end Create; overriding function Name (Self : Base_Function_Body_Stub) return not null Program.Elements.Defining_Identifiers .Defining_Identifier_Access is begin return Self.Name; end Name; overriding function Parameters (Self : Base_Function_Body_Stub) return Program.Elements.Parameter_Specifications .Parameter_Specification_Vector_Access is begin return Self.Parameters; end Parameters; overriding function Result_Subtype (Self : Base_Function_Body_Stub) return not null Program.Elements.Element_Access is begin return Self.Result_Subtype; end Result_Subtype; overriding function Aspects (Self : Base_Function_Body_Stub) return Program.Elements.Aspect_Specifications .Aspect_Specification_Vector_Access is begin return Self.Aspects; end Aspects; overriding function Not_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Not_Token; end Not_Token; overriding function Overriding_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Overriding_Token; end Overriding_Token; overriding function Function_Token (Self : Function_Body_Stub) return not null Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Function_Token; end Function_Token; overriding function Left_Bracket_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Left_Bracket_Token; end Left_Bracket_Token; overriding function Right_Bracket_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Right_Bracket_Token; end Right_Bracket_Token; overriding function Return_Token (Self : Function_Body_Stub) return not null Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Return_Token; end Return_Token; overriding function Not_Token_2 (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Not_Token_2; end Not_Token_2; overriding function Null_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Null_Token; end Null_Token; overriding function Is_Token (Self : Function_Body_Stub) return not null Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Is_Token; end Is_Token; overriding function Separate_Token (Self : Function_Body_Stub) return not null Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Separate_Token; end Separate_Token; overriding function With_Token (Self : Function_Body_Stub) return Program.Lexical_Elements.Lexical_Element_Access is begin return Self.With_Token; end With_Token; overriding function Semicolon_Token (Self : Function_Body_Stub) return not null Program.Lexical_Elements.Lexical_Element_Access is begin return Self.Semicolon_Token; end Semicolon_Token; overriding function Has_Not (Self : Function_Body_Stub) return Boolean is begin return Self.Not_Token.Assigned; end Has_Not; overriding function Has_Overriding (Self : Function_Body_Stub) return Boolean is begin return Self.Overriding_Token.Assigned; end Has_Overriding; overriding function Has_Not_Null (Self : Function_Body_Stub) return Boolean is begin return Self.Null_Token.Assigned; end Has_Not_Null; overriding function Is_Part_Of_Implicit (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Is_Part_Of_Implicit; end Is_Part_Of_Implicit; overriding function Is_Part_Of_Inherited (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Is_Part_Of_Inherited; end Is_Part_Of_Inherited; overriding function Is_Part_Of_Instance (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Is_Part_Of_Instance; end Is_Part_Of_Instance; overriding function Has_Not (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Has_Not; end Has_Not; overriding function Has_Overriding (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Has_Overriding; end Has_Overriding; overriding function Has_Not_Null (Self : Implicit_Function_Body_Stub) return Boolean is begin return Self.Has_Not_Null; end Has_Not_Null; procedure Initialize (Self : in out Base_Function_Body_Stub'Class) is begin Set_Enclosing_Element (Self.Name, Self'Unchecked_Access); for Item in Self.Parameters.Each_Element loop Set_Enclosing_Element (Item.Element, Self'Unchecked_Access); end loop; Set_Enclosing_Element (Self.Result_Subtype, Self'Unchecked_Access); for Item in Self.Aspects.Each_Element loop Set_Enclosing_Element (Item.Element, Self'Unchecked_Access); end loop; null; end Initialize; overriding function Is_Function_Body_Stub (Self : Base_Function_Body_Stub) return Boolean is pragma Unreferenced (Self); begin return True; end Is_Function_Body_Stub; overriding function Is_Declaration (Self : Base_Function_Body_Stub) return Boolean is pragma Unreferenced (Self); begin return True; end Is_Declaration; overriding procedure Visit (Self : not null access Base_Function_Body_Stub; Visitor : in out Program.Element_Visitors.Element_Visitor'Class) is begin Visitor.Function_Body_Stub (Self); end Visit; overriding function To_Function_Body_Stub_Text (Self : in out Function_Body_Stub) return Program.Elements.Function_Body_Stubs .Function_Body_Stub_Text_Access is begin return Self'Unchecked_Access; end To_Function_Body_Stub_Text; overriding function To_Function_Body_Stub_Text (Self : in out Implicit_Function_Body_Stub) return Program.Elements.Function_Body_Stubs .Function_Body_Stub_Text_Access is pragma Unreferenced (Self); begin return null; end To_Function_Body_Stub_Text; end Program.Nodes.Function_Body_Stubs;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- SYSTEM.TASK_PRIMITIVES.OPERATIONS.SPECIFIC -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2011, Free Software Foundation, Inc. -- -- -- -- 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 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/>. -- -- -- -- GNARL was developed by the GNARL team at Florida State University. -- -- Extensive contributions were provided by Ada Core Technologies, Inc. -- -- -- ------------------------------------------------------------------------------ -- This is a POSIX version of this package where foreign threads are -- recognized. separate (System.Task_Primitives.Operations) package body Specific is ATCB_Key : aliased pthread_key_t; -- Key used to find the Ada Task_Id associated with a thread ---------------- -- Initialize -- ---------------- procedure Initialize (Environment_Task : Task_Id) is pragma Warnings (Off, Environment_Task); Result : Interfaces.C.int; begin Result := pthread_key_create (ATCB_Key'Access, null); pragma Assert (Result = 0); end Initialize; ------------------- -- Is_Valid_Task -- ------------------- function Is_Valid_Task return Boolean is begin return pthread_getspecific (ATCB_Key) /= System.Null_Address; end Is_Valid_Task; --------- -- Set -- --------- procedure Set (Self_Id : Task_Id) is Result : Interfaces.C.int; begin Result := pthread_setspecific (ATCB_Key, To_Address (Self_Id)); pragma Assert (Result = 0); end Set; ---------- -- Self -- ---------- -- To make Ada tasks and C threads interoperate better, we have added some -- functionality to Self. Suppose a C main program (with threads) calls an -- Ada procedure and the Ada procedure calls the tasking runtime system. -- Eventually, a call will be made to self. Since the call is not coming -- from an Ada task, there will be no corresponding ATCB. -- What we do in Self is to catch references that do not come from -- recognized Ada tasks, and create an ATCB for the calling thread. -- The new ATCB will be "detached" from the normal Ada task master -- hierarchy, much like the existing implicitly created signal-server -- tasks. function Self return Task_Id is Result : System.Address; begin Result := pthread_getspecific (ATCB_Key); -- If the key value is Null then it is a non-Ada task if Result /= System.Null_Address then return To_Task_Id (Result); else return Register_Foreign_Thread; end if; end Self; end Specific;

------------------------------------------------------------------------------ -- -- -- 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.Elements; with AMF.OCL; with AMF.UML; with Matreshka.Internals.Strings; package AMF.Internals.Tables.OCL_Types is pragma Preelaborate; type Element_Kinds is (E_None, E_OCL_Any_Type, E_OCL_Association_Class_Call_Exp, E_OCL_Bag_Type, E_OCL_Boolean_Literal_Exp, E_OCL_Collection_Item, E_OCL_Collection_Literal_Exp, E_OCL_Collection_Range, E_OCL_Collection_Type, E_OCL_Enum_Literal_Exp, E_OCL_Expression_In_Ocl, E_OCL_If_Exp, E_OCL_Integer_Literal_Exp, E_OCL_Invalid_Literal_Exp, E_OCL_Invalid_Type, E_OCL_Iterate_Exp, E_OCL_Iterator_Exp, E_OCL_Let_Exp, E_OCL_Message_Exp, E_OCL_Message_Type, E_OCL_Null_Literal_Exp, E_OCL_Operation_Call_Exp, E_OCL_Ordered_Set_Type, E_OCL_Property_Call_Exp, E_OCL_Real_Literal_Exp, E_OCL_Sequence_Type, E_OCL_Set_Type, E_OCL_State_Exp, E_OCL_String_Literal_Exp, E_OCL_Template_Parameter_Type, E_OCL_Tuple_Literal_Exp, E_OCL_Tuple_Literal_Part, E_OCL_Tuple_Type, E_OCL_Type_Exp, E_OCL_Unlimited_Natural_Literal_Exp, E_OCL_Unspecified_Value_Exp, E_OCL_Variable, E_OCL_Variable_Exp, E_OCL_Void_Type); type Member_Kinds is (M_None, M_Boolean, M_Collection_Kind, M_Collection_Of_Element, M_Collection_Of_String, M_Element, M_Integer, M_Real, M_String, M_Unlimited_Natural, M_Visibility_Kind, M_Visibility_Kind_Holder); type Member_Record (Kind : Member_Kinds := M_None) is record case Kind is when M_None => null; when M_Boolean => Boolean_Value : Boolean; when M_Collection_Kind => Collection_Kind_Value : AMF.OCL.OCL_Collection_Kind; when M_Collection_Of_Element => Collection : AMF.Internals.AMF_Collection_Of_Element; when M_Collection_Of_String => String_Collection : AMF.Internals.AMF_Collection_Of_String; when M_Element => Link : AMF.Internals.AMF_Link; when M_Integer => Integer_Value : Integer; when M_Real => Real_Value : AMF.Real; when M_String => String_Value : Matreshka.Internals.Strings.Shared_String_Access; when M_Unlimited_Natural => Unlimited_Natural_Value : AMF.Unlimited_Natural; when M_Visibility_Kind => Visibility_Kind_Value : AMF.UML.UML_Visibility_Kind; when M_Visibility_Kind_Holder => Visibility_Kind_Holder : AMF.UML.Optional_UML_Visibility_Kind; end case; end record; type Member_Array is array (Natural range 0 .. 18) of Member_Record; type Element_Record is record Kind : Element_Kinds := E_None; Extent : AMF.Internals.AMF_Extent; Proxy : AMF.Elements.Element_Access; Member : Member_Array; end record; end AMF.Internals.Tables.OCL_Types;

With Ada.Text_IO; Procedure INI.Print(Object : Instance) is Procedure DEBUG_Print( Object : Value_Object ) is Begin Ada.Text_IO.Put_Line(if Object.Kind = vt_String then Object.String_Value else ABS Object ); End DEBUG_Print; Procedure DEBUG_Print( Object : KEY_VALUE_MAP.Map ) is Package KVM renames KEY_VALUE_MAP; Begin For Item in Object.Iterate loop Ada.Text_IO.Put( " " & KVM.Key(Item) & '=' ); DEBUG_Print( KVM.Element(Item) ); End loop; End DEBUG_Print; Package KSM renames KEY_SECTION_MAP; Begin For Section in Object.Iterate Loop Ada.Text_IO.Put_Line( KSM.Key(Section) ); DEBUG_Print( KSM.Element(Section) ); End Loop; End INI.Print;

----------------------------------------------------------------------- -- streams.files.tests -- Unit tests for buffered streams -- Copyright (C) 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 Ada.Strings.Unbounded; with Ada.Streams.Stream_IO; with Util.Test_Caller; with Util.Streams.Files; with Util.Streams.Texts; package body Util.Streams.Texts.Tests is use Util.Tests; use Ada.Streams.Stream_IO; package Caller is new Util.Test_Caller (Test, "Streams.Texts"); procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite) is begin Caller.Add_Test (Suite, "Test Util.Streams.Texts.Open, Read_Line, Close", Test_Read_Line'Access); end Add_Tests; -- ------------------------------ -- Test reading a text stream. -- ------------------------------ procedure Test_Read_Line (T : in out Test) is Stream : aliased Files.File_Stream; Reader : Util.Streams.Texts.Reader_Stream; Count : Natural := 0; begin Stream.Open (Name => "Makefile", Mode => In_File); Reader.Initialize (From => Stream'Unchecked_Access); while not Reader.Is_Eof loop declare Line : Ada.Strings.Unbounded.Unbounded_String; begin Reader.Read_Line (Line); Count := Count + 1; end; end loop; Stream.Close; T.Assert (Count > 100, "Too few lines read"); end Test_Read_Line; end Util.Streams.Texts.Tests;

with Gtk.Window; use Gtk.Window; with Gtk.Widget; use Gtk.Widget; with Gtk.Handlers; with Gtk.Main; procedure Windowed_Application is Window : Gtk_Window; package Handlers is new Gtk.Handlers.Callback (Gtk_Widget_Record); package Return_Handlers is new Gtk.Handlers.Return_Callback (Gtk_Widget_Record, Boolean); function Delete_Event (Widget : access Gtk_Widget_Record'Class) return Boolean is begin return False; end Delete_Event; procedure Destroy (Widget : access Gtk_Widget_Record'Class) is begin Gtk.Main.Main_Quit; end Destroy; begin Gtk.Main.Init; Gtk.Window.Gtk_New (Window); Return_Handlers.Connect ( Window, "delete_event", Return_Handlers.To_Marshaller (Delete_Event'Access) ); Handlers.Connect ( Window, "destroy", Handlers.To_Marshaller (Destroy'Access) ); Show (Window); Gtk.Main.Main; end Windowed_Application;

with Ada.Directories; with Xmlhelpers; with Ada.Characters.Conversions; package body Generator.Sitemap is use Ada.Characters.Conversions; package DIR renames Ada.Directories; function Create ( Posts : Document_Container.List; Documents : Document_Container.List; Targetpath : String; Site_Set : Translate_Set) return String is Main_Node, Entry_Node : DOM.Core.Element; DOMi : DOM_Implementation; Feed : Node; Entries_Amount : Natural := 0; Filepath : constant String := DIR.Compose (Targetpath, Globals.Sitemap_filename); File_Handle : Ada.Streams.Stream_IO.File_Type; begin Feed := Create_Document (Implementation => DOMi); Main_Node := Create_Element (Doc => Feed, Tag_Name => "urlset"); DOM.Core.Elements.Set_Attribute (Main_Node, "xmlns", "http://www.sitemaps.org/schemas/sitemap/0.9"); Main_Node := Append_Child (N => Feed, New_Child => Main_Node); for aPost of Posts loop Entry_Node := Append_Child (Main_Node, Create_Element (Feed, "url")); Xmlhelpers.Add_Node ("loc", Generator.Read_From_Set (Site_Set, "site_base") & "/" & To_String (To_String (aPost.Linkpath)), Entry_Node, Feed); Xmlhelpers.Add_Node ("lastmod", Generator.Read_From_Set (aPost.T, "updated"), Entry_Node, Feed); end loop; for aDocument of Documents loop Entry_Node := Append_Child (Main_Node, Create_Element (Feed, "url")); Xmlhelpers.Add_Node ("loc", Generator.Read_From_Set (Site_Set, "site_base") & "/" & To_String (To_String (aDocument.Linkpath)), Entry_Node, Feed); Xmlhelpers.Add_Node ("lastmod", Generator.Read_From_Set (aDocument.T, "updated"), Entry_Node, Feed); end loop; Ada.Streams.Stream_IO.Create (File_Handle, Out_File, Filepath); Write (Stream (File => File_Handle), Feed, True); Close (File_Handle); return Filepath; end Create; end Generator.Sitemap;

-- Copyright 2011-2020 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;

-- Standard Ada library specification -- Copyright (c) 2003-2018 Maxim Reznik <reznikmm@gmail.com> -- Copyright (c) 2004-2016 AXE Consultants -- Copyright (c) 2004, 2005, 2006 Ada-Europe -- Copyright (c) 2000 The MITRE Corporation, Inc. -- Copyright (c) 1992, 1993, 1994, 1995 Intermetrics, Inc. -- SPDX-License-Identifier: BSD-3-Clause and LicenseRef-AdaReferenceManual --------------------------------------------------------------------------- generic type Object (<>) is limited private; package System.Address_To_Access_Conversions is pragma Preelaborate (Address_To_Access_Conversions); type Object_Pointer is access all Object; function To_Pointer (Value : Address) return Object_Pointer; function To_Address (Value : Object_Pointer) return Address; pragma Convention (Intrinsic, To_Pointer); pragma Convention (Intrinsic, To_Address); end System.Address_To_Access_Conversions;

-- Copyright (c) 2017 Maxim Reznik <reznikmm@gmail.com> -- -- SPDX-License-Identifier: MIT -- License-Filename: LICENSE ------------------------------------------------------------- with Ada.Characters.Wide_Wide_Latin_1; with League.String_Vectors; with League.Strings; package body LSP_Documents is function "+" (Text : Wide_Wide_String) return League.Strings.Universal_String renames League.Strings.To_Universal_String; -------------- -- Get_Line -- -------------- not overriding function Get_Line (Self : Document; Line : LSP.Types.Line_Number) return LSP.Types.LSP_String is begin return Self.Lines.Element (Natural (Line) + 1); end Get_Line; ----------------- -- All_Symbols -- ----------------- not overriding function All_Symbols (Self : Document; Query : LSP.Types.LSP_String) return LSP.Messages.SymbolInformation_Vector is use type League.Strings.Universal_String; Result : LSP.Messages.SymbolInformation_Vector; Item : LSP.Messages.SymbolInformation; begin for J in 1 .. Self.Lines.Length loop declare Line : constant League.Strings.Universal_String := Self.Lines (J); List : constant League.String_Vectors.Universal_String_Vector := Line.Split (' ', League.Strings.Skip_Empty); LN : constant LSP.Types.Line_Number := LSP.Types.Line_Number (J - 1); begin if List.Length > 2 and then List (1) = +"type" and then (Query.Is_Empty or else List (2).Index (Query) > 0) then Item := (name => List (2), kind => LSP.Messages.Class, location => (Self.Uri, (first => (LN, LSP.Types.UTF_16_Index (Line.Index (List (2)) - 1)), last => (LN, LSP.Types.UTF_16_Index (Line.Index (List (2)) + List (2).Length - 1)))), containerName => (Is_Set => False)); Result.Append (Item); end if; end; end loop; return Result; end All_Symbols; --------------- -- Initalize -- --------------- procedure Initalize (Self : out Document; Uri : LSP.Types.LSP_String; Text : LSP.Types.LSP_String; Version : LSP.Types.Version_Id) is begin Self.Uri := Uri; Self.Lines := Text.Split (Ada.Characters.Wide_Wide_Latin_1.LF); Self.Version := Version; end Initalize; ------------ -- Lookup -- ------------ not overriding function Lookup (Self : Document; Where : LSP.Messages.Position) return Lookup_Result is use type League.Strings.Universal_String; type State_Kinds is (Other, Character, Identifier, Tick); Text : constant LSP.Types.LSP_String := Self.Get_Line (Where.line); State : State_Kinds := Other; Prev : State_Kinds := Other; Attr : Boolean := False; Id_First : Natural := 0; Id_Last : Natural := 0; Is_Pragma : Boolean := False; Pragma_Id : League.Strings.Universal_String; Param : Natural := 0; begin for J in 1 .. Text.Length loop Prev := State; case State is when Other => if Text (J).To_Wide_Wide_Character = ''' then State := Character; elsif Text (J).Is_ID_Start then State := Identifier; Id_First := J; end if; when Character => if Text (J).To_Wide_Wide_Character = ''' then State := Other; end if; when Identifier => Id_Last := J; if Text (J).To_Wide_Wide_Character = ''' then State := Tick; Id_Last := J - 1; elsif not (Text (J).Is_ID_Start or Text (J).Is_ID_Continue or Text (J).To_Wide_Wide_Character = '.') then State := Other; Id_Last := J - 1; if Text.Slice (Id_First, Id_Last) = +"pragma" then Is_Pragma := True; elsif Is_Pragma then Pragma_Id := Text.Slice (Id_First, Id_Last); Is_Pragma := False; Param := 0; end if; end if; when Tick => if Text (J).Is_ID_Start then Attr := True; State := Identifier; Id_First := J; end if; end case; if Text (J).To_Wide_Wide_Character = ';' then Is_Pragma := False; elsif Text (J).To_Wide_Wide_Character in '(' | ',' then Param := Param + 1; end if; exit when State /= Identifier and J >= Natural (Where.character); end loop; if Attr then return (Attribute_Designator, Text.Slice (Id_First, Id_Last)); elsif not Pragma_Id.Is_Empty then return (Pragma_Name, Pragma_Id, Param); elsif Prev = Identifier then return (LSP_Documents.Identifier, Text.Slice (Id_First, Id_Last)); else return (Kind => None); end if; end Lookup; ------------- -- Version -- ------------- not overriding function Version (Self : Document) return LSP.Types.Version_Id is begin return Self.Version; end Version; end LSP_Documents;

-- Copyright 2016 Steven Stewart-Gallus -- -- 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 System; with Interfaces.C; use Interfaces.C; limited with Pulse.Mainloop.API; package Pulse.Mainloop.Signal with Spark_Mode => Off is -- skipped empty struct pa_signal_event type pa_signal_cb_t is access procedure (arg1 : access Pulse.Mainloop.API.pa_mainloop_api; arg2 : System.Address; arg3 : int; arg4 : System.Address); pragma Convention (C, pa_signal_cb_t); -- /usr/include/pulse/mainloop-signal.h:44 type pa_signal_destroy_cb_t is access procedure (arg1 : access Pulse.Mainloop.API.pa_mainloop_api; arg2 : System.Address; arg3 : System.Address); pragma Convention (C, pa_signal_destroy_cb_t); -- /usr/include/pulse/mainloop-signal.h:47 function pa_signal_init (api : access Pulse.Mainloop.API.pa_mainloop_api) return int; -- /usr/include/pulse/mainloop-signal.h:50 pragma Import (C, pa_signal_init, "pa_signal_init"); procedure pa_signal_done; -- /usr/include/pulse/mainloop-signal.h:53 pragma Import (C, pa_signal_done, "pa_signal_done"); function pa_signal_new (sig : int; callback : pa_signal_cb_t; userdata : System.Address) return System.Address; -- /usr/include/pulse/mainloop-signal.h:56 pragma Import (C, pa_signal_new, "pa_signal_new"); procedure pa_signal_free (e : System.Address); -- /usr/include/pulse/mainloop-signal.h:59 pragma Import (C, pa_signal_free, "pa_signal_free"); procedure pa_signal_set_destroy (e : System.Address; callback : pa_signal_destroy_cb_t); -- /usr/include/pulse/mainloop-signal.h:62 pragma Import (C, pa_signal_set_destroy, "pa_signal_set_destroy"); end Pulse.Mainloop.Signal;

-- -- This implementation encapsulates Ada.Containers.Vectors.Vector as a record entry. -- This is a common way to compose enveloping type, requiring glue code to implement all -- declared methods. SImple to understand, but only explicitly declared methods are available. -- -- Copyright (C) 2018 George SHapovalov <gshapovalov@gmail.com> -- -- 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. -- with Ada.Containers.Vectors; generic type Element_Type is new Element_Interface with private; package Lists.dynamic is type List is new List_Interface with private; overriding function List_Constant_Reference (Container : aliased in List; Position : Cursor) return Constant_Reference_Type; overriding function List_Constant_Reference (Container : aliased in List; Index : Index_Type) return Constant_Reference_Type; overriding function List_Reference (Container : aliased in out List; Position : Cursor) return Reference_Type; overriding function List_Reference (Container : aliased in out List; Index : Index_Type) return Reference_Type; overriding function Iterate (Container : in List) return Iterator_Interface'Class; -- new methods from ACV.Vector pool; should really be part of interface, here is only a demo of tying all together.. function To_Vector (Length : Index_Type) return List; private package ACV is new Ada.Containers.Vectors(Index_Type, Element_Type); type List is new List_Interface with record vec : ACV.Vector; end record; function Has_Element (L : List; Position : Index_Base) return Boolean; -- here we also need to implement Reversible_Iterator interface type Iterator is new Iterator_Interface with record Container : List_Access; Index : Index_Type'Base; end record; overriding function First (Object : Iterator) return Cursor; overriding function Last (Object : Iterator) return Cursor; overriding function Next (Object : Iterator; Position : Cursor) return Cursor; overriding function Previous (Object : Iterator; Position : Cursor) return Cursor; end Lists.dynamic;

-- This file is covered by the Internet Software Consortium (ISC) License -- Reference: ../License.txt with System; with Interfaces.C.Strings; package Sodium.Thin_Binding is package IC renames Interfaces.C; package ICS renames Interfaces.C.Strings; ------------------ -- Data Types -- ------------------ type NaCl_uint64 is mod 2 ** 64; type NaCl_uint32 is mod 2 ** 32; type NaCl_uint8 is mod 2 ** 8; type NaCl_block64 is array (Natural range <>) of NaCl_uint64; type NaCl_block8 is array (Natural range <>) of NaCl_uint8; pragma Pack (NaCl_block64); pragma Pack (NaCl_block8); type crypto_generichash_blake2b_state is record h : NaCl_block64 (0 .. 7); t : NaCl_block64 (0 .. 1); f : NaCl_block64 (0 .. 1); buf : NaCl_block8 (0 .. 255); buflen : IC.size_t; last_node : NaCl_uint8; end record; for crypto_generichash_blake2b_state'Alignment use 64; pragma Pack (crypto_generichash_blake2b_state); subtype crypto_generichash_state is crypto_generichash_blake2b_state; type crypto_generichash_state_Access is access all crypto_generichash_state; pragma Convention (C, crypto_generichash_state_Access); type crypto_aead_aes256gcm_state is record state : NaCl_block8 (0 .. 511); end record; for crypto_aead_aes256gcm_state'Alignment use 16; type crypto_aead_aes256gcm_state_Access is access all crypto_aead_aes256gcm_state; pragma Convention (C, crypto_aead_aes256gcm_state_Access); type NaCl_uint64_Access is access all NaCl_uint64; pragma Convention (C, NaCl_uint64_Access); ----------------- -- Constants -- ----------------- crypto_generichash_blake2b_BYTES_MIN : constant NaCl_uint8 := 16; crypto_generichash_blake2b_BYTES : constant NaCl_uint8 := 32; crypto_generichash_blake2b_BYTES_MAX : constant NaCl_uint8 := 64; crypto_generichash_blake2b_KEYBYTES_MIN : constant NaCl_uint8 := 16; crypto_generichash_blake2b_KEYBYTES : constant NaCl_uint8 := 32; crypto_generichash_blake2b_KEYBYTES_MAX : constant NaCl_uint8 := 64; crypto_generichash_blake2b_SALTBYTES : constant NaCl_uint8 := 16; crypto_generichash_blake2b_PERSONALBYTES : constant NaCl_uint8 := 16; crypto_generichash_BYTES_MIN : NaCl_uint8 renames crypto_generichash_blake2b_BYTES_MIN; crypto_generichash_BYTES : NaCl_uint8 renames crypto_generichash_blake2b_BYTES; crypto_generichash_BYTES_MAX : NaCl_uint8 renames crypto_generichash_blake2b_BYTES_MAX; crypto_generichash_KEYBYTES_MIN : NaCl_uint8 renames crypto_generichash_blake2b_KEYBYTES_MIN; crypto_generichash_KEYBYTES : NaCl_uint8 renames crypto_generichash_blake2b_KEYBYTES; crypto_generichash_KEYBYTES_MAX : NaCl_uint8 renames crypto_generichash_blake2b_KEYBYTES_MAX; crypto_shorthash_siphash24_BYTES : constant NaCl_uint8 := 8; crypto_shorthash_siphash24_KEYBYTES : constant NaCl_uint8 := 16; crypto_shorthash_BYTES : NaCl_uint8 renames crypto_shorthash_siphash24_BYTES; crypto_shorthash_KEYBYTES : NaCl_uint8 renames crypto_shorthash_siphash24_KEYBYTES; crypto_pwhash_argon2i_ALG_ARGON2I13 : constant IC.int := 1; crypto_pwhash_argon2i_SALTBYTES : constant NaCl_uint8 := 16; crypto_pwhash_argon2i_STRBYTES : constant NaCl_uint8 := 128; crypto_pwhash_argon2i_STRPREFIX : constant String := "$argon2i$"; crypto_pwhash_argon2i_OPSLIMIT_INTERACTIVE : constant NaCl_uint64 := 4; crypto_pwhash_argon2i_MEMLIMIT_INTERACTIVE : constant IC.size_t := 33554432; crypto_pwhash_argon2i_OPSLIMIT_MODERATE : constant NaCl_uint64 := 6; crypto_pwhash_argon2i_MEMLIMIT_MODERATE : constant IC.size_t := 134217728; crypto_pwhash_argon2i_OPSLIMIT_SENSITIVE : constant NaCl_uint64 := 8; crypto_pwhash_argon2i_MEMLIMIT_SENSITIVE : constant IC.size_t := 536870912; crypto_pwhash_ALG_DEFAULT : IC.int renames crypto_pwhash_argon2i_ALG_ARGON2I13; crypto_pwhash_SALTBYTES : NaCl_uint8 renames crypto_pwhash_argon2i_SALTBYTES; crypto_pwhash_STRBYTES : NaCl_uint8 renames crypto_pwhash_argon2i_STRBYTES; crypto_pwhash_STRPREFIX : String renames crypto_pwhash_argon2i_STRPREFIX; crypto_pwhash_OPSLIMIT_MODERATE : NaCl_uint64 renames crypto_pwhash_argon2i_OPSLIMIT_MODERATE; crypto_pwhash_MEMLIMIT_MODERATE : IC.size_t renames crypto_pwhash_argon2i_MEMLIMIT_MODERATE; crypto_pwhash_OPSLIMIT_SENSITIVE : NaCl_uint64 renames crypto_pwhash_argon2i_OPSLIMIT_SENSITIVE; crypto_pwhash_MEMLIMIT_SENSITIVE : IC.size_t renames crypto_pwhash_argon2i_MEMLIMIT_SENSITIVE; crypto_pwhash_OPSLIMIT_INTERACTIVE : NaCl_uint64 renames crypto_pwhash_argon2i_OPSLIMIT_INTERACTIVE; crypto_pwhash_MEMLIMIT_INTERACTIVE : IC.size_t renames crypto_pwhash_argon2i_MEMLIMIT_INTERACTIVE; crypto_box_curve25519xsalsa20poly1305_SEEDBYTES : constant NaCl_uint8 := 32; crypto_box_curve25519xsalsa20poly1305_PUBLICKEYBYTES : constant NaCl_uint8 := 32; crypto_box_curve25519xsalsa20poly1305_SECRETKEYBYTES : constant NaCl_uint8 := 32; crypto_box_curve25519xsalsa20poly1305_BEFORENMBYTES : constant NaCl_uint8 := 32; crypto_box_curve25519xsalsa20poly1305_NONCEBYTES : constant NaCl_uint8 := 24; crypto_box_curve25519xsalsa20poly1305_MACBYTES : constant NaCl_uint8 := 16; crypto_box_curve25519xsalsa20poly1305_BOXZEROBYTES : constant NaCl_uint8 := 16; crypto_box_curve25519xsalsa20poly1305_ZEROBYTES : constant NaCl_uint8 := crypto_box_curve25519xsalsa20poly1305_BOXZEROBYTES + crypto_box_curve25519xsalsa20poly1305_MACBYTES; crypto_box_SEEDBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_SEEDBYTES; crypto_box_NONCEBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_NONCEBYTES; crypto_box_MACBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_MACBYTES; crypto_box_ZEROBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_ZEROBYTES; crypto_box_BOXZEROBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_BOXZEROBYTES; crypto_box_BEFORENMBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_BEFORENMBYTES; crypto_box_PUBLICKEYBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_PUBLICKEYBYTES; crypto_box_SECRETKEYBYTES : NaCl_uint8 renames crypto_box_curve25519xsalsa20poly1305_SECRETKEYBYTES; crypto_box_SEALBYTES : constant NaCl_uint8 := crypto_box_PUBLICKEYBYTES + crypto_box_MACBYTES; crypto_sign_ed25519_BYTES : constant NaCl_uint8 := 64; crypto_sign_ed25519_SEEDBYTES : constant NaCl_uint8 := 32; crypto_sign_ed25519_PUBLICKEYBYTES : constant NaCl_uint8 := 32; crypto_sign_ed25519_SECRETKEYBYTES : constant NaCl_uint8 := 32 + 32; crypto_sign_BYTES : NaCl_uint8 renames crypto_sign_ed25519_BYTES; crypto_sign_SEEDBYTES : NaCl_uint8 renames crypto_sign_ed25519_SEEDBYTES; crypto_sign_PUBLICKEYBYTES : NaCl_uint8 renames crypto_sign_ed25519_PUBLICKEYBYTES; crypto_sign_SECRETKEYBYTES : NaCl_uint8 renames crypto_sign_ed25519_SECRETKEYBYTES; crypto_secretbox_xsalsa20poly1305_KEYBYTES : constant NaCl_uint8 := 32; crypto_secretbox_xsalsa20poly1305_NONCEBYTES : constant NaCl_uint8 := 24; crypto_secretbox_xsalsa20poly1305_MACBYTES : constant NaCl_uint8 := 16; crypto_secretbox_xsalsa20poly1305_BOXZEROBYTES : constant NaCl_uint8 := 16; crypto_secretbox_xsalsa20poly1305_ZEROBYTES : constant NaCl_uint8 := crypto_secretbox_xsalsa20poly1305_BOXZEROBYTES + crypto_secretbox_xsalsa20poly1305_MACBYTES; crypto_secretbox_KEYBYTES : NaCl_uint8 renames crypto_secretbox_xsalsa20poly1305_KEYBYTES; crypto_secretbox_MACBYTES : NaCl_uint8 renames crypto_secretbox_xsalsa20poly1305_MACBYTES; crypto_secretbox_NONCEBYTES : NaCl_uint8 renames crypto_secretbox_xsalsa20poly1305_NONCEBYTES; crypto_secretbox_ZEROBYTES : NaCl_uint8 renames crypto_secretbox_xsalsa20poly1305_ZEROBYTES; crypto_secretbox_BOXZEROBYTES : NaCl_uint8 renames crypto_secretbox_xsalsa20poly1305_BOXZEROBYTES; crypto_auth_hmacsha512256_BYTES : constant NaCl_uint8 := 32; crypto_auth_hmacsha512256_KEYBYTES : constant NaCl_uint8 := 32; crypto_auth_BYTES : NaCl_uint8 renames crypto_auth_hmacsha512256_BYTES; crypto_auth_KEYBYTES : NaCl_uint8 renames crypto_auth_hmacsha512256_KEYBYTES; crypto_aead_chacha20poly1305_ietf_KEYBYTES : constant NaCl_uint8 := 32; crypto_aead_chacha20poly1305_ietf_NPUBBYTES : constant NaCl_uint8 := 12; crypto_aead_chacha20poly1305_ietf_ABYTES : constant NaCl_uint8 := 16; crypto_aead_chacha20poly1305_KEYBYTES : constant NaCl_uint8 := 32; crypto_aead_chacha20poly1305_NPUBBYTES : constant NaCl_uint8 := 8; crypto_aead_chacha20poly1305_ABYTES : constant NaCl_uint8 := 16; crypto_aead_aes256gcm_KEYBYTES : constant NaCl_uint8 := 32; crypto_aead_aes256gcm_NPUBBYTES : constant NaCl_uint8 := 12; crypto_aead_aes256gcm_ABYTES : constant NaCl_uint8 := 16; ------------------------ -- New C Data Types -- ------------------------ type Password_Hash_Container is array (1 .. Positive (crypto_pwhash_STRBYTES)) of IC.char; pragma Convention (C, Password_Hash_Container); ----------------- -- Important -- ----------------- function sodium_init return IC.int; pragma Import (C, sodium_init); --------------- -- Hashing -- --------------- function crypto_generichash (text_out : ICS.chars_ptr; outlen : IC.size_t; text_in : ICS.chars_ptr; inlen : NaCl_uint64; key : ICS.chars_ptr; keylen : IC.size_t) return IC.int; pragma Import (C, crypto_generichash); function crypto_generichash_init (state : crypto_generichash_state_Access; key : ICS.chars_ptr; keylen : IC.size_t; outlen : IC.size_t) return IC.int; pragma Import (C, crypto_generichash_init); function crypto_generichash_update (state : crypto_generichash_state_Access; text_in : ICS.chars_ptr; inlen : NaCl_uint64) return IC.int; pragma Import (C, crypto_generichash_update); function crypto_generichash_final (state : crypto_generichash_state_Access; text_out : ICS.chars_ptr; outlen : IC.size_t) return IC.int; pragma Import (C, crypto_generichash_final); function crypto_shorthash (text_out : ICS.chars_ptr; text_in : ICS.chars_ptr; inlen : NaCl_uint64; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_shorthash); function crypto_pwhash (text_out : ICS.chars_ptr; outlen : NaCl_uint64; passwd : ICS.chars_ptr; passwdlen : NaCl_uint64; salt : ICS.chars_ptr; opslimit : NaCl_uint64; memlimit : IC.size_t; alg : IC.int) return IC.int; pragma Import (C, crypto_pwhash); function crypto_pwhash_str (text_out : out Password_Hash_Container; passwd : ICS.chars_ptr; passwdlen : NaCl_uint64; opslimit : NaCl_uint64; memlimit : IC.size_t) return IC.int; pragma Import (C, crypto_pwhash_str); function crypto_pwhash_str_verify (text_str : Password_Hash_Container; passwd : ICS.chars_ptr; passwdlen : NaCl_uint64) return IC.int; pragma Import (C, crypto_pwhash_str_verify); --------------------- -- Random Things -- --------------------- procedure randombytes_buf (buf : System.Address; size : IC.size_t); pragma Import (C, randombytes_buf); function randombytes_random return NaCl_uint32; pragma Import (C, randombytes_random); function randombytes_uniform (upper_bound : NaCl_uint32) return NaCl_uint32; pragma Import (C, randombytes_uniform); ----------------------------- -- Public Key Signatures -- ----------------------------- function crypto_sign_keypair (pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign_keypair); function crypto_sign_seed_keypair (pk : ICS.chars_ptr; sk : ICS.chars_ptr; seed : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign_seed_keypair); function crypto_sign (sm : ICS.chars_ptr; smlen : NaCl_uint64; m : ICS.chars_ptr; mlen : NaCl_uint64; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign); function crypto_sign_open (m : ICS.chars_ptr; mlen : NaCl_uint64; sm : ICS.chars_ptr; smlen : NaCl_uint64; pk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign_open); function crypto_sign_detached (sig : ICS.chars_ptr; siglen : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign_detached); function crypto_sign_verify_detached (sig : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; pk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_sign_verify_detached); ----------------------------- -- Public Key Encryption -- ----------------------------- function crypto_box_keypair (pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_keypair); function crypto_box_seed_keypair (pk : ICS.chars_ptr; sk : ICS.chars_ptr; seed : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_seed_keypair); function crypto_scalarmult_base (q : ICS.chars_ptr; n : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_scalarmult_base); function crypto_box_easy (c : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_easy); function crypto_box_open_easy (m : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_open_easy); function crypto_box_detached (c : ICS.chars_ptr; mac : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_detached); function crypto_box_open_detached (m : ICS.chars_ptr; c : ICS.chars_ptr; mac : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_open_detached); function crypto_box_beforenm (k : ICS.chars_ptr; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_beforenm); function crypto_box_easy_afternm (c : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_easy_afternm); function crypto_box_open_easy_afternm (m : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_open_easy_afternm); function crypto_box_detached_afternm (c : ICS.chars_ptr; mac : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_detached_afternm); function crypto_box_open_detached_afternm (m : ICS.chars_ptr; c : ICS.chars_ptr; mac : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_open_detached_afternm); ---------------------------------- -- Anonymous Private Messages -- ---------------------------------- function crypto_box_seal (c : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; pk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_seal); function crypto_box_seal_open (m : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; pk : ICS.chars_ptr; sk : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_box_seal_open); ---------------------------- -- Symmetric Encryption -- ---------------------------- function crypto_secretbox_easy (c : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_secretbox_easy); function crypto_secretbox_open_easy (m : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_secretbox_open_easy); function crypto_secretbox_detached (c : ICS.chars_ptr; mac : ICS.chars_ptr; m : ICS.chars_ptr; mlen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_secretbox_detached); function crypto_secretbox_open_detached (m : ICS.chars_ptr; c : ICS.chars_ptr; mac : ICS.chars_ptr; clen : NaCl_uint64; n : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_secretbox_open_detached); ------------------------------ -- Message Authentication -- ------------------------------ function crypto_auth (tag : ICS.chars_ptr; text_in : ICS.chars_ptr; inlen : NaCl_uint64; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_auth); function crypto_auth_verify (tag : ICS.chars_ptr; text_in : ICS.chars_ptr; inlen : NaCl_uint64; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_auth_verify); ---------------------------------- -- original ChaCha20-Poly1305 -- ---------------------------------- function crypto_aead_chacha20poly1305_encrypt (c : ICS.chars_ptr; clen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_encrypt); function crypto_aead_chacha20poly1305_decrypt (m : ICS.chars_ptr; mlen_p : NaCl_uint64_Access; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_decrypt); function crypto_aead_chacha20poly1305_encrypt_detached (c : ICS.chars_ptr; mac : ICS.chars_ptr; maclen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_encrypt_detached); function crypto_aead_chacha20poly1305_decrypt_detached (m : ICS.chars_ptr; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; mac : ICS.chars_ptr; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_decrypt_detached); ------------------------------ -- IETF ChaCha20-Poly1305 -- ------------------------------ function crypto_aead_chacha20poly1305_ietf_encrypt (c : ICS.chars_ptr; clen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_ietf_encrypt); function crypto_aead_chacha20poly1305_ietf_decrypt (m : ICS.chars_ptr; mlen_p : NaCl_uint64_Access; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_ietf_decrypt); function crypto_aead_chacha20poly1305_ietf_encrypt_detached (c : ICS.chars_ptr; mac : ICS.chars_ptr; maclen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_ietf_encrypt_detached); function crypto_aead_chacha20poly1305_ietf_decrypt_detached (m : ICS.chars_ptr; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; mac : ICS.chars_ptr; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_chacha20poly1305_ietf_decrypt_detached); --------------- -- AES-GCM -- --------------- function crypto_aead_aes256gcm_encrypt (c : ICS.chars_ptr; clen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_aes256gcm_encrypt); function crypto_aead_aes256gcm_decrypt (m : ICS.chars_ptr; mlen_p : NaCl_uint64_Access; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_aes256gcm_decrypt); function crypto_aead_aes256gcm_encrypt_detached (c : ICS.chars_ptr; mac : ICS.chars_ptr; maclen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_aes256gcm_encrypt_detached); function crypto_aead_aes256gcm_decrypt_detached (m : ICS.chars_ptr; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; mac : ICS.chars_ptr; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_aes256gcm_decrypt_detached); ----------------------------------- -- AES-GCM with Precalculation -- ----------------------------------- function crypto_aead_aes256gcm_beforenm (ctx : crypto_aead_aes256gcm_state_Access; k : ICS.chars_ptr) return IC.int; pragma Import (C, crypto_aead_aes256gcm_beforenm); function crypto_aead_aes256gcm_encrypt_afternm (c : ICS.chars_ptr; clen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; ctx : crypto_aead_aes256gcm_state_Access) return IC.int; pragma Import (C, crypto_aead_aes256gcm_encrypt_afternm); function crypto_aead_aes256gcm_decrypt_afternm (m : ICS.chars_ptr; mlen_p : NaCl_uint64_Access; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; ctx : crypto_aead_aes256gcm_state_Access) return IC.int; pragma Import (C, crypto_aead_aes256gcm_decrypt_afternm); function crypto_aead_aes256gcm_encrypt_detached_afternm (c : ICS.chars_ptr; mac : ICS.chars_ptr; maclen_p : NaCl_uint64_Access; m : ICS.chars_ptr; mlen : NaCl_uint64; ad : ICS.chars_ptr; adlen : NaCl_uint64; nsec : ICS.chars_ptr; npub : ICS.chars_ptr; ctx : crypto_aead_aes256gcm_state_Access) return IC.int; pragma Import (C, crypto_aead_aes256gcm_encrypt_detached_afternm); function crypto_aead_aes256gcm_decrypt_detached_afternm (m : ICS.chars_ptr; nsec : ICS.chars_ptr; c : ICS.chars_ptr; clen : NaCl_uint64; mac : ICS.chars_ptr; ad : ICS.chars_ptr; adlen : NaCl_uint64; npub : ICS.chars_ptr; ctx : crypto_aead_aes256gcm_state_Access) return IC.int; pragma Import (C, crypto_aead_aes256gcm_decrypt_detached_afternm); ------------------------ -- AES Availability -- ------------------------ function crypto_aead_aes256gcm_is_available return IC.int; pragma Import (C, crypto_aead_aes256gcm_is_available); end Sodium.Thin_Binding;

-- CE3806E.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 FLOAT_IO PUT RAISE LAYOUT_ERROR WHEN THE NUMBER -- OF CHARACTERS TO BE OUTPUT EXCEEDS THE MAXIMUM LINE LENGTH. -- CHECK THAT IT IS NOT RAISED, BUT RATHER NEW_LINE IS CALLED, -- WHEN THE NUMBER DOES NOT EXCEED THE MAX, BUT WHEN ADDED TO -- THE CURRENT COLUMN NUMBER, THE TOTAL EXCEEDS THE MAX. -- APPLICABILITY CRITERIA: -- THIS TEST IS APPLICABLE ONLY TO IMPLEMENTATIONS WHICH SUPPORT -- TEXT FILES. -- HISTORY: -- SPS 10/07/82 -- SPS 12/14/82 -- VKG 01/13/83 -- SPS 02/18/83 -- JBG 08/30/83 -- RJW 11/04/86 REVISED TEST TO OUTPUT A NOT_APPLICABLE -- RESULT WHEN FILES ARE NOT SUPPORTED. -- JLH 09/14/87 REMOVED DEPENDENCE ON RESET AND CORRECTED -- EXCEPTION HANDLING. WITH REPORT; USE REPORT; WITH TEXT_IO; USE TEXT_IO; WITH CHECK_FILE; PROCEDURE CE3806E IS BEGIN TEST ("CE3806E", "CHECK THAT FLOAT_IO PUT RAISES " & "LAYOUT_ERROR CORRECTLY"); DECLARE TYPE FL IS DIGITS 3 RANGE 100.0 .. 200.0; PACKAGE FLIO IS NEW FLOAT_IO (FL); USE FLIO; X : FL := 126.0; Y : FL := 134.0; Z : FL := 120.0; INCOMPLETE : EXCEPTION; FT : FILE_TYPE; BEGIN BEGIN CREATE (FT, OUT_FILE, LEGAL_FILE_NAME); EXCEPTION WHEN USE_ERROR => NOT_APPLICABLE ("USE_ERROR RAISED ON TEXT CREATE " & "WITH OUT_FILE MODE"); RAISE INCOMPLETE; WHEN NAME_ERROR => NOT_APPLICABLE ("NAME_ERROR RAISED ON TEXT " & "CREATE WITH OUT_FILE MODE"); RAISE INCOMPLETE; END; SET_LINE_LENGTH (FT, 8); BEGIN PUT (FT, X); -- " 1.26E+02" FAILED ("LAYOUT_ERROR NOT RAISED - FLOAT"); EXCEPTION WHEN LAYOUT_ERROR => NULL; WHEN OTHERS => FAILED ("WRONG EXCEPTION RAISED - FLOAT"); END; BEGIN PUT (FT, Y, FORE => 1); -- "1.34E+02" EXCEPTION WHEN LAYOUT_ERROR => FAILED ("LAYOUT_ERROR RAISED SECOND PUT " & "- FLOAT"); WHEN OTHERS => FAILED ("EXCEPTION RAISED SECOND PUT - FLOAT"); END; BEGIN PUT (FT,Z, FORE => 1, AFT => 0); -- "1.2E+02" IF LINE (FT) /= 2 THEN FAILED ("NEW_LINE NOT CALLED - FLOAT"); END IF; EXCEPTION WHEN LAYOUT_ERROR => FAILED ("LAYOUT_ERROR RAISED THIRD " & "PUT - FLOAT"); WHEN OTHERS => FAILED ("EXCEPTION RAISED THIRD PUT - FLOAT"); END; SET_LINE_LENGTH ( FT,7); BEGIN PUT (FT, "X"); PUT (FT, Y, FORE => 1, AFT => 2, EXP => 1); -- 1.34E+2 EXCEPTION WHEN LAYOUT_ERROR => FAILED ("LAYOUT_ERROR RAISED - 3 FLOAT"); END; BEGIN PUT (FT, "Z"); PUT (FT, Z, FORE => 1); FAILED ("LAYOUT_ERROR NOT RAISED - FLOAT 2"); EXCEPTION WHEN LAYOUT_ERROR => NULL; WHEN OTHERS => FAILED ("SOME EXCEPTION RAISED - 3 FLOAT"); END; CHECK_FILE (FT, "1.34E+02#1.2E+02#X#1.34E+2#Z#@%"); BEGIN DELETE (FT); EXCEPTION WHEN USE_ERROR => NULL; END; EXCEPTION WHEN INCOMPLETE => NULL; END; RESULT; END CE3806E;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . I N T E R R U P T _ M A N A G E M E N T . -- -- O P E R A T I O N S -- -- -- -- B o d y -- -- -- -- Copyright (C) 1991-1994, Florida State University -- -- Copyright (C) 1995-2006, 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 POSIX-like version of this package. -- Note: this file can only be used for POSIX compliant systems. with Interfaces.C; -- used for int -- size_t -- unsigned with System.OS_Interface; -- used for various type, constant, and operations with System.Storage_Elements; -- used for To_Address -- Integer_Address package body System.Interrupt_Management.Operations is use Interfaces.C; use System.OS_Interface; --------------------- -- Local Variables -- --------------------- Initial_Action : array (Signal) of aliased struct_sigaction; Default_Action : aliased struct_sigaction; Ignore_Action : aliased struct_sigaction; ---------------------------- -- Thread_Block_Interrupt -- ---------------------------- procedure Thread_Block_Interrupt (Interrupt : Interrupt_ID) is Result : Interfaces.C.int; Mask : aliased sigset_t; begin Result := sigemptyset (Mask'Access); pragma Assert (Result = 0); Result := sigaddset (Mask'Access, Signal (Interrupt)); pragma Assert (Result = 0); Result := pthread_sigmask (SIG_BLOCK, Mask'Unchecked_Access, null); pragma Assert (Result = 0); end Thread_Block_Interrupt; ------------------------------ -- Thread_Unblock_Interrupt -- ------------------------------ procedure Thread_Unblock_Interrupt (Interrupt : Interrupt_ID) is Mask : aliased sigset_t; Result : Interfaces.C.int; begin Result := sigemptyset (Mask'Access); pragma Assert (Result = 0); Result := sigaddset (Mask'Access, Signal (Interrupt)); pragma Assert (Result = 0); Result := pthread_sigmask (SIG_UNBLOCK, Mask'Unchecked_Access, null); pragma Assert (Result = 0); end Thread_Unblock_Interrupt; ------------------------ -- Set_Interrupt_Mask -- ------------------------ procedure Set_Interrupt_Mask (Mask : access Interrupt_Mask) is Result : Interfaces.C.int; begin Result := pthread_sigmask (SIG_SETMASK, Mask, null); pragma Assert (Result = 0); end Set_Interrupt_Mask; procedure Set_Interrupt_Mask (Mask : access Interrupt_Mask; OMask : access Interrupt_Mask) is Result : Interfaces.C.int; begin Result := pthread_sigmask (SIG_SETMASK, Mask, OMask); pragma Assert (Result = 0); end Set_Interrupt_Mask; ------------------------ -- Get_Interrupt_Mask -- ------------------------ procedure Get_Interrupt_Mask (Mask : access Interrupt_Mask) is Result : Interfaces.C.int; begin Result := pthread_sigmask (SIG_SETMASK, null, Mask); pragma Assert (Result = 0); end Get_Interrupt_Mask; -------------------- -- Interrupt_Wait -- -------------------- function Interrupt_Wait (Mask : access Interrupt_Mask) return Interrupt_ID is Result : Interfaces.C.int; Sig : aliased Signal; begin Result := sigwait (Mask, Sig'Access); if Result /= 0 then return 0; end if; return Interrupt_ID (Sig); end Interrupt_Wait; ---------------------------- -- Install_Default_Action -- ---------------------------- procedure Install_Default_Action (Interrupt : Interrupt_ID) is Result : Interfaces.C.int; begin Result := sigaction (Signal (Interrupt), Initial_Action (Signal (Interrupt))'Access, null); pragma Assert (Result = 0); end Install_Default_Action; --------------------------- -- Install_Ignore_Action -- --------------------------- procedure Install_Ignore_Action (Interrupt : Interrupt_ID) is Result : Interfaces.C.int; begin Result := sigaction (Signal (Interrupt), Ignore_Action'Access, null); pragma Assert (Result = 0); end Install_Ignore_Action; ------------------------- -- Fill_Interrupt_Mask -- ------------------------- procedure Fill_Interrupt_Mask (Mask : access Interrupt_Mask) is Result : Interfaces.C.int; begin Result := sigfillset (Mask); pragma Assert (Result = 0); end Fill_Interrupt_Mask; -------------------------- -- Empty_Interrupt_Mask -- -------------------------- procedure Empty_Interrupt_Mask (Mask : access Interrupt_Mask) is Result : Interfaces.C.int; begin Result := sigemptyset (Mask); pragma Assert (Result = 0); end Empty_Interrupt_Mask; --------------------------- -- Add_To_Interrupt_Mask -- --------------------------- procedure Add_To_Interrupt_Mask (Mask : access Interrupt_Mask; Interrupt : Interrupt_ID) is Result : Interfaces.C.int; begin Result := sigaddset (Mask, Signal (Interrupt)); pragma Assert (Result = 0); end Add_To_Interrupt_Mask; -------------------------------- -- Delete_From_Interrupt_Mask -- -------------------------------- procedure Delete_From_Interrupt_Mask (Mask : access Interrupt_Mask; Interrupt : Interrupt_ID) is Result : Interfaces.C.int; begin Result := sigdelset (Mask, Signal (Interrupt)); pragma Assert (Result = 0); end Delete_From_Interrupt_Mask; --------------- -- Is_Member -- --------------- function Is_Member (Mask : access Interrupt_Mask; Interrupt : Interrupt_ID) return Boolean is Result : Interfaces.C.int; begin Result := sigismember (Mask, Signal (Interrupt)); pragma Assert (Result = 0 or else Result = 1); return Result = 1; end Is_Member; ------------------------- -- Copy_Interrupt_Mask -- ------------------------- procedure Copy_Interrupt_Mask (X : out Interrupt_Mask; Y : Interrupt_Mask) is begin X := Y; end Copy_Interrupt_Mask; ---------------------------- -- Interrupt_Self_Process -- ---------------------------- procedure Interrupt_Self_Process (Interrupt : Interrupt_ID) is Result : Interfaces.C.int; begin Result := kill (getpid, Signal (Interrupt)); pragma Assert (Result = 0); end Interrupt_Self_Process; -------------------------- -- Setup_Interrupt_Mask -- -------------------------- procedure Setup_Interrupt_Mask is begin -- Mask task for all signals. The original mask of the Environment task -- will be recovered by Interrupt_Manager task during the elaboration -- of s-interr.adb. Set_Interrupt_Mask (All_Tasks_Mask'Access); end Setup_Interrupt_Mask; begin declare mask : aliased sigset_t; allmask : aliased sigset_t; Result : Interfaces.C.int; begin Interrupt_Management.Initialize; for Sig in 1 .. Signal'Last loop Result := sigaction (Sig, null, Initial_Action (Sig)'Unchecked_Access); -- ??? [assert 1] -- we can't check Result here since sigaction will fail on -- SIGKILL, SIGSTOP, and possibly other signals -- pragma Assert (Result = 0); end loop; -- Setup the masks to be exported. Result := sigemptyset (mask'Access); pragma Assert (Result = 0); Result := sigfillset (allmask'Access); pragma Assert (Result = 0); Default_Action.sa_flags := 0; Default_Action.sa_mask := mask; Default_Action.sa_handler := Storage_Elements.To_Address (Storage_Elements.Integer_Address (SIG_DFL)); Ignore_Action.sa_flags := 0; Ignore_Action.sa_mask := mask; Ignore_Action.sa_handler := Storage_Elements.To_Address (Storage_Elements.Integer_Address (SIG_IGN)); for J in Interrupt_ID loop -- We need to check whether J is in Keep_Unmasked because -- the index type of the Keep_Unmasked array is not always -- Interrupt_ID; it may be a subtype of Interrupt_ID. if J in Keep_Unmasked'Range and then Keep_Unmasked (J) then Result := sigaddset (mask'Access, Signal (J)); pragma Assert (Result = 0); Result := sigdelset (allmask'Access, Signal (J)); pragma Assert (Result = 0); end if; end loop; -- The Keep_Unmasked signals should be unmasked for Environment task Result := pthread_sigmask (SIG_UNBLOCK, mask'Unchecked_Access, null); pragma Assert (Result = 0); -- Get the signal mask of the Environment Task Result := pthread_sigmask (SIG_SETMASK, null, mask'Unchecked_Access); pragma Assert (Result = 0); -- Setup the constants exported Environment_Mask := Interrupt_Mask (mask); All_Tasks_Mask := Interrupt_Mask (allmask); end; end System.Interrupt_Management.Operations;

-- Copyright 2017-2021 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 Get_Val (Seed: Integer; Off_By_One: Boolean) return Integer is Result : Integer := Seed; begin if Off_By_One then -- START Result := Result - 1; end if; Result := Result * 8; if Off_By_One then Result := Result + 1; end if; return Result; end Get_Val; procedure Do_Nothing (Val: in out Integer) is begin null; end Do_Nothing; procedure Call_Me is begin null; end Call_Me; procedure Increment (Val : in out Integer) is begin Val := Val + 1; end Increment; end Pck;

-*- Text -*- See https://pdc-svpaap1.umd.edu/policies/apt_forms.html for the CVTemplate.docx. I had issues with this, perhaps MS-Word/LibreOffice, perhaps my inability to work with WYSIWYG programs: For example, in II I would try and add an item in II.A.3 and it doesn't get the indent, but the one before. The TAB key then doesn't seem to work, and skips over wehre you expect it go to. and then the underlining is suddenly on.... is that a LibreOffice bug? I had many more of these mishaps, and decided to switch to the latex version. The docs template should also give an example how they expect the indentation to work, and the UID and name is confusing. As given, the indentation in some sections DOES NOT MAKE SENSE. E.g. in I it works. ADS: If you are lucky with a unique name, you can fill in your name in the "Authors" make the "200 items" something larger if you need more (so it's all on one page) if it's not unique, Their custom format is explained here: http://adsabs.harvard.edu/abs_doc/help_pages/customformat.html "The sole exception is when the work is a product of a large group. Candidates should designate the identity of the lead or corresponding author for joint authorships using * or placing that name in bold. Candidates should also identify which undergraduate, graduate and postdoctoral and Faculty Research Assistants were co-authors. " %[s][c][n.m]f[e] c \ (la)tex Do this in two tabs running classic ADS --------------------------------------- Databases to query: select all three: Astronomy , Physics, arXiv e-prints by default Physics is skipped. Authors: Teuben 1st. tab: All refereed articles 2nd tab: All non-refereed publications SEND QUERY then select "select all records" return "custom format" sort by {date (oldest first)} -- if thatis what you want, and I recommend this one for easier use of reference numbers [13,21] in the PS Teuben format: %% %zn %W \n \\item \n %\5.1L %\Y, ``%\T'', %\J, %\({\\bf )V\(} ), %\p-%\P. [{\\bf %c cit.}] email to: teuben@gmail.com then click "retrieve selected records" corrected Huard format: %% %zn %W \n \\item \n %\25.1L {\\underline{%\Y}}, ``{\\emph{%\T}}'', {\\bf{%\J}}, %\V\, %\p-%\P. [{\\bf %c cit.}] still needed a few manual edits: - <NUMPAGES> sometimes is used, remove them, use the pp. notation e.g. A46- becomes A46, 14 pp. Some additional cleanup will always be needed. I've found some arXiv entry that had also a paper entry. all the \items's go between \begin{enumerate}[resume,label=\textbf{\arabic*}.] \end{enumerate} I decided to keep the books without numbering (historic), so those are itemize , instead of enumerate again, with custom format: %% %zn %W \n \\item \n %\5.1L %\Y, ``%\T'', %\J, %\({\\bf )V\(} ), %\p-%\P. [{\\bf %c cit.}] you get something like this. I added a ordinal (the %zn) and article type as a latex comment ahead of the entry. % 2 ARTICLE \item Teuben, P.~J.~and Sanders, R.~H.\ 1985, ``Dynamical rules for barred spiral galaxies'', Monthly Notices of the Royal Astronomical Society, {\bf 212} , 257-273.\ [{\bf 76 cit.}] % 15 ARTICLE \item Welch, W.~J., and 36 colleagues.\ 1996, "The Berkeley-Illinois-Maryland-Association Millimeter Array", Publications of the Astronomical Society of the Pacific, {\bf 108} , 93- [{\bf 141 cit.}] The things missing are - bold-face your name {\bf Teuben, P~J.} - Huard has a solution for this. - if more than 5 (in this case) authors, my name is not mentioned where in the list it occurs. this is formally not according to UMD guidelines.

---------------------------------------- -- Copyright (C) 2019 Dmitriy Shadrin -- -- All rights reserved. -- ---------------------------------------- with Pal; with Ada.Finalization; with Ada.Strings.Unbounded; --use Ada.Strings.Unbounded; -------------------------------------------------------------------------------- package ConfigTree is ----------------------------------------------------------------------------- type Node is tagged limited private; type NodePtr is access Node; function IsNull (ptr : in NodePtr) return Pal.bool is (ptr = null) with inline; function GetFirst (Object : in out Node) return NodePtr with inline; function GetNext (Object : in out Node) return NodePtr with inline; function GetChild (Object : in out Node; path : in String) return NodePtr; function GetValue (Object : in out Node; path : in String; default : in String := "") return String; function GetValue (Object : in out Node) return String; function GetName (Object : in out Node) return String; ----------------------------------------------------------------------------- type Tree is tagged limited private; function GetChild (Object : in out Tree; path : in String) return NodePtr; function GetValue (Object : in out Tree; path : in String; default : in String := "") return String; private ----------------------------------------------------------------------------- type Node is limited new Ada.Finalization.Limited_Controlled with record parent : NodePtr; -- parent node next : NodePtr; -- reference to next node on the same level previous : NodePtr; -- reference to next node on the same level childFirst : NodePtr; -- list of childs (reference to first child) childLast : NodePtr; -- list of childs (reference to last child) name : Ada.Strings.Unbounded.Unbounded_String; -- name of node data : Ada.Strings.Unbounded.Unbounded_String; -- data end record; procedure Initialize (Object : in out Node); procedure Finalize (Object : in out Node); ----------------------------------------------------------------------------- type Tree is new Ada.Finalization.Limited_Controlled with record root : NodePtr; -- reference to root node end record; procedure Initialize (Object : in out Tree); procedure Finalize (Object : in out Tree); end ConfigTree;

-- Copyright 2016-2019 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/>. with Pck; use Pck; procedure Foo_OC22_002 is type Small is new Integer range Ident (1) .. Ident (10); type Table is array (1 .. 3) of Small; A1 : Table := (3, 5, 8); begin Do_Nothing (A1'Address); -- STOP end Foo_OC22_002;

with Lto18_Pkg; use Lto18_Pkg; package Lto18 is procedure Proc (Driver : Rec); end Lto18;

------------------------------------------------------------------------------ -- -- -- 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.Generic_Collections; package AMF.UML.Components.Collections is pragma Preelaborate; package UML_Component_Collections is new AMF.Generic_Collections (UML_Component, UML_Component_Access); type Set_Of_UML_Component is new UML_Component_Collections.Set with null record; Empty_Set_Of_UML_Component : constant Set_Of_UML_Component; type Ordered_Set_Of_UML_Component is new UML_Component_Collections.Ordered_Set with null record; Empty_Ordered_Set_Of_UML_Component : constant Ordered_Set_Of_UML_Component; type Bag_Of_UML_Component is new UML_Component_Collections.Bag with null record; Empty_Bag_Of_UML_Component : constant Bag_Of_UML_Component; type Sequence_Of_UML_Component is new UML_Component_Collections.Sequence with null record; Empty_Sequence_Of_UML_Component : constant Sequence_Of_UML_Component; private Empty_Set_Of_UML_Component : constant Set_Of_UML_Component := (UML_Component_Collections.Set with null record); Empty_Ordered_Set_Of_UML_Component : constant Ordered_Set_Of_UML_Component := (UML_Component_Collections.Ordered_Set with null record); Empty_Bag_Of_UML_Component : constant Bag_Of_UML_Component := (UML_Component_Collections.Bag with null record); Empty_Sequence_Of_UML_Component : constant Sequence_Of_UML_Component := (UML_Component_Collections.Sequence with null record); end AMF.UML.Components.Collections;

package body Hello_World_CB is function HW_CB(Request : AWS.Status.Data) return AWS.Response.Data is begin return AWS.Response.Build("text/html", "Hello World"); end; end Hello_World_CB;

package body impact.d3.collision.point_Collector is overriding procedure addContactPoint (Self : in out Item; normalOnBInWorld : in math.Vector_3; pointInWorld : in math.Vector_3; depth : in math.Real ) is begin if depth < Self.m_distance then Self.m_hasResult := True; Self.m_normalOnBInWorld := normalOnBInWorld; Self.m_pointInWorld := pointInWorld; Self.m_distance := depth; -- negative means penetration end if; end addContactPoint; end impact.d3.collision.point_Collector;

with Memory.DRAM; use Memory.DRAM; package body Test.DRAM is procedure Test_Open is mem : DRAM_Pointer := Create_DRAM(cas_cycles => 2, rcd_cycles => 3, rp_cycles => 4, wb_cycles => 1, multiplier => 2, word_size => 4, page_size => 1024, page_count => 2048, width => 2, burst_size => 2, open_page_mode => True); begin Check(Get_Time(mem.all) = 0); Check(Get_Writes(mem.all) = 0); Check(Get_Cost(mem.all) = 0); Read(mem.all, 0, 4); -- Miss: 2 * (2 * 2 + 3 + 4) = 22 Check(Get_Time(mem.all) = 22); Check(Get_Writes(mem.all) = 0); Read(mem.all, 4, 4); -- Hit: 2 * (2 * 2) = 8 Check(Get_Time(mem.all) = 22 + 8); Read(mem.all, 2097152, 4); -- Miss (new bank): 2 * (2 * 2 + 3 + 4) = 22 Check(Get_Time(mem.all) = 22 + 8 + 22); Read(mem.all, 8, 8); -- Hit: 2 * (2 * 4) = 16 Check(Get_Time(mem.all) = 22 + 8 + 22 + 16); Write(mem.all, 2097152, 8); -- Hit: 2 * (2 * 4) = 16 Check(Get_Time(mem.all) = 22 + 8 + 22 + 16 + 16); Check(Get_Writes(mem.all) = 1); Write(mem.all, 2097152 - 4, 8); -- Miss/Hit -- 2 * (2 * 2 + 3 + 4) + -- 2 * (2 * 2) = 32 Check(Get_Time(mem.all) = 22 + 8 + 22 + 16 + 16 + 30); Check(Get_Writes(mem.all) = 2); Read(mem.all, 4, 4); -- Miss+wb: 2 * (2 * 2 + 3 + 4 + 1) = 24 Check(Get_Time(mem.all) = 22 + 8 + 22 + 16 + 16 + 30 + 24); Check(Get_Writes(mem.all) = 2); Destroy(Memory_Pointer(mem)); end Test_Open; procedure Test_Closed is mem : DRAM_Pointer := Create_DRAM(cas_cycles => 2, rcd_cycles => 3, rp_cycles => 4, wb_cycles => 1, multiplier => 2, word_size => 4, page_size => 1024, page_count => 16384, width => 2, burst_size => 2, open_page_mode => False); begin Check(Get_Time(mem.all) = 0); Check(Get_Writes(mem.all) = 0); Check(Get_Cost(mem.all) = 0); Destroy(Memory_Pointer(mem)); end Test_Closed; procedure Run_Tests is begin Test_Open; Test_Closed; end Run_Tests; end Test.DRAM;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- S Y S T E M . W I D _ E N U M -- -- -- -- S p e c -- -- -- -- 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. -- -- -- ------------------------------------------------------------------------------ -- This package contains the routine used for Enumeration_Type'Width package System.Wid_Enum is pragma Pure; function Width_Enumeration_8 (Names : String; Indexes : System.Address; Lo, Hi : Natural) return Natural; -- Used to compute Enum'Width where Enum is some enumeration subtype -- other than those defined in package Standard. Names is a string with -- a lower bound of 1 containing the characters of all the enumeration -- literals concatenated together in sequence. Indexes is the address -- of an array of type array (0 .. N) of Natural_8, where N is the -- number of enumeration literals in the type. The Indexes values are -- the starting subscript of each enumeration literal, indexed by Pos -- values, with an extra entry at the end containing Names'Length + 1. -- The reason that Indexes is passed by address is that the actual type -- is created on the fly by the expander. -- -- Lo and Hi are the Pos values of the lower and upper bounds of the -- subtype. The result is the value of Width, i.e. the maximum value -- of the length of any enumeration literal in the given range. function Width_Enumeration_16 (Names : String; Indexes : System.Address; Lo, Hi : Natural) return Natural; -- Identical to Width_Enumeration_8 except that it handles types -- using array (0 .. Num) of Natural_16 for the Indexes table. function Width_Enumeration_32 (Names : String; Indexes : System.Address; Lo, Hi : Natural) return Natural; -- Identical to Width_Enumeration_8 except that it handles types -- using array (0 .. Num) of Natural_32 for the Indexes table. end System.Wid_Enum;

------------------------------------------------------------------------------ -- -- -- Matreshka Project -- -- -- -- Web Framework -- -- -- -- Runtime Library 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 League.Characters; package body Servlet.HTTP_Cookies is function Is_Valid_HTTP_Token (String : League.Strings.Universal_String) return Boolean; ------------ -- Create -- ------------ function Create (Name : League.Strings.Universal_String; Value : League.Strings.Universal_String) return Cookie is begin if not Is_Valid_HTTP_Token (Name) then raise Constraint_Error with "Invalid name of cookie"; end if; return (Name => Name, Value => Value, Comment => <>, Domain => <>, Path => <>, Secure => False, HTTP_Only => False); end Create; ----------------- -- Get_Comment -- ----------------- function Get_Comment (Self : Cookie'Class) return League.Strings.Universal_String is begin return Self.Comment; end Get_Comment; ---------------- -- Get_Domain -- ---------------- function Get_Domain (Self : Cookie'Class) return League.Strings.Universal_String is begin return Self.Domain; end Get_Domain; ------------------- -- Get_HTTP_Only -- ------------------- function Get_HTTP_Only (Self : Cookie'Class) return Boolean is begin return Self.HTTP_Only; end Get_HTTP_Only; -------------- -- Get_Name -- -------------- function Get_Name (Self : Cookie'Class) return League.Strings.Universal_String is begin return Self.Name; end Get_Name; -------------- -- Get_Path -- -------------- function Get_Path (Self : Cookie'Class) return League.String_Vectors.Universal_String_Vector is begin return Self.Path; end Get_Path; -------------- -- Get_Path -- -------------- function Get_Path (Self : Cookie'Class) return League.Strings.Universal_String is use type League.Strings.Universal_String; begin if Self.Path.Is_Empty then return League.Strings.Empty_Universal_String; else return '/' & Self.Path.Join ('/'); -- XXX Path segments should be escaped. end if; end Get_Path; ---------------- -- Get_Secure -- ---------------- function Get_Secure (Self : Cookie'Class) return Boolean is begin return Self.Secure; end Get_Secure; --------------- -- Get_Value -- --------------- function Get_Value (Self : Cookie'Class) return League.Strings.Universal_String is begin return Self.Value; end Get_Value; ---------------- -- Initialize -- ---------------- procedure Initialize (Self : in out Cookie; Name : League.Strings.Universal_String; Value : League.Strings.Universal_String) is begin if not Is_Valid_HTTP_Token (Name) then raise Constraint_Error with "Invalid name of cookie"; end if; Self.Name := Name; Self.Value := Value; Self.Comment.Clear; Self.Domain.Clear; Self.Path.Clear; Self.Secure := False; Self.HTTP_Only := False; end Initialize; -------------- -- Is_Empty -- -------------- function Is_Empty (Self : Cookie'Class) return Boolean is begin return Self.Name.Is_Empty; end Is_Empty; ------------------------- -- Is_Valid_HTTP_Token -- ------------------------- function Is_Valid_HTTP_Token (String : League.Strings.Universal_String) return Boolean is begin -- [RFC 2068] -- -- token = 1*<any CHAR except CTLs or tspecials> -- -- tspecials = "(" | ")" | "<" | ">" | "@" -- | "," | ";" | ":" | "\" | <"> -- | "/" | "[" | "]" | "?" | "=" -- | "{" | "}" | SP | HT -- -- CHAR = <any US-ASCII character (octets 0 - 127)> -- CTL = <any US-ASCII control character -- (octets 0 - 31) and DEL (127)> -- SP = <US-ASCII SP, space (32)> -- HT = <US-ASCII HT, horizontal-tab (9)> if String.Is_Empty then return False; else for J in 1 .. String.Length loop declare W : constant Wide_Wide_Character := String (J).To_Wide_Wide_Character; begin if W in Wide_Wide_Character'Val (0) .. Wide_Wide_Character'Val (32) | Wide_Wide_Character'Val (127) .. Wide_Wide_Character'Last | '(' | ')' | '<' | '>' | '@' | ',' | ';' | ':' | '\' | '"' | '/' | '[' | ']' | '?' | '=' | '{' | '}' then return False; end if; end; end loop; return True; end if; end Is_Valid_HTTP_Token; ------------------- -- Set_HTTP_Only -- ------------------- procedure Set_HTTP_Only (Self : in out Cookie'Class; To : Boolean := True) is begin Self.HTTP_Only := To; end Set_HTTP_Only; -------------- -- Set_Path -- -------------- procedure Set_Path (Self : in out Cookie'Class; To : League.String_Vectors.Universal_String_Vector) is begin Self.Path := To; end Set_Path; end Servlet.HTTP_Cookies;

with openGL.Geometry; package openGL.Model.sphere.colored -- -- Models a colored sphere. -- is type Item is new openGL.Model.sphere.item with -- TODO: Make private. record Color : lucid_Color; end record; type View is access all Item'Class; --------- --- Forge -- function new_Sphere (Radius : in Real; Color : in lucid_Color) return View; -------------- --- Attributes -- overriding function to_GL_Geometries (Self : access Item; Textures : access Texture.name_Map_of_texture'Class; Fonts : in Font.font_id_Map_of_font) return Geometry.views; end openGL.Model.sphere.colored;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- S Y S T E M . D I M . M K S -- -- -- -- S p e c -- -- -- -- Copyright (C) 2011-2013, 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. -- -- -- ------------------------------------------------------------------------------ -- Defines the MKS dimension system which is the SI system of units -- Some other prefixes of this system are defined in a child package (see -- System.Dim_Mks.Other_Prefixes) in order to avoid too many constant -- declarations in this package. -- The dimension terminology is defined in System.Dim_IO package with Ada.Numerics; package System.Dim.Mks is e : constant := Ada.Numerics.e; Pi : constant := Ada.Numerics.Pi; -- Dimensioned type Mks_Type type Mks_Type is new Long_Long_Float with Dimension_System => ( (Unit_Name => Meter, Unit_Symbol => 'm', Dim_Symbol => 'L'), (Unit_Name => Kilogram, Unit_Symbol => "kg", Dim_Symbol => 'M'), (Unit_Name => Second, Unit_Symbol => 's', Dim_Symbol => 'T'), (Unit_Name => Ampere, Unit_Symbol => 'A', Dim_Symbol => 'I'), (Unit_Name => Kelvin, Unit_Symbol => 'K', Dim_Symbol => '@'), (Unit_Name => Mole, Unit_Symbol => "mol", Dim_Symbol => 'N'), (Unit_Name => Candela, Unit_Symbol => "cd", Dim_Symbol => 'J')); -- SI Base dimensioned subtypes subtype Length is Mks_Type with Dimension => (Symbol => 'm', Meter => 1, others => 0); subtype Mass is Mks_Type with Dimension => (Symbol => "kg", Kilogram => 1, others => 0); subtype Time is Mks_Type with Dimension => (Symbol => 's', Second => 1, others => 0); subtype Electric_Current is Mks_Type with Dimension => (Symbol => 'A', Ampere => 1, others => 0); subtype Thermodynamic_Temperature is Mks_Type with Dimension => (Symbol => 'K', Kelvin => 1, others => 0); subtype Amount_Of_Substance is Mks_Type with Dimension => (Symbol => "mol", Mole => 1, others => 0); subtype Luminous_Intensity is Mks_Type with Dimension => (Symbol => "cd", Candela => 1, others => 0); -- Initialize SI Base unit values -- Turn off the all the dimension warnings for these basic assignments -- since otherwise we would get complaints about assigning dimensionless -- values to dimensioned subtypes (we can't assign 1.0*m to m). pragma Warnings (Off, "*assumed to be*"); m : constant Length := 1.0; kg : constant Mass := 1.0; s : constant Time := 1.0; A : constant Electric_Current := 1.0; K : constant Thermodynamic_Temperature := 1.0; mol : constant Amount_Of_Substance := 1.0; cd : constant Luminous_Intensity := 1.0; pragma Warnings (On, "*assumed to be*"); -- SI Derived dimensioned subtypes subtype Absorbed_Dose is Mks_Type with Dimension => (Symbol => "Gy", Meter => 2, Second => -2, others => 0); subtype Angle is Mks_Type with Dimension => (Symbol => "rad", others => 0); subtype Area is Mks_Type with Dimension => ( Meter => 2, others => 0); subtype Catalytic_Activity is Mks_Type with Dimension => (Symbol => "kat", Second => -1, Mole => 1, others => 0); subtype Celsius_Temperature is Mks_Type with Dimension => (Symbol => "°C", Kelvin => 1, others => 0); subtype Electric_Capacitance is Mks_Type with Dimension => (Symbol => 'F', Meter => -2, Kilogram => -1, Second => 4, Ampere => 2, others => 0); subtype Electric_Charge is Mks_Type with Dimension => (Symbol => 'C', Second => 1, Ampere => 1, others => 0); subtype Electric_Conductance is Mks_Type with Dimension => (Symbol => 'S', Meter => -2, Kilogram => -1, Second => 3, Ampere => 2, others => 0); subtype Electric_Potential_Difference is Mks_Type with Dimension => (Symbol => 'V', Meter => 2, Kilogram => 1, Second => -3, Ampere => -1, others => 0); subtype Electric_Resistance is Mks_Type with Dimension => (Symbol => "Ω", Meter => 2, Kilogram => 1, Second => -3, Ampere => -2, others => 0); subtype Energy is Mks_Type with Dimension => (Symbol => 'J', Meter => 2, Kilogram => 1, Second => -2, others => 0); subtype Equivalent_Dose is Mks_Type with Dimension => (Symbol => "Sv", Meter => 2, Second => -2, others => 0); subtype Force is Mks_Type with Dimension => (Symbol => 'N', Meter => 1, Kilogram => 1, Second => -2, others => 0); subtype Frequency is Mks_Type with Dimension => (Symbol => "Hz", Second => -1, others => 0); subtype Illuminance is Mks_Type with Dimension => (Symbol => "lx", Meter => -2, Candela => 1, others => 0); subtype Inductance is Mks_Type with Dimension => (Symbol => 'H', Meter => 2, Kilogram => 1, Second => -2, Ampere => -2, others => 0); subtype Luminous_Flux is Mks_Type with Dimension => (Symbol => "lm", Candela => 1, others => 0); subtype Magnetic_Flux is Mks_Type with Dimension => (Symbol => "Wb", Meter => 2, Kilogram => 1, Second => -2, Ampere => -1, others => 0); subtype Magnetic_Flux_Density is Mks_Type with Dimension => (Symbol => 'T', Kilogram => 1, Second => -2, Ampere => -1, others => 0); subtype Power is Mks_Type with Dimension => (Symbol => 'W', Meter => 2, Kilogram => 1, Second => -3, others => 0); subtype Pressure is Mks_Type with Dimension => (Symbol => "Pa", Meter => -1, Kilogram => 1, Second => -2, others => 0); subtype Radioactivity is Mks_Type with Dimension => (Symbol => "Bq", Second => -1, others => 0); subtype Solid_Angle is Mks_Type with Dimension => (Symbol => "sr", others => 0); subtype Speed is Mks_Type with Dimension => ( Meter => 1, Second => -1, others => 0); subtype Volume is Mks_Type with Dimension => ( Meter => 3, others => 0); -- Initialize derived dimension values -- Turn off the all the dimension warnings for these basic assignments -- since otherwise we would get complaints about assigning dimensionless -- values to dimensioned subtypes. pragma Warnings (Off, "*assumed to be*"); rad : constant Angle := 1.0; sr : constant Solid_Angle := 1.0; Hz : constant Frequency := 1.0; N : constant Force := 1.0; Pa : constant Pressure := 1.0; J : constant Energy := 1.0; W : constant Power := 1.0; C : constant Electric_Charge := 1.0; V : constant Electric_Potential_Difference := 1.0; F : constant Electric_Capacitance := 1.0; Ohm : constant Electric_Resistance := 1.0; Si : constant Electric_Conductance := 1.0; Wb : constant Magnetic_Flux := 1.0; T : constant Magnetic_Flux_Density := 1.0; H : constant Inductance := 1.0; dC : constant Celsius_Temperature := 273.15; lm : constant Luminous_Flux := 1.0; lx : constant Illuminance := 1.0; Bq : constant Radioactivity := 1.0; Gy : constant Absorbed_Dose := 1.0; Sv : constant Equivalent_Dose := 1.0; kat : constant Catalytic_Activity := 1.0; -- SI prefixes for Meter um : constant Length := 1.0E-06; -- micro (u) mm : constant Length := 1.0E-03; -- milli cm : constant Length := 1.0E-02; -- centi dm : constant Length := 1.0E-01; -- deci dam : constant Length := 1.0E+01; -- deka hm : constant Length := 1.0E+02; -- hecto km : constant Length := 1.0E+03; -- kilo Mem : constant Length := 1.0E+06; -- mega -- SI prefixes for Kilogram ug : constant Mass := 1.0E-09; -- micro (u) mg : constant Mass := 1.0E-06; -- milli cg : constant Mass := 1.0E-05; -- centi dg : constant Mass := 1.0E-04; -- deci g : constant Mass := 1.0E-03; -- gram dag : constant Mass := 1.0E-02; -- deka hg : constant Mass := 1.0E-01; -- hecto Meg : constant Mass := 1.0E+03; -- mega -- SI prefixes for Second us : constant Time := 1.0E-06; -- micro (u) ms : constant Time := 1.0E-03; -- milli cs : constant Time := 1.0E-02; -- centi ds : constant Time := 1.0E-01; -- deci das : constant Time := 1.0E+01; -- deka hs : constant Time := 1.0E+02; -- hecto ks : constant Time := 1.0E+03; -- kilo Mes : constant Time := 1.0E+06; -- mega -- Other constants for Second min : constant Time := 60.0 * s; hour : constant Time := 60.0 * min; day : constant Time := 24.0 * hour; year : constant Time := 365.25 * day; -- SI prefixes for Ampere mA : constant Electric_Current := 1.0E-03; -- milli cA : constant Electric_Current := 1.0E-02; -- centi dA : constant Electric_Current := 1.0E-01; -- deci daA : constant Electric_Current := 1.0E+01; -- deka hA : constant Electric_Current := 1.0E+02; -- hecto kA : constant Electric_Current := 1.0E+03; -- kilo MeA : constant Electric_Current := 1.0E+06; -- mega pragma Warnings (On, "*assumed to be*"); end System.Dim.Mks;

-- package pc_1_coeff_17 -- -- Predictor_Rule : Integration_Rule renames Predictor_32_17; -- -- Corrector_Rule : Integration_Rule renames Corrector_33_17; -- -- Final_Step_Corrector : Real renames Final_Step_Corrector_33_17; -- generic type Real is digits <>; package pc_1_coeff_17 is subtype PC_Rule_Range is Integer range 0..31; type Integration_Rule is array(PC_Rule_Range) of Real; Extrap_Factor: constant Real := 1.0 / 15.8; Predictor_32_17 : constant Integration_Rule := ( -1.62472980947547285227912948691595204E-1 , 1.51846575484458773430336413812753196E+0 , -5.68313970441214142340495425745202565E+0 , 1.00050734670521388742024808461071612E+1 , -5.61854336297953874414035267260123444E+0 , -6.41511270402391939529842383747530560E+0 , 6.59402419366119591267336173438292271E+0 , 6.73389647814116072687447173034733748E+0 , -4.86700881396898624573986118676698199E+0 , -8.64478706711790617969744057119346501E+0 , 6.63950727514010549784482933422989055E-1 , 9.20584617745705343258283037112855880E+0 , 5.19291395136070380968021848017215355E+0 , -5.96875633034033333049422865420452374E+0 , -9.72525166371917802502970850620895075E+0 , -9.95483190234079632968918740363838844E-1 , 9.52700922317356348545779899395211586E+0 , 8.36629002979632377094330540813030109E+0 , -3.85140687351134092395168103549558921E+0 , -1.19484970796233066876477705100278548E+1 , -4.44168726638781250188880979736295583E+0 , 1.01593092041960707363001655682217274E+1 , 1.14434446021422622131134674483204015E+1 , -5.04683008000810008640273594832825778E+0 , -1.56394540669719939074019577890952650E+1 , 4.58226091321959434664888304431326364E-1 , 1.90978849948879625945213856074456873E+1 , -1.62929715322749462770004952327020878E+0 , -2.47069184123582886764830758984010759E+1 , 2.64970064547578370104165815171826716E+1 , -1.32754569867641443423432949584113725E+1 , 4.15676238628928173030237375397761510E+0 ); Predictor_32_extrap_to_17 : constant Integration_Rule := ( 1.36170338100944228833244474089595536E-1 , -1.43627006830559893033227429680231347E+0 , 6.25426101053819487878676687905366217E+0 , -1.37007265543019152786589106916978149E+1 , 1.30180684411558539611462169446664638E+1 , 3.37161992934220452136765391206638380E+0 , -1.44967104901233064320465797867265537E+1 , -2.32976036259699042473128857293279032E+0 , 1.60135143422803149804126763227308538E+1 , 6.09415040781672732848112078705410452E+0 , -1.67176567383205210974706254692379378E+1 , -1.24784473750736143913368532411975415E+1 , 1.33560980157391979480655078492820117E+1 , 1.88295870130376820754771101489794362E+1 , -4.21972488741453009458242453116599415E+0 , -2.16905844193546925713292133005795100E+1 , -8.54977852575513347873329401429507024E+0 , 1.83162714746860914505261967956328830E+1 , 2.03691056825979617972191189828938736E+1 , -9.48894410534496198964999690653173315E+0 , -2.69829180340256333702722180576512020E+1 , -1.05463051869620197709087430018367894E+0 , 2.73423581859878178943934360569196619E+1 , 1.00399919777284775215768531822227871E+1 , -2.52328248015840951873717383878101787E+1 , -1.55533819955664366838517778040311197E+1 , 2.76995237685588538548398240808673052E+1 , 1.34928731717967644615465425025854988E+1 , -4.47413113609792192188253274754918855E+1 , 3.67681104676958786532390848303135661E+1 , -1.58467700133578032514837230255466989E+1 , 4.41873602373768882185576611252393568E+0 ); Corrector_33_17 : constant Integration_Rule := ( 4.98168398855966025659830340469982468E-3 , -4.51613208728487145714279319138577943E-2 , 1.62172454961820758387144902609866889E-1 , -2.66736718543866567001890246179627645E-1 , 1.17456847072785594212726095808335063E-1 , 1.96866047179146830607213954647420838E-1 , -1.36406446406406306686104779385869613E-1 , -2.10316570120453320678394972110799891E-1 , 7.08775822889284787661100350119805011E-2 , 2.42273511266352912579478510626232678E-1 , 6.07880076103313559217517180111815585E-2 , -2.08884152342191241654946666209678123E-1 , -2.06927786051030923340239805288218292E-1 , 6.27988202459660113353878599356576194E-2 , 2.64368799640054028698998748639507920E-1 , 1.46893121647767128072743038831631258E-1 , -1.58366061762764557700156430430808771E-1 , -2.87895985515915602425491040068879095E-1 , -6.97454945893382033173477264815729488E-2 , 2.53738018963797141239773267604182993E-1 , 2.80867798494825232899917918565546520E-1 , -6.06446297592698498469263002734874671E-2 , -3.58323214027075377289296944856532071E-1 , -1.78281079905509944614996373606226778E-1 , 3.01776031852680498634277131438819591E-1 , 3.68005656150613531276021055250876534E-1 , -2.15472206527322468891573729855813413E-1 , -5.07830439816322016584924426165303395E-1 , 2.84771043627340798318221042098526303E-1 , 5.99446533852551009537456116171727083E-1 , -1.00303000540072804419740748556957105E+0 , 1.20147256716041481639865238776711029E+0 ); Final_Step_Corrector_33_17 : constant Real := 2.94467585637107351658652771972942886E-1; Predictor_31_17 : constant Integration_Rule := ( 0.0, -1.66288025996788291979014146692279247E-1 , 1.61314625598600037148364551586909605E+0 , -6.34652284483809191615748750922343187E+0 , 1.20925290950580058969215358176485194E+1 , -8.55543001730046005814737604555588414E+0 , -6.03856653603814841772670915680964009E+0 , 9.87411753435123356567413853432060800E+0 , 5.84792178429449472740424201798429506E+0 , -8.79080704693799352277751159942444752E+0 , -8.68433491492276051348785151885634521E+0 , 5.23249514341292630582386320899518599E+0 , 1.15501269956505581429385972255865776E+1 , 1.19015803599446214851405436363081260E+0 , -1.12735863726613656709402177491395534E+1 , -8.58724535293452427603673411259105530E+0 , 6.11779894831184736325921309026516388E+0 , 1.33143757032492108804679352846582872E+1 , 2.54498194351809454946350642124060281E+0 , -1.26899547687530867831866333263973675E+1 , -1.10392955600528269217184624438165837E+1 , 7.22114406303264771332361646862478847E+0 , 1.64284437998856731324743466498097621E+1 , -5.67080726395450006591274670119935468E-2 , -1.90090554969964743313479857481245026E+1 , -5.16273643185844088179660001589396301E+0 , 2.25693367707791379806394135476958962E+1 , 3.23942573862421619313560030459267391E+0 , -3.16177593803619854016308619241162746E+1 , 3.01300772494106219311088419792550374E+1 , -1.41999300670040827526500215273680735E+1 , 4.25214182773744383761004386084408864E+0 ); Corrector_33_extrap_to_18 : constant Integration_Rule := ( 4.64957172265568290617642035306327849E-3 , -5.32364345477780197326227382703065444E-2 , 2.58904041696766065932598884556662776E-1 , -6.72055793630148256966630050895269478E-1 , 9.15794996938466947765310910581055406E-1 , -3.86620357119493628669435032828971106E-1 , -5.29883785715189114108400207057360403E-1 , 4.61979036844325805108905000116698707E-1 , 4.56013862422632895360734280356379472E-1 , -3.59931859280603516471244037106034340E-1 , -5.22220187225208102066130902592553281E-1 , 1.53874467374816594859432240887279253E-1 , 5.76875866062408347780792620531227060E-1 , 1.37956101295865753817956167030461936E-1 , -5.04828211846707284644976890397154485E-1 , -4.35382776657718965561179636154178742E-1 , 2.60044938908876237049241916677437476E-1 , 6.18922127068426163141800392336135070E-1 , 1.04569667951157313542505041254343853E-1 , -6.09174833550661787094532384167567230E-1 , -4.73809758741684910775201463003244463E-1 , 4.24807949760191321053725822758113827E-1 , 7.60794586900441190078935262601197249E-1 , -1.70176212754445615018762081075796958E-1 , -9.85612736737263156756894612628934325E-1 , -7.10483049990096277149603714051640309E-4 , 1.30351505862644156114775006541164752E+0 , -2.58013361253619469261814185766801641E-1 , -1.84206431797194761511067211764574917E+0 , 2.56815524822308907107299393885690785E+0 , -1.88282334284095169147611053155693178E+0 , 1.40485051786555008449720031230200151E+0 ); Final_Step_Corrector_33_extrap_to_18 : constant Real := 2.74836413261300194882473461828327737E-1; Corrector_33_18 : constant Integration_Rule := ( -4.29063799602363300332554290338226295E-3 , 4.38930332480966809796959379076409981E-2 , -1.84407586326769458272582523016445115E-1 , 3.86018410068741543924126535404563539E-1 , -3.39672522737244306236877595500955353E-1 , -1.15641698427106085154098431312500252E-1 , 3.67714580948230418726334597592131207E-1 , 8.51130013530862502298476133473910856E-2 , -3.54666284501439138817890595269239766E-1 , -1.81416311108832538094079171518532074E-1 , 2.88833826526463644786676422021725394E-1 , 3.22344332863848596675379797234396480E-1 , -1.21000123850099483378649506353159374E-1 , -4.05936344466723412585600990426609324E-1 , -1.33568166316278517562718545082911589E-1 , 3.36386586562306821405499326466245392E-1 , 3.72313509686552044866666445265398842E-1 , -9.84025206013759090927347524342649613E-2 , -4.67682460545670749579065020203992459E-1 , -2.14997145748892282681215582758083950E-1 , 3.66795460695756672861508217500605439E-1 , 4.70583855446769988483400163170587136E-1 , -1.30277395110943088424372240845988236E-1 , -6.01970902280695395288554055750991530E-1 , -1.23767834937687118949723498842400676E-1 , 6.63435227624153102184263640709067511E-1 , 2.88648820827314256520865647122187408E-1 , -8.20338185422574932346236812125224486E-1 , -1.72358326182689102131382649210764114E-1 , 1.25220166246515912046347289775591826E+0 , -1.34961004668931826085713491119588305E+0 , 1.29052692128136021194977625758860908E+0 ); Final_Step_Corrector_33_18 : constant Real := 2.85195263652524058398728925664860798E-1; Predictor_Rule : Integration_Rule renames Predictor_31_17; --Predictor_Rule : Integration_Rule renames Predictor_32_extrap_to_17; Corrector_Rule : Integration_Rule renames Corrector_33_17; --Corrector_Rule : Integration_Rule renames Corrector_33_extrap_to_18; Final_Step_Corrector : Real renames Final_Step_Corrector_33_17; --Final_Step_Corrector : Real renames Final_Step_Corrector_33_extrap_to_18; end pc_1_coeff_17;

-- CC3234A.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 A PRIVATE OR LIMITED PRIVATE FORMAL TYPE DENOTES ITS -- ACTUAL PARAMETER AN ARRAY TYPE, AND OPERATIONS OF THE FORMAL -- TYPE ARE IDENTIFIED WITH CORRESPONDING OPERATIONS OF THE ACTUAL -- TYPE. -- HISTORY: -- TBN 09/15/88 CREATED ORIGINAL TEST. WITH REPORT; USE REPORT; PROCEDURE CC3234A IS GENERIC TYPE T IS PRIVATE; PACKAGE P IS SUBTYPE SUB_T IS T; PAC_VAR : T; END P; GENERIC TYPE T IS LIMITED PRIVATE; PACKAGE LP IS SUBTYPE SUB_T IS T; PAC_VAR : T; END LP; BEGIN TEST ("CC3234A", "CHECK THAT A PRIVATE OR LIMITED PRIVATE " & "FORMAL TYPE DENOTES ITS ACTUAL PARAMETER AN " & "ARRAY TYPE, AND OPERATIONS OF THE " & "FORMAL TYPE ARE IDENTIFIED WITH CORRESPONDING " & "OPERATIONS OF THE ACTUAL TYPE"); DECLARE -- PRIVATE TYPE. TYPE ARRAY_TYPE IS ARRAY (1..10) OF INTEGER; OBJ_ARR : ARRAY_TYPE := (OTHERS => 1); PACKAGE P1 IS NEW P (ARRAY_TYPE); USE P1; TYPE NEW_T IS NEW SUB_T; OBJ_NEWT : NEW_T; BEGIN PAC_VAR := SUB_T'(1, 1, 1, 1, 1, 1, 1, 1, 1, 1); IF PAC_VAR /= OBJ_ARR THEN FAILED ("INCORRECT RESULTS - 1"); END IF; OBJ_ARR(1) := PAC_VAR(2) + OBJ_ARR(1); IF OBJ_ARR(1) <= PAC_VAR(1) THEN FAILED ("INCORRECT RESULTS - 2"); END IF; PAC_VAR(1) := PAC_VAR(1) * OBJ_ARR(3); IF PAC_VAR NOT IN ARRAY_TYPE THEN FAILED ("INCORRECT RESULTS - 3"); END IF; IF OBJ_ARR NOT IN SUB_T THEN FAILED ("INCORRECT RESULTS - 4"); END IF; IF ARRAY_TYPE'FIRST /= SUB_T'FIRST THEN FAILED ("INCORRECT RESULTS - 5"); END IF; OBJ_ARR(1..5) := PAC_VAR(6..10); IF OBJ_ARR(1..5) /= (1, 1, 1, 1, 1) THEN FAILED ("INCORRECT RESULTS - 6"); END IF; PAC_VAR := (1, 1, 1, 1, 1, 2, 2, 2, 2, 2); OBJ_NEWT := (1, 1, 1, 1, 1, 1, 1, 1, 1, 1); OBJ_NEWT := NEW_T(PAC_VAR); IF OBJ_NEWT(3..7) /= (1, 1, 1, 2, 2) THEN FAILED ("INCORRECT RESULTS - 7"); END IF; IF OBJ_NEWT NOT IN NEW_T THEN FAILED ("INCORRECT RESULTS - 8"); END IF; END; DECLARE -- LIMITED PRIVATE TYPE. TYPE ARRAY_TYPE IS ARRAY (1..10) OF INTEGER; OBJ_ARR : ARRAY_TYPE := (OTHERS => 1); PACKAGE P1 IS NEW LP (ARRAY_TYPE); USE P1; TYPE NEW_T IS NEW SUB_T; OBJ_NEWT : NEW_T; BEGIN PAC_VAR := SUB_T'(1, 1, 1, 1, 1, 1, 1, 1, 1, 1); IF PAC_VAR /= OBJ_ARR THEN FAILED ("INCORRECT RESULTS - 9"); END IF; OBJ_ARR(1) := PAC_VAR(2) + OBJ_ARR(1); IF OBJ_ARR(1) <= PAC_VAR(1) THEN FAILED ("INCORRECT RESULTS - 10"); END IF; PAC_VAR(1) := PAC_VAR(1) * OBJ_ARR(3); IF PAC_VAR NOT IN ARRAY_TYPE THEN FAILED ("INCORRECT RESULTS - 11"); END IF; IF OBJ_ARR NOT IN SUB_T THEN FAILED ("INCORRECT RESULTS - 12"); END IF; IF ARRAY_TYPE'FIRST /= SUB_T'FIRST THEN FAILED ("INCORRECT RESULTS - 13"); END IF; OBJ_ARR(1..5) := PAC_VAR(6..10); IF OBJ_ARR(1..5) /= (1, 1, 1, 1, 1) THEN FAILED ("INCORRECT RESULTS - 14"); END IF; PAC_VAR := (1, 1, 1, 1, 1, 2, 2, 2, 2, 2); OBJ_NEWT := (1, 1, 1, 1, 1, 1, 1, 1, 1, 1); OBJ_NEWT := NEW_T(PAC_VAR); IF OBJ_NEWT(3..7) /= (1, 1, 1, 2, 2) THEN FAILED ("INCORRECT RESULTS - 15"); END IF; IF OBJ_NEWT NOT IN NEW_T THEN FAILED ("INCORRECT RESULTS - 16"); END IF; END; RESULT; END CC3234A;

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<m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>1.32</m_delay> </item> <item class_id_reference="9" object_id="_47"> <Value> <Obj> <type>0</type> <id>69</id> <name/> <fileName>sources/otherModules/flashModel/flashModel.cpp</fileName> <fileDirectory>..</fileDirectory> <lineNumber>70</lineNumber> <contextFuncName>flashMemAccess</contextFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/pratik0509/Projects/HLx_Examples/Acceleration/memcached/hls</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>sources/otherModules/flashModel/flashModel.cpp</first> <second>flashMemAccess</second> </first> <second>70</second> </item> </second> </item> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>189</item> <item>190</item> <item>316</item> </oprand_edges> <opcode>store</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>0.92</m_delay> </item> <item class_id_reference="9" object_id="_48"> <Value> <Obj> <type>0</type> <id>70</id> <name>tmp_4_i</name> <fileName>sources/otherModules/flashModel/flashModel.cpp</fileName> <fileDirectory>..</fileDirectory> <lineNumber>71</lineNumber> <contextFuncName>flashMemAccess</contextFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/pratik0509/Projects/HLx_Examples/Acceleration/memcached/hls</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>sources/otherModules/flashModel/flashModel.cpp</first> <second>flashMemAccess</second> </first> <second>71</second> </item> </second> </item> </inlineStackInfo> <originalName/> <rtlName>grp_fu_150_p2</rtlName> <coreName/> </Obj> <bitwidth>32</bitwidth> </Value> <oprand_edges> <count>2</count> <item_version>0</item_version> <item>191</item> <item>192</item> </oprand_edges> <opcode>add</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>1.51</m_delay> </item> <item class_id_reference="9" object_id="_49"> <Value> <Obj> <type>0</type> <id>71</id> <name/> <fileName>sources/otherModules/flashModel/flashModel.cpp</fileName> <fileDirectory>..</fileDirectory> <lineNumber>71</lineNumber> <contextFuncName>flashMemAccess</contextFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/pratik0509/Projects/HLx_Examples/Acceleration/memcached/hls</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>sources/otherModules/flashModel/flashModel.cpp</first> <second>flashMemAccess</second> </first> <second>71</second> </item> </second> </item> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>193</item> <item>194</item> <item>315</item> </oprand_edges> <opcode>store</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>0.92</m_delay> </item> <item class_id_reference="9" object_id="_50"> <Value> <Obj> <type>0</type> <id>72</id> <name/> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>195</item> </oprand_edges> <opcode>br</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>0.00</m_delay> </item> <item class_id_reference="9" object_id="_51"> <Value> <Obj> <type>0</type> <id>74</id> <name/> <fileName>sources/otherModules/flashModel/flashModel.cpp</fileName> <fileDirectory>..</fileDirectory> <lineNumber>68</lineNumber> <contextFuncName>flashMemAccess</contextFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/pratik0509/Projects/HLx_Examples/Acceleration/memcached/hls</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>sources/otherModules/flashModel/flashModel.cpp</first> <second>flashMemAccess</second> </first> <second>68</second> </item> </second> </item> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>184</item> <item>185</item> <item>314</item> </oprand_edges> <opcode>store</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>0.85</m_delay> </item> <item class_id_reference="9" object_id="_52"> <Value> <Obj> <type>0</type> <id>75</id> <name/> <fileName>sources/otherModules/flashModel/flashModel.cpp</fileName> <fileDirectory>..</fileDirectory> <lineNumber>68</lineNumber> <contextFuncName>flashMemAccess</contextFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/pratik0509/Projects/HLx_Examples/Acceleration/memcached/hls</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>sources/otherModules/flashModel/flashModel.cpp</first> <second>flashMemAccess</second> </first> <second>68</second> </item> </second> </item> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>186</item> </oprand_edges> <opcode>br</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>0.00</m_delay> </item> <item class_id_reference="9" object_id="_53"> <Value> <Obj> <type>0</type> <id>77</id> <name/> <fileName>sources/otherModules/flashModel/flashModel.cpp</fileName> <fileDirectory>..</fileDirectory> <lineNumber>73</lineNumber> <contextFuncName>flashMemAccess</contextFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/pratik0509/Projects/HLx_Examples/Acceleration/memcached/hls</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>sources/otherModules/flashModel/flashModel.cpp</first> <second>flashMemAccess</second> </first> <second>73</second> </item> </second> </item> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>196</item> </oprand_edges> <opcode>br</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>0.00</m_delay> </item> <item class_id_reference="9" object_id="_54"> <Value> <Obj> <type>0</type> <id>79</id> <name/> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>197</item> </oprand_edges> <opcode>br</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>0.00</m_delay> </item> <item class_id_reference="9" object_id="_55"> <Value> <Obj> <type>0</type> <id>81</id> <name/> <fileName>sources/otherModules/flashModel/flashModel.cpp</fileName> <fileDirectory>..</fileDirectory> <lineNumber>74</lineNumber> <contextFuncName>flashMemAccess</contextFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/pratik0509/Projects/HLx_Examples/Acceleration/memcached/hls</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>sources/otherModules/flashModel/flashModel.cpp</first> <second>flashMemAccess</second> </first> <second>74</second> </item> </second> </item> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>198</item> </oprand_edges> <opcode>br</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>0.00</m_delay> </item> <item class_id_reference="9" object_id="_56"> <Value> <Obj> <type>0</type> <id>83</id> <name/> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>0</count> <item_version>0</item_version> </oprand_edges> <opcode>ret</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_delay>0.00</m_delay> </item> </nodes> <consts class_id="15" tracking_level="0" version="0"> <count>9</count> <item_version>0</item_version> <item class_id="16" tracking_level="1" version="0" object_id="_57"> <Value> <Obj> <type>2</type> <id>95</id> <name>empty</name> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>32</bitwidth> </Value> <const_type>0</const_type> <content>1</content> </item> <item class_id_reference="16" object_id="_58"> <Value> <Obj> <type>2</type> <id>109</id> <name>empty</name> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>32</bitwidth> </Value> <const_type>0</const_type> <content>32</content> </item> <item class_id_reference="16" object_id="_59"> <Value> <Obj> <type>2</type> <id>111</id> <name>empty</name> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>32</bitwidth> </Value> <const_type>0</const_type> <content>44</content> </item> <item class_id_reference="16" object_id="_60"> <Value> <Obj> <type>2</type> <id>118</id> <name>empty</name> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>32</bitwidth> </Value> <const_type>0</const_type> <content>45</content> </item> <item class_id_reference="16" object_id="_61"> <Value> <Obj> <type>2</type> <id>122</id> <name>empty</name> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>1</bitwidth> </Value> <const_type>0</const_type> <content>1</content> </item> <item class_id_reference="16" object_id="_62"> <Value> <Obj> <type>2</type> <id>133</id> <name>empty</name> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>64</bitwidth> </Value> <const_type>0</const_type> <content>0</content> </item> <item class_id_reference="16" object_id="_63"> <Value> <Obj> <type>2</type> <id>142</id> <name>empty</name> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>13</bitwidth> </Value> <const_type>0</const_type> <content>1</content> </item> <item class_id_reference="16" object_id="_64"> <Value> <Obj> <type>2</type> <id>147</id> <name>empty</name> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>1</bitwidth> </Value> <const_type>0</const_type> <content>0</content> </item> <item class_id_reference="16" object_id="_65"> <Value> <Obj> <type>2</type> <id>152</id> <name>empty</name> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <bitwidth>13</bitwidth> </Value> <const_type>0</const_type> <content>8191</content> </item> </consts> <blocks class_id="17" tracking_level="0" version="0"> <count>17</count> 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</inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <node_objs> <count>5</count> <item_version>0</item_version> <item>46</item> <item>47</item> <item>48</item> <item>49</item> <item>50</item> </node_objs> </item> <item class_id_reference="18" object_id="_73"> <Obj> <type>3</type> <id>54</id> <name/> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <node_objs> <count>2</count> <item_version>0</item_version> <item>52</item> <item>53</item> </node_objs> </item> <item class_id_reference="18" object_id="_74"> <Obj> <type>3</type> <id>56</id> <name/> <fileName/> <fileDirectory/> <lineNumber>0</lineNumber> <contextFuncName/> <inlineStackInfo> <count>0</count> <item_version>0</item_version> </inlineStackInfo> <originalName/> <rtlName/> <coreName/> </Obj> <node_objs> <count>1</count> <item_version>0</item_version> 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class_id_reference="20" object_id="_175"> <id>286</id> <edge_type>2</edge_type> <source_obj>20</source_obj> <sink_obj>23</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_176"> <id>287</id> <edge_type>2</edge_type> <source_obj>23</source_obj> <sink_obj>33</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_177"> <id>288</id> <edge_type>2</edge_type> <source_obj>23</source_obj> <sink_obj>35</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_178"> <id>289</id> <edge_type>2</edge_type> <source_obj>33</source_obj> <sink_obj>35</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_179"> <id>290</id> <edge_type>2</edge_type> <source_obj>35</source_obj> <sink_obj>84</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_180"> <id>291</id> <edge_type>2</edge_type> <source_obj>37</source_obj> <sink_obj>59</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_181"> <id>292</id> <edge_type>2</edge_type> <source_obj>37</source_obj> <sink_obj>45</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_182"> <id>293</id> <edge_type>2</edge_type> <source_obj>45</source_obj> <sink_obj>54</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_183"> <id>294</id> <edge_type>2</edge_type> <source_obj>45</source_obj> <sink_obj>51</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_184"> <id>295</id> <edge_type>2</edge_type> <source_obj>51</source_obj> <sink_obj>56</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_185"> <id>296</id> <edge_type>2</edge_type> <source_obj>54</source_obj> <sink_obj>56</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_186"> <id>297</id> <edge_type>2</edge_type> <source_obj>56</source_obj> <sink_obj>82</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_187"> <id>298</id> <edge_type>2</edge_type> <source_obj>59</source_obj> <sink_obj>67</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_188"> <id>299</id> <edge_type>2</edge_type> <source_obj>59</source_obj> <sink_obj>80</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_189"> <id>300</id> <edge_type>2</edge_type> <source_obj>67</source_obj> <sink_obj>76</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_190"> <id>301</id> <edge_type>2</edge_type> <source_obj>67</source_obj> <sink_obj>73</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_191"> <id>302</id> <edge_type>2</edge_type> <source_obj>73</source_obj> <sink_obj>78</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_192"> <id>303</id> <edge_type>2</edge_type> <source_obj>76</source_obj> <sink_obj>78</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_193"> <id>304</id> <edge_type>2</edge_type> <source_obj>78</source_obj> <sink_obj>80</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_194"> <id>305</id> <edge_type>2</edge_type> <source_obj>80</source_obj> <sink_obj>82</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_195"> <id>306</id> <edge_type>2</edge_type> <source_obj>82</source_obj> <sink_obj>84</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_196"> <id>307</id> <edge_type>4</edge_type> <source_obj>15</source_obj> <sink_obj>31</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_197"> <id>308</id> <edge_type>4</edge_type> <source_obj>16</source_obj> <sink_obj>26</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_198"> <id>309</id> <edge_type>4</edge_type> <source_obj>17</source_obj> <sink_obj>28</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_199"> <id>310</id> <edge_type>4</edge_type> <source_obj>18</source_obj> <sink_obj>30</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_200"> <id>311</id> <edge_type>4</edge_type> <source_obj>15</source_obj> <sink_obj>52</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_201"> <id>312</id> <edge_type>4</edge_type> <source_obj>16</source_obj> <sink_obj>49</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_202"> <id>313</id> <edge_type>4</edge_type> <source_obj>17</source_obj> <sink_obj>47</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_203"> <id>314</id> <edge_type>4</edge_type> <source_obj>15</source_obj> <sink_obj>74</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_204"> <id>315</id> <edge_type>4</edge_type> <source_obj>16</source_obj> <sink_obj>71</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_205"> <id>316</id> <edge_type>4</edge_type> <source_obj>17</source_obj> <sink_obj>69</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_206"> <id>317</id> <edge_type>4</edge_type> <source_obj>21</source_obj> <sink_obj>24</sink_obj> <is_back_edge>0</is_back_edge> </item> <item class_id_reference="20" object_id="_207"> <id>318</id> <edge_type>4</edge_type> <source_obj>57</source_obj> <sink_obj>62</sink_obj> <is_back_edge>0</is_back_edge> </item> </edges> </cdfg> <cdfg_regions class_id="21" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="22" tracking_level="1" version="0" object_id="_208"> <mId>1</mId> <mTag>flashMemAccess</mTag> <mType>0</mType> <sub_regions> <count>0</count> <item_version>0</item_version> </sub_regions> <basic_blocks> <count>17</count> <item_version>0</item_version> <item>20</item> <item>23</item> <item>33</item> <item>35</item> <item>37</item> <item>45</item> <item>51</item> <item>54</item> <item>56</item> <item>59</item> <item>67</item> <item>73</item> <item>76</item> <item>78</item> <item>80</item> <item>82</item> <item>84</item> </basic_blocks> <mII>1</mII> <mDepth>3</mDepth> <mMinTripCount>-1</mMinTripCount> <mMaxTripCount>-1</mMaxTripCount> <mMinLatency>2</mMinLatency> <mMaxLatency>2</mMaxLatency> <mIsDfPipe>0</mIsDfPipe> <mDfPipe class_id="-1"/> </item> </cdfg_regions> <fsm class_id="24" tracking_level="1" version="0" object_id="_209"> <states class_id="25" tracking_level="0" version="0"> <count>3</count> <item_version>0</item_version> <item class_id="26" tracking_level="1" version="0" object_id="_210"> <id>1</id> <operations class_id="27" tracking_level="0" version="0"> <count>41</count> <item_version>0</item_version> <item class_id="28" tracking_level="1" version="0" object_id="_211"> <id>15</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_212"> <id>16</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_213"> <id>17</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_214"> <id>18</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_215"> <id>19</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_216"> <id>21</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_217"> <id>22</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_218"> <id>24</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_219"> <id>25</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_220"> <id>26</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_221"> <id>27</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_222"> <id>28</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_223"> <id>29</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_224"> <id>30</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_225"> <id>31</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_226"> <id>36</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_227"> <id>38</id> <stage>1</stage> 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class_id_reference="28" object_id="_237"> <id>52</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_238"> <id>57</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_239"> <id>58</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_240"> <id>60</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_241"> <id>61</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_242"> <id>62</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_243"> <id>63</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_244"> <id>64</id> <stage>2</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_245"> <id>65</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_246"> <id>66</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_247"> <id>68</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_248"> <id>69</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_249"> <id>70</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_250"> <id>71</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_251"> <id>74</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_252"> <id>2</id> <operations> <count>3</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_253"> <id>41</id> <stage>1</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_254"> <id>42</id> <stage>2</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_255"> <id>64</id> <stage>1</stage> <latency>2</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_256"> <id>3</id> <operations> <count>18</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_257"> <id>9</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_258"> <id>10</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_259"> <id>11</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_260"> <id>12</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_261"> <id>13</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_262"> <id>14</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_263"> <id>32</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_264"> 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tracking_level="1" version="0" object_id="_277"> <dp_component_resource class_id="35" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </dp_component_resource> <dp_expression_resource> <count>13</count> <item_version>0</item_version> <item class_id="36" tracking_level="0" version="0"> <first>ap_block_state1_pp0_stage0_iter0 ( or ) </first> <second class_id="37" tracking_level="0" version="0"> <count>4</count> <item_version>0</item_version> <item class_id="38" tracking_level="0" version="0"> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_block_state2_io ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_block_state3_io ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_predicate_op11_read_state1 ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_predicate_op35_read_state1 ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_predicate_op46_write_state2 ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>ap_predicate_op56_write_state3 ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>grp_fu_134_p2 ( icmp ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>13</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>13</second> </item> </second> </item> <item> <first>grp_fu_139_p2 ( + ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>13</second> </item> <item> <first>(1P1)</first> <second>2</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>20</second> </item> </second> </item> <item> <first>grp_fu_150_p2 ( + ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>32</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>39</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_load_A ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_load_B ( and ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>2</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_state_cmp_full ( icmp ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>2</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>8</second> </item> </second> </item> </dp_expression_resource> <dp_fifo_resource> <count>0</count> <item_version>0</item_version> </dp_fifo_resource> <dp_memory_resource> <count>1</count> <item_version>0</item_version> <item> <first>memArray_V_U</first> <second> <count>7</count> <item_version>0</item_version> <item> <first>(0Words)</first> <second>65536</second> </item> <item> <first>(1Bits)</first> <second>64</second> </item> <item> <first>(2Banks)</first> <second>1</second> </item> <item> <first>(3W*Bits*Banks)</first> <second>4194304</second> </item> <item> <first>BRAM</first> <second>256</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>0</second> </item> </second> </item> </dp_memory_resource> <dp_multiplexer_resource> <count>11</count> <item_version>0</item_version> <item> <first>ap_NS_iter1_fsm</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>3</second> </item> <item> <first>(1Bits)</first> <second>2</second> </item> <item> <first>(2Count)</first> <second>6</second> </item> <item> <first>LUT</first> <second>15</second> </item> </second> </item> <item> <first>ap_NS_iter2_fsm</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>3</second> </item> <item> <first>(1Bits)</first> <second>2</second> </item> <item> <first>(2Count)</first> <second>6</second> </item> <item> <first>LUT</first> <second>15</second> </item> </second> </item> <item> <first>ap_done</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>flashAggregateMemCmd_1_blk_n</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>inputWord_address_V</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>32</second> </item> <item> <first>(2Count)</first> <second>64</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>inputWord_count_V</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>13</second> </item> <item> <first>(2Count)</first> <second>26</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>memArray_V_address0</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>3</second> </item> <item> <first>(1Bits)</first> <second>16</second> </item> <item> <first>(2Count)</first> <second>48</second> </item> <item> <first>LUT</first> <second>15</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_data_out</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>64</second> </item> <item> <first>(2Count)</first> <second>128</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_state</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>3</second> </item> <item> <first>(1Bits)</first> <second>2</second> </item> <item> <first>(2Count)</first> <second>6</second> </item> <item> <first>LUT</first> <second>15</second> </item> </second> </item> <item> <first>rdDataOut_V_V_TDATA_blk_n</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> <item> <first>wrDataIn_V_V_TDATA_blk_n</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>9</second> </item> </second> </item> </dp_multiplexer_resource> <dp_register_resource> <count>17</count> <item_version>0</item_version> <item> <first>ap_CS_iter0_fsm</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>ap_CS_iter1_fsm</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>2</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>2</second> </item> </second> </item> <item> <first>ap_CS_iter2_fsm</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>2</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>2</second> </item> </second> </item> <item> <first>ap_done_reg</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>inputWord_address_V</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>32</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>32</second> </item> </second> </item> <item> <first>inputWord_count_V</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>13</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>13</second> </item> </second> </item> <item> <first>inputWord_rdOrWr_V</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>inputWord_rdOrWr_V_l_reg_254</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>inputWord_rdOrWr_V_l_reg_254_pp0_iter1_reg</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>memState</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>memState_load_reg_250</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>memState_load_reg_250_pp0_iter1_reg</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_payload_A</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>64</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>64</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_payload_B</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>64</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>64</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_sel_rd</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_sel_wr</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>rdDataOut_V_V_1_state</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>2</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>2</second> </item> </second> </item> </dp_register_resource> <dp_dsp_resource> <count>0</count> <item_version>0</item_version> </dp_dsp_resource> <dp_component_map class_id="39" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </dp_component_map> <dp_expression_map> <count>3</count> <item_version>0</item_version> <item class_id="40" tracking_level="0" version="0"> <first>grp_fu_134_p2 ( icmp ) </first> <second> <count>2</count> <item_version>0</item_version> <item>43</item> <item>65</item> </second> </item> <item> <first>grp_fu_139_p2 ( + ) </first> <second> <count>2</count> <item_version>0</item_version> <item>46</item> <item>68</item> </second> </item> <item> <first>grp_fu_150_p2 ( + ) </first> <second> <count>2</count> <item_version>0</item_version> <item>48</item> <item>70</item> </second> </item> </dp_expression_map> <dp_fifo_map> <count>0</count> <item_version>0</item_version> </dp_fifo_map> <dp_memory_map> <count>1</count> <item_version>0</item_version> <item> <first>memArray_V_U</first> <second> <count>1</count> <item_version>0</item_version> <item>186</item> </second> </item> </dp_memory_map> </res> <node_label_latency class_id="41" tracking_level="0" version="0"> <count>53</count> <item_version>0</item_version> <item class_id="42" tracking_level="0" version="0"> <first>15</first> <second class_id="43" tracking_level="0" version="0"> <first>0</first> <second>0</second> </second> </item> <item> <first>16</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>17</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>18</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>19</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>21</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>22</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>24</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>25</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>26</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>27</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>28</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>29</first> <second> 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</item> <item> <first>60</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>61</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>62</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>63</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>64</first> <second> <first>0</first> <second>1</second> </second> </item> <item> <first>65</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>66</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>68</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>69</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>70</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>71</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>72</first> 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</second> </item> <item> <first>read</first> <second> <count>1</count> <item_version>0</item_version> <item>62</item> </second> </item> </second> </item> </dp_port_io_nodes> <port2core class_id="59" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="60" tracking_level="0" version="0"> <first>7</first> <second>FIFO_SRL</second> </item> </port2core> <node2core> <count>0</count> <item_version>0</item_version> </node2core> </syndb> </boost_serialization>

-------------------------------------------------------------------------------------------------------------------- -- Copyright (c) 2013-2020, Luke A. Guest -- -- This software is provided 'as-is', without any express or implied -- warranty. In no event will the authors be held liable for any damages -- arising from the use of this software. -- -- Permission is granted to anyone to use this software for any purpose, -- including commercial applications, and to alter it and redistribute it -- freely, subject to the following restrictions: -- -- 1. The origin of this software must not be misrepresented; you must not -- claim that you wrote the original software. If you use this software -- in a product, an acknowledgment in the product documentation would be -- appreciated but is not required. -- -- 2. Altered source versions must be plainly marked as such, and must not be -- misrepresented as being the original software. -- -- 3. This notice may not be removed or altered from any source -- distribution. -------------------------------------------------------------------------------------------------------------------- with Interfaces.C; private with SDL.C_Pointers; package body SDL.Video.Renderers.Makers is package C renames Interfaces.C; function Get_Internal_Window (Self : in SDL.Video.Windows.Window) return SDL.C_Pointers.Windows_Pointer with Convention => Ada, Import => True; function Get_Internal_Surface (Self : in SDL.Video.Surfaces.Surface) return SDL.Video.Surfaces.Internal_Surface_Pointer with Import => True, Convention => Ada; procedure Create (Rend : in out Renderer; Window : in out SDL.Video.Windows.Window; Driver : in Positive; Flags : in Renderer_Flags := Default_Renderer_Flags) is function SDL_Create_Renderer (W : in SDL.C_Pointers.Windows_Pointer; Index : in C.int; Flags : in Renderer_Flags) return SDL.C_Pointers.Renderer_Pointer with Import => True, Convention => C, External_Name => "SDL_CreateRenderer"; begin Rend.Internal := SDL_Create_Renderer (Get_Internal_Window (Window), C.int (Driver), Flags); end Create; procedure Create (Rend : in out Renderer; Window : in out SDL.Video.Windows.Window; Flags : in Renderer_Flags := Default_Renderer_Flags) is function SDL_Create_Renderer (W : in SDL.C_Pointers.Windows_Pointer; Index : in C.int; Flags : in Renderer_Flags) return SDL.C_Pointers.Renderer_Pointer with Import => True, Convention => C, External_Name => "SDL_CreateRenderer"; begin Rend.Internal := SDL_Create_Renderer (Get_Internal_Window (Window), -1, Flags); Rend.Owns := True; end Create; procedure Create (Rend : in out Renderer; Surface : in SDL.Video.Surfaces.Surface) is function SDL_Create_Software_Renderer (S : in SDL.Video.Surfaces.Internal_Surface_Pointer) return SDL.C_Pointers.Renderer_Pointer with Import => True, Convention => C, External_Name => "SDL_CreateSoftwareRenderer"; begin Rend.Internal := SDL_Create_Software_Renderer (Get_Internal_Surface (Surface)); Rend.Owns := True; end Create; end SDL.Video.Renderers.Makers;

------------------------------------------------------------------------------ -- -- -- 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. ------------------------------------------------------------------------------ -- LinearGradient is a kind of gradient that fills a graphical element by -- smoothly changing color values along a vector. ------------------------------------------------------------------------------ with AMF.DG.Gradients; package AMF.DG.Linear_Gradients is pragma Preelaborate; type DG_Linear_Gradient is limited interface and AMF.DG.Gradients.DG_Gradient; type DG_Linear_Gradient_Access is access all DG_Linear_Gradient'Class; for DG_Linear_Gradient_Access'Storage_Size use 0; not overriding function Get_X1 (Self : not null access constant DG_Linear_Gradient) return AMF.Real is abstract; -- Getter of LinearGradient::x1. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's width that is the x start point of the gradient. not overriding procedure Set_X1 (Self : not null access DG_Linear_Gradient; To : AMF.Real) is abstract; -- Setter of LinearGradient::x1. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's width that is the x start point of the gradient. not overriding function Get_X2 (Self : not null access constant DG_Linear_Gradient) return AMF.Real is abstract; -- Getter of LinearGradient::x2. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's width that is the x end point of the gradient. not overriding procedure Set_X2 (Self : not null access DG_Linear_Gradient; To : AMF.Real) is abstract; -- Setter of LinearGradient::x2. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's width that is the x end point of the gradient. not overriding function Get_Y1 (Self : not null access constant DG_Linear_Gradient) return AMF.Real is abstract; -- Getter of LinearGradient::y1. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's height that is the y start point of the gradient. not overriding procedure Set_Y1 (Self : not null access DG_Linear_Gradient; To : AMF.Real) is abstract; -- Setter of LinearGradient::y1. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's height that is the y start point of the gradient. not overriding function Get_Y2 (Self : not null access constant DG_Linear_Gradient) return AMF.Real is abstract; -- Getter of LinearGradient::y2. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's height that is the y end point of the gradient. not overriding procedure Set_Y2 (Self : not null access DG_Linear_Gradient; To : AMF.Real) is abstract; -- Setter of LinearGradient::y2. -- -- a real number (>=0 and >=1) representing a ratio of the graphical -- element's height that is the y end point of the gradient. end AMF.DG.Linear_Gradients;

----------------------------------------------------------------------------- -- -- -- GNAT RUNTIME COMPONENTS -- -- -- -- A D A . C H A R A C T E R S . H A N D L I N G -- -- -- -- S p e c -- -- -- -- $Revision: 2 $ -- -- -- -- This specification is adapted from the Ada Reference Manual for use with -- -- GNAT. In accordance with the copyright of that document, you can freely -- -- copy and modify this specification, provided that if you redistribute a -- -- modified version, any changes that you have made are clearly indicated. -- -- -- ------------------------------------------------------------------------------ package Ada.Characters.Handling is pragma Preelaborate (Handling); ---------------------------------------- -- Character Classification Functions -- ---------------------------------------- function Is_Control (Item : in Character) return Boolean; function Is_Graphic (Item : in Character) return Boolean; function Is_Letter (Item : in Character) return Boolean; function Is_Lower (Item : in Character) return Boolean; function Is_Upper (Item : in Character) return Boolean; function Is_Basic (Item : in Character) return Boolean; function Is_Digit (Item : in Character) return Boolean; function Is_Decimal_Digit (Item : in Character) return Boolean renames Is_Digit; function Is_Hexadecimal_Digit (Item : in Character) return Boolean; function Is_Alphanumeric (Item : in Character) return Boolean; function Is_Special (Item : in Character) return Boolean; --------------------------------------------------- -- Conversion Functions for Character and String -- --------------------------------------------------- function To_Lower (Item : in Character) return Character; function To_Upper (Item : in Character) return Character; function To_Basic (Item : in Character) return Character; function To_Lower (Item : in String) return String; function To_Upper (Item : in String) return String; function To_Basic (Item : in String) return String; ---------------------------------------------------------------------- -- Classifications of and Conversions Between Character and ISO 646 -- ---------------------------------------------------------------------- subtype ISO_646 is Character range Character'Val (0) .. Character'Val (127); function Is_ISO_646 (Item : in Character) return Boolean; function Is_ISO_646 (Item : in String) return Boolean; function To_ISO_646 (Item : in Character; Substitute : in ISO_646 := ' ') return ISO_646; function To_ISO_646 (Item : in String; Substitute : in ISO_646 := ' ') return String; ------------------------------------------------------ -- Classifications of Wide_Character and Characters -- ------------------------------------------------------ function Is_Character (Item : in Wide_Character) return Boolean; function Is_String (Item : in Wide_String) return Boolean; ------------------------------------------------------ -- Conversions between Wide_Character and Character -- ------------------------------------------------------ function To_Character (Item : in Wide_Character; Substitute : in Character := ' ') return Character; function To_String (Item : in Wide_String; Substitute : in Character := ' ') return String; function To_Wide_Character (Item : in Character) return Wide_Character; function To_Wide_String (Item : in String) return Wide_String; private pragma Inline (Is_Control); pragma Inline (Is_Graphic); pragma Inline (Is_Letter); pragma Inline (Is_Lower); pragma Inline (Is_Upper); pragma Inline (Is_Basic); pragma Inline (Is_Digit); pragma Inline (Is_Hexadecimal_Digit); pragma Inline (Is_Alphanumeric); pragma Inline (Is_Special); pragma Inline (To_Lower); pragma Inline (To_Upper); pragma Inline (To_Basic); pragma Inline (Is_ISO_646); pragma Inline (Is_Character); pragma Inline (To_Character); pragma Inline (To_Wide_Character); end Ada.Characters.Handling;

with Ada.Assertions; use Ada.Assertions; with Rejuvenation.String_Utils; use Rejuvenation.String_Utils; with Rejuvenation.Utils; use Rejuvenation.Utils; package body Predefined_Rewriters is -- Localize Ada Nodes in defining files Standard_Unit_Filename : constant String := "__standard"; -- libadalang uses the standard unit for the standard type function Is_In_Standard_Unit (Node : Ada_Node'Class) return Boolean; function Is_In_Standard_Unit (Node : Ada_Node'Class) return Boolean is begin return Ends_With (Node.Unit.Get_Filename, Standard_Unit_Filename); end Is_In_Standard_Unit; function Is_In_AStrUnb (Node : Ada_Node'Class) return Boolean; function Is_In_AStrUnb (Node : Ada_Node'Class) return Boolean is begin return Ends_With (Node.Unit.Get_Filename, "\adainclude\a-strunb.ads"); end Is_In_AStrUnb; -- Is Standard Ada Type checks function Is_Standard_Type_Expression (Match : Match_Pattern; Placeholder_Name, Standard_Type_Name : String) return Boolean; function Is_Standard_Type_Expression (Match : Match_Pattern; Placeholder_Name, Standard_Type_Name : String) return Boolean is T : constant Base_Type_Decl := Get_Expression_Type (Match, Placeholder_Name); begin Assert (Check => not T.Is_Null, Message => "Is_Standard_Type_Expression - " & "Unexpectedly Base Type Decl is null"); return Raw_Signature (T.F_Name) = Standard_Type_Name and then Is_In_Standard_Unit (T); end Is_Standard_Type_Expression; function Is_Boolean_Expression (Match : Match_Pattern; Placeholder_Name : String) return Boolean is (Is_Standard_Type_Expression (Match, Placeholder_Name, "Boolean")); function Is_Integer_Expression (Match : Match_Pattern; Placeholder_Name : String) return Boolean is (Is_Standard_Type_Expression (Match, Placeholder_Name, "Integer")); function Is_Float_Expression (Match : Match_Pattern; Placeholder_Name : String) return Boolean is (Is_Standard_Type_Expression (Match, Placeholder_Name, "Float")); function Is_String_Expression (Match : Match_Pattern; Placeholder_Name : String) return Boolean is (Is_Standard_Type_Expression (Match, Placeholder_Name, "String")); function Is_Unbounded_String (Match : Match_Pattern; Placeholder_Name : String) return Boolean is T : constant Base_Type_Decl := Get_Expression_Type (Match, Placeholder_Name); begin return Raw_Signature (T.F_Name) = "Unbounded_String" and then Is_In_AStrUnb (T); end Is_Unbounded_String; -- For each function call, the function with the given name -- and type of arguments is matched. -- However the found function depends on the particular import relations, -- so we need to check if the defining file is right -- even when the name and types are checked! function Is_Referenced_Decl_Defined_In_AStrUnb (N : Name) return Boolean is Decl : constant Basic_Decl := N.P_Referenced_Decl; begin Assert (Check => not Decl.Is_Null, Message => "Is_Referenced_Decl_Defined_In_AStrUnb - " & "Unexpectedly Decl is null"); return Is_In_AStrUnb (Decl); end Is_Referenced_Decl_Defined_In_AStrUnb; end Predefined_Rewriters;

-- This spec has been automatically generated from STM32F072x.svd pragma Restrictions (No_Elaboration_Code); pragma Ada_2012; pragma Style_Checks (Off); with System; package STM32_SVD.IWDG is pragma Preelaborate; --------------- -- Registers -- --------------- subtype KR_KEY_Field is STM32_SVD.UInt16; -- Key register type KR_Register is record -- Write-only. Key value KEY : KR_KEY_Field := 16#0#; -- unspecified Reserved_16_31 : STM32_SVD.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for KR_Register use record KEY at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; subtype PR_PR_Field is STM32_SVD.UInt3; -- Prescaler register type PR_Register is record -- Prescaler divider PR : PR_PR_Field := 16#0#; -- unspecified Reserved_3_31 : STM32_SVD.UInt29 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PR_Register use record PR at 0 range 0 .. 2; Reserved_3_31 at 0 range 3 .. 31; end record; subtype RLR_RL_Field is STM32_SVD.UInt12; -- Reload register type RLR_Register is record -- Watchdog counter reload value RL : RLR_RL_Field := 16#FFF#; -- unspecified Reserved_12_31 : STM32_SVD.UInt20 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for RLR_Register use record RL at 0 range 0 .. 11; Reserved_12_31 at 0 range 12 .. 31; end record; subtype SR_PVU_Field is STM32_SVD.Bit; subtype SR_RVU_Field is STM32_SVD.Bit; subtype SR_WVU_Field is STM32_SVD.Bit; -- Status register type SR_Register is record -- Read-only. Watchdog prescaler value update PVU : SR_PVU_Field; -- Read-only. Watchdog counter reload value update RVU : SR_RVU_Field; -- Read-only. Watchdog counter window value update WVU : SR_WVU_Field; -- unspecified Reserved_3_31 : STM32_SVD.UInt29; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for SR_Register use record PVU at 0 range 0 .. 0; RVU at 0 range 1 .. 1; WVU at 0 range 2 .. 2; Reserved_3_31 at 0 range 3 .. 31; end record; subtype WINR_WIN_Field is STM32_SVD.UInt12; -- Window register type WINR_Register is record -- Watchdog counter window value WIN : WINR_WIN_Field := 16#FFF#; -- unspecified Reserved_12_31 : STM32_SVD.UInt20 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for WINR_Register use record WIN at 0 range 0 .. 11; Reserved_12_31 at 0 range 12 .. 31; end record; ----------------- -- Peripherals -- ----------------- -- Independent watchdog type IWDG_Peripheral is record -- Key register KR : aliased KR_Register; -- Prescaler register PR : aliased PR_Register; -- Reload register RLR : aliased RLR_Register; -- Status register SR : aliased SR_Register; -- Window register WINR : aliased WINR_Register; end record with Volatile; for IWDG_Peripheral use record KR at 16#0# range 0 .. 31; PR at 16#4# range 0 .. 31; RLR at 16#8# range 0 .. 31; SR at 16#C# range 0 .. 31; WINR at 16#10# range 0 .. 31; end record; -- Independent watchdog IWDG_Periph : aliased IWDG_Peripheral with Import, Address => System'To_Address (16#40003000#); end STM32_SVD.IWDG;

-- { dg-do compile } -- { dg-options "-O2" } package Opt28 is function Full_Filename (Filename : String) return String; end Opt28;

-- ----------------------------------------------------------------- -- -- -- -- This 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 software 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. -- -- -- -- ----------------------------------------------------------------- -- -- ----------------------------------------------------------------- -- -- This is a translation, to the Ada programming language, of the -- -- original C test files written by Sam Lantinga - www.libsdl.org -- -- translation made by Antonio F. Vargas - www.adapower.net/~avargas -- -- ----------------------------------------------------------------- -- with System.OS_Interface; with Interfaces.C.Strings; with Ada.Text_IO; use Ada.Text_IO; with GNAT.OS_Lib; with SDL.Thread; with SDL.Error; with SDL.Quit; with Lib_C; with TortureThread_Sprogs; use TortureThread_Sprogs; procedure TortureThread is package C renames Interfaces.C; use type C.int; package CS renames Interfaces.C.Strings; package Tr renames SDL.Thread; use type Tr.SDL_Thread_ptr; package Er renames SDL.Error; type threads_Array is array (C.int range 0 .. NUMTHREADS - 1) of Tr.SDL_Thread_ptr; pragma Convention (C, threads_Array); threads : threads_Array; begin -- Load the SDL library if SDL.Init(0) < 0 then Put_Line ("Couldn't initialize SDL: " & Er.Get_Error); GNAT.OS_Lib.OS_Exit (1); end if; SDL.Quit.atexit (SDL.SDL_Quit'Access); Lib_C.Set_Signal (System.OS_Interface.SIGSEGV, null); for i in threads'Range loop time_for_threads_to_die (i) := 0; threads (i) := Tr.CreateThread (ThreadFunc'Access, To_Address (i)); if threads (i) = Tr.null_SDL_Thread_ptr then Put_Line ("Couldn't create thread: " & Er.Get_Error); GNAT.OS_Lib.OS_Exit (1); end if; end loop; for i in time_for_threads_to_die'Range loop time_for_threads_to_die (i) := 1; end loop; for i in reverse threads'Range loop Tr.WaitThread (threads (i), null); end loop; GNAT.OS_Lib.OS_Exit (0); -- Never reached end TortureThread;

------------------------------------------------------------------------------ -- -- -- Matreshka Project -- -- -- -- Localization, Internationalization, Globalization for Ada -- -- -- -- Runtime Library Component -- -- -- ------------------------------------------------------------------------------ -- -- -- Copyright © 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 Ada.Directories; with Ada.Streams.Stream_IO; with League.Stream_Element_Vectors.Internals; with League.Text_Codecs; with Matreshka.Internals.Stream_Element_Vectors; with Matreshka.Internals.Unicode.Characters.Latin; package body Matreshka.Internals.Settings.Ini_Files is use Ada.Streams; use League.Stream_Element_Vectors; use League.Strings; use Matreshka.Internals.Unicode; use Matreshka.Internals.Unicode.Characters.Latin; package Section_Maps is new Ada.Containers.Hashed_Maps (League.Strings.Universal_String, Maps.Map, League.Strings.Hash, League.Strings."=", Maps."="); -- This map is used to group key/value pairs in sections for serialization. Line_Delimiter : constant Stream_Element_Array := (0 => Line_Feed); -- Line_Delimiter : constant Stream_Element_Array -- := (0 => Carriage_Return, 1 => Line_Feed); -- Operating system dependent delimiter of lines in the text file. function To_Locale_String (Item : League.Strings.Universal_String) return String; -- Converts Universal_String to locale 8-bit string to use as file name for -- standard Ada library subprograms. procedure Load (Self : in out Ini_File_Settings'Class); -- Loads data from the file. procedure Parse (Self : in out Ini_File_Settings'Class; Data : League.Stream_Element_Vectors.Stream_Element_Vector); -- Parses data. function Serialize (Self : Ini_File_Settings) return League.Stream_Element_Vectors.Stream_Element_Vector; -- Serializes data. function Decode_Key (Data : Ada.Streams.Stream_Element_Array) return League.Strings.Universal_String; -- Decodes key representation in the file into Universal_String. function Decode_Value (Data : Ada.Streams.Stream_Element_Array) return League.Strings.Universal_String renames Decode_Key; -- Decodes value representation in the file into Universal_String. function Encode_Key (Key : League.Strings.Universal_String) return League.Stream_Element_Vectors.Stream_Element_Vector; -- Encodes key to representation in the file. function Encode_Value (Key : League.Strings.Universal_String) return League.Stream_Element_Vectors.Stream_Element_Vector renames Encode_Key; -- Encodes value to representation in the file. function From_Hex (Image : Ada.Streams.Stream_Element_Array) return Matreshka.Internals.Unicode.Code_Unit_32; -- Constructs Unicode code point from hexadecimal image. Returns -- Code_Unit_32'Last when conversion failed. -------------- -- Contains -- -------------- overriding function Contains (Self : Ini_File_Settings; Key : League.Strings.Universal_String) return Boolean is begin return Self.Values.Contains (Key); end Contains; ------------ -- Create -- ------------ function Create (Manager : not null access Abstract_Manager'Class; File_Name : League.Strings.Universal_String) return not null Settings_Access is begin return Aux : constant not null Settings_Access := new Ini_File_Settings' (Counter => <>, Manager => Manager, File_Name => File_Name, Modified => False, Values => Maps.Empty_Map) do declare Self : Ini_File_Settings'Class renames Ini_File_Settings'Class (Aux.all); begin Self.Load; end; end return; end Create; ---------------- -- Decode_Key -- ---------------- function Decode_Key (Data : Ada.Streams.Stream_Element_Array) return League.Strings.Universal_String is Key : League.Strings.Universal_String; Index : Stream_Element_Offset := Data'First; Code : Code_Unit_32; begin while Index <= Data'Last loop Code := Code_Unit_32'Last; if Data (Index) = Percent_Sign then if Data (Index + 1) = Latin_Capital_Letter_U then -- Unicode long format. if Index + 7 <= Data'Last then Code := From_Hex (Data (Index + 2 .. Index + 7)); end if; Index := Index + 8; elsif Data (Index + 1) = Latin_Small_Letter_U then -- Unicode short format. if Index + 5 <= Data'Last then Code := From_Hex (Data (Index + 2 .. Index + 5)); end if; Index := Index + 6; else -- Two digits format. if Index + 2 <= Data'Last then Code := From_Hex (Data (Index + 1 .. Index + 2)); end if; Index := Index + 3; end if; else Code := Code_Unit_32 (Data (Index)); Index := Index + 1; end if; if Is_Valid (Code) then Key.Append (Wide_Wide_Character'Val (Code)); end if; end loop; return Key; end Decode_Key; ---------------- -- Encode_Key -- ---------------- function Encode_Key (Key : League.Strings.Universal_String) return League.Stream_Element_Vectors.Stream_Element_Vector is Aux : Stream_Element_Vector; Code : Code_Point; To_Hex : constant array (Code_Unit_32 range 0 .. 15) of Stream_Element := (Digit_Zero, Digit_One, Digit_Two, Digit_Three, Digit_Four, Digit_Five, Digit_Six, Digit_Seven, Digit_Eight, Digit_Nine, Latin_Capital_Letter_A, Latin_Capital_Letter_B, Latin_Capital_Letter_C, Latin_Capital_Letter_D, Latin_Capital_Letter_E, Latin_Capital_Letter_F); begin for J in 1 .. Key.Length loop Code := Wide_Wide_Character'Pos (Key.Element (J).To_Wide_Wide_Character); if Code in Space .. Tilde then Aux.Append (Stream_Element (Code)); elsif Code <= 16#FF# then -- Two digits format. Aux.Append (Percent_Sign); Aux.Append (To_Hex ((Code / 16) mod 16)); Aux.Append (To_Hex (Code mod 16)); elsif Code <= 16#FFFF# then -- Short Unicode form. Aux.Append (Percent_Sign); Aux.Append (Latin_Small_Letter_U); Aux.Append (To_Hex ((Code / 4096) mod 16)); Aux.Append (To_Hex ((Code / 256) mod 16)); Aux.Append (To_Hex ((Code / 16) mod 16)); Aux.Append (To_Hex (Code mod 16)); else -- Long Unicode form. Aux.Append (Percent_Sign); Aux.Append (Latin_Capital_Letter_U); Aux.Append (To_Hex ((Code / 1048576) mod 16)); Aux.Append (To_Hex ((Code / 65536) mod 16)); Aux.Append (To_Hex ((Code / 4096) mod 16)); Aux.Append (To_Hex ((Code / 256) mod 16)); Aux.Append (To_Hex ((Code / 16) mod 16)); Aux.Append (To_Hex (Code mod 16)); end if; end loop; return Aux; end Encode_Key; -------------- -- Finalize -- -------------- overriding procedure Finalize (Self : not null access Ini_File_Settings) is begin Self.Sync; end Finalize; -------------- -- From_Hex -- -------------- function From_Hex (Image : Ada.Streams.Stream_Element_Array) return Matreshka.Internals.Unicode.Code_Unit_32 is Code : Code_Unit_32 := 0; Index : Stream_Element_Offset := Image'First; begin while Index <= Image'Last loop Code := Code * 16; if Image (Index) in Digit_Zero .. Digit_Nine then Code := Code + Code_Unit_32 (Image (Index)) - Digit_Zero; elsif Image (Index) in Latin_Capital_Letter_A .. Latin_Capital_Letter_F then Code := Code + Code_Unit_32 (Image (Index)) - Latin_Capital_Letter_A + 10; elsif Image (Index) in Latin_Small_Letter_A .. Latin_Small_Letter_F then Code := Code + Code_Unit_32 (Image (Index)) - Latin_Small_Letter_A + 10; else return Code_Unit_32'Last; end if; if Code not in Code_Point then return Code_Unit_32'Last; end if; Index := Index + 1; end loop; return Code; end From_Hex; ---------- -- Load -- ---------- procedure Load (Self : in out Ini_File_Settings'Class) is use Ada.Streams.Stream_IO; File : File_Type; Buffer : Stream_Element_Array (1 .. 1024); Data : Stream_Element_Vector; Last : Stream_Element_Offset; begin if Ada.Directories.Exists (To_Locale_String (Self.File_Name)) then -- Load content of the file. Open (File, In_File, To_Locale_String (Self.File_Name)); loop Read (File, Buffer, Last); exit when Last < Buffer'First; Data.Append (Buffer (Buffer'First .. Last)); end loop; Close (File); -- Parse. Self.Parse (Data); end if; end Load; ---------- -- Name -- ---------- overriding function Name (Self : not null access Ini_File_Settings) return League.Strings.Universal_String is begin return Self.File_Name; end Name; ----------- -- Parse -- ----------- procedure Parse (Self : in out Ini_File_Settings'Class; Data : League.Stream_Element_Vectors.Stream_Element_Vector) is use Matreshka.Internals.Stream_Element_Vectors; procedure Parse_Line; -- Determine boundary of the next line. Buffer : constant Shared_Stream_Element_Vector_Access := League.Stream_Element_Vectors.Internals.Internal (Data); Line_First : Stream_Element_Offset; Line_Last : Stream_Element_Offset; Equal_Index : Stream_Element_Offset; Key_Last : Stream_Element_Offset; Value_First : Stream_Element_Offset; Current_Section : Universal_String; Key : Universal_String; ---------------- -- Parse_Line -- ---------------- procedure Parse_Line is begin Line_First := Line_Last + 1; -- Skip leading whitespaces. while Line_First < Buffer.Length loop exit when Buffer.Value (Line_First) /= Space and Buffer.Value (Line_First) /= Character_Tabulation and Buffer.Value (Line_First) /= Carriage_Return and Buffer.Value (Line_First) /= Line_Feed; Line_First := Line_First + 1; end loop; Line_Last := Line_First; Equal_Index := Line_First - 1; -- Scan line. while Line_Last < Buffer.Length loop -- Exit when end of line is reached. exit when Buffer.Value (Line_Last) = Carriage_Return or Buffer.Value (Line_Last) = Line_Feed; -- Save position of first occurrence of equal sign. if Buffer.Value (Line_Last) = Equals_Sign and Equal_Index < Line_First then Equal_Index := Line_Last; end if; Line_Last := Line_Last + 1; end loop; Line_Last := Line_Last - 1; -- Remove trailing whitespaces. loop exit when Buffer.Value (Line_Last) /= Character_Tabulation and Buffer.Value (Line_Last) /= Space; Line_Last := Line_Last - 1; end loop; -- Determine key and value boundary. if Equal_Index >= Line_First then Key_Last := Equal_Index - 1; while Key_Last >= Line_First loop exit when Buffer.Value (Key_Last) /= Character_Tabulation and Buffer.Value (Key_Last) /= Space; Key_Last := Key_Last - 1; end loop; Value_First := Equal_Index + 1; while Value_First <= Line_Last loop exit when Buffer.Value (Value_First) /= Character_Tabulation and Buffer.Value (Value_First) /= Space; Value_First := Value_First + 1; end loop; end if; end Parse_Line; begin Line_Last := -1; loop Parse_Line; exit when Line_Last < Line_First; if Buffer.Value (Line_First) = Semicolon then -- This is a comment line. null; elsif Buffer.Value (Line_First) = Left_Square_Bracket then -- Section. Line_First := Line_First + 1; if Buffer.Value (Line_Last) = Right_Square_Bracket then Key_Last := Line_Last - 1; else Key_Last := Line_Last; end if; -- Strip leading whitespaces. while Line_First <= Key_Last loop exit when Buffer.Value (Line_First) /= Character_Tabulation and Buffer.Value (Line_First) /= Space; Line_First := Line_First + 1; end loop; -- Strip trailing whitespaces. while Key_Last >= Line_First loop exit when Buffer.Value (Key_Last) /= Character_Tabulation and Buffer.Value (Key_Last) /= Space; Key_Last := Key_Last - 1; end loop; Current_Section := Decode_Key (Buffer.Value (Line_First .. Key_Last)); elsif Equal_Index >= Line_First then -- Key/value pair. Key := Current_Section; if not Key.Is_Empty then Key.Append ('/'); end if; Key.Append (Decode_Key (Buffer.Value (Line_First .. Key_Last))); if not Self.Values.Contains (Key) then Self.Values.Insert (Key, To_Stream_Element_Vector (Buffer.Value (Value_First .. Line_Last))); end if; else -- Incorrect line. null; end if; end loop; end Parse; ------------ -- Remove -- ------------ overriding procedure Remove (Self : in out Ini_File_Settings; Key : League.Strings.Universal_String) is begin if Self.Values.Contains (Key) then Self.Values.Delete (Key); Self.Modified := True; end if; end Remove; --------------- -- Serialize -- --------------- function Serialize (Self : Ini_File_Settings) return League.Stream_Element_Vectors.Stream_Element_Vector is procedure Group_Pair (Position : Maps.Cursor); -- Add pair into sections map. procedure Serialize_Section (Position : Section_Maps.Cursor); -- Serialize specified section and its key/value pairs. procedure Serialize_Pair (Position : Maps.Cursor); -- Serialize specified key/value pair. Aux : League.Stream_Element_Vectors.Stream_Element_Vector; Sections : Section_Maps.Map; ---------------- -- Group_Pair -- ---------------- procedure Group_Pair (Position : Maps.Cursor) is procedure Insert_Pair (Section_Key : Universal_String; Section_Values : in out Maps.Map); -- Insert current key/value pair into the specified section. It -- removes first component of key name. Key : constant Universal_String := Maps.Key (Position); Value : constant Stream_Element_Vector := Maps.Element (Position); Index : constant Natural := Key.Index ('/'); Section_Position : Section_Maps.Cursor; ----------------- -- Insert_Pair -- ----------------- procedure Insert_Pair (Section_Key : Universal_String; Section_Values : in out Maps.Map) is begin if Index = 0 then Section_Values.Insert (Key, Value); else Section_Values.Insert (Key.Slice (Index + 1, Key.Length), Value); end if; end Insert_Pair; begin if Index = 0 then Section_Position := Sections.Find (Empty_Universal_String); if not Section_Maps.Has_Element (Section_Position) then Sections.Insert (Empty_Universal_String, Maps.Empty_Map); Section_Position := Sections.Find (Empty_Universal_String); end if; else Section_Position := Sections.Find (Key.Slice (1, Index - 1)); if not Section_Maps.Has_Element (Section_Position) then Sections.Insert (Key.Slice (1, Index - 1), Maps.Empty_Map); Section_Position := Sections.Find (Key.Slice (1, Index - 1)); end if; end if; Sections.Update_Element (Section_Position, Insert_Pair'Access); end Group_Pair; -------------------- -- Serialize_Pair -- -------------------- procedure Serialize_Pair (Position : Maps.Cursor) is Key : constant Universal_String := Maps.Key (Position); Value : constant Stream_Element_Vector := Maps.Element (Position); begin Aux.Append (Encode_Key (Key)); Aux.Append (Equals_Sign); Aux.Append (Value); Aux.Append (Line_Delimiter); end Serialize_Pair; ----------------------- -- Serialize_Section -- ----------------------- procedure Serialize_Section (Position : Section_Maps.Cursor) is Section : constant Universal_String := Section_Maps.Key (Position); Values : constant Maps.Map := Section_Maps.Element (Position); begin Aux.Append (Left_Square_Bracket); Aux.Append (Encode_Key (Section)); Aux.Append (Right_Square_Bracket); Aux.Append (Line_Delimiter); Values.Iterate (Serialize_Pair'Access); Aux.Append (Line_Delimiter); end Serialize_Section; begin -- Group key/value pair into sections. Self.Values.Iterate (Group_Pair'Access); -- Serialize sections and their key/value pairs. Sections.Iterate (Serialize_Section'Access); return Aux; end Serialize; --------------- -- Set_Value -- --------------- overriding procedure Set_Value (Self : in out Ini_File_Settings; Key : League.Strings.Universal_String; Value : League.Holders.Holder) is begin Self.Modified := True; Self.Values.Include (Key, Encode_Value (League.Holders.Element (Value))); end Set_Value; ---------- -- Sync -- ---------- overriding procedure Sync (Self : in out Ini_File_Settings) is use Ada.Streams.Stream_IO; use League.Stream_Element_Vectors.Internals; Name : constant String := To_Locale_String (Self.File_Name); File : File_Type; Data : Stream_Element_Vector; begin if Self.Modified then -- Serialize data. Data := Serialize (Self); -- Creates directory when necessary. Ada.Directories.Create_Path (Ada.Directories.Containing_Directory (Name)); -- Writes data into file. Create (File, Out_File, Name); Write (File, Internal (Data).Value (0 .. Internal (Data).Length - 1)); Close (File); Self.Modified := False; end if; end Sync; ---------------------- -- To_Locale_String -- ---------------------- function To_Locale_String (Item : League.Strings.Universal_String) return String is Aux : constant Stream_Element_Array := League.Text_Codecs.Codec_For_Application_Locale.Encode (Item).To_Stream_Element_Array; Str : String (1 .. Aux'Length); for Str'Address use Aux'Address; pragma Import (Ada, Str); begin return Str; end To_Locale_String; ----------- -- Value -- ----------- overriding function Value (Self : Ini_File_Settings; Key : League.Strings.Universal_String) return League.Holders.Holder is begin if Self.Values.Contains (Key) then return League.Holders.To_Holder (Decode_Value (Self.Values.Element (Key).To_Stream_Element_Array)); else return League.Holders.Empty_Holder; end if; end Value; end Matreshka.Internals.Settings.Ini_Files;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . W I D E _ T E X T _ I O . I N T E G E R _ A U X -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2006, 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 Ada.Wide_Text_IO.Generic_Aux; use Ada.Wide_Text_IO.Generic_Aux; with System.Img_BIU; use System.Img_BIU; with System.Img_Int; use System.Img_Int; with System.Img_LLB; use System.Img_LLB; with System.Img_LLI; use System.Img_LLI; with System.Img_LLW; use System.Img_LLW; with System.Img_WIU; use System.Img_WIU; with System.Val_Int; use System.Val_Int; with System.Val_LLI; use System.Val_LLI; package body Ada.Wide_Text_IO.Integer_Aux is ----------------------- -- Local Subprograms -- ----------------------- procedure Load_Integer (File : File_Type; Buf : out String; Ptr : in out Natural); -- This is an auxiliary routine that is used to load an possibly signed -- integer literal value from the input file into Buf, starting at Ptr + 1. -- On return, Ptr is set to the last character stored. ------------- -- Get_Int -- ------------- procedure Get_Int (File : File_Type; Item : out Integer; Width : Field) is Buf : String (1 .. Field'Last); Ptr : aliased Integer := 1; Stop : Integer := 0; begin if Width /= 0 then Load_Width (File, Width, Buf, Stop); String_Skip (Buf, Ptr); else Load_Integer (File, Buf, Stop); end if; Item := Scan_Integer (Buf, Ptr'Access, Stop); Check_End_Of_Field (Buf, Stop, Ptr, Width); end Get_Int; ------------- -- Get_LLI -- ------------- procedure Get_LLI (File : File_Type; Item : out Long_Long_Integer; Width : Field) is Buf : String (1 .. Field'Last); Ptr : aliased Integer := 1; Stop : Integer := 0; begin if Width /= 0 then Load_Width (File, Width, Buf, Stop); String_Skip (Buf, Ptr); else Load_Integer (File, Buf, Stop); end if; Item := Scan_Long_Long_Integer (Buf, Ptr'Access, Stop); Check_End_Of_Field (Buf, Stop, Ptr, Width); end Get_LLI; -------------- -- Gets_Int -- -------------- procedure Gets_Int (From : String; Item : out Integer; Last : out Positive) is Pos : aliased Integer; begin String_Skip (From, Pos); Item := Scan_Integer (From, Pos'Access, From'Last); Last := Pos - 1; exception when Constraint_Error => raise Data_Error; end Gets_Int; -------------- -- Gets_LLI -- -------------- procedure Gets_LLI (From : String; Item : out Long_Long_Integer; Last : out Positive) is Pos : aliased Integer; begin String_Skip (From, Pos); Item := Scan_Long_Long_Integer (From, Pos'Access, From'Last); Last := Pos - 1; exception when Constraint_Error => raise Data_Error; end Gets_LLI; ------------------ -- Load_Integer -- ------------------ procedure Load_Integer (File : File_Type; Buf : out String; Ptr : in out Natural) is Hash_Loc : Natural; Loaded : Boolean; begin Load_Skip (File); Load (File, Buf, Ptr, '+', '-'); Load_Digits (File, Buf, Ptr, Loaded); if Loaded then Load (File, Buf, Ptr, '#', ':', Loaded); if Loaded then Hash_Loc := Ptr; Load_Extended_Digits (File, Buf, Ptr); Load (File, Buf, Ptr, Buf (Hash_Loc)); end if; Load (File, Buf, Ptr, 'E', 'e', Loaded); if Loaded then -- Note: it is strange to allow a minus sign, since the syntax -- does not, but that is what ACVC test CE3704F, case (6) wants. Load (File, Buf, Ptr, '+', '-'); Load_Digits (File, Buf, Ptr); end if; end if; end Load_Integer; ------------- -- Put_Int -- ------------- procedure Put_Int (File : File_Type; Item : Integer; Width : Field; Base : Number_Base) is Buf : String (1 .. Field'Last); Ptr : Natural := 0; begin if Base = 10 and then Width = 0 then Set_Image_Integer (Item, Buf, Ptr); elsif Base = 10 then Set_Image_Width_Integer (Item, Width, Buf, Ptr); else Set_Image_Based_Integer (Item, Base, Width, Buf, Ptr); end if; Put_Item (File, Buf (1 .. Ptr)); end Put_Int; ------------- -- Put_LLI -- ------------- procedure Put_LLI (File : File_Type; Item : Long_Long_Integer; Width : Field; Base : Number_Base) is Buf : String (1 .. Field'Last); Ptr : Natural := 0; begin if Base = 10 and then Width = 0 then Set_Image_Long_Long_Integer (Item, Buf, Ptr); elsif Base = 10 then Set_Image_Width_Long_Long_Integer (Item, Width, Buf, Ptr); else Set_Image_Based_Long_Long_Integer (Item, Base, Width, Buf, Ptr); end if; Put_Item (File, Buf (1 .. Ptr)); end Put_LLI; -------------- -- Puts_Int -- -------------- procedure Puts_Int (To : out String; Item : Integer; Base : Number_Base) is Buf : String (1 .. Field'Last); Ptr : Natural := 0; begin if Base = 10 then Set_Image_Width_Integer (Item, To'Length, Buf, Ptr); else Set_Image_Based_Integer (Item, Base, To'Length, Buf, Ptr); end if; if Ptr > To'Length then raise Layout_Error; else To (To'First .. To'First + Ptr - 1) := Buf (1 .. Ptr); end if; end Puts_Int; -------------- -- Puts_LLI -- -------------- procedure Puts_LLI (To : out String; Item : Long_Long_Integer; Base : Number_Base) is Buf : String (1 .. Field'Last); Ptr : Natural := 0; begin if Base = 10 then Set_Image_Width_Long_Long_Integer (Item, To'Length, Buf, Ptr); else Set_Image_Based_Long_Long_Integer (Item, Base, To'Length, Buf, Ptr); end if; if Ptr > To'Length then raise Layout_Error; else To (To'First .. To'First + Ptr - 1) := Buf (1 .. Ptr); end if; end Puts_LLI; end Ada.Wide_Text_IO.Integer_Aux;

-- This spec has been automatically generated from STM32L4x2.svd pragma Restrictions (No_Elaboration_Code); pragma Ada_2012; pragma Style_Checks (Off); with HAL; with System; package STM32_SVD.PWR is pragma Preelaborate; --------------- -- Registers -- --------------- subtype CR1_LPMS_Field is HAL.UInt3; subtype CR1_VOS_Field is HAL.UInt2; -- Power control register 1 type CR1_Register is record -- Low-power mode selection LPMS : CR1_LPMS_Field := 16#0#; -- unspecified Reserved_3_7 : HAL.UInt5 := 16#0#; -- Disable backup domain write protection DBP : Boolean := False; -- Voltage scaling range selection VOS : CR1_VOS_Field := 16#1#; -- unspecified Reserved_11_13 : HAL.UInt3 := 16#0#; -- Low-power run LPR : Boolean := False; -- unspecified Reserved_15_31 : HAL.UInt17 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for CR1_Register use record LPMS at 0 range 0 .. 2; Reserved_3_7 at 0 range 3 .. 7; DBP at 0 range 8 .. 8; VOS at 0 range 9 .. 10; Reserved_11_13 at 0 range 11 .. 13; LPR at 0 range 14 .. 14; Reserved_15_31 at 0 range 15 .. 31; end record; subtype CR2_PLS_Field is HAL.UInt3; -- CR2_PVME array type CR2_PVME_Field_Array is array (1 .. 4) of Boolean with Component_Size => 1, Size => 4; -- Type definition for CR2_PVME type CR2_PVME_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PVME as a value Val : HAL.UInt4; when True => -- PVME as an array Arr : CR2_PVME_Field_Array; end case; end record with Unchecked_Union, Size => 4; for CR2_PVME_Field use record Val at 0 range 0 .. 3; Arr at 0 range 0 .. 3; end record; -- Power control register 2 type CR2_Register is record -- Power voltage detector enable PVDE : Boolean := False; -- Power voltage detector level selection PLS : CR2_PLS_Field := 16#0#; -- Peripheral voltage monitoring 1 enable: VDDUSB vs. 1.2V PVME : CR2_PVME_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_8_8 : HAL.Bit := 16#0#; -- VDDIO2 Independent I/Os supply valid IOSV : Boolean := False; -- VDDUSB USB supply valid USV : Boolean := False; -- unspecified Reserved_11_31 : HAL.UInt21 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for CR2_Register use record PVDE at 0 range 0 .. 0; PLS at 0 range 1 .. 3; PVME at 0 range 4 .. 7; Reserved_8_8 at 0 range 8 .. 8; IOSV at 0 range 9 .. 9; USV at 0 range 10 .. 10; Reserved_11_31 at 0 range 11 .. 31; end record; -- CR3_EWUP array type CR3_EWUP_Field_Array is array (1 .. 5) of Boolean with Component_Size => 1, Size => 5; -- Type definition for CR3_EWUP type CR3_EWUP_Field (As_Array : Boolean := False) is record case As_Array is when False => -- EWUP as a value Val : HAL.UInt5; when True => -- EWUP as an array Arr : CR3_EWUP_Field_Array; end case; end record with Unchecked_Union, Size => 5; for CR3_EWUP_Field use record Val at 0 range 0 .. 4; Arr at 0 range 0 .. 4; end record; -- Power control register 3 type CR3_Register is record -- Enable Wakeup pin WKUP1 EWUP : CR3_EWUP_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_5_7 : HAL.UInt3 := 16#0#; -- SRAM2 retention in Standby mode RRS : Boolean := False; -- unspecified Reserved_9_9 : HAL.Bit := 16#0#; -- Apply pull-up and pull-down configuration APC : Boolean := False; -- unspecified Reserved_11_14 : HAL.UInt4 := 16#0#; -- Enable internal wakeup line EWF : Boolean := True; -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for CR3_Register use record EWUP at 0 range 0 .. 4; Reserved_5_7 at 0 range 5 .. 7; RRS at 0 range 8 .. 8; Reserved_9_9 at 0 range 9 .. 9; APC at 0 range 10 .. 10; Reserved_11_14 at 0 range 11 .. 14; EWF at 0 range 15 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- CR4_WP array type CR4_WP_Field_Array is array (1 .. 5) of Boolean with Component_Size => 1, Size => 5; -- Type definition for CR4_WP type CR4_WP_Field (As_Array : Boolean := False) is record case As_Array is when False => -- WP as a value Val : HAL.UInt5; when True => -- WP as an array Arr : CR4_WP_Field_Array; end case; end record with Unchecked_Union, Size => 5; for CR4_WP_Field use record Val at 0 range 0 .. 4; Arr at 0 range 0 .. 4; end record; -- Power control register 4 type CR4_Register is record -- Wakeup pin WKUP1 polarity WP : CR4_WP_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_5_7 : HAL.UInt3 := 16#0#; -- VBAT battery charging enable VBE : Boolean := False; -- VBAT battery charging resistor selection VBRS : Boolean := False; -- unspecified Reserved_10_31 : HAL.UInt22 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for CR4_Register use record WP at 0 range 0 .. 4; Reserved_5_7 at 0 range 5 .. 7; VBE at 0 range 8 .. 8; VBRS at 0 range 9 .. 9; Reserved_10_31 at 0 range 10 .. 31; end record; -- SR1_CWUF array type SR1_CWUF_Field_Array is array (1 .. 5) of Boolean with Component_Size => 1, Size => 5; -- Type definition for SR1_CWUF type SR1_CWUF_Field (As_Array : Boolean := False) is record case As_Array is when False => -- CWUF as a value Val : HAL.UInt5; when True => -- CWUF as an array Arr : SR1_CWUF_Field_Array; end case; end record with Unchecked_Union, Size => 5; for SR1_CWUF_Field use record Val at 0 range 0 .. 4; Arr at 0 range 0 .. 4; end record; -- Power status register 1 type SR1_Register is record -- Read-only. Wakeup flag 1 CWUF : SR1_CWUF_Field; -- unspecified Reserved_5_7 : HAL.UInt3; -- Read-only. Standby flag CSBF : Boolean; -- unspecified Reserved_9_14 : HAL.UInt6; -- Read-only. Wakeup flag internal WUFI : Boolean; -- unspecified Reserved_16_31 : HAL.UInt16; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for SR1_Register use record CWUF at 0 range 0 .. 4; Reserved_5_7 at 0 range 5 .. 7; CSBF at 0 range 8 .. 8; Reserved_9_14 at 0 range 9 .. 14; WUFI at 0 range 15 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- SR2_PVMO array type SR2_PVMO_Field_Array is array (1 .. 4) of Boolean with Component_Size => 1, Size => 4; -- Type definition for SR2_PVMO type SR2_PVMO_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PVMO as a value Val : HAL.UInt4; when True => -- PVMO as an array Arr : SR2_PVMO_Field_Array; end case; end record with Unchecked_Union, Size => 4; for SR2_PVMO_Field use record Val at 0 range 0 .. 3; Arr at 0 range 0 .. 3; end record; -- Power status register 2 type SR2_Register is record -- unspecified Reserved_0_7 : HAL.UInt8; -- Read-only. Low-power regulator started REGLPS : Boolean; -- Read-only. Low-power regulator flag REGLPF : Boolean; -- Read-only. Voltage scaling flag VOSF : Boolean; -- Read-only. Power voltage detector output PVDO : Boolean; -- Read-only. Peripheral voltage monitoring output: VDDUSB vs. 1.2 V PVMO : SR2_PVMO_Field; -- unspecified Reserved_16_31 : HAL.UInt16; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for SR2_Register use record Reserved_0_7 at 0 range 0 .. 7; REGLPS at 0 range 8 .. 8; REGLPF at 0 range 9 .. 9; VOSF at 0 range 10 .. 10; PVDO at 0 range 11 .. 11; PVMO at 0 range 12 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- SCR_WUF array type SCR_WUF_Field_Array is array (1 .. 5) of Boolean with Component_Size => 1, Size => 5; -- Type definition for SCR_WUF type SCR_WUF_Field (As_Array : Boolean := False) is record case As_Array is when False => -- WUF as a value Val : HAL.UInt5; when True => -- WUF as an array Arr : SCR_WUF_Field_Array; end case; end record with Unchecked_Union, Size => 5; for SCR_WUF_Field use record Val at 0 range 0 .. 4; Arr at 0 range 0 .. 4; end record; -- Power status clear register type SCR_Register is record -- Write-only. Clear wakeup flag 1 WUF : SCR_WUF_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_5_7 : HAL.UInt3 := 16#0#; -- Write-only. Clear standby flag SBF : Boolean := False; -- unspecified Reserved_9_31 : HAL.UInt23 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for SCR_Register use record WUF at 0 range 0 .. 4; Reserved_5_7 at 0 range 5 .. 7; SBF at 0 range 8 .. 8; Reserved_9_31 at 0 range 9 .. 31; end record; -- PUCRA_PU array type PUCRA_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRA_PU type PUCRA_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRA_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRA_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port A pull-up control register type PUCRA_Register is record -- Port A pull-up bit y (y=0..15) PU : PUCRA_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRA_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRA_PD array type PDCRA_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRA_PD type PDCRA_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRA_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRA_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port A pull-down control register type PDCRA_Register is record -- Port A pull-down bit y (y=0..15) PD : PDCRA_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRA_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRB_PU array type PUCRB_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRB_PU type PUCRB_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRB_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRB_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port B pull-up control register type PUCRB_Register is record -- Port B pull-up bit y (y=0..15) PU : PUCRB_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRB_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRB_PD array type PDCRB_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRB_PD type PDCRB_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRB_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRB_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port B pull-down control register type PDCRB_Register is record -- Port B pull-down bit y (y=0..15) PD : PDCRB_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRB_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRC_PU array type PUCRC_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRC_PU type PUCRC_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRC_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRC_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port C pull-up control register type PUCRC_Register is record -- Port C pull-up bit y (y=0..15) PU : PUCRC_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRC_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRC_PD array type PDCRC_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRC_PD type PDCRC_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRC_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRC_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port C pull-down control register type PDCRC_Register is record -- Port C pull-down bit y (y=0..15) PD : PDCRC_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRC_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRD_PU array type PUCRD_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRD_PU type PUCRD_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRD_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRD_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port D pull-up control register type PUCRD_Register is record -- Port D pull-up bit y (y=0..15) PU : PUCRD_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRD_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRD_PD array type PDCRD_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRD_PD type PDCRD_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRD_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRD_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port D pull-down control register type PDCRD_Register is record -- Port D pull-down bit y (y=0..15) PD : PDCRD_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRD_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRE_PU array type PUCRE_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRE_PU type PUCRE_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRE_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRE_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port E pull-up control register type PUCRE_Register is record -- Port E pull-up bit y (y=0..15) PU : PUCRE_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRE_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRE_PD array type PDCRE_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRE_PD type PDCRE_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRE_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRE_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port E pull-down control register type PDCRE_Register is record -- Port E pull-down bit y (y=0..15) PD : PDCRE_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRE_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRF_PU array type PUCRF_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRF_PU type PUCRF_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRF_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRF_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port F pull-up control register type PUCRF_Register is record -- Port F pull-up bit y (y=0..15) PU : PUCRF_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRF_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRF_PD array type PDCRF_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRF_PD type PDCRF_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRF_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRF_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port F pull-down control register type PDCRF_Register is record -- Port F pull-down bit y (y=0..15) PD : PDCRF_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRF_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRG_PU array type PUCRG_PU_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PUCRG_PU type PUCRG_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt16; when True => -- PU as an array Arr : PUCRG_PU_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PUCRG_PU_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port G pull-up control register type PUCRG_Register is record -- Port G pull-up bit y (y=0..15) PU : PUCRG_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRG_Register use record PU at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PDCRG_PD array type PDCRG_PD_Field_Array is array (0 .. 15) of Boolean with Component_Size => 1, Size => 16; -- Type definition for PDCRG_PD type PDCRG_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt16; when True => -- PD as an array Arr : PDCRG_PD_Field_Array; end case; end record with Unchecked_Union, Size => 16; for PDCRG_PD_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- Power Port G pull-down control register type PDCRG_Register is record -- Port G pull-down bit y (y=0..15) PD : PDCRG_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.UInt16 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRG_Register use record PD at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -- PUCRH_PU array type PUCRH_PU_Field_Array is array (0 .. 1) of Boolean with Component_Size => 1, Size => 2; -- Type definition for PUCRH_PU type PUCRH_PU_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PU as a value Val : HAL.UInt2; when True => -- PU as an array Arr : PUCRH_PU_Field_Array; end case; end record with Unchecked_Union, Size => 2; for PUCRH_PU_Field use record Val at 0 range 0 .. 1; Arr at 0 range 0 .. 1; end record; -- Power Port H pull-up control register type PUCRH_Register is record -- Port H pull-up bit y (y=0..1) PU : PUCRH_PU_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_2_31 : HAL.UInt30 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PUCRH_Register use record PU at 0 range 0 .. 1; Reserved_2_31 at 0 range 2 .. 31; end record; -- PDCRH_PD array type PDCRH_PD_Field_Array is array (0 .. 1) of Boolean with Component_Size => 1, Size => 2; -- Type definition for PDCRH_PD type PDCRH_PD_Field (As_Array : Boolean := False) is record case As_Array is when False => -- PD as a value Val : HAL.UInt2; when True => -- PD as an array Arr : PDCRH_PD_Field_Array; end case; end record with Unchecked_Union, Size => 2; for PDCRH_PD_Field use record Val at 0 range 0 .. 1; Arr at 0 range 0 .. 1; end record; -- Power Port H pull-down control register type PDCRH_Register is record -- Port H pull-down bit y (y=0..1) PD : PDCRH_PD_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_2_31 : HAL.UInt30 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PDCRH_Register use record PD at 0 range 0 .. 1; Reserved_2_31 at 0 range 2 .. 31; end record; ----------------- -- Peripherals -- ----------------- -- Power control type PWR_Peripheral is record -- Power control register 1 CR1 : aliased CR1_Register; -- Power control register 2 CR2 : aliased CR2_Register; -- Power control register 3 CR3 : aliased CR3_Register; -- Power control register 4 CR4 : aliased CR4_Register; -- Power status register 1 SR1 : aliased SR1_Register; -- Power status register 2 SR2 : aliased SR2_Register; -- Power status clear register SCR : aliased SCR_Register; -- Power Port A pull-up control register PUCRA : aliased PUCRA_Register; -- Power Port A pull-down control register PDCRA : aliased PDCRA_Register; -- Power Port B pull-up control register PUCRB : aliased PUCRB_Register; -- Power Port B pull-down control register PDCRB : aliased PDCRB_Register; -- Power Port C pull-up control register PUCRC : aliased PUCRC_Register; -- Power Port C pull-down control register PDCRC : aliased PDCRC_Register; -- Power Port D pull-up control register PUCRD : aliased PUCRD_Register; -- Power Port D pull-down control register PDCRD : aliased PDCRD_Register; -- Power Port E pull-up control register PUCRE : aliased PUCRE_Register; -- Power Port E pull-down control register PDCRE : aliased PDCRE_Register; -- Power Port F pull-up control register PUCRF : aliased PUCRF_Register; -- Power Port F pull-down control register PDCRF : aliased PDCRF_Register; -- Power Port G pull-up control register PUCRG : aliased PUCRG_Register; -- Power Port G pull-down control register PDCRG : aliased PDCRG_Register; -- Power Port H pull-up control register PUCRH : aliased PUCRH_Register; -- Power Port H pull-down control register PDCRH : aliased PDCRH_Register; end record with Volatile; for PWR_Peripheral use record CR1 at 16#0# range 0 .. 31; CR2 at 16#4# range 0 .. 31; CR3 at 16#8# range 0 .. 31; CR4 at 16#C# range 0 .. 31; SR1 at 16#10# range 0 .. 31; SR2 at 16#14# range 0 .. 31; SCR at 16#18# range 0 .. 31; PUCRA at 16#20# range 0 .. 31; PDCRA at 16#24# range 0 .. 31; PUCRB at 16#28# range 0 .. 31; PDCRB at 16#2C# range 0 .. 31; PUCRC at 16#30# range 0 .. 31; PDCRC at 16#34# range 0 .. 31; PUCRD at 16#38# range 0 .. 31; PDCRD at 16#3C# range 0 .. 31; PUCRE at 16#40# range 0 .. 31; PDCRE at 16#44# range 0 .. 31; PUCRF at 16#48# range 0 .. 31; PDCRF at 16#4C# range 0 .. 31; PUCRG at 16#50# range 0 .. 31; PDCRG at 16#54# range 0 .. 31; PUCRH at 16#58# range 0 .. 31; PDCRH at 16#5C# range 0 .. 31; end record; -- Power control PWR_Periph : aliased PWR_Peripheral with Import, Address => System'To_Address (16#40007000#); end STM32_SVD.PWR;

-------------------------------------------------------- -- E n c o d i n g s -- -- -- -- Tools for convertion strings between Unicode and -- -- national/vendor character sets. -- -- - - - - - - - - - -- -- Read copyright and license at the end of this file -- -------------------------------------------------------- package body Encodings.Classes is function Get_Class (Object : in Coder; C : in Wide_Character) return Character_Class; pragma Inline (Get_Class); ------------ -- Decode -- ------------ procedure Decode (Text : in Raw_String; Text_Last : out Natural; Result : out Wide_String; Result_Last : out Natural; Classes : out Character_Classes; Object : in out Coder) is Index : Cache_Index; X : Positive; begin Decode (Text, Text_Last, Result, Result_Last, Object.Map); if Object.Map = UTF_8 then for J in Result'First .. Result_Last loop Index := Wide_Character'Pos (Result (J)) mod Cache_Index'Last + 1; if Object.Wide (Index) = Result (J) and Object.Cache (Index) /= Unknown then Classes (J) := Object.Cache (Index); else Classes (J) := Get_Class (Object, Result (J)); Object.Cache (Index) := Classes (J); Object.Wide (Index) := Result (J); if Classes (J) = Unknown then Object.Prefix := Result (J); else Object.Prefix := ' '; end if; end if; end loop; else X := Result'First; for J in Text'First .. Text_Last loop if Object.Classes (Text (J)) /= Unknown then Classes (X) := Object.Classes (Text (J)); else Classes (X) := Get_Class (Object, Result (X)); Object.Classes (Text (J)) := Classes (X); if Classes (X) = Unknown then Object.Prefix := Result (X); else Object.Prefix := ' '; end if; end if; X := X + 1; end loop; end if; end Decode; --------------- -- Get_Class -- --------------- function Get_Class (Object : in Coder; C : in Wide_Character) return Character_Class is begin if Object.Prefix = ' ' then return Get_Class ((1 => C)); else return Get_Class (Object.Prefix & C); end if; end Get_Class; end Encodings.Classes; ------------------------------------------------------------------------------ -- Copyright (c) 2006-2013, Maxim Reznik -- 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 Maxim Reznik, 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 OWNER 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. ------------------------------------------------------------------------------

----------------------------------------------------------------------- -- el-contexts-tests - Tests the EL contexts -- 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. ----------------------------------------------------------------------- with Util.Tests; package EL.Contexts.Tests is procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite); type Test is new Util.Tests.Test with null record; procedure Test_Context_Properties (T : in out Test); end EL.Contexts.Tests;

------------------------------------------------------------------------------- -- This file is part of libsparkcrypto. -- -- Copyright (C) 2010, Alexander Senier -- Copyright (C) 2010, secunet Security Networks AG -- 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 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. ------------------------------------------------------------------------------- with LSC.Internal.Types; use type LSC.Internal.Types.Word64; use type LSC.Internal.Types.Index; ------------------------------------------------------------------------------- -- Operations over 64-bit words ------------------------------------------------------------------------------- package LSC.Internal.Ops64 is pragma Pure; -- Perform XOR on two 64-bit words @V0@ and @V1@ function XOR2 (V0, V1 : Types.Word64) return Types.Word64 with Post => XOR2'Result = (V0 xor V1); pragma Inline (XOR2); -- Perform XOR on two arrays of 64-bit words -- -- @Left@ - First input array -- @Right@ - Second input array -- @Result@ - Result array procedure Block_XOR (Left : in Types.Word64_Array_Type; Right : in Types.Word64_Array_Type; Result : out Types.Word64_Array_Type) with Depends => (Result =>+ (Left, Right)), Pre => Left'First = Right'First and Left'Last = Right'Last and Right'First = Result'First and Right'Last = Result'Last, Post => (for all I in Types.Index range Left'First .. Left'Last => (Result (I) = XOR2 (Left (I), Right (I)))); pragma Inline (Block_XOR); -- Convert the eight byte values @Byte0@ .. @Byte7@ to a 64-bit word function Bytes_To_Word (Byte0 : Types.Byte; Byte1 : Types.Byte; Byte2 : Types.Byte; Byte3 : Types.Byte; Byte4 : Types.Byte; Byte5 : Types.Byte; Byte6 : Types.Byte; Byte7 : Types.Byte) return Types.Word64; pragma Inline (Bytes_To_Word); -- Copy all elements of @Source@ to @Dest@. Should @Source@ be shorter than -- @Dest@, remaining elements stay unchanged. procedure Block_Copy (Source : in Types.Word64_Array_Type; Dest : in out Types.Word64_Array_Type) with Depends => (Dest =>+ Source), Pre => Source'First = Dest'First and Source'Last <= Dest'Last, Post => (for all P in Types.Index range Source'First .. Source'Last => (Dest (P) = Source (P))); pragma Inline (Block_Copy); end LSC.Internal.Ops64;

function Factorial(N : Positive) return Positive is Result : Positive := 1; begin if N > 1 then Result := N * Factorial(N - 1); end if; return Result; end Factorial;

with gel.Window.setup, gel.Applet.gui_world, gel.Camera, gel.Mouse, gel.Sprite, gel.Events, gel.Forge, Physics, float_Math, lace.Response, lace.Event.utility, Ada.Calendar, Ada.Text_IO, Ada.Exceptions; pragma unreferenced (gel.Window.setup); procedure launch_mouse_Selection -- -- Places a sphere sprite in the world and registers an event repsonse to -- handle mouse clicks on the sprite. -- is use lace.Event.utility, ada.Text_IO; begin lace.Event.utility.use_text_Logger ("event.log"); lace.Event.utility.Logger.ignore (to_Kind (gel.Mouse.motion_Event'Tag)); declare use gel.Applet, ada.Calendar; the_Applet : constant gel.Applet.gui_world.view := gel.Forge.new_gui_Applet ("mouse Selection", space_Kind => physics.Bullet); the_Ball : constant gel.Sprite.view := gel.Forge.new_ball_Sprite (the_Applet.World (1), mass => 0.0); type retreat_Sprite is new lace.Response.item with record Sprite : gel.Sprite.view; end record; overriding procedure respond (Self : in out retreat_Sprite; to_Event : in lace.Event.Item'Class) is use float_Math; begin put_Line ("retreat_Sprite"); Self.Sprite.Site_is (self.Sprite.Site - the_Applet.gui_Camera.world_Rotation * (0.0, 0.0, 1.0)); end respond; retreat_Sprite_Response : aliased retreat_Sprite := (lace.Response.item with sprite => the_Ball); type advance_Sprite is new lace.Response.item with record Sprite : gel.Sprite.view; end record; overriding procedure respond (Self : in out advance_Sprite; to_Event : in lace.Event.Item'Class) is use float_Math; begin put_Line ("advance_Sprite"); Self.Sprite.Site_is (self.Sprite.Site + the_Applet.gui_Camera.world_Rotation * (0.0, 0.0, 1.0)); end respond; advance_Sprite_Response : aliased advance_Sprite := (lace.Response.Item with sprite => the_Ball); next_render_Time : ada.calendar.Time; begin the_Ball.add (advance_Sprite_Response'unchecked_access, to_Kind (gel.events.sprite_click_down_Event'Tag), the_Applet.Name); the_Ball.add (retreat_Sprite_Response'unchecked_access, to_Kind (gel.events.sprite_click_up_Event'Tag), the_Applet.Name); the_Applet.gui_world .add (the_Ball, and_Children => False); the_Applet.gui_Camera.Site_is ((0.0, 0.0, 5.0)); the_Applet.enable_simple_Dolly (in_World => 1); the_Applet.enable_Mouse (detect_Motion => False); next_render_Time := ada.calendar.Clock; while the_Applet.is_open loop the_Applet.gui_World.evolve (by => 1.0/60.0); the_Ball.respond; the_Applet.freshen; next_render_Time := next_render_Time + 1.0/60.0; delay until next_render_Time; end loop; the_Applet.destroy; end; lace.Event.utility.close; exception when E : others => lace.Event.utility.close; put_Line ("Exception detected in 'launch_mouse_Selection' ..."); put_Line (ada.Exceptions.Exception_Information (E)); end launch_mouse_Selection;

------------------------------------------------------------------------------ -- -- -- GNAT RUNTIME COMPONENTS -- -- -- -- S Y S T E M . G E N E R I C _ C _ M A T H _ I N T E R F A C E -- -- -- -- 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 is the Ada Cert Math specific version of s-gcmain.ads. -- @llrset s-gcmain.ads -- Generic C Math Interface -- ======================== -- Provide the elementary mathematical functions support library packages. -- This package is an implementation of the Ada elementary functions -- using the C math library. The C library is assumed to be conforming -- with ISO/IEC 9899:1999 (C99). In particular, all identities specified -- in chapter F.9 must hold. Furthermore, the accuracy of the various -- functions is assumed to be sufficient for the strict mode specified -- in Annex G of the Ada standard. -- For environments where this is not true, the generic Ada implementations -- should be used. These only require the standard arithmetic operations. -- Typically, the generic functions are imported from C as follows. -- For the C type "float": -- function Sin (X : Float) return Float; -- pragma Import (C, Sin, "sinf"); -- or for the C type "double": -- function Sin (X : Long_Float) return Long_Float; -- pragma Import (C, Sin, "sin"); -- or for the C type "long double": -- function Sin (X : Long_Long_Float) return Long_Long_Float -- pragma Import (C, Sin, "sinl"); generic type Float_Type is digits <>; with function C_Sqrt (X : Float_Type) return Float_Type is <>; with function C_Log (X : Float_Type) return Float_Type is <>; with function C_Exp (X : Float_Type) return Float_Type is <>; with function C_Pow (X, Y : Float_Type) return Float_Type is <>; with function C_Sin (X : Float_Type) return Float_Type is <>; with function C_Cos (X : Float_Type) return Float_Type is <>; with function C_Tan (X : Float_Type) return Float_Type is <>; with function C_Asin (X : Float_Type) return Float_Type is <>; with function C_Acos (X : Float_Type) return Float_Type is <>; with function C_Atan2 (Y, X : Float_Type) return Float_Type is <>; with function C_Sinh (X : Float_Type) return Float_Type is <>; with function C_Cosh (X : Float_Type) return Float_Type is <>; with function C_Tanh (X : Float_Type) return Float_Type is <>; with function C_Asinh (X : Float_Type) return Float_Type is <>; with function C_Acosh (X : Float_Type) return Float_Type is <>; with function C_Atanh (Y : Float_Type) return Float_Type is <>; package System.Generic_C_Math_Interface is pragma Pure (Generic_C_Math_Interface); -- pragma Assert (Float_Type'Signed_Zeros); -- Assertion fails on e500v2 targets pragma Assert (Float_Type'Machine_Radix = 2); function Sqrt (X : Float_Type'Base) return Float_Type'Base; -- @llr Sqrt (Float_Type) -- This function shall return the square root of <X> function Log (X : Float_Type'Base) return Float_Type'Base; -- @llr Log (Float_Type) -- This function shall return the logarithm of <X> function Log (X, Base : Float_Type'Base) return Float_Type'Base; -- @llr Log (Float_Type; Float_Type) -- This function shall compute the logarithm of <X> with the specified base function Exp (X : Float_Type'Base) return Float_Type'Base; -- @llr Exp (Float_Type) -- This function shall compute the exponent of <X> function "**" (Left, Right : Float_Type'Base) return Float_Type'Base; -- @llr "**" (Float_Type; Float_Type) -- This function shall compute <Left> to the power of <Right> function Sin (X : Float_Type'Base) return Float_Type'Base; -- @llr Sin (Float_Type) -- This function shall return the sine of <X> function Sin (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Sin (Float_Type; Float_Type) -- This function shall return the sine of <X> with the specified base function Cos (X : Float_Type'Base) return Float_Type'Base; -- @llr Cos (Float_Type) -- This function shall return the cosine of <X> function Cos (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Cos (Float_Type; Float_Type) -- This function shall return the cosine of <X> with the specified base function Tan (X : Float_Type'Base) return Float_Type'Base; -- @llr Tan (Float_Type) -- This function shall return the tangent of <X> function Tan (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Tan (Float_Type; Float_Type) -- This function shall return the tangent of <X> with the specified base function Cot (X : Float_Type'Base) return Float_Type'Base; -- @llr Cot (Float_Type) -- This function shall return the cotangent of <X> function Cot (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Cot (Float_Type; Float_Type) -- This function shall return the cotangent of <X> with the specified base function Arcsin (X : Float_Type'Base) return Float_Type'Base; -- @llr Arcsin (Float_Type) -- This function shall return the inverse sine of <X> function Arcsin (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Arcsin (Float_Type; Float_Type) -- This function shall return the inverse sine of <X> with the specified -- base function Arccos (X : Float_Type'Base) return Float_Type'Base; -- @llr Arccos (Float_Type) -- This function shall return the inverse cosine of <X> function Arccos (X, Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Arccos (Float_Type; Float_Type) -- This function shall return the inverse cosine of <X> with the specified -- base function Arctan (Y : Float_Type'Base; X : Float_Type'Base := 1.0) return Float_Type'Base; -- @llr Arctan (Float_Type; Float_Type) -- This function shall compute the principal value of the inverse tangent -- of <Y> / <X> function Arctan (Y : Float_Type'Base; X : Float_Type'Base := 1.0; Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Arctan (Float_Type; Float_Type; Float_Type) -- This function shall compute the principal value of the inverse tangent -- of <Y> / <X> with the specified base function Arccot (X : Float_Type'Base; Y : Float_Type'Base := 1.0) return Float_Type'Base; -- @llr Arccot (Float_Type; Float_Type) -- This function shall compute the principal value of the inverse cotangent -- of <Y> / <X> function Arccot (X : Float_Type'Base; Y : Float_Type'Base := 1.0; Cycle : Float_Type'Base) return Float_Type'Base; -- @llr Arccot (Float_Type; Float_Type; FLoat_Type) -- This function shall compute the principal value of the inverse cotangent -- of <Y> / <X> with the specified base function Sinh (X : Float_Type'Base) return Float_Type'Base; -- @llr Sinh (Float_Type) -- This function shall return the hyperbolic sine of <X> function Cosh (X : Float_Type'Base) return Float_Type'Base; -- @llr Cosh (Float_Type) -- This function shall return the hyperbolic cosine of <X> function Tanh (X : Float_Type'Base) return Float_Type'Base; -- @llr Tanh (Float_Type) -- This function shall return the hyperbolic tangent of <X> function Coth (X : Float_Type'Base) return Float_Type'Base; -- @llr Coth (Float_Type) -- This function shall return the hyperbolic cotangent of <X> function Arcsinh (X : Float_Type'Base) return Float_Type'Base; -- @llr Arcsinh (Float_Type) -- This function shall return the inverse hyperbolic sine of <X> function Arccosh (X : Float_Type'Base) return Float_Type'Base; -- @llr Arccosh (Float_Type) -- This function shall return the inverse hyperbolic cosine of <X> function Arctanh (X : Float_Type'Base) return Float_Type'Base; -- @llr Arctanh (Float_Type) -- This function shall return the inverse hyperbolic tangent of <X> function Arccoth (X : Float_Type'Base) return Float_Type'Base; -- @llr Arccoth (Float_Type) -- This function shall return the inverse hyperbolic cotangent of <X> end System.Generic_C_Math_Interface;

package Missile is type Missile_State is (ALIVE, TOUCHED, DEAD); type Missile is record State : Missile_State := DEAD; X : Integer; Y : Integer; Max_Y: Integer; Speed : Integer; end record; procedure appear_mis(s : in out Missile; X : Integer; Y : Integer; Max_Y : Integer) with Pre => Y /= Max_Y and s.State /= ALIVE, Post => s.State = ALIVE; procedure move_mis(s : in out Missile) with Pre => s.State /= DEAD; end Missile;

----------------------------------------------------------------------- -- util-log-appenders-consoles -- Console log appenders -- Copyright (C) 2001 - 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. ----------------------------------------------------------------------- -- Write log events to the console. package Util.Log.Appenders.Consoles is type Console_Appender (Length : Positive) is new Appender with private; type Console_Appender_Access is access all Console_Appender'Class; overriding procedure Append (Self : in out Console_Appender; Message : in Util.Strings.Builders.Builder; Date : in Ada.Calendar.Time; Level : in Level_Type; Logger : in String); -- Flush the log events. overriding procedure Flush (Self : in out Console_Appender); -- Create a console appender and configure it according to the properties function Create (Name : in String; Properties : in Util.Properties.Manager; Default : in Level_Type) return Appender_Access; private type Console_Appender (Length : Positive) is new Appender (Length) with record Stderr : Boolean := False; Prefix : Util.Properties.Value; end record; end Util.Log.Appenders.Consoles;

-- This file is generated by SWIG. Please do not modify by hand. -- with Interfaces.C; with Interfaces.C.Pointers; package xcb.Pointers is -- xcb_connection_t_Pointer -- package C_xcb_connection_t_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.xcb_connection_t, element_Array => xcb.xcb_connection_t_Array, default_Terminator => 0); subtype xcb_connection_t_Pointer is C_xcb_connection_t_Pointers.Pointer; -- xcb_connection_t_Pointer_Array -- type xcb_connection_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_connection_t_Pointer; -- xcb_special_event_t_Pointer -- package C_xcb_special_event_t_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.xcb_special_event_t, element_Array => xcb.xcb_special_event_t_Array, default_Terminator => 0); subtype xcb_special_event_t_Pointer is C_xcb_special_event_t_Pointers.Pointer; -- xcb_special_event_t_Pointer_Array -- type xcb_special_event_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_special_event_t_Pointer; -- xcb_window_t_Pointer -- package C_xcb_window_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_window_t, Element_Array => xcb.xcb_window_t_array, Default_Terminator => 0); subtype xcb_window_t_Pointer is C_xcb_window_t_Pointers.Pointer; -- xcb_window_t_Pointer_Array -- type xcb_window_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_window_t_Pointer; -- xcb_pixmap_t_Pointer -- package C_xcb_pixmap_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_pixmap_t, Element_Array => xcb.xcb_pixmap_t_array, Default_Terminator => 0); subtype xcb_pixmap_t_Pointer is C_xcb_pixmap_t_Pointers.Pointer; -- xcb_pixmap_t_Pointer_Array -- type xcb_pixmap_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_pixmap_t_Pointer; -- xcb_cursor_t_Pointer -- package C_xcb_cursor_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_cursor_t, Element_Array => xcb.xcb_cursor_t_array, Default_Terminator => 0); subtype xcb_cursor_t_Pointer is C_xcb_cursor_t_Pointers.Pointer; -- xcb_cursor_t_Pointer_Array -- type xcb_cursor_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_cursor_t_Pointer; -- xcb_font_t_Pointer -- package C_xcb_font_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_font_t, Element_Array => xcb.xcb_font_t_array, Default_Terminator => 0); subtype xcb_font_t_Pointer is C_xcb_font_t_Pointers.Pointer; -- xcb_font_t_Pointer_Array -- type xcb_font_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_font_t_Pointer; -- xcb_gcontext_t_Pointer -- package C_xcb_gcontext_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_gcontext_t, Element_Array => xcb.xcb_gcontext_t_array, Default_Terminator => 0); subtype xcb_gcontext_t_Pointer is C_xcb_gcontext_t_Pointers.Pointer; -- xcb_gcontext_t_Pointer_Array -- type xcb_gcontext_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_gcontext_t_Pointer; -- xcb_colormap_t_Pointer -- package C_xcb_colormap_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_colormap_t, Element_Array => xcb.xcb_colormap_t_array, Default_Terminator => 0); subtype xcb_colormap_t_Pointer is C_xcb_colormap_t_Pointers.Pointer; -- xcb_colormap_t_Pointer_Array -- type xcb_colormap_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_colormap_t_Pointer; -- xcb_atom_t_Pointer -- package C_xcb_atom_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_atom_t, Element_Array => xcb.xcb_atom_t_array, Default_Terminator => 0); subtype xcb_atom_t_Pointer is C_xcb_atom_t_Pointers.Pointer; -- xcb_atom_t_Pointer_Array -- type xcb_atom_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_atom_t_Pointer; -- xcb_drawable_t_Pointer -- package C_xcb_drawable_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_drawable_t, Element_Array => xcb.xcb_drawable_t_array, Default_Terminator => 0); subtype xcb_drawable_t_Pointer is C_xcb_drawable_t_Pointers.Pointer; -- xcb_drawable_t_Pointer_Array -- type xcb_drawable_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_drawable_t_Pointer; -- xcb_fontable_t_Pointer -- package C_xcb_fontable_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_fontable_t, Element_Array => xcb.xcb_fontable_t_array, Default_Terminator => 0); subtype xcb_fontable_t_Pointer is C_xcb_fontable_t_Pointers.Pointer; -- xcb_fontable_t_Pointer_Array -- type xcb_fontable_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_fontable_t_Pointer; -- xcb_bool32_t_Pointer -- package C_xcb_bool32_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_bool32_t, Element_Array => xcb.xcb_bool32_t_array, Default_Terminator => 0); subtype xcb_bool32_t_Pointer is C_xcb_bool32_t_Pointers.Pointer; -- xcb_bool32_t_Pointer_Array -- type xcb_bool32_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_bool32_t_Pointer; -- xcb_visualid_t_Pointer -- package C_xcb_visualid_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_visualid_t, Element_Array => xcb.xcb_visualid_t_array, Default_Terminator => 0); subtype xcb_visualid_t_Pointer is C_xcb_visualid_t_Pointers.Pointer; -- xcb_visualid_t_Pointer_Array -- type xcb_visualid_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_visualid_t_Pointer; -- xcb_timestamp_t_Pointer -- package C_xcb_timestamp_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_timestamp_t, Element_Array => xcb.xcb_timestamp_t_array, Default_Terminator => 0); subtype xcb_timestamp_t_Pointer is C_xcb_timestamp_t_Pointers.Pointer; -- xcb_timestamp_t_Pointer_Array -- type xcb_timestamp_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_timestamp_t_Pointer; -- xcb_keysym_t_Pointer -- package C_xcb_keysym_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_keysym_t, Element_Array => xcb.xcb_keysym_t_array, Default_Terminator => 0); subtype xcb_keysym_t_Pointer is C_xcb_keysym_t_Pointers.Pointer; -- xcb_keysym_t_Pointer_Array -- type xcb_keysym_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_keysym_t_Pointer; -- xcb_keycode_t_Pointer -- package C_xcb_keycode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_keycode_t, Element_Array => xcb.xcb_keycode_t_array, Default_Terminator => 0); subtype xcb_keycode_t_Pointer is C_xcb_keycode_t_Pointers.Pointer; -- xcb_keycode_t_Pointer_Array -- type xcb_keycode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_keycode_t_Pointer; -- xcb_keycode32_t_Pointer -- package C_xcb_keycode32_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_keycode32_t, Element_Array => xcb.xcb_keycode32_t_array, Default_Terminator => 0); subtype xcb_keycode32_t_Pointer is C_xcb_keycode32_t_Pointers.Pointer; -- xcb_keycode32_t_Pointer_Array -- type xcb_keycode32_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_keycode32_t_Pointer; -- xcb_button_t_Pointer -- package C_xcb_button_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_button_t, Element_Array => xcb.xcb_button_t_array, Default_Terminator => 0); subtype xcb_button_t_Pointer is C_xcb_button_t_Pointers.Pointer; -- xcb_button_t_Pointer_Array -- type xcb_button_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_button_t_Pointer; -- xcb_visual_class_t_Pointer -- package C_xcb_visual_class_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_visual_class_t, Element_Array => xcb.xcb_visual_class_t_array, Default_Terminator => xcb.xcb_visual_class_t'Val (0)); subtype xcb_visual_class_t_Pointer is C_xcb_visual_class_t_Pointers.Pointer; -- xcb_visual_class_t_Pointer_Array -- type xcb_visual_class_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_visual_class_t_Pointer; -- xcb_event_mask_t_Pointer -- package C_xcb_event_mask_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_event_mask_t, Element_Array => xcb.xcb_event_mask_t_array, Default_Terminator => xcb.xcb_event_mask_t'Val (0)); subtype xcb_event_mask_t_Pointer is C_xcb_event_mask_t_Pointers.Pointer; -- xcb_event_mask_t_Pointer_Array -- type xcb_event_mask_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_event_mask_t_Pointer; -- xcb_backing_store_t_Pointer -- package C_xcb_backing_store_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_backing_store_t, Element_Array => xcb.xcb_backing_store_t_array, Default_Terminator => xcb.xcb_backing_store_t'Val (0)); subtype xcb_backing_store_t_Pointer is C_xcb_backing_store_t_Pointers.Pointer; -- xcb_backing_store_t_Pointer_Array -- type xcb_backing_store_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_backing_store_t_Pointer; -- xcb_image_order_t_Pointer -- package C_xcb_image_order_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_image_order_t, Element_Array => xcb.xcb_image_order_t_array, Default_Terminator => xcb.xcb_image_order_t'Val (0)); subtype xcb_image_order_t_Pointer is C_xcb_image_order_t_Pointers.Pointer; -- xcb_image_order_t_Pointer_Array -- type xcb_image_order_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_image_order_t_Pointer; -- xcb_mod_mask_t_Pointer -- package C_xcb_mod_mask_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_mod_mask_t, Element_Array => xcb.xcb_mod_mask_t_array, Default_Terminator => xcb.xcb_mod_mask_t'Val (0)); subtype xcb_mod_mask_t_Pointer is C_xcb_mod_mask_t_Pointers.Pointer; -- xcb_mod_mask_t_Pointer_Array -- type xcb_mod_mask_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_mod_mask_t_Pointer; -- xcb_key_but_mask_t_Pointer -- package C_xcb_key_but_mask_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_key_but_mask_t, Element_Array => xcb.xcb_key_but_mask_t_array, Default_Terminator => xcb.xcb_key_but_mask_t'Val (0)); subtype xcb_key_but_mask_t_Pointer is C_xcb_key_but_mask_t_Pointers.Pointer; -- xcb_key_but_mask_t_Pointer_Array -- type xcb_key_but_mask_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_key_but_mask_t_Pointer; -- xcb_window_enum_t_Pointer -- package C_xcb_window_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_window_enum_t, Element_Array => xcb.xcb_window_enum_t_array, Default_Terminator => xcb.xcb_window_enum_t'Val (0)); subtype xcb_window_enum_t_Pointer is C_xcb_window_enum_t_Pointers.Pointer; -- xcb_window_enum_t_Pointer_Array -- type xcb_window_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_window_enum_t_Pointer; -- xcb_button_mask_t_Pointer -- package C_xcb_button_mask_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_button_mask_t, Element_Array => xcb.xcb_button_mask_t_array, Default_Terminator => xcb.xcb_button_mask_t'Val (0)); subtype xcb_button_mask_t_Pointer is C_xcb_button_mask_t_Pointers.Pointer; -- xcb_button_mask_t_Pointer_Array -- type xcb_button_mask_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_button_mask_t_Pointer; -- xcb_motion_t_Pointer -- package C_xcb_motion_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_motion_t, Element_Array => xcb.xcb_motion_t_array, Default_Terminator => xcb.xcb_motion_t'Val (0)); subtype xcb_motion_t_Pointer is C_xcb_motion_t_Pointers.Pointer; -- xcb_motion_t_Pointer_Array -- type xcb_motion_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_motion_t_Pointer; -- xcb_notify_detail_t_Pointer -- package C_xcb_notify_detail_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_notify_detail_t, Element_Array => xcb.xcb_notify_detail_t_array, Default_Terminator => xcb.xcb_notify_detail_t'Val (0)); subtype xcb_notify_detail_t_Pointer is C_xcb_notify_detail_t_Pointers.Pointer; -- xcb_notify_detail_t_Pointer_Array -- type xcb_notify_detail_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_notify_detail_t_Pointer; -- xcb_notify_mode_t_Pointer -- package C_xcb_notify_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_notify_mode_t, Element_Array => xcb.xcb_notify_mode_t_array, Default_Terminator => xcb.xcb_notify_mode_t'Val (0)); subtype xcb_notify_mode_t_Pointer is C_xcb_notify_mode_t_Pointers.Pointer; -- xcb_notify_mode_t_Pointer_Array -- type xcb_notify_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_notify_mode_t_Pointer; -- xcb_visibility_t_Pointer -- package C_xcb_visibility_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_visibility_t, Element_Array => xcb.xcb_visibility_t_array, Default_Terminator => xcb.xcb_visibility_t'Val (0)); subtype xcb_visibility_t_Pointer is C_xcb_visibility_t_Pointers.Pointer; -- xcb_visibility_t_Pointer_Array -- type xcb_visibility_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_visibility_t_Pointer; -- xcb_place_t_Pointer -- package C_xcb_place_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_place_t, Element_Array => xcb.xcb_place_t_array, Default_Terminator => xcb.xcb_place_t'Val (0)); subtype xcb_place_t_Pointer is C_xcb_place_t_Pointers.Pointer; -- xcb_place_t_Pointer_Array -- type xcb_place_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_place_t_Pointer; -- xcb_property_t_Pointer -- package C_xcb_property_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_property_t, Element_Array => xcb.xcb_property_t_array, Default_Terminator => xcb.xcb_property_t'Val (0)); subtype xcb_property_t_Pointer is C_xcb_property_t_Pointers.Pointer; -- xcb_property_t_Pointer_Array -- type xcb_property_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_property_t_Pointer; -- xcb_time_t_Pointer -- package C_xcb_time_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_time_t, Element_Array => xcb.xcb_time_t_array, Default_Terminator => xcb.xcb_time_t'Val (0)); subtype xcb_time_t_Pointer is C_xcb_time_t_Pointers.Pointer; -- xcb_time_t_Pointer_Array -- type xcb_time_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_time_t_Pointer; -- xcb_atom_enum_t_Pointer -- package C_xcb_atom_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_atom_enum_t, Element_Array => xcb.xcb_atom_enum_t_array, Default_Terminator => xcb.xcb_atom_enum_t'Val (0)); subtype xcb_atom_enum_t_Pointer is C_xcb_atom_enum_t_Pointers.Pointer; -- xcb_atom_enum_t_Pointer_Array -- type xcb_atom_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_atom_enum_t_Pointer; -- xcb_colormap_state_t_Pointer -- package C_xcb_colormap_state_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_colormap_state_t, Element_Array => xcb.xcb_colormap_state_t_array, Default_Terminator => xcb.xcb_colormap_state_t'Val (0)); subtype xcb_colormap_state_t_Pointer is C_xcb_colormap_state_t_Pointers.Pointer; -- xcb_colormap_state_t_Pointer_Array -- type xcb_colormap_state_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_colormap_state_t_Pointer; -- xcb_colormap_enum_t_Pointer -- package C_xcb_colormap_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_colormap_enum_t, Element_Array => xcb.xcb_colormap_enum_t_array, Default_Terminator => xcb.xcb_colormap_enum_t'Val (0)); subtype xcb_colormap_enum_t_Pointer is C_xcb_colormap_enum_t_Pointers.Pointer; -- xcb_colormap_enum_t_Pointer_Array -- type xcb_colormap_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_colormap_enum_t_Pointer; -- xcb_mapping_t_Pointer -- package C_xcb_mapping_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_mapping_t, Element_Array => xcb.xcb_mapping_t_array, Default_Terminator => xcb.xcb_mapping_t'Val (0)); subtype xcb_mapping_t_Pointer is C_xcb_mapping_t_Pointers.Pointer; -- xcb_mapping_t_Pointer_Array -- type xcb_mapping_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_mapping_t_Pointer; -- xcb_window_class_t_Pointer -- package C_xcb_window_class_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_window_class_t, Element_Array => xcb.xcb_window_class_t_array, Default_Terminator => xcb.xcb_window_class_t'Val (0)); subtype xcb_window_class_t_Pointer is C_xcb_window_class_t_Pointers.Pointer; -- xcb_window_class_t_Pointer_Array -- type xcb_window_class_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_window_class_t_Pointer; -- xcb_cw_t_Pointer -- package C_xcb_cw_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_cw_t, Element_Array => xcb.xcb_cw_t_array, Default_Terminator => xcb.xcb_cw_t'Val (0)); subtype xcb_cw_t_Pointer is C_xcb_cw_t_Pointers.Pointer; -- xcb_cw_t_Pointer_Array -- type xcb_cw_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.xcb_cw_t_Pointer; -- xcb_back_pixmap_t_Pointer -- package C_xcb_back_pixmap_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_back_pixmap_t, Element_Array => xcb.xcb_back_pixmap_t_array, Default_Terminator => xcb.xcb_back_pixmap_t'Val (0)); subtype xcb_back_pixmap_t_Pointer is C_xcb_back_pixmap_t_Pointers.Pointer; -- xcb_back_pixmap_t_Pointer_Array -- type xcb_back_pixmap_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_back_pixmap_t_Pointer; -- xcb_gravity_t_Pointer -- package C_xcb_gravity_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_gravity_t, Element_Array => xcb.xcb_gravity_t_array, Default_Terminator => xcb.xcb_gravity_t'Val (0)); subtype xcb_gravity_t_Pointer is C_xcb_gravity_t_Pointers.Pointer; -- xcb_gravity_t_Pointer_Array -- type xcb_gravity_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_gravity_t_Pointer; -- xcb_map_state_t_Pointer -- package C_xcb_map_state_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_map_state_t, Element_Array => xcb.xcb_map_state_t_array, Default_Terminator => xcb.xcb_map_state_t'Val (0)); subtype xcb_map_state_t_Pointer is C_xcb_map_state_t_Pointers.Pointer; -- xcb_map_state_t_Pointer_Array -- type xcb_map_state_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_map_state_t_Pointer; -- xcb_set_mode_t_Pointer -- package C_xcb_set_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_set_mode_t, Element_Array => xcb.xcb_set_mode_t_array, Default_Terminator => xcb.xcb_set_mode_t'Val (0)); subtype xcb_set_mode_t_Pointer is C_xcb_set_mode_t_Pointers.Pointer; -- xcb_set_mode_t_Pointer_Array -- type xcb_set_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_set_mode_t_Pointer; -- xcb_config_window_t_Pointer -- package C_xcb_config_window_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_config_window_t, Element_Array => xcb.xcb_config_window_t_array, Default_Terminator => xcb.xcb_config_window_t'Val (0)); subtype xcb_config_window_t_Pointer is C_xcb_config_window_t_Pointers.Pointer; -- xcb_config_window_t_Pointer_Array -- type xcb_config_window_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_config_window_t_Pointer; -- xcb_stack_mode_t_Pointer -- package C_xcb_stack_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_stack_mode_t, Element_Array => xcb.xcb_stack_mode_t_array, Default_Terminator => xcb.xcb_stack_mode_t'Val (0)); subtype xcb_stack_mode_t_Pointer is C_xcb_stack_mode_t_Pointers.Pointer; -- xcb_stack_mode_t_Pointer_Array -- type xcb_stack_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_stack_mode_t_Pointer; -- xcb_circulate_t_Pointer -- package C_xcb_circulate_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_circulate_t, Element_Array => xcb.xcb_circulate_t_array, Default_Terminator => xcb.xcb_circulate_t'Val (0)); subtype xcb_circulate_t_Pointer is C_xcb_circulate_t_Pointers.Pointer; -- xcb_circulate_t_Pointer_Array -- type xcb_circulate_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_circulate_t_Pointer; -- xcb_prop_mode_t_Pointer -- package C_xcb_prop_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_prop_mode_t, Element_Array => xcb.xcb_prop_mode_t_array, Default_Terminator => xcb.xcb_prop_mode_t'Val (0)); subtype xcb_prop_mode_t_Pointer is C_xcb_prop_mode_t_Pointers.Pointer; -- xcb_prop_mode_t_Pointer_Array -- type xcb_prop_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_prop_mode_t_Pointer; -- xcb_get_property_type_t_Pointer -- package C_xcb_get_property_type_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_get_property_type_t, Element_Array => xcb.xcb_get_property_type_t_array, Default_Terminator => xcb.xcb_get_property_type_t'Val (0)); subtype xcb_get_property_type_t_Pointer is C_xcb_get_property_type_t_Pointers.Pointer; -- xcb_get_property_type_t_Pointer_Array -- type xcb_get_property_type_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_get_property_type_t_Pointer; -- xcb_send_event_dest_t_Pointer -- package C_xcb_send_event_dest_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_send_event_dest_t, Element_Array => xcb.xcb_send_event_dest_t_array, Default_Terminator => xcb.xcb_send_event_dest_t'Val (0)); subtype xcb_send_event_dest_t_Pointer is C_xcb_send_event_dest_t_Pointers.Pointer; -- xcb_send_event_dest_t_Pointer_Array -- type xcb_send_event_dest_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_send_event_dest_t_Pointer; -- xcb_grab_mode_t_Pointer -- package C_xcb_grab_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_grab_mode_t, Element_Array => xcb.xcb_grab_mode_t_array, Default_Terminator => xcb.xcb_grab_mode_t'Val (0)); subtype xcb_grab_mode_t_Pointer is C_xcb_grab_mode_t_Pointers.Pointer; -- xcb_grab_mode_t_Pointer_Array -- type xcb_grab_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_grab_mode_t_Pointer; -- xcb_grab_status_t_Pointer -- package C_xcb_grab_status_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_grab_status_t, Element_Array => xcb.xcb_grab_status_t_array, Default_Terminator => xcb.xcb_grab_status_t'Val (0)); subtype xcb_grab_status_t_Pointer is C_xcb_grab_status_t_Pointers.Pointer; -- xcb_grab_status_t_Pointer_Array -- type xcb_grab_status_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_grab_status_t_Pointer; -- xcb_cursor_enum_t_Pointer -- package C_xcb_cursor_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_cursor_enum_t, Element_Array => xcb.xcb_cursor_enum_t_array, Default_Terminator => xcb.xcb_cursor_enum_t'Val (0)); subtype xcb_cursor_enum_t_Pointer is C_xcb_cursor_enum_t_Pointers.Pointer; -- xcb_cursor_enum_t_Pointer_Array -- type xcb_cursor_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_cursor_enum_t_Pointer; -- xcb_button_index_t_Pointer -- package C_xcb_button_index_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_button_index_t, Element_Array => xcb.xcb_button_index_t_array, Default_Terminator => xcb.xcb_button_index_t'Val (0)); subtype xcb_button_index_t_Pointer is C_xcb_button_index_t_Pointers.Pointer; -- xcb_button_index_t_Pointer_Array -- type xcb_button_index_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_button_index_t_Pointer; -- xcb_grab_t_Pointer -- package C_xcb_grab_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_grab_t, Element_Array => xcb.xcb_grab_t_array, Default_Terminator => xcb.xcb_grab_t'Val (0)); subtype xcb_grab_t_Pointer is C_xcb_grab_t_Pointers.Pointer; -- xcb_grab_t_Pointer_Array -- type xcb_grab_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_grab_t_Pointer; -- xcb_allow_t_Pointer -- package C_xcb_allow_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_allow_t, Element_Array => xcb.xcb_allow_t_array, Default_Terminator => xcb.xcb_allow_t'Val (0)); subtype xcb_allow_t_Pointer is C_xcb_allow_t_Pointers.Pointer; -- xcb_allow_t_Pointer_Array -- type xcb_allow_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_allow_t_Pointer; -- xcb_input_focus_t_Pointer -- package C_xcb_input_focus_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_input_focus_t, Element_Array => xcb.xcb_input_focus_t_array, Default_Terminator => xcb.xcb_input_focus_t'Val (0)); subtype xcb_input_focus_t_Pointer is C_xcb_input_focus_t_Pointers.Pointer; -- xcb_input_focus_t_Pointer_Array -- type xcb_input_focus_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_input_focus_t_Pointer; -- xcb_font_draw_t_Pointer -- package C_xcb_font_draw_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_font_draw_t, Element_Array => xcb.xcb_font_draw_t_array, Default_Terminator => xcb.xcb_font_draw_t'Val (0)); subtype xcb_font_draw_t_Pointer is C_xcb_font_draw_t_Pointers.Pointer; -- xcb_font_draw_t_Pointer_Array -- type xcb_font_draw_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_font_draw_t_Pointer; -- xcb_gc_t_Pointer -- package C_xcb_gc_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_gc_t, Element_Array => xcb.xcb_gc_t_array, Default_Terminator => xcb.xcb_gc_t'Val (0)); subtype xcb_gc_t_Pointer is C_xcb_gc_t_Pointers.Pointer; -- xcb_gc_t_Pointer_Array -- type xcb_gc_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.xcb_gc_t_Pointer; -- xcb_gx_t_Pointer -- package C_xcb_gx_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_gx_t, Element_Array => xcb.xcb_gx_t_array, Default_Terminator => xcb.xcb_gx_t'Val (0)); subtype xcb_gx_t_Pointer is C_xcb_gx_t_Pointers.Pointer; -- xcb_gx_t_Pointer_Array -- type xcb_gx_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.xcb_gx_t_Pointer; -- xcb_line_style_t_Pointer -- package C_xcb_line_style_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_line_style_t, Element_Array => xcb.xcb_line_style_t_array, Default_Terminator => xcb.xcb_line_style_t'Val (0)); subtype xcb_line_style_t_Pointer is C_xcb_line_style_t_Pointers.Pointer; -- xcb_line_style_t_Pointer_Array -- type xcb_line_style_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_line_style_t_Pointer; -- xcb_cap_style_t_Pointer -- package C_xcb_cap_style_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_cap_style_t, Element_Array => xcb.xcb_cap_style_t_array, Default_Terminator => xcb.xcb_cap_style_t'Val (0)); subtype xcb_cap_style_t_Pointer is C_xcb_cap_style_t_Pointers.Pointer; -- xcb_cap_style_t_Pointer_Array -- type xcb_cap_style_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_cap_style_t_Pointer; -- xcb_join_style_t_Pointer -- package C_xcb_join_style_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_join_style_t, Element_Array => xcb.xcb_join_style_t_array, Default_Terminator => xcb.xcb_join_style_t'Val (0)); subtype xcb_join_style_t_Pointer is C_xcb_join_style_t_Pointers.Pointer; -- xcb_join_style_t_Pointer_Array -- type xcb_join_style_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_join_style_t_Pointer; -- xcb_fill_style_t_Pointer -- package C_xcb_fill_style_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_fill_style_t, Element_Array => xcb.xcb_fill_style_t_array, Default_Terminator => xcb.xcb_fill_style_t'Val (0)); subtype xcb_fill_style_t_Pointer is C_xcb_fill_style_t_Pointers.Pointer; -- xcb_fill_style_t_Pointer_Array -- type xcb_fill_style_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_fill_style_t_Pointer; -- xcb_fill_rule_t_Pointer -- package C_xcb_fill_rule_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_fill_rule_t, Element_Array => xcb.xcb_fill_rule_t_array, Default_Terminator => xcb.xcb_fill_rule_t'Val (0)); subtype xcb_fill_rule_t_Pointer is C_xcb_fill_rule_t_Pointers.Pointer; -- xcb_fill_rule_t_Pointer_Array -- type xcb_fill_rule_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_fill_rule_t_Pointer; -- xcb_subwindow_mode_t_Pointer -- package C_xcb_subwindow_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_subwindow_mode_t, Element_Array => xcb.xcb_subwindow_mode_t_array, Default_Terminator => xcb.xcb_subwindow_mode_t'Val (0)); subtype xcb_subwindow_mode_t_Pointer is C_xcb_subwindow_mode_t_Pointers.Pointer; -- xcb_subwindow_mode_t_Pointer_Array -- type xcb_subwindow_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_subwindow_mode_t_Pointer; -- xcb_arc_mode_t_Pointer -- package C_xcb_arc_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_arc_mode_t, Element_Array => xcb.xcb_arc_mode_t_array, Default_Terminator => xcb.xcb_arc_mode_t'Val (0)); subtype xcb_arc_mode_t_Pointer is C_xcb_arc_mode_t_Pointers.Pointer; -- xcb_arc_mode_t_Pointer_Array -- type xcb_arc_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_arc_mode_t_Pointer; -- xcb_clip_ordering_t_Pointer -- package C_xcb_clip_ordering_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_clip_ordering_t, Element_Array => xcb.xcb_clip_ordering_t_array, Default_Terminator => xcb.xcb_clip_ordering_t'Val (0)); subtype xcb_clip_ordering_t_Pointer is C_xcb_clip_ordering_t_Pointers.Pointer; -- xcb_clip_ordering_t_Pointer_Array -- type xcb_clip_ordering_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_clip_ordering_t_Pointer; -- xcb_coord_mode_t_Pointer -- package C_xcb_coord_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_coord_mode_t, Element_Array => xcb.xcb_coord_mode_t_array, Default_Terminator => xcb.xcb_coord_mode_t'Val (0)); subtype xcb_coord_mode_t_Pointer is C_xcb_coord_mode_t_Pointers.Pointer; -- xcb_coord_mode_t_Pointer_Array -- type xcb_coord_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_coord_mode_t_Pointer; -- xcb_poly_shape_t_Pointer -- package C_xcb_poly_shape_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_poly_shape_t, Element_Array => xcb.xcb_poly_shape_t_array, Default_Terminator => xcb.xcb_poly_shape_t'Val (0)); subtype xcb_poly_shape_t_Pointer is C_xcb_poly_shape_t_Pointers.Pointer; -- xcb_poly_shape_t_Pointer_Array -- type xcb_poly_shape_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_poly_shape_t_Pointer; -- xcb_image_format_t_Pointer -- package C_xcb_image_format_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_image_format_t, Element_Array => xcb.xcb_image_format_t_array, Default_Terminator => xcb.xcb_image_format_t'Val (0)); subtype xcb_image_format_t_Pointer is C_xcb_image_format_t_Pointers.Pointer; -- xcb_image_format_t_Pointer_Array -- type xcb_image_format_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_image_format_t_Pointer; -- xcb_colormap_alloc_t_Pointer -- package C_xcb_colormap_alloc_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_colormap_alloc_t, Element_Array => xcb.xcb_colormap_alloc_t_array, Default_Terminator => xcb.xcb_colormap_alloc_t'Val (0)); subtype xcb_colormap_alloc_t_Pointer is C_xcb_colormap_alloc_t_Pointers.Pointer; -- xcb_colormap_alloc_t_Pointer_Array -- type xcb_colormap_alloc_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_colormap_alloc_t_Pointer; -- xcb_color_flag_t_Pointer -- package C_xcb_color_flag_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_color_flag_t, Element_Array => xcb.xcb_color_flag_t_array, Default_Terminator => xcb.xcb_color_flag_t'Val (0)); subtype xcb_color_flag_t_Pointer is C_xcb_color_flag_t_Pointers.Pointer; -- xcb_color_flag_t_Pointer_Array -- type xcb_color_flag_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_color_flag_t_Pointer; -- xcb_pixmap_enum_t_Pointer -- package C_xcb_pixmap_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_pixmap_enum_t, Element_Array => xcb.xcb_pixmap_enum_t_array, Default_Terminator => xcb.xcb_pixmap_enum_t'Val (0)); subtype xcb_pixmap_enum_t_Pointer is C_xcb_pixmap_enum_t_Pointers.Pointer; -- xcb_pixmap_enum_t_Pointer_Array -- type xcb_pixmap_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_pixmap_enum_t_Pointer; -- xcb_font_enum_t_Pointer -- package C_xcb_font_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_font_enum_t, Element_Array => xcb.xcb_font_enum_t_array, Default_Terminator => xcb.xcb_font_enum_t'Val (0)); subtype xcb_font_enum_t_Pointer is C_xcb_font_enum_t_Pointers.Pointer; -- xcb_font_enum_t_Pointer_Array -- type xcb_font_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_font_enum_t_Pointer; -- xcb_query_shape_of_t_Pointer -- package C_xcb_query_shape_of_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_query_shape_of_t, Element_Array => xcb.xcb_query_shape_of_t_array, Default_Terminator => xcb.xcb_query_shape_of_t'Val (0)); subtype xcb_query_shape_of_t_Pointer is C_xcb_query_shape_of_t_Pointers.Pointer; -- xcb_query_shape_of_t_Pointer_Array -- type xcb_query_shape_of_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_query_shape_of_t_Pointer; -- xcb_kb_t_Pointer -- package C_xcb_kb_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_kb_t, Element_Array => xcb.xcb_kb_t_array, Default_Terminator => xcb.xcb_kb_t'Val (0)); subtype xcb_kb_t_Pointer is C_xcb_kb_t_Pointers.Pointer; -- xcb_kb_t_Pointer_Array -- type xcb_kb_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.xcb_kb_t_Pointer; -- xcb_led_mode_t_Pointer -- package C_xcb_led_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_led_mode_t, Element_Array => xcb.xcb_led_mode_t_array, Default_Terminator => xcb.xcb_led_mode_t'Val (0)); subtype xcb_led_mode_t_Pointer is C_xcb_led_mode_t_Pointers.Pointer; -- xcb_led_mode_t_Pointer_Array -- type xcb_led_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_led_mode_t_Pointer; -- xcb_auto_repeat_mode_t_Pointer -- package C_xcb_auto_repeat_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_auto_repeat_mode_t, Element_Array => xcb.xcb_auto_repeat_mode_t_array, Default_Terminator => xcb.xcb_auto_repeat_mode_t'Val (0)); subtype xcb_auto_repeat_mode_t_Pointer is C_xcb_auto_repeat_mode_t_Pointers.Pointer; -- xcb_auto_repeat_mode_t_Pointer_Array -- type xcb_auto_repeat_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_auto_repeat_mode_t_Pointer; -- xcb_blanking_t_Pointer -- package C_xcb_blanking_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_blanking_t, Element_Array => xcb.xcb_blanking_t_array, Default_Terminator => xcb.xcb_blanking_t'Val (0)); subtype xcb_blanking_t_Pointer is C_xcb_blanking_t_Pointers.Pointer; -- xcb_blanking_t_Pointer_Array -- type xcb_blanking_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_blanking_t_Pointer; -- xcb_exposures_t_Pointer -- package C_xcb_exposures_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_exposures_t, Element_Array => xcb.xcb_exposures_t_array, Default_Terminator => xcb.xcb_exposures_t'Val (0)); subtype xcb_exposures_t_Pointer is C_xcb_exposures_t_Pointers.Pointer; -- xcb_exposures_t_Pointer_Array -- type xcb_exposures_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_exposures_t_Pointer; -- xcb_host_mode_t_Pointer -- package C_xcb_host_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_host_mode_t, Element_Array => xcb.xcb_host_mode_t_array, Default_Terminator => xcb.xcb_host_mode_t'Val (0)); subtype xcb_host_mode_t_Pointer is C_xcb_host_mode_t_Pointers.Pointer; -- xcb_host_mode_t_Pointer_Array -- type xcb_host_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_host_mode_t_Pointer; -- xcb_family_t_Pointer -- package C_xcb_family_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_family_t, Element_Array => xcb.xcb_family_t_array, Default_Terminator => xcb.xcb_family_t'Val (0)); subtype xcb_family_t_Pointer is C_xcb_family_t_Pointers.Pointer; -- xcb_family_t_Pointer_Array -- type xcb_family_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_family_t_Pointer; -- xcb_access_control_t_Pointer -- package C_xcb_access_control_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_access_control_t, Element_Array => xcb.xcb_access_control_t_array, Default_Terminator => xcb.xcb_access_control_t'Val (0)); subtype xcb_access_control_t_Pointer is C_xcb_access_control_t_Pointers.Pointer; -- xcb_access_control_t_Pointer_Array -- type xcb_access_control_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_access_control_t_Pointer; -- xcb_close_down_t_Pointer -- package C_xcb_close_down_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_close_down_t, Element_Array => xcb.xcb_close_down_t_array, Default_Terminator => xcb.xcb_close_down_t'Val (0)); subtype xcb_close_down_t_Pointer is C_xcb_close_down_t_Pointers.Pointer; -- xcb_close_down_t_Pointer_Array -- type xcb_close_down_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_close_down_t_Pointer; -- xcb_kill_t_Pointer -- package C_xcb_kill_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_kill_t, Element_Array => xcb.xcb_kill_t_array, Default_Terminator => xcb.xcb_kill_t'Val (0)); subtype xcb_kill_t_Pointer is C_xcb_kill_t_Pointers.Pointer; -- xcb_kill_t_Pointer_Array -- type xcb_kill_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_kill_t_Pointer; -- xcb_screen_saver_t_Pointer -- package C_xcb_screen_saver_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_screen_saver_t, Element_Array => xcb.xcb_screen_saver_t_array, Default_Terminator => xcb.xcb_screen_saver_t'Val (0)); subtype xcb_screen_saver_t_Pointer is C_xcb_screen_saver_t_Pointers.Pointer; -- xcb_screen_saver_t_Pointer_Array -- type xcb_screen_saver_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_screen_saver_t_Pointer; -- xcb_mapping_status_t_Pointer -- package C_xcb_mapping_status_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_mapping_status_t, Element_Array => xcb.xcb_mapping_status_t_array, Default_Terminator => xcb.xcb_mapping_status_t'Val (0)); subtype xcb_mapping_status_t_Pointer is C_xcb_mapping_status_t_Pointers.Pointer; -- xcb_mapping_status_t_Pointer_Array -- type xcb_mapping_status_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_mapping_status_t_Pointer; -- xcb_map_index_t_Pointer -- package C_xcb_map_index_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_map_index_t, Element_Array => xcb.xcb_map_index_t_array, Default_Terminator => xcb.xcb_map_index_t'Val (0)); subtype xcb_map_index_t_Pointer is C_xcb_map_index_t_Pointers.Pointer; -- xcb_map_index_t_Pointer_Array -- type xcb_map_index_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_map_index_t_Pointer; -- xcb_render_pict_type_t_Pointer -- package C_xcb_render_pict_type_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_pict_type_t, Element_Array => xcb.xcb_render_pict_type_t_array, Default_Terminator => xcb.xcb_render_pict_type_t'Val (0)); subtype xcb_render_pict_type_t_Pointer is C_xcb_render_pict_type_t_Pointers.Pointer; -- xcb_render_pict_type_t_Pointer_Array -- type xcb_render_pict_type_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_pict_type_t_Pointer; -- xcb_render_picture_enum_t_Pointer -- package C_xcb_render_picture_enum_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_picture_enum_t, Element_Array => xcb.xcb_render_picture_enum_t_array, Default_Terminator => xcb.xcb_render_picture_enum_t'Val (0)); subtype xcb_render_picture_enum_t_Pointer is C_xcb_render_picture_enum_t_Pointers.Pointer; -- xcb_render_picture_enum_t_Pointer_Array -- type xcb_render_picture_enum_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_picture_enum_t_Pointer; -- xcb_render_pict_op_t_Pointer -- package C_xcb_render_pict_op_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_pict_op_t, Element_Array => xcb.xcb_render_pict_op_t_array, Default_Terminator => xcb.xcb_render_pict_op_t'Val (0)); subtype xcb_render_pict_op_t_Pointer is C_xcb_render_pict_op_t_Pointers.Pointer; -- xcb_render_pict_op_t_Pointer_Array -- type xcb_render_pict_op_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_pict_op_t_Pointer; -- xcb_render_poly_edge_t_Pointer -- package C_xcb_render_poly_edge_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_poly_edge_t, Element_Array => xcb.xcb_render_poly_edge_t_array, Default_Terminator => xcb.xcb_render_poly_edge_t'Val (0)); subtype xcb_render_poly_edge_t_Pointer is C_xcb_render_poly_edge_t_Pointers.Pointer; -- xcb_render_poly_edge_t_Pointer_Array -- type xcb_render_poly_edge_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_poly_edge_t_Pointer; -- xcb_render_poly_mode_t_Pointer -- package C_xcb_render_poly_mode_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_poly_mode_t, Element_Array => xcb.xcb_render_poly_mode_t_array, Default_Terminator => xcb.xcb_render_poly_mode_t'Val (0)); subtype xcb_render_poly_mode_t_Pointer is C_xcb_render_poly_mode_t_Pointers.Pointer; -- xcb_render_poly_mode_t_Pointer_Array -- type xcb_render_poly_mode_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_poly_mode_t_Pointer; -- xcb_render_cp_t_Pointer -- package C_xcb_render_cp_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_cp_t, Element_Array => xcb.xcb_render_cp_t_array, Default_Terminator => xcb.xcb_render_cp_t'Val (0)); subtype xcb_render_cp_t_Pointer is C_xcb_render_cp_t_Pointers.Pointer; -- xcb_render_cp_t_Pointer_Array -- type xcb_render_cp_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_cp_t_Pointer; -- xcb_render_sub_pixel_t_Pointer -- package C_xcb_render_sub_pixel_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_sub_pixel_t, Element_Array => xcb.xcb_render_sub_pixel_t_array, Default_Terminator => xcb.xcb_render_sub_pixel_t'Val (0)); subtype xcb_render_sub_pixel_t_Pointer is C_xcb_render_sub_pixel_t_Pointers.Pointer; -- xcb_render_sub_pixel_t_Pointer_Array -- type xcb_render_sub_pixel_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_sub_pixel_t_Pointer; -- xcb_render_repeat_t_Pointer -- package C_xcb_render_repeat_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_repeat_t, Element_Array => xcb.xcb_render_repeat_t_array, Default_Terminator => xcb.xcb_render_repeat_t'Val (0)); subtype xcb_render_repeat_t_Pointer is C_xcb_render_repeat_t_Pointers.Pointer; -- xcb_render_repeat_t_Pointer_Array -- type xcb_render_repeat_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_repeat_t_Pointer; -- xcb_render_glyph_t_Pointer -- package C_xcb_render_glyph_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_glyph_t, Element_Array => xcb.xcb_render_glyph_t_array, Default_Terminator => 0); subtype xcb_render_glyph_t_Pointer is C_xcb_render_glyph_t_Pointers.Pointer; -- xcb_render_glyph_t_Pointer_Array -- type xcb_render_glyph_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_glyph_t_Pointer; -- xcb_render_glyphset_t_Pointer -- package C_xcb_render_glyphset_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_glyphset_t, Element_Array => xcb.xcb_render_glyphset_t_array, Default_Terminator => 0); subtype xcb_render_glyphset_t_Pointer is C_xcb_render_glyphset_t_Pointers.Pointer; -- xcb_render_glyphset_t_Pointer_Array -- type xcb_render_glyphset_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_glyphset_t_Pointer; -- xcb_render_picture_t_Pointer -- package C_xcb_render_picture_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_picture_t, Element_Array => xcb.xcb_render_picture_t_array, Default_Terminator => 0); subtype xcb_render_picture_t_Pointer is C_xcb_render_picture_t_Pointers.Pointer; -- xcb_render_picture_t_Pointer_Array -- type xcb_render_picture_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_picture_t_Pointer; -- xcb_render_pictformat_t_Pointer -- package C_xcb_render_pictformat_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_pictformat_t, Element_Array => xcb.xcb_render_pictformat_t_array, Default_Terminator => 0); subtype xcb_render_pictformat_t_Pointer is C_xcb_render_pictformat_t_Pointers.Pointer; -- xcb_render_pictformat_t_Pointer_Array -- type xcb_render_pictformat_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_pictformat_t_Pointer; -- xcb_render_fixed_t_Pointer -- package C_xcb_render_fixed_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_render_fixed_t, Element_Array => xcb.xcb_render_fixed_t_array, Default_Terminator => 0); subtype xcb_render_fixed_t_Pointer is C_xcb_render_fixed_t_Pointers.Pointer; -- xcb_render_fixed_t_Pointer_Array -- type xcb_render_fixed_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_fixed_t_Pointer; -- iovec_Pointer -- package C_iovec_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.iovec, element_Array => xcb.iovec_Array, default_Terminator => 0); subtype iovec_Pointer is C_iovec_Pointers.Pointer; -- iovec_Pointer_Array -- type iovec_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.iovec_Pointer; -- xcb_send_request_flags_t_Pointer -- package C_xcb_send_request_flags_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_send_request_flags_t, Element_Array => xcb.xcb_send_request_flags_t_array, Default_Terminator => xcb.xcb_send_request_flags_t'Val (0)); subtype xcb_send_request_flags_t_Pointer is C_xcb_send_request_flags_t_Pointers.Pointer; -- xcb_send_request_flags_t_Pointer_Array -- type xcb_send_request_flags_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_send_request_flags_t_Pointer; -- xcb_pict_format_t_Pointer -- package C_xcb_pict_format_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_pict_format_t, Element_Array => xcb.xcb_pict_format_t_array, Default_Terminator => xcb.xcb_pict_format_t'Val (0)); subtype xcb_pict_format_t_Pointer is C_xcb_pict_format_t_Pointers.Pointer; -- xcb_pict_format_t_Pointer_Array -- type xcb_pict_format_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_pict_format_t_Pointer; -- xcb_pict_standard_t_Pointer -- package C_xcb_pict_standard_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_pict_standard_t, Element_Array => xcb.xcb_pict_standard_t_array, Default_Terminator => xcb.xcb_pict_standard_t'Val (0)); subtype xcb_pict_standard_t_Pointer is C_xcb_pict_standard_t_Pointers.Pointer; -- xcb_pict_standard_t_Pointer_Array -- type xcb_pict_standard_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_pict_standard_t_Pointer; -- xcb_render_util_composite_text_stream_t_Pointer -- package C_xcb_render_util_composite_text_stream_t_Pointers is new interfaces .c .Pointers (Index => interfaces.c.size_t, Element => xcb.xcb_render_util_composite_text_stream_t, element_Array => xcb.xcb_render_util_composite_text_stream_t_Array, default_Terminator => 0); subtype xcb_render_util_composite_text_stream_t_Pointer is C_xcb_render_util_composite_text_stream_t_Pointers.Pointer; -- xcb_render_util_composite_text_stream_t_Pointer_Array -- type xcb_render_util_composite_text_stream_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_render_util_composite_text_stream_t_Pointer; -- xcb_glx_pixmap_t_Pointer -- package C_xcb_glx_pixmap_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_pixmap_t, Element_Array => xcb.xcb_glx_pixmap_t_array, Default_Terminator => 0); subtype xcb_glx_pixmap_t_Pointer is C_xcb_glx_pixmap_t_Pointers.Pointer; -- xcb_glx_pixmap_t_Pointer_Array -- type xcb_glx_pixmap_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_pixmap_t_Pointer; -- xcb_glx_context_t_Pointer -- package C_xcb_glx_context_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_context_t, Element_Array => xcb.xcb_glx_context_t_array, Default_Terminator => 0); subtype xcb_glx_context_t_Pointer is C_xcb_glx_context_t_Pointers.Pointer; -- xcb_glx_context_t_Pointer_Array -- type xcb_glx_context_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_context_t_Pointer; -- xcb_glx_pbuffer_t_Pointer -- package C_xcb_glx_pbuffer_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_pbuffer_t, Element_Array => xcb.xcb_glx_pbuffer_t_array, Default_Terminator => 0); subtype xcb_glx_pbuffer_t_Pointer is C_xcb_glx_pbuffer_t_Pointers.Pointer; -- xcb_glx_pbuffer_t_Pointer_Array -- type xcb_glx_pbuffer_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_pbuffer_t_Pointer; -- xcb_glx_window_t_Pointer -- package C_xcb_glx_window_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_window_t, Element_Array => xcb.xcb_glx_window_t_array, Default_Terminator => 0); subtype xcb_glx_window_t_Pointer is C_xcb_glx_window_t_Pointers.Pointer; -- xcb_glx_window_t_Pointer_Array -- type xcb_glx_window_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_window_t_Pointer; -- xcb_glx_fbconfig_t_Pointer -- package C_xcb_glx_fbconfig_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_fbconfig_t, Element_Array => xcb.xcb_glx_fbconfig_t_array, Default_Terminator => 0); subtype xcb_glx_fbconfig_t_Pointer is C_xcb_glx_fbconfig_t_Pointers.Pointer; -- xcb_glx_fbconfig_t_Pointer_Array -- type xcb_glx_fbconfig_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_fbconfig_t_Pointer; -- xcb_glx_drawable_t_Pointer -- package C_xcb_glx_drawable_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_drawable_t, Element_Array => xcb.xcb_glx_drawable_t_array, Default_Terminator => 0); subtype xcb_glx_drawable_t_Pointer is C_xcb_glx_drawable_t_Pointers.Pointer; -- xcb_glx_drawable_t_Pointer_Array -- type xcb_glx_drawable_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_drawable_t_Pointer; -- xcb_glx_float32_t_Pointer -- package C_xcb_glx_float32_t_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.xcb_glx_float32_t, element_Array => xcb.xcb_glx_float32_t_Array, default_Terminator => 0.0); subtype xcb_glx_float32_t_Pointer is C_xcb_glx_float32_t_Pointers.Pointer; -- xcb_glx_float32_t_Pointer_Array -- type xcb_glx_float32_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_float32_t_Pointer; -- xcb_glx_float64_t_Pointer -- package C_xcb_glx_float64_t_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.xcb_glx_float64_t, element_Array => xcb.xcb_glx_float64_t_Array, default_Terminator => 0.0); subtype xcb_glx_float64_t_Pointer is C_xcb_glx_float64_t_Pointers.Pointer; -- xcb_glx_float64_t_Pointer_Array -- type xcb_glx_float64_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_float64_t_Pointer; -- xcb_glx_bool32_t_Pointer -- package C_xcb_glx_bool32_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_bool32_t, Element_Array => xcb.xcb_glx_bool32_t_array, Default_Terminator => 0); subtype xcb_glx_bool32_t_Pointer is C_xcb_glx_bool32_t_Pointers.Pointer; -- xcb_glx_bool32_t_Pointer_Array -- type xcb_glx_bool32_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_bool32_t_Pointer; -- xcb_glx_context_tag_t_Pointer -- package C_xcb_glx_context_tag_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_context_tag_t, Element_Array => xcb.xcb_glx_context_tag_t_array, Default_Terminator => 0); subtype xcb_glx_context_tag_t_Pointer is C_xcb_glx_context_tag_t_Pointers.Pointer; -- xcb_glx_context_tag_t_Pointer_Array -- type xcb_glx_context_tag_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_context_tag_t_Pointer; -- xcb_glx_pbcet_t_Pointer -- package C_xcb_glx_pbcet_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_pbcet_t, Element_Array => xcb.xcb_glx_pbcet_t_array, Default_Terminator => xcb.xcb_glx_pbcet_t'Val (0)); subtype xcb_glx_pbcet_t_Pointer is C_xcb_glx_pbcet_t_Pointers.Pointer; -- xcb_glx_pbcet_t_Pointer_Array -- type xcb_glx_pbcet_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_pbcet_t_Pointer; -- xcb_glx_pbcdt_t_Pointer -- package C_xcb_glx_pbcdt_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_pbcdt_t, Element_Array => xcb.xcb_glx_pbcdt_t_array, Default_Terminator => xcb.xcb_glx_pbcdt_t'Val (0)); subtype xcb_glx_pbcdt_t_Pointer is C_xcb_glx_pbcdt_t_Pointers.Pointer; -- xcb_glx_pbcdt_t_Pointer_Array -- type xcb_glx_pbcdt_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_pbcdt_t_Pointer; -- xcb_glx_gc_t_Pointer -- package C_xcb_glx_gc_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_gc_t, Element_Array => xcb.xcb_glx_gc_t_array, Default_Terminator => xcb.xcb_glx_gc_t'Val (0)); subtype xcb_glx_gc_t_Pointer is C_xcb_glx_gc_t_Pointers.Pointer; -- xcb_glx_gc_t_Pointer_Array -- type xcb_glx_gc_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_gc_t_Pointer; -- xcb_glx_rm_t_Pointer -- package C_xcb_glx_rm_t_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.xcb_glx_rm_t, Element_Array => xcb.xcb_glx_rm_t_array, Default_Terminator => xcb.xcb_glx_rm_t'Val (0)); subtype xcb_glx_rm_t_Pointer is C_xcb_glx_rm_t_Pointers.Pointer; -- xcb_glx_rm_t_Pointer_Array -- type xcb_glx_rm_t_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .xcb_glx_rm_t_Pointer; -- Display_Pointer -- package C_Display_Pointers is new interfaces.c.Pointers (Index => interfaces.c.size_t, Element => xcb.Display, element_Array => xcb.Display_Array, default_Terminator => 0); subtype Display_Pointer is C_Display_Pointers.Pointer; -- Display_Pointer_Array -- type Display_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers.Display_Pointer; -- XEventQueueOwner_Pointer -- package C_XEventQueueOwner_Pointers is new Interfaces.C.Pointers (Index => Interfaces.C.size_t, Element => xcb.XEventQueueOwner, Element_Array => xcb.XEventQueueOwner_array, Default_Terminator => xcb.XEventQueueOwner'Val (0)); subtype XEventQueueOwner_Pointer is C_XEventQueueOwner_Pointers.Pointer; -- XEventQueueOwner_Pointer_Array -- type XEventQueueOwner_Pointer_Array is array (Interfaces.C.size_t range <>) of aliased xcb.Pointers .XEventQueueOwner_Pointer; end xcb.Pointers;

------------------------------------------------------------------------------ -- -- -- 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. ------------------------------------------------------------------------------ -- A parameter set is an element that provides alternative sets of inputs or -- outputs that a behavior may use. ------------------------------------------------------------------------------ limited with AMF.UML.Constraints.Collections; with AMF.UML.Named_Elements; limited with AMF.UML.Parameters.Collections; package AMF.UML.Parameter_Sets is pragma Preelaborate; type UML_Parameter_Set is limited interface and AMF.UML.Named_Elements.UML_Named_Element; type UML_Parameter_Set_Access is access all UML_Parameter_Set'Class; for UML_Parameter_Set_Access'Storage_Size use 0; not overriding function Get_Condition (Self : not null access constant UML_Parameter_Set) return AMF.UML.Constraints.Collections.Set_Of_UML_Constraint is abstract; -- Getter of ParameterSet::condition. -- -- 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. not overriding function Get_Parameter (Self : not null access constant UML_Parameter_Set) return AMF.UML.Parameters.Collections.Set_Of_UML_Parameter is abstract; -- Getter of ParameterSet::parameter. -- -- Parameters in the parameter set. end AMF.UML.Parameter_Sets;

-- An Ada source file which is supposed to be Ada95 only, but has -- some Ada 2005 code in it. procedure Has_05 is begin -- Introduce a deliberate Ada 2005 construct to verify that -- the style_checker uses -gnat05, and that the compiler -- therefore flags this as a violation. raise Constraint_Error with "Bad Message"; end Has_05;

-- C39006G.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 PROGRAM_ERROR IS RAISED BY AN ATTEMPT TO CALL A -- SUBPROGRAM WHOSE BODY IS NOT YET ELABORATED. USE A PACKAGE -- WITH OPTIONAL BODY, WHERE THE SUBPROGRAM IS CALLED IN THE BODY. -- HISTORY: -- BCB 08/01/88 CREATED ORIGINAL TEST. WITH REPORT; USE REPORT; PROCEDURE C39006G IS PROCEDURE INIT (X : IN OUT INTEGER); PACKAGE P IS END P; PACKAGE BODY P IS X : INTEGER := IDENT_INT(5); BEGIN TEST ("C39006G", "CHECK THAT PROGRAM_ERROR IS RAISED BY " & "AN ATTEMPT TO CALL A SUBPROGRAM WHOSE " & "BODY IS NOT YET ELABORATED. USE A " & "PACKAGE WITH OPTIONAL BODY, WHERE THE " & "SUBPROGRAM IS CALLED IN THE BODY"); INIT(X); FAILED ("NO EXCEPTION RAISED"); IF X /= IDENT_INT(10) THEN COMMENT ("TOTALLY IRRELEVANT"); END IF; RESULT; EXCEPTION WHEN PROGRAM_ERROR => RESULT; WHEN OTHERS => FAILED ("OTHER EXCEPTION WAS RAISED"); RESULT; END P; PROCEDURE INIT (X : IN OUT INTEGER) IS BEGIN X := IDENT_INT(10); END INIT; BEGIN NULL; END C39006G;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- S Y S T E M . P A C K _ 3 4 -- -- -- -- S p e c -- -- -- -- Copyright (C) 1992-2019, 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. -- -- -- ------------------------------------------------------------------------------ -- Handling of packed arrays with Component_Size = 34 package System.Pack_34 is pragma Preelaborate; Bits : constant := 34; type Bits_34 is mod 2 ** Bits; for Bits_34'Size use Bits; -- In all subprograms below, Rev_SSO is set True if the array has the -- non-default scalar storage order. function Get_34 (Arr : System.Address; N : Natural; Rev_SSO : Boolean) return Bits_34 with Inline; -- Arr is the address of the packed array, N is the zero-based -- subscript. This element is extracted and returned. procedure Set_34 (Arr : System.Address; N : Natural; E : Bits_34; Rev_SSO : Boolean) with Inline; -- Arr is the address of the packed array, N is the zero-based -- subscript. This element is set to the given value. function GetU_34 (Arr : System.Address; N : Natural; Rev_SSO : Boolean) return Bits_34 with Inline; -- Arr is the address of the packed array, N is the zero-based -- subscript. This element is extracted and returned. This version -- is used when Arr may represent an unaligned address. procedure SetU_34 (Arr : System.Address; N : Natural; E : Bits_34; Rev_SSO : Boolean) with Inline; -- Arr is the address of the packed array, N is the zero-based -- subscript. This element is set to the given value. This version -- is used when Arr may represent an unaligned address end System.Pack_34;

-- PACKAGE Extended_Real.Elementary_Functions -- -- Taylor series are used to get Exp, Sin and Cos. Once these are calculated, -- Newton-Raphson iteration gives inverse functions: Log, Arccos, and Arcsin, -- Arctan. Similarly, starting with the function G(Y) = Y**(-N), -- Newton-Raphson iteration gives the inverse: F(X) = X**(-1/N), -- the reciprocal of the Nth root of X. Newton-Raphson is used directly to get -- Sqrt, Inverse, and Inverse_Nth_root. Inverse(X) is the reciprocal of -- of X. It's usually faster than the "/" function, (One / X). -- -- Newton-Raphson iteration is used to calculate Y = F(a) when F's inverse -- function G(Y) is known. (G satisfies G(F(a)) = a.) Say we want Y = F(a), -- We can't calculate F, but given a Y we can calculate G(Y) and we know a. Then -- use Newton-Raphson to solve for Y in equation G(Y) = a. The iteration is -- -- dG/dY(Y_0) = (G(Y_0) - a) / (Y_0 - Y_1), or, -- -- Y_1 = Y_0 - (G(Y_0) - a) / dG/dY(Y_0). -- -- For example, if want F(a) = Log(a), and we can get G(Y) = Exp(Y), then we -- iterate for Y = Log(a) using: -- -- Y_1 = Y_0 - (Exp(Y_0) - a) / Exp(Y_0). -- -- Similarly, if we want F(a) = a**(-1/N) and we know G(Y) = Y**(-N), then: -- -- Y_1 = Y_0 - (Y_0**(-N) - a) / (-N*Y**(-N-1), -- -- = Y_0 - (1 - a*Y_0**N) * Y / (-N). -- -- Argument reduction is necessary in most of the routines. Some of the -- arg reduction ideas come from Brent, D M Smith, D H Bailey. -- generic -- Functions for type Real. Must be correct to 48 bits. -- You should never have to enter these parameters, as long as -- they are visible at instantiation. Log is natural. with function Sqrt (X : Real) return Real is <>; with function Log (X : Real) return Real is <>; -- Natural log. (ln) with function Exp (X : Real) return Real is <>; -- inverse of log with function Arcsin (X : Real) return Real is <>; -- inverse of sin with function Arctan (Y : Real; X : Real := 1.0) return Real is <>; package Extended_Real.Elementary_Functions is function Sqrt (X : e_Real) return e_Real; function Exp (X : e_Real) return e_Real; function Log (X : e_Real) return e_Real; function Log (X : e_Real; Base : e_Real) return e_Real; function Sin (X : e_Real) return e_Real; function Sin (X : e_Real; Cycle : e_Real) return e_Real; function Cos (X : e_Real) return e_Real; function Cos (X : e_Real; Cycle : e_Real) return e_Real; function Arcsin (X : e_Real) return e_Real; function Arccos (X : e_Real) return e_Real; function "**" (Left : e_Real; Right : e_Real) return e_Real; function Arctan (X : e_Real) return e_Real; -- Output is in range [-Pi/2 .. Pi/2] only. Arctan (Infinity) = Pi/2. function Reciprocal (X : e_Real) return e_Real; -- Newton-Raphson inversion. Usually faster than One / X. function Divide (Z, X : e_Real) return e_Real; -- Newton-Raphson Z / X. function Reciprocal_Nth_Root (X : e_Real; N : Positive) return e_Real; -- Reciprocal of the N-th root of X: X**(-1/N) = 1 / X**(1/N). One way -- to get the N-th root of X is to take One / Reciprocal_Nth_Root(X, N). -- N must be less than Radix - 1, which is usually 2**29 - 1. -- (This function is non-standard, but is used by some of the other -- routines, so might as well export it.) function Reciprocal_Sqrt (X : e_Real) return e_Real; function e_Quarter_Pi return e_Real; -- returns Pi/4 by arcsin method. function e_Log_2 return e_Real; -- returns Log(2.0). function e_Inverse_Pi return e_Real; -- returns 1/Pi by arcsin method. function e_Inverse_Sqrt_2 return e_Real; -- returns 1/Sqrt(2.0). function e_Half_Inverse_Log_2 return e_Real; -- returns 0.5/Log(2.0). -- The above constants are calculated to max available precision. -- They are all slightly less than one - the the highest precision -- that this package is capable of. So the above versions are -- preferred to the ones given below, which are somewhat -- greater than one. function e_Pi return e_Real; -- returns Pi by arcsin method. E_Argument_Error : Exception; end Extended_Real.Elementary_Functions;

package Test_Subtypes is end Test_Subtypes;

------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- S Y S T E M . S E C O N D A R Y _ S T A C K -- -- -- -- S p e c -- -- -- -- $Revision: 2 $ -- -- -- -- Copyright (c) 1992,1993,1994 NYU, All Rights Reserved -- -- -- -- The GNAT library is free software; you can redistribute it and/or modify -- -- it under terms of the GNU Library General Public License as published by -- -- the Free Software Foundation; either version 2, or (at your option) any -- -- later version. The GNAT 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 -- -- the GNAT library; see the file COPYING.LIB. If not, write to the Free -- -- Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. -- -- -- ------------------------------------------------------------------------------ with System.Storage_Elements; use System.Storage_Elements; with System.Storage_Pools; use System.Storage_Pools; package System.Secondary_Stack is type Secondary_Stack_Pool is new Root_Storage_Pool with null record; function Storage_Size (Pool : Secondary_Stack_Pool) return Storage_Count; procedure Allocate (Pool : in out Secondary_Stack_Pool; Address : out System.Address; Storage_Size : in Storage_Count; Alignment : in Storage_Count); procedure Deallocate (Pool : in out Secondary_Stack_Pool; Address : in System.Address; Storage_Size : in Storage_Count; Alignment : in Storage_Count); type Mark_Id is private; -- Type used to mark the stack. procedure SS_Init (Stk : out Address; Size : Natural); -- Initialize the secondary stack with a main stack of the given Size. -- All further allocations which do not overflow the main stack will not -- generate dynamic (de)allocation calls. If the main Stack overflows -- a new chuck of at least the same size will be allocated and linked -- to the previous chunk. -- -- Note: the reason that Stk is passed is that SS_Init is called before -- the proper interface is established to obtain the address of the -- stack using System.Task_Specific_Data.Get_Sec_Stack_Addr. procedure SS_Free (Stk : Address); -- Release the memory allocated for the Secondary Stack. That is to say, -- all the allocated chuncks. function SS_Mark return Mark_Id; -- Return the Mark corresponding to the current state of the stack procedure SS_Release (M : Mark_Id); -- Restore the state of the stack corresponding to the mark M. If an -- additional chunk have been allocated, it will never be freed during a generic with procedure Put_Line (S : String); procedure SS_Info; -- Debugging procedure used to print out secondary Stack allocation -- information. This procedure is generic in order to avoid a direct -- dependance on a particular IO package. SS_Pool : Secondary_Stack_Pool; -- the pool for the secondary stack private type Mark_Id is new Integer; end System.Secondary_Stack;

-- 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 url = require("url") local json = require("json") name = "CertSpotter" type = "cert" function start() setratelimit(2) end function vertical(ctx, domain) local page, err = request({['url']=buildurl(domain)}) if (err ~= nil and err ~= "") then return end local resp = json.decode(page) if (resp == nil or #resp == 0) then return end for i, r in pairs(resp) do for i, name in pairs(r['dns_names']) do sendnames(ctx, name) end end end function buildurl(domain) local params = { ['domain']=domain, ['include_subdomains']="true", ['match_wildcards']="true", expand="dns_names", } return "https://api.certspotter.com/v1/issuances?" .. url.build_query_string(params) 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

with Ada.Text_IO; use Ada.Text_IO; with Command_Line; procedure TC_CMD_Builtins is Cmd_1 : aliased constant String := "help"; Cmd_2 : aliased constant String := "help echo"; Cmd_3 : aliased constant String := "echo -n test"; Cmd_4 : aliased constant String := "echo test"; begin Ada.Text_IO.Put_Line ("$ " & Cmd_1); Command_Line.Run (Cmd_1, Put'Access, Put_Line'Access); Ada.Text_IO.Put_Line ("$ " & Cmd_2); Command_Line.Run (Cmd_2, Put'Access, Put_Line'Access); Ada.Text_IO.Put_Line ("$ " & Cmd_3); Command_Line.Run (Cmd_3, Put'Access, Put_Line'Access); Ada.Text_IO.Put_Line ("$ " & Cmd_4); Command_Line.Run (Cmd_4, Put'Access, Put_Line'Access); end TC_CMD_Builtins;

-- ----------------------------------------------------------------- -- -- -- -- This 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 software 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. -- -- -- -- ----------------------------------------------------------------- -- -- ----------------------------------------------------------------- -- -- This is a translation, to the Ada programming language, of the -- -- original C test files written by Sam Lantinga - www.libsdl.org -- -- translation made by Antonio F. Vargas - www.adapower.net/~avargas -- -- ----------------------------------------------------------------- -- with Interfaces.C.Strings; with Ada.Text_IO; use Ada.Text_IO; with Ada.Characters.Latin_1; with Ada.Characters.Handling; with Ada.Command_Line; with GNAT.OS_Lib; with SDL.Cdrom; with SDL.Types; use SDL.Types; with SDL.Error; with SDL.Quit; with SDL.Timer; procedure TestCdrom is package C renames Interfaces.C; use type C.int; package CS renames Interfaces.C.Strings; package int_IO is new Integer_IO (C.int); package CL renames Ada.Command_Line; package Latin_1 renames Ada.Characters.Latin_1; package CH renames Ada.Characters.Handling; package CD renames SDL.Cdrom; use type CD.CDstatus; use type CD.CD_ptr; package Er renames SDL.Error; package T renames SDL.Timer; -- ====================================== procedure PrintStatus (driveindex : C.int; cdrom : CD.CD_ptr) is status : CD.CDstatus; -- status_str : CS.chars_ptr; type String_Access is access String; status_str : String_Access; begin status := CD.SDL_CDStatus (cdrom); case status is when CD.TRAYEMPTY => status_str := new String'("tray empty"); when CD.STOPPED => status_str := new String'("stopped"); when CD.PLAYING => status_str := new String'("playing"); when CD.PAUSED => status_str := new String'("paused"); when CD.ERROR => status_str := new String'("error state"); when others => null; end case; Put_Line ("Drive " & C.int'Image (driveindex) & " " & status_str.all); if status >= CD.PLAYING then declare -- m, s, f : aliased C.int; m, s, f : C.int; begin -- CD.FRAMES_TO_MSF (cdrom.cur_frame, m'Access, s'Access, f'Access); CD.FRAMES_TO_MSF (cdrom.cur_frame, m, s, f); Put_Line ("Currently playing track " & Uint8'Image (cdrom.track (cdrom.cur_track).id) & C.int'Image (m) & " " & C.int'Image (s)); end; end if; end PrintStatus; -- ====================================== procedure ListTracks (cdrom : CD.CD_ptr) is m, s, f : aliased C.int; Dummy_CDstatus : CD.CDstatus; begin Dummy_CDstatus := CD.SDL_CDStatus (cdrom); Put_Line ("Drive tracks: " & C.int'Image (cdrom.numtracks)); for i in C.int range 0 .. cdrom.numtracks - 1 loop -- CD.FRAMES_TO_MSF (C.int (cdrom.track (i).lenght), -- m'Access, s'Access, f'Access); CD.FRAMES_TO_MSF (C.int (cdrom.track (i).lenght), m, s, f); if f > 0 then s := s + 1; end if; Put_Line (Latin_1.HT & "Track (index " & C.int'Image (i) & ")" & Uint8'Image (cdrom.track (i).id) & " " & C.int'Image (m) & " " & C.int'Image (s)); end loop; end ListTracks; -- ====================================== procedure PrintUsage (Prog_Name : String) is begin Put_Line ("Usage: " & Prog_Name & " [drive#] [command] [command] ..."); Put_Line ("Where 'command' is one of: "); Put_Line (" -status"); Put_Line (" -list"); Put_Line (" -play [first_track] [first_frame] [num_tracks] [num_frames]"); Put_Line (" -pause"); Put_Line (" -resume"); Put_Line (" -stop"); Put_Line (" -eject"); Put_Line (" -sleep <miliseconds>"); end PrintUsage; -- ====================================== i : Integer; drive : C.int; cdrom : CD.CD_ptr; begin -- Initialize SDL first if SDL.Init (SDL.INIT_CDROM) < 0 then Put_Line ("Couldn't initialize SDL: " & Er.Get_Error); GNAT.OS_Lib.OS_Exit (1); end if; SDL.Quit.atexit (SDL.SDL_Quit'Access); -- Find out how many CD-ROM drives are connected to the system if CD.CDNumDrives = 0 then Put_Line ("No CD-ROM devices detected"); GNAT.OS_Lib.OS_Exit (0); end if; Put_Line ("Drives available: " & C.int'Image (CD.CDNumDrives)); for i in C.int range 0 .. CD.CDNumDrives - 1 loop Put_Line ("Drive " & C.int'Image (i) & CS.Value (CD.CDName (i))); end loop; -- Open the CD-ROM drive := 0; i := 1; if (CL.Argument_Count > 0) and then (CH.Is_Digit (CL.Argument (i)(1))) then declare use int_IO; last : Positive; begin Get (CL.Argument (i), drive, last); i := i + 1; end; end if; cdrom := CD.CDOpen (drive); if cdrom = null then Put_Line ("Couldn't open drive " & C.int'Image (drive) & ":" & Er.Get_Error); GNAT.OS_Lib.OS_Exit (2); end if; -- #ifdef TEST_NULLCD -- cdrom := null; -- #endif -- Find out which function to perform while i <= CL.Argument_Count loop if CL.Argument (i) = "-status" then PrintStatus (drive, cdrom); elsif CL.Argument (i) = "-list" then ListTracks (cdrom); elsif CL.Argument (i) = "-play" then declare strack, sframe : C.int; ntrack, nframe : C.int; begin strack := 0; if (i + 1 <= CL.Argument_Count) and then (CH.Is_Digit (CL.Argument (i + 1)(1))) then declare use int_IO; last : Positive; begin i := i + 1; Get (CL.Argument (i), strack, last); end; end if; sframe := 0; if (i + 1 <= CL.Argument_Count) and then (CH.Is_Digit (CL.Argument (i + 1)(1))) then declare use int_IO; last : Positive; begin i := i + 1; Get (CL.Argument (i), sframe, last); end; end if; ntrack := 0; if (i + 1 <= CL.Argument_Count) and then (CH.Is_Digit (CL.Argument (i + 1)(1))) then declare use int_IO; last : Positive; begin i := i + 1; Get (CL.Argument (i), ntrack, last); end; end if; nframe := 0; if (i + 1 <= CL.Argument_Count) and then (CH.Is_Digit (CL.Argument (i + 1)(1))) then declare use int_IO; last : Positive; begin i := i + 1; Get (CL.Argument (i), nframe, last); end; end if; if CD.INDRIVE (CD.SDL_CDStatus (cdrom)) then if CD.CDPlayTracks (cdrom, strack, sframe, ntrack, nframe) < 0 then Put_Line ("Couldn't play tracks " & C.int'Image (strack) & " " & C.int'Image (sframe) & " " & C.int'Image (ntrack) & " " & C.int'Image (nframe) & " " & Er.Get_Error); end if; else Put_Line ("No CD in drive!"); end if; end; -- declare elsif CL.Argument (i) = "-pause" then if CD.CDPause (cdrom) < 0 then Put_Line ("Couldn't pause CD: " & Er.Get_Error); end if; elsif CL.Argument (i) = "-resume" then if CD.CDResume (cdrom) < 0 then Put_Line ("Couldn't resume CD: " & Er.Get_Error); end if; elsif CL.Argument (i) = "-stop" then if CD.CDStop (cdrom) < 0 then Put_Line ("Couldn't eject CD: " & Er.Get_Error); end if; elsif CL.Argument (i) = "-eject" then if CD.CDEject (cdrom) < 0 then Put_Line ("Couldn't eject CD: " & Er.Get_Error); end if; elsif (CL.Argument (i) = "-sleep") and ((i + 1 <= CL.Argument_Count) and then CH.Is_Digit (CL.Argument (i + 1)(1))) then declare use int_IO; last : Positive; the_delay : C.int; begin i := i + 1; Get (CL.Argument (i), the_delay, last); T.SDL_Delay (Uint32 (the_delay)); Put_Line ("Delayed " & C.int'Image (the_delay) & " milliseconds"); end; else PrintUsage (CL.Command_Name); CD.CDClose (cdrom); GNAT.OS_Lib.OS_Exit (1); end if; i := i + 1; end loop; PrintStatus (drive, cdrom); CD.CDClose (cdrom); GNAT.OS_Lib.OS_Exit (0); end TestCdrom;

-- This spec has been automatically generated from STM32F427x.svd pragma Restrictions (No_Elaboration_Code); pragma Ada_2012; with System; with HAL; package STM32_SVD.SYSCFG is pragma Preelaborate; --------------- -- Registers -- --------------- -------------------- -- MEMRM_Register -- -------------------- subtype MEMRM_MEM_MODE_Field is HAL.UInt2; -- memory remap register type MEMRM_Register is record -- MEM_MODE MEM_MODE : MEMRM_MEM_MODE_Field := 16#0#; -- unspecified Reserved_2_31 : HAL.UInt30 := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for MEMRM_Register use record MEM_MODE at 0 range 0 .. 1; Reserved_2_31 at 0 range 2 .. 31; end record; ------------------ -- PMC_Register -- ------------------ -- peripheral mode configuration register type PMC_Register is record -- unspecified Reserved_0_15 : HAL.Short := 16#0#; -- ADC1DC2 ADC1DC2 : Boolean := False; -- ADC2DC2 ADC2DC2 : Boolean := False; -- ADC3DC2 ADC3DC2 : Boolean := False; -- unspecified Reserved_19_22 : HAL.UInt4 := 16#0#; -- Ethernet PHY interface selection MII_RMII_SEL : Boolean := False; -- unspecified Reserved_24_31 : HAL.Byte := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for PMC_Register use record Reserved_0_15 at 0 range 0 .. 15; ADC1DC2 at 0 range 16 .. 16; ADC2DC2 at 0 range 17 .. 17; ADC3DC2 at 0 range 18 .. 18; Reserved_19_22 at 0 range 19 .. 22; MII_RMII_SEL at 0 range 23 .. 23; Reserved_24_31 at 0 range 24 .. 31; end record; ---------------------- -- EXTICR1_Register -- ---------------------- ------------------ -- EXTICR1.EXTI -- ------------------ -- EXTICR1_EXTI array element subtype EXTICR1_EXTI_Element is HAL.UInt4; -- EXTICR1_EXTI array type EXTICR1_EXTI_Field_Array is array (0 .. 3) of EXTICR1_EXTI_Element with Component_Size => 4, Size => 16; -- Type definition for EXTICR1_EXTI type EXTICR1_EXTI_Field (As_Array : Boolean := False) is record case As_Array is when False => -- EXTI as a value Val : HAL.Short; when True => -- EXTI as an array Arr : EXTICR1_EXTI_Field_Array; end case; end record with Unchecked_Union, Size => 16; for EXTICR1_EXTI_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- external interrupt configuration register 1 type EXTICR1_Register is record -- EXTI x configuration (x = 0 to 3) EXTI : EXTICR1_EXTI_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.Short := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for EXTICR1_Register use record EXTI at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; ---------------------- -- EXTICR2_Register -- ---------------------- ------------------ -- EXTICR2.EXTI -- ------------------ -- EXTICR2_EXTI array element subtype EXTICR2_EXTI_Element is HAL.UInt4; -- EXTICR2_EXTI array type EXTICR2_EXTI_Field_Array is array (4 .. 7) of EXTICR2_EXTI_Element with Component_Size => 4, Size => 16; -- Type definition for EXTICR2_EXTI type EXTICR2_EXTI_Field (As_Array : Boolean := False) is record case As_Array is when False => -- EXTI as a value Val : HAL.Short; when True => -- EXTI as an array Arr : EXTICR2_EXTI_Field_Array; end case; end record with Unchecked_Union, Size => 16; for EXTICR2_EXTI_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- external interrupt configuration register 2 type EXTICR2_Register is record -- EXTI x configuration (x = 4 to 7) EXTI : EXTICR2_EXTI_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.Short := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for EXTICR2_Register use record EXTI at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; ---------------------- -- EXTICR3_Register -- ---------------------- ------------------ -- EXTICR3.EXTI -- ------------------ -- EXTICR3_EXTI array element subtype EXTICR3_EXTI_Element is HAL.UInt4; -- EXTICR3_EXTI array type EXTICR3_EXTI_Field_Array is array (8 .. 11) of EXTICR3_EXTI_Element with Component_Size => 4, Size => 16; -- Type definition for EXTICR3_EXTI type EXTICR3_EXTI_Field (As_Array : Boolean := False) is record case As_Array is when False => -- EXTI as a value Val : HAL.Short; when True => -- EXTI as an array Arr : EXTICR3_EXTI_Field_Array; end case; end record with Unchecked_Union, Size => 16; for EXTICR3_EXTI_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- external interrupt configuration register 3 type EXTICR3_Register is record -- EXTI x configuration (x = 8 to 11) EXTI : EXTICR3_EXTI_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.Short := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for EXTICR3_Register use record EXTI at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; ---------------------- -- EXTICR4_Register -- ---------------------- ------------------ -- EXTICR4.EXTI -- ------------------ -- EXTICR4_EXTI array element subtype EXTICR4_EXTI_Element is HAL.UInt4; -- EXTICR4_EXTI array type EXTICR4_EXTI_Field_Array is array (12 .. 15) of EXTICR4_EXTI_Element with Component_Size => 4, Size => 16; -- Type definition for EXTICR4_EXTI type EXTICR4_EXTI_Field (As_Array : Boolean := False) is record case As_Array is when False => -- EXTI as a value Val : HAL.Short; when True => -- EXTI as an array Arr : EXTICR4_EXTI_Field_Array; end case; end record with Unchecked_Union, Size => 16; for EXTICR4_EXTI_Field use record Val at 0 range 0 .. 15; Arr at 0 range 0 .. 15; end record; -- external interrupt configuration register 4 type EXTICR4_Register is record -- EXTI x configuration (x = 12 to 15) EXTI : EXTICR4_EXTI_Field := (As_Array => False, Val => 16#0#); -- unspecified Reserved_16_31 : HAL.Short := 16#0#; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for EXTICR4_Register use record EXTI at 0 range 0 .. 15; Reserved_16_31 at 0 range 16 .. 31; end record; -------------------- -- CMPCR_Register -- -------------------- -- Compensation cell control register type CMPCR_Register is record -- Read-only. Compensation cell power-down CMP_PD : Boolean; -- unspecified Reserved_1_7 : HAL.UInt7; -- Read-only. READY READY : Boolean; -- unspecified Reserved_9_31 : HAL.UInt23; end record with Volatile_Full_Access, Size => 32, Bit_Order => System.Low_Order_First; for CMPCR_Register use record CMP_PD at 0 range 0 .. 0; Reserved_1_7 at 0 range 1 .. 7; READY at 0 range 8 .. 8; Reserved_9_31 at 0 range 9 .. 31; end record; ----------------- -- Peripherals -- ----------------- -- System configuration controller type SYSCFG_Peripheral is record -- memory remap register MEMRM : MEMRM_Register; -- peripheral mode configuration register PMC : PMC_Register; -- external interrupt configuration register 1 EXTICR1 : EXTICR1_Register; -- external interrupt configuration register 2 EXTICR2 : EXTICR2_Register; -- external interrupt configuration register 3 EXTICR3 : EXTICR3_Register; -- external interrupt configuration register 4 EXTICR4 : EXTICR4_Register; -- Compensation cell control register CMPCR : CMPCR_Register; end record with Volatile; for SYSCFG_Peripheral use record MEMRM at 0 range 0 .. 31; PMC at 4 range 0 .. 31; EXTICR1 at 8 range 0 .. 31; EXTICR2 at 12 range 0 .. 31; EXTICR3 at 16 range 0 .. 31; EXTICR4 at 20 range 0 .. 31; CMPCR at 32 range 0 .. 31; end record; -- System configuration controller SYSCFG_Periph : aliased SYSCFG_Peripheral with Import, Address => SYSCFG_Base; end STM32_SVD.SYSCFG;

----------------------------------------------------------------------- -- util-strings-transforms -- Various Text Transformation Utilities -- Copyright (C) 2001, 2002, 2003, 2009, 2010, 2015, 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 Util.Texts.Transforms; with Ada.Strings.Unbounded; with Ada.Characters.Handling; package Util.Strings.Transforms is pragma Preelaborate; use Ada.Strings.Unbounded; package TR is new Util.Texts.Transforms (Stream => Unbounded_String, Char => Character, Input => String, Put => Ada.Strings.Unbounded.Append, To_Upper => Ada.Characters.Handling.To_Upper, To_Lower => Ada.Characters.Handling.To_Lower); -- Capitalize the string into the result stream. procedure Capitalize (Content : in String; Into : in out Unbounded_String) renames TR.Capitalize; function Capitalize (Content : String) return String renames TR.Capitalize; -- Translate the input string into an upper case string in the result stream. procedure To_Upper_Case (Content : in String; Into : in out Unbounded_String) renames TR.To_Upper_Case; function To_Upper_Case (Content : String) return String renames TR.To_Upper_Case; -- Translate the input string into a lower case string in the result stream. procedure To_Lower_Case (Content : in String; Into : in out Unbounded_String) renames TR.To_Lower_Case; function To_Lower_Case (Content : String) return String renames TR.To_Lower_Case; -- Write in the output stream the value as a \uNNNN encoding form. procedure To_Hex (Into : in out Unbounded_String; Value : in Character) renames TR.To_Hex; -- Escape the content into the result stream using the JavaScript -- escape rules. procedure Escape_Javascript (Content : in String; Into : in out Unbounded_String) renames TR.Escape_Java_Script; function Escape_Javascript (Content : String) return String; -- Escape the content into the result stream using the Java -- escape rules. procedure Escape_Java (Content : in String; Into : in out Unbounded_String) renames TR.Escape_Java; function Escape_Java (Content : String) return String; -- Escape the content into the result stream using the XML -- escape rules: -- '<' -> '<' -- '>' -> '>' -- ''' -> ''' -- '&' -> '&' -- -> '&#nnn;' if Character'Pos >= 128 procedure Escape_Xml (Content : in String; Into : in out Unbounded_String) renames TR.Escape_Xml; function Escape_Xml (Content : String) return String; procedure Translate_Xml_Entity (Entity : in String; Into : in out Unbounded_String) renames TR.Translate_Xml_Entity; procedure Unescape_Xml (Content : in String; Translator : not null access procedure (Entity : in String; Into : in out Unbounded_String) := Translate_Xml_Entity'Access; Into : in out Unbounded_String) renames TR.Unescape_Xml; end Util.Strings.Transforms;

with System; package Init2 is type Small is mod 2**2; for Small'Size use 2; type Count is mod 2**9; for Count'Size use 9; type Arr1 is array (1 .. 3) of Count; pragma Pack (Arr1); for Arr1'Size use 27; for Arr1'Scalar_Storage_Order use System.Low_Order_First; type R1 is record S1 : Small; I : Integer; S2 : Small; A : Arr1; B : Boolean; end record; for R1'Bit_Order use System.Low_Order_First; for R1'Scalar_Storage_Order use System.Low_Order_First; for R1 use record S1 at 0 range 0 .. 1; I at 0 range 2 .. 33; S2 at 0 range 34 .. 35; A at 0 range 36 .. 62; B at 0 range 63 .. 63; end record; for R1'Size use 64; type Arr2 is array (1 .. 3) of Count; pragma Pack (Arr2); for Arr2'Size use 27; for Arr2'Scalar_Storage_Order use System.High_Order_First; type R2 is record S1 : Small; I : Integer; S2 : Small; A : Arr2; B : Boolean; end record; for R2'Bit_Order use System.High_Order_First; for R2'Scalar_Storage_Order use System.High_Order_First; for R2 use record S1 at 0 range 0 .. 1; I at 0 range 2 .. 33; S2 at 0 range 34 .. 35; A at 0 range 36 .. 62; B at 0 range 63 .. 63; end record; for R2'Size use 64; My_R1 : constant R1 := (S1 => 2, I => 16#12345678#, S2 => 1, A => (16#AB#, 16#CD#, 16#EF#), B => True); My_R2 : constant R2 := (S1 => 2, I => 16#12345678#, S2 => 1, A => (16#AB#, 16#CD#, 16#EF#), B => True); end Init2;

-- C64109F.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 ARRAYS THAT ARE COMPONENTS OF RECORDS ARE PASSED CORRECTLY -- TO SUBPROGRAMS. SPECIFICALLY, -- (F) CHECK THAT A FORMAL PARAMETER CAN BE USED AS AN ACTUAL IN -- ANOTHER CALL. -- CPP 8/20/84 WITH REPORT; USE REPORT; PROCEDURE C64109F IS BEGIN TEST ("C64109F", "CHECK THAT ARRAYS WHICH ARE COMPONENTS OF " & "RECORDS ARE PASSED CORRECTLY TO SUBPROGRAMS - " & "FORMAL AS AN ACTUAL"); DECLARE -- (F) TYPE ARRAY_TYPE IS ARRAY (POSITIVE RANGE <>) OF INTEGER; SUBTYPE ARRAY_SUBTYPE IS ARRAY_TYPE (IDENT_INT(1)..IDENT_INT(5)); TYPE RECORD_TYPE IS RECORD I : INTEGER; A : ARRAY_SUBTYPE; END RECORD; REC : RECORD_TYPE := (I => 23, A => (1..3 => 7, 4..5 => 9)); BOOL : BOOLEAN; PROCEDURE P_CALLED (A : IN OUT ARRAY_TYPE) IS BEGIN IF A /= (7, 7, 7, 9, 9) THEN FAILED ("IN OUT PARAM NOT RECEIVED CORRECTLY"); END IF; IF A'FIRST /= 1 OR A'LAST /= 5 THEN FAILED ("BOUNDS WRONG - IN OUT"); END IF; A := (6, 6, 6, 6, 6); END P_CALLED; PROCEDURE P (A : IN OUT ARRAY_TYPE) IS BEGIN P_CALLED (A); END P; FUNCTION F_CALLED (A : ARRAY_SUBTYPE) RETURN BOOLEAN IS GOOD : BOOLEAN; BEGIN GOOD := (A = (7, 7, 7, 9, 9)); IF NOT GOOD THEN FAILED ("IN PARAMETER NOT RECEIVED CORRECTLY"); END IF; IF A'FIRST /= 1 OR A'LAST /= IDENT_INT(5) THEN FAILED ("BOUNDS WRONG - FUNCTION"); END IF; RETURN GOOD; END F_CALLED; FUNCTION F (A : ARRAY_TYPE) RETURN BOOLEAN IS BEGIN RETURN (F_CALLED (A)); END F; PROCEDURE P_OUT_CALLED (A : OUT ARRAY_TYPE) IS BEGIN IF A'FIRST /= 1 OR A'LAST /= 5 THEN FAILED ("BOUNDS WRONG - OUT"); END IF; A := (8, 8, 8, 8, 8); END P_OUT_CALLED; PROCEDURE P_OUT (A : OUT ARRAY_TYPE) IS BEGIN P_OUT_CALLED (A); A := (9, 9, 9, 9, 9); END P_OUT; BEGIN -- (F) P (REC.A); IF REC.A /= (6, 6, 6, 6, 6) THEN FAILED ("IN OUT PARAM NOT RETURNED CORRECTLY"); END IF; REC.A := (7, 7, 7, 9, 9); BOOL := F (REC.A); IF NOT BOOL THEN FAILED ("IN PARAM NOT RETURNED CORRECTLY"); END IF; REC.A := (7, 7, 7, 9, 9); P_OUT (REC.A); IF REC.A /= (9, 9, 9, 9, 9) THEN FAILED ("OUT PARAM NOT RETURNED CORRECTLY - 2"); END IF; END; -- (F) -------------------------------------------- RESULT; END C64109F;

with Ada.Assertions; use Ada.Assertions; package body Memory.Perfect_Prefetch is function Create_Perfect_Prefetch(mem : access Memory_Type'Class) return Perfect_Prefetch_Pointer is result : constant Perfect_Prefetch_Pointer := new Perfect_Prefetch_Type; begin Set_Memory(result.all, mem); return result; end Create_Perfect_Prefetch; function Clone(mem : Perfect_Prefetch_Type) return Memory_Pointer is result : constant Perfect_Prefetch_Pointer := new Perfect_Prefetch_Type'(mem); begin return Memory_Pointer(result); end Clone; procedure Reset(mem : in out Perfect_Prefetch_Type; context : in Natural) is begin Reset(Container_Type(mem), context); mem.pending := 0; end Reset; procedure Read(mem : in out Perfect_Prefetch_Type; address : in Address_Type; size : in Positive) is begin if mem.pending > 0 then Advance(mem, mem.pending); mem.pending := 0; end if; Start(mem); Do_Read(mem, address, size); Commit(mem, mem.pending); end Read; procedure Write(mem : in out Perfect_Prefetch_Type; address : in Address_Type; size : in Positive) is begin Write(Container_Type(mem), address, size); Advance(mem, mem.pending); mem.pending := 0; end Write; procedure Idle(mem : in out Perfect_Prefetch_Type; cycles : in Time_Type) is begin if cycles > mem.pending then mem.pending := 0; else mem.pending := mem.pending - cycles; end if; Advance(mem, cycles); end Idle; function To_String(mem : Perfect_Prefetch_Type) return Unbounded_String is result : Unbounded_String; begin Append(result, "(perfect "); Append(result, To_String(Container_Type(mem))); Append(result, ")"); return result; end To_String; function Get_Cost(mem : Perfect_Prefetch_Type) return Cost_Type is begin return Get_Cost(Container_Type(mem)); end Get_Cost; procedure Generate(mem : in Perfect_Prefetch_Type; sigs : in out Unbounded_String; code : in out Unbounded_String) is begin Assert(False, "Memory.Perfect_Prefetch.Generate not implemented"); end Generate; end Memory.Perfect_Prefetch;

No-one has translated the rtdealer example into Ada yet. Be the first to create rtdealer in Ada and get one free Internet! If you're the author of the Ada binding, this is a great way to get people to use 0MQ in Ada. To submit a new translation email it to zeromq-dev@lists.zeromq.org. Please: * Stick to identical functionality and naming used in examples so that readers can easily compare languages. * You MUST place your name as author in the examples so readers can contact you. * You MUST state in the email that you license your code under the MIT/X11 license. Subscribe to this list at http://lists.zeromq.org/mailman/listinfo/zeromq-dev.

------------------------------------------------------------------------------ -- -- -- Copyright (C) 2015-2017, AdaCore -- -- -- -- Redistribution and use in source and binary forms, with or without -- -- modification, are permitted provided that the following conditions are -- -- met: -- -- 1. Redistributions of source code must retain the above copyright -- -- notice, this list of conditions and the following disclaimer. -- -- 2. 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. -- -- 3. Neither the name of STMicroelectronics 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. -- -- -- -- -- -- This file is based on: -- -- -- -- @file stm32f4xx_hal_adc.c -- -- @author MCD Application Team -- -- @version V1.3.1 -- -- @date 25-March-2015 -- -- @brief Header file of ADC HAL module. -- -- -- -- COPYRIGHT(c) 2014 STMicroelectronics -- ------------------------------------------------------------------------------ with STM32_SVD.ADC; use STM32_SVD.ADC; package body STM32.ADC is procedure Set_Sequence_Position (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Regular_Channel_Rank) with Inline; procedure Set_Sampling_Time (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Sample_Time : Channel_Sampling_Times) with Inline; procedure Set_Injected_Channel_Sequence_Position (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Injected_Channel_Rank) with Inline; procedure Set_Injected_Channel_Offset (This : in out Analog_To_Digital_Converter; Rank : Injected_Channel_Rank; Offset : Injected_Data_Offset) with Inline; ------------ -- Enable -- ------------ procedure Enable (This : in out Analog_To_Digital_Converter) is begin if not This.CR2.ADON then This.CR2.ADON := True; delay until Clock + ADC_Stabilization; end if; end Enable; ------------- -- Disable -- ------------- procedure Disable (This : in out Analog_To_Digital_Converter) is begin This.CR2.ADON := False; end Disable; ------------- -- Enabled -- ------------- function Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.ADON); ---------------------- -- Conversion_Value -- ---------------------- function Conversion_Value (This : Analog_To_Digital_Converter) return UInt16 is begin return This.DR.DATA; end Conversion_Value; --------------------------- -- Data_Register_Address -- --------------------------- function Data_Register_Address (This : Analog_To_Digital_Converter) return System.Address is (This.DR'Address); ------------------------------- -- Injected_Conversion_Value -- ------------------------------- function Injected_Conversion_Value (This : Analog_To_Digital_Converter; Rank : Injected_Channel_Rank) return UInt16 is begin case Rank is when 1 => return This.JDR1.JDATA; when 2 => return This.JDR2.JDATA; when 3 => return This.JDR3.JDATA; when 4 => return This.JDR4.JDATA; end case; end Injected_Conversion_Value; -------------------------------- -- Multimode_Conversion_Value -- -------------------------------- function Multimode_Conversion_Value return UInt32 is (C_ADC_Periph.CDR.Val); -------------------- -- Configure_Unit -- -------------------- procedure Configure_Unit (This : in out Analog_To_Digital_Converter; Resolution : ADC_Resolution; Alignment : Data_Alignment) is begin This.CR1.RES := ADC_Resolution'Enum_Rep (Resolution); This.CR2.ALIGN := Alignment = Left_Aligned; end Configure_Unit; ------------------------ -- Current_Resolution -- ------------------------ function Current_Resolution (This : Analog_To_Digital_Converter) return ADC_Resolution is (ADC_Resolution'Val (This.CR1.RES)); ----------------------- -- Current_Alignment -- ----------------------- function Current_Alignment (This : Analog_To_Digital_Converter) return Data_Alignment is ((if This.CR2.ALIGN then Left_Aligned else Right_Aligned)); --------------------------------- -- Configure_Common_Properties -- --------------------------------- procedure Configure_Common_Properties (Mode : Multi_ADC_Mode_Selections; Prescalar : ADC_Prescalars; DMA_Mode : Multi_ADC_DMA_Modes; Sampling_Delay : Sampling_Delay_Selections) is begin C_ADC_Periph.CCR.MULT := Multi_ADC_Mode_Selections'Enum_Rep (Mode); C_ADC_Periph.CCR.DELAY_k := Sampling_Delay_Selections'Enum_Rep (Sampling_Delay); C_ADC_Periph.CCR.DMA := Multi_ADC_DMA_Modes'Enum_Rep (DMA_Mode); C_ADC_Periph.CCR.ADCPRE := ADC_Prescalars'Enum_Rep (Prescalar); end Configure_Common_Properties; ----------------------------------- -- Configure_Regular_Conversions -- ----------------------------------- procedure Configure_Regular_Conversions (This : in out Analog_To_Digital_Converter; Continuous : Boolean; Trigger : Regular_Channel_Conversion_Trigger; Enable_EOC : Boolean; Conversions : Regular_Channel_Conversions) is begin This.CR2.EOCS := Enable_EOC; This.CR2.CONT := Continuous; This.CR1.SCAN := Conversions'Length > 1; if Trigger.Enabler /= Trigger_Disabled then This.CR2.EXTSEL := External_Events_Regular_Group'Enum_Rep (Trigger.Event); This.CR2.EXTEN := External_Trigger'Enum_Rep (Trigger.Enabler); else This.CR2.EXTSEL := 0; This.CR2.EXTEN := 0; end if; for Rank in Conversions'Range loop declare Conversion : Regular_Channel_Conversion renames Conversions (Rank); begin Configure_Regular_Channel (This, Conversion.Channel, Rank, Conversion.Sample_Time); -- We check the VBat first because that channel is also used for -- the temperature sensor channel on some MCUs, in which case the -- VBat conversion is the only one done. This order reflects that -- hardware behavior. if VBat_Conversion (This, Conversion.Channel) then Enable_VBat_Connection; elsif VRef_TemperatureSensor_Conversion (This, Conversion.Channel) then Enable_VRef_TemperatureSensor_Connection; end if; end; end loop; This.SQR1.L := UInt4 (Conversions'Length - 1); -- biased rep end Configure_Regular_Conversions; ------------------------------------ -- Configure_Injected_Conversions -- ------------------------------------ procedure Configure_Injected_Conversions (This : in out Analog_To_Digital_Converter; AutoInjection : Boolean; Trigger : Injected_Channel_Conversion_Trigger; Enable_EOC : Boolean; Conversions : Injected_Channel_Conversions) is begin This.CR2.EOCS := Enable_EOC; -- Injected channels cannot be converted continuously. The only -- exception is when an injected channel is configured to be converted -- automatically after regular channels in continuous mode. See note in -- RM 13.3.5, pg 390, and "Auto-injection" section on pg 392. This.CR1.JAUTO := AutoInjection; if Trigger.Enabler /= Trigger_Disabled then This.CR2.JEXTEN := External_Trigger'Enum_Rep (Trigger.Enabler); This.CR2.JEXTSEL := External_Events_Injected_Group'Enum_Rep (Trigger.Event); else This.CR2.JEXTEN := 0; This.CR2.JEXTSEL := 0; end if; for Rank in Conversions'Range loop declare Conversion : Injected_Channel_Conversion renames Conversions (Rank); begin Configure_Injected_Channel (This, Conversion.Channel, Rank, Conversion.Sample_Time, Conversion.Offset); -- We check the VBat first because that channel is also used for -- the temperature sensor channel on some MCUs, in which case the -- VBat conversion is the only one done. This order reflects that -- hardware behavior. if VBat_Conversion (This, Conversion.Channel) then Enable_VBat_Connection; elsif VRef_TemperatureSensor_Conversion (This, Conversion.Channel) then Enable_VRef_TemperatureSensor_Connection; end if; end; end loop; This.JSQR.JL := UInt2 (Conversions'Length - 1); -- biased rep end Configure_Injected_Conversions; ---------------------------- -- Enable_VBat_Connection -- ---------------------------- procedure Enable_VBat_Connection is begin C_ADC_Periph.CCR.VBATE := True; end Enable_VBat_Connection; ------------------ -- VBat_Enabled -- ------------------ function VBat_Enabled return Boolean is (C_ADC_Periph.CCR.VBATE); ---------------------------------------------- -- Enable_VRef_TemperatureSensor_Connection -- ---------------------------------------------- procedure Enable_VRef_TemperatureSensor_Connection is begin C_ADC_Periph.CCR.TSVREFE := True; delay until Clock + Temperature_Sensor_Stabilization; end Enable_VRef_TemperatureSensor_Connection; -------------------------------------- -- VRef_TemperatureSensor_Connected -- -------------------------------------- function VRef_TemperatureSensor_Enabled return Boolean is (C_ADC_Periph.CCR.TSVREFE); ---------------------------------- -- Regular_Conversions_Expected -- ---------------------------------- function Regular_Conversions_Expected (This : Analog_To_Digital_Converter) return Natural is (Natural (This.SQR1.L) + 1); ----------------------------------- -- Injected_Conversions_Expected -- ----------------------------------- function Injected_Conversions_Expected (This : Analog_To_Digital_Converter) return Natural is (Natural (This.JSQR.JL) + 1); ----------------------- -- Scan_Mode_Enabled -- ----------------------- function Scan_Mode_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR1.SCAN); --------------------------- -- EOC_Selection_Enabled -- --------------------------- function EOC_Selection_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.EOCS); ------------------------------- -- Configure_Regular_Channel -- ------------------------------- procedure Configure_Regular_Channel (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Regular_Channel_Rank; Sample_Time : Channel_Sampling_Times) is begin Set_Sampling_Time (This, Channel, Sample_Time); Set_Sequence_Position (This, Channel, Rank); end Configure_Regular_Channel; -------------------------------- -- Configure_Injected_Channel -- -------------------------------- procedure Configure_Injected_Channel (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Injected_Channel_Rank; Sample_Time : Channel_Sampling_Times; Offset : Injected_Data_Offset) is begin Set_Sampling_Time (This, Channel, Sample_Time); Set_Injected_Channel_Sequence_Position (This, Channel, Rank); Set_Injected_Channel_Offset (This, Rank, Offset); end Configure_Injected_Channel; ---------------------- -- Start_Conversion -- ---------------------- procedure Start_Conversion (This : in out Analog_To_Digital_Converter) is begin if External_Trigger'Val (This.CR2.EXTEN) /= Trigger_Disabled then return; end if; if Multi_ADC_Mode_Selections'Val (C_ADC_Periph.CCR.MULT) = Independent or else This'Address = STM32_SVD.ADC1_Base then This.CR2.SWSTART := True; end if; end Start_Conversion; ------------------------ -- Conversion_Started -- ------------------------ function Conversion_Started (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.SWSTART); ------------------------------- -- Start_Injected_Conversion -- ------------------------------- procedure Start_Injected_Conversion (This : in out Analog_To_Digital_Converter) is begin This.CR2.JSWSTART := True; end Start_Injected_Conversion; --------------------------------- -- Injected_Conversion_Started -- --------------------------------- function Injected_Conversion_Started (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.JSWSTART); ------------------------------ -- Watchdog_Enable_Channels -- ------------------------------ procedure Watchdog_Enable_Channels (This : in out Analog_To_Digital_Converter; Mode : Multiple_Channels_Watchdog; Low : Watchdog_Threshold; High : Watchdog_Threshold) is begin This.HTR.HT := High; This.LTR.LT := Low; -- see RM 13.3.7, pg 391, table 66 case Mode is when Watchdog_All_Regular_Channels => This.CR1.AWDEN := True; when Watchdog_All_Injected_Channels => This.CR1.JAWDEN := True; when Watchdog_All_Both_Kinds => This.CR1.AWDEN := True; This.CR1.JAWDEN := True; end case; end Watchdog_Enable_Channels; ----------------------------- -- Watchdog_Enable_Channel -- ----------------------------- procedure Watchdog_Enable_Channel (This : in out Analog_To_Digital_Converter; Mode : Single_Channel_Watchdog; Channel : Analog_Input_Channel; Low : Watchdog_Threshold; High : Watchdog_Threshold) is begin This.HTR.HT := High; This.LTR.LT := Low; -- Set then channel This.CR1.AWDCH := Channel; -- Enable single channel mode This.CR1.AWDSGL := True; case Mode is when Watchdog_Single_Regular_Channel => This.CR1.AWDEN := True; when Watchdog_Single_Injected_Channel => This.CR1.JAWDEN := True; when Watchdog_Single_Both_Kinds => This.CR1.AWDEN := True; This.CR1.JAWDEN := True; end case; end Watchdog_Enable_Channel; ---------------------- -- Watchdog_Disable -- ---------------------- procedure Watchdog_Disable (This : in out Analog_To_Digital_Converter) is begin This.CR1.AWDEN := False; This.CR1.JAWDEN := False; -- clearing the single-channel bit (AWGSDL) is not required to disable, -- per the RM table 66, section 13.3.7, pg 391, but seems cleanest This.CR1.AWDSGL := False; end Watchdog_Disable; ---------------------- -- Watchdog_Enabled -- ---------------------- function Watchdog_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR1.AWDEN or This.CR1.JAWDEN); -- per the RM table 66, section 13.3.7, pg 391 ------------------------------- -- Enable_Discontinuous_Mode -- ------------------------------- procedure Enable_Discontinuous_Mode (This : in out Analog_To_Digital_Converter; Regular : Boolean; -- if False, enabling for Injected channels Count : Discontinuous_Mode_Channel_Count) is begin if Regular then This.CR1.JDISCEN := False; This.CR1.DISCEN := True; else -- Injected This.CR1.DISCEN := False; This.CR1.JDISCEN := True; end if; This.CR1.DISCNUM := UInt3 (Count - 1); -- biased end Enable_Discontinuous_Mode; ---------------------------------------- -- Disable_Discontinuous_Mode_Regular -- --------------------------------------- procedure Disable_Discontinuous_Mode_Regular (This : in out Analog_To_Digital_Converter) is begin This.CR1.DISCEN := False; end Disable_Discontinuous_Mode_Regular; ----------------------------------------- -- Disable_Discontinuous_Mode_Injected -- ----------------------------------------- procedure Disable_Discontinuous_Mode_Injected (This : in out Analog_To_Digital_Converter) is begin This.CR1.JDISCEN := False; end Disable_Discontinuous_Mode_Injected; ---------------------------------------- -- Discontinuous_Mode_Regular_Enabled -- ---------------------------------------- function Discontinuous_Mode_Regular_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR1.DISCEN); ----------------------------------------- -- Discontinuous_Mode_Injected_Enabled -- ----------------------------------------- function Discontinuous_Mode_Injected_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR1.JDISCEN); --------------------------- -- AutoInjection_Enabled -- --------------------------- function AutoInjection_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR1.JAUTO); ---------------- -- Enable_DMA -- ---------------- procedure Enable_DMA (This : in out Analog_To_Digital_Converter) is begin This.CR2.DMA := True; end Enable_DMA; ----------------- -- Disable_DMA -- ----------------- procedure Disable_DMA (This : in out Analog_To_Digital_Converter) is begin This.CR2.DMA := False; end Disable_DMA; ----------------- -- DMA_Enabled -- ----------------- function DMA_Enabled (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.DMA); ------------------------------------ -- Enable_DMA_After_Last_Transfer -- ------------------------------------ procedure Enable_DMA_After_Last_Transfer (This : in out Analog_To_Digital_Converter) is begin This.CR2.DDS := True; end Enable_DMA_After_Last_Transfer; ------------------------------------- -- Disable_DMA_After_Last_Transfer -- ------------------------------------- procedure Disable_DMA_After_Last_Transfer (This : in out Analog_To_Digital_Converter) is begin This.CR2.DDS := False; end Disable_DMA_After_Last_Transfer; ------------------------------------- -- DMA_Enabled_After_Last_Transfer -- ------------------------------------- function DMA_Enabled_After_Last_Transfer (This : Analog_To_Digital_Converter) return Boolean is (This.CR2.DDS); ------------------------------------------ -- Multi_Enable_DMA_After_Last_Transfer -- ------------------------------------------ procedure Multi_Enable_DMA_After_Last_Transfer is begin C_ADC_Periph.CCR.DMA := 1; end Multi_Enable_DMA_After_Last_Transfer; ------------------------------------------- -- Multi_Disable_DMA_After_Last_Transfer -- ------------------------------------------- procedure Multi_Disable_DMA_After_Last_Transfer is begin C_ADC_Periph.CCR.DMA := 0; end Multi_Disable_DMA_After_Last_Transfer; ------------------------------------------- -- Multi_DMA_Enabled_After_Last_Transfer -- ------------------------------------------- function Multi_DMA_Enabled_After_Last_Transfer return Boolean is (C_ADC_Periph.CCR.DMA = 1); --------------------- -- Poll_For_Status -- --------------------- procedure Poll_For_Status (This : in out Analog_To_Digital_Converter; Flag : ADC_Status_Flag; Success : out Boolean; Timeout : Time_Span := Time_Span_Last) is Deadline : constant Time := Clock + Timeout; begin Success := False; while Clock < Deadline loop if Status (This, Flag) then Success := True; exit; end if; end loop; end Poll_For_Status; ------------ -- Status -- ------------ function Status (This : Analog_To_Digital_Converter; Flag : ADC_Status_Flag) return Boolean is begin case Flag is when Overrun => return This.SR.OVR; when Regular_Channel_Conversion_Started => return This.SR.STRT; when Injected_Channel_Conversion_Started => return This.SR.JSTRT; when Injected_Channel_Conversion_Complete => return This.SR.JEOC; when Regular_Channel_Conversion_Complete => return This.SR.EOC; when Analog_Watchdog_Event_Occurred => return This.SR.AWD; end case; end Status; ------------------ -- Clear_Status -- ------------------ procedure Clear_Status (This : in out Analog_To_Digital_Converter; Flag : ADC_Status_Flag) is begin case Flag is when Overrun => This.SR.OVR := False; when Regular_Channel_Conversion_Started => This.SR.STRT := False; when Injected_Channel_Conversion_Started => This.SR.JSTRT := False; when Injected_Channel_Conversion_Complete => This.SR.JEOC := False; when Regular_Channel_Conversion_Complete => This.SR.EOC := False; when Analog_Watchdog_Event_Occurred => This.SR.AWD := False; end case; end Clear_Status; ----------------------- -- Enable_Interrupts -- ----------------------- procedure Enable_Interrupts (This : in out Analog_To_Digital_Converter; Source : ADC_Interrupts) is begin case Source is when Overrun => This.CR1.OVRIE := True; when Injected_Channel_Conversion_Complete => This.CR1.JEOCIE := True; when Regular_Channel_Conversion_Complete => This.CR1.EOCIE := True; when Analog_Watchdog_Event => This.CR1.AWDIE := True; end case; end Enable_Interrupts; ----------------------- -- Interrupt_Enabled -- ----------------------- function Interrupt_Enabled (This : Analog_To_Digital_Converter; Source : ADC_Interrupts) return Boolean is begin case Source is when Overrun => return This.CR1.OVRIE; when Injected_Channel_Conversion_Complete => return This.CR1.JEOCIE; when Regular_Channel_Conversion_Complete => return This.CR1.EOCIE; when Analog_Watchdog_Event => return This.CR1.AWDIE; end case; end Interrupt_Enabled; ------------------------ -- Disable_Interrupts -- ------------------------ procedure Disable_Interrupts (This : in out Analog_To_Digital_Converter; Source : ADC_Interrupts) is begin case Source is when Overrun => This.CR1.OVRIE := False; when Injected_Channel_Conversion_Complete => This.CR1.JEOCIE := False; when Regular_Channel_Conversion_Complete => This.CR1.EOCIE := False; when Analog_Watchdog_Event => This.CR1.AWDIE := False; end case; end Disable_Interrupts; ----------------------------- -- Clear_Interrupt_Pending -- ----------------------------- procedure Clear_Interrupt_Pending (This : in out Analog_To_Digital_Converter; Source : ADC_Interrupts) is begin case Source is when Overrun => This.SR.OVR := False; when Injected_Channel_Conversion_Complete => This.SR.JEOC := False; when Regular_Channel_Conversion_Complete => This.SR.EOC := False; when Analog_Watchdog_Event => This.SR.AWD := False; end case; end Clear_Interrupt_Pending; --------------------------- -- Set_Sequence_Position -- --------------------------- procedure Set_Sequence_Position (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Regular_Channel_Rank) is begin case Rank is when 1 .. 6 => This.SQR3.SQ.Arr (Integer (Rank)) := Channel; when 7 .. 12 => This.SQR2.SQ.Arr (Integer (Rank)) := Channel; when 13 .. 16 => This.SQR1.SQ.Arr (Integer (Rank)) := Channel; end case; end Set_Sequence_Position; -------------------------------------------- -- Set_Injected_Channel_Sequence_Position -- -------------------------------------------- procedure Set_Injected_Channel_Sequence_Position (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Rank : Injected_Channel_Rank) is begin This.JSQR.JSQ.Arr (Integer (Rank)) := Channel; end Set_Injected_Channel_Sequence_Position; ----------------------- -- Set_Sampling_Time -- ----------------------- procedure Set_Sampling_Time (This : in out Analog_To_Digital_Converter; Channel : Analog_Input_Channel; Sample_Time : Channel_Sampling_Times) is begin if Channel > 9 then This.SMPR1.SMP.Arr (Natural (Channel)) := Channel_Sampling_Times'Enum_Rep (Sample_Time); else This.SMPR2.SMP.Arr (Natural (Channel)) := Channel_Sampling_Times'Enum_Rep (Sample_Time); end if; end Set_Sampling_Time; --------------------------------- -- Set_Injected_Channel_Offset -- --------------------------------- procedure Set_Injected_Channel_Offset (This : in out Analog_To_Digital_Converter; Rank : Injected_Channel_Rank; Offset : Injected_Data_Offset) is begin case Rank is when 1 => This.JOFR1.JOFFSET1 := Offset; when 2 => This.JOFR2.JOFFSET2 := Offset; when 3 => This.JOFR3.JOFFSET3 := Offset; when 4 => This.JOFR4.JOFFSET4 := Offset; end case; end Set_Injected_Channel_Offset; end STM32.ADC;

------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- I N T E R F A C E S . F O R T R A N -- -- -- -- S p e c -- -- -- -- $Revision: 2 $ -- -- -- -- This specification is adapted from the Ada Reference Manual for use with -- -- GNAT. In accordance with the copyright of that document, you can freely -- -- copy and modify this specification, provided that if you redistribute a -- -- modified version, any changes that you have made are clearly indicated. -- -- -- ------------------------------------------------------------------------------ with Ada.Numerics.Generic_Complex_Types; pragma Elaborate_All (Ada.Numerics.Generic_Complex_Types); package Interfaces.Fortran is pragma Pure (Fortran); type Fortran_Integer is new Integer; type Real is new Float; type Double_Precision is new Long_Float; type Logical is new Boolean; package Single_Precision_Complex_Types is new Ada.Numerics.Generic_Complex_Types (Real); type Complex is new Single_Precision_Complex_Types.Complex; type Imaginary is new Single_Precision_Complex_Types.Imaginary; i : constant Imaginary := Imaginary (Single_Precision_Complex_Types.i); j : constant Imaginary := Imaginary (Single_Precision_Complex_Types.j); type Character_Set is new Character; type Fortran_Character is array (Positive range <>) of Character_Set; pragma Pack (Fortran_Character); function To_Fortran (Item : in Character) return Character_Set; function To_Ada (Item : in Character_Set) return Character; function To_Fortran (Item : in String) return Fortran_Character; function To_Ada (Item : in Fortran_Character) return String; procedure To_Fortran (Item : in String; Target : out Fortran_Character; Last : out Natural); procedure To_Ada (Item : in Fortran_Character; Target : out String; Last : out Natural); end Interfaces.Fortran;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . I N T E R R U P T S . N A M E S -- -- -- -- S p e c -- -- -- -- Copyright (C) 1995-2011, 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/>. -- -- -- ------------------------------------------------------------------------------ -- The standard implementation of this spec contains only dummy interrupt -- names. These dummy entries permit checking out code for correctness of -- semantics, even if interrupts are not supported. -- For specific implementations that fully support interrupts, this package -- spec is replaced by an implementation dependent version that defines the -- interrupts available on the system. package Ada.Interrupts.Names is -- All identifiers in this unit are implementation defined pragma Implementation_Defined; DUMMY_INTERRUPT_1 : constant Interrupt_ID := 1; DUMMY_INTERRUPT_2 : constant Interrupt_ID := 2; end Ada.Interrupts.Names;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . T A S K I N G . A S Y N C _ D E L A Y S -- -- -- -- S p e c -- -- -- -- Copyright (C) 1998-2006, Free Software Foundation, Inc. -- -- -- -- 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. -- -- -- -- -- -- -- -- -- -- -- GNARL was developed by the GNARL team at Florida State University. -- -- Extensive contributions were provided by Ada Core Technologies, Inc. -- -- -- ------------------------------------------------------------------------------ -- This package contains the procedures to implements timeouts (delays) for -- asynchronous select statements. -- Note: the compiler generates direct calls to this interface, via Rtsfind. -- Any changes to this interface may require corresponding compiler changes. package System.Tasking.Async_Delays is -- Suppose the following source code is given: -- select delay When; -- ...continuation for timeout case... -- then abort -- ...abortable part... -- end select; -- The compiler should expand this to the following: -- declare -- DB : aliased Delay_Block; -- begin -- if System.Tasking.Async_Delays.Enqueue_Duration -- (When, DB'Unchecked_Access) -- then -- begin -- A101b : declare -- procedure _clean is -- begin -- System.Tasking.Async_Delays.Cancel_Async_Delay -- (DB'Unchecked_Access); -- return; -- end _clean; -- begin -- abort_undefer.all; -- ...abortable part... -- exception -- when all others => -- declare -- E105b : exception_occurrence; -- begin -- save_occurrence (E105b, get_current_excep.all.all); -- _clean; -- reraise_occurrence_no_defer (E105b); -- end; -- at end -- _clean; -- end A101b; -- exception -- when _abort_signal => -- abort_undefer.all; -- end; -- end if; -- -- if Timed_Out (DB'Unchecked_Access) then -- ...continuation for timeout case... -- end if; -- end; ----------------- -- Delay_Block -- ----------------- type Delay_Block is limited private; type Delay_Block_Access is access all Delay_Block; function Enqueue_Duration (T : Duration; D : Delay_Block_Access) return Boolean; -- Enqueue the specified relative delay. Returns True if the delay has -- been enqueued, False if it has already expired. If the delay has been -- enqueued, abort is deferred. procedure Cancel_Async_Delay (D : Delay_Block_Access); -- Cancel the specified asynchronous delay function Timed_Out (D : Delay_Block_Access) return Boolean; pragma Inline (Timed_Out); -- Return True if the delay specified in D has timed out -- There are child units for delays on Ada.Calendar.Time and -- Ada.Real_Time.Time, so that an application will not need to link in -- features that is not using. private type Delay_Block is record Self_Id : Task_Id; -- ID of the calling task Level : ATC_Level_Base; -- Normally Level is the ATC nesting level of the -- async. select statement to which this delay belongs, but -- after a call has been dequeued we set it to -- ATC_Level_Infinity so that the Cancel operation can -- detect repeated calls, and act idempotently. Resume_Time : Duration; -- The absolute wake up time, represented as Duration Timed_Out : Boolean := False; -- Set to true if the delay has timed out Succ, Pred : Delay_Block_Access; -- A double linked list end record; -- The above "overlaying" of Self_ID and Level to hold other -- data that has a non-overlapping lifetime is an unabashed -- hack to save memory. procedure Time_Enqueue (T : Duration; D : Delay_Block_Access); pragma Inline (Time_Enqueue); -- Used by the child units to enqueue delays on the timer queue -- implemented in the body of this package. end System.Tasking.Async_Delays;

package MIDI is procedure Initialize; procedure Update; end MIDI;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS -- -- -- -- S Y S T E M . B B -- -- -- -- S p e c -- -- -- -- Copyright (C) 1999-2002 Universidad Politecnica de Madrid -- -- Copyright (C) 2003-2004 The European Space Agency -- -- Copyright (C) 2003-2021, 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. -- -- -- -- -- -- -- -- -- -- -- -- 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/>. -- -- -- -- GNARL was developed by the GNARL team at Florida State University. -- -- Extensive contributions were provided by Ada Core Technologies, Inc. -- -- -- -- The port of GNARL to bare board targets was initially developed by the -- -- Real-Time Systems Group at the Technical University of Madrid. -- -- -- ------------------------------------------------------------------------------ -- This is the root package of the bare board implementation of the low level -- tasking support for Ravenscar compliant run times. package System.BB is pragma No_Elaboration_Code_All; pragma Pure; -- All of the package specifications in the System.BB hierarchy are system -- independent with the exception of the Parameters package which specifies -- values of constants describing facts about a given system/architecture, -- such as number of interrupt levels or trap vectors. Each box represents -- a package specification, with directly below it the main subprograms -- provided. Lines indicate a dependency of the upper spec on the lower -- one. In addition to the packages listed here, specific ports may define -- specifications for functionality unique to each platform, or to factor -- out common definitions needed in the implementation. -- Most ports will need just two system-specific implementation bodies: -- * s-bbcppr.adb: CPU_Primitives body for each CPU architecture -- * s-bbbosu.adb: Board_Support body for each supported board -- .----------------------------------------------------------. -- | S Y S T E M . O S _ I N T E R F A C E | -- '----------------------------------------------------------' -- | | | | -- | | .-------------------. | | -- | | | BB.Threads.Queues | | | -- | | '-------------------' | | -- | | Insert | | -- | | Extract | | -- | | Change_Priority | | -- | | | | | -- | .------------------. .----------------. | -- | | BB.Board_Support | | BB.Threads | | -- | '------------------' '----------------' | -- | Initialize_Board Thread_Self | -- | Set_Alarm Set_Priority | -- | Read_Clock Get_Priority | -- | Get_Interrupt_Request Sleep/Wakeup | -- | | | | | | | -- .---------------. | .-------------------. .-------------. -- | BB.Interrupts | | | BB.CPU_Primitives | | BB.Time | -- '---------------' | '-------------------' '-------------' -- Attach_Handler | Context_Switch Clock -- Current_Interrupt | Get_Context Delay_Until -- | | Set_Context -- | | Install_Handler -- | | Disable_Interrupts -- | | Enable_Interrupts -- | | | -- .-------------------. .---------------. -- | BB.Parameters |-. | BB.Protection | -- '-------------------' |-. '---------------' -- '-------------------' | Enter_Kernel -- '------------------' Leave_Kernel end System.BB;

with Common_Formal_Containers; use Common_Formal_Containers; package AFRL.CMASI.OperatingRegion.SPARK_Boundary with SPARK_Mode is pragma Annotate (GNATprove, Terminating, SPARK_Boundary); type OperatingRegionAreas is record KeepInAreas : Int64_Vect; KeepOutAreas : Int64_Vect; end record; function Get_Areas (Region : OperatingRegion) return OperatingRegionAreas with Global => null; end AFRL.CMASI.OperatingRegion.SPARK_Boundary;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- S Y S T E M . T R A C E B A C K _ E N T R I E S -- -- -- -- B o d y -- -- -- -- Copyright (C) 2003-2014, 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. -- -- -- ------------------------------------------------------------------------------ pragma Polling (Off); -- We must turn polling off for this unit, because otherwise we get -- elaboration circularities with Ada.Exceptions. pragma Compiler_Unit_Warning; package body System.Traceback_Entries is ------------ -- PC_For -- ------------ function PC_For (TB_Entry : Traceback_Entry) return System.Address is begin return TB_Entry; end PC_For; ------------------ -- TB_Entry_For -- ------------------ function TB_Entry_For (PC : System.Address) return Traceback_Entry is begin return PC; end TB_Entry_For; end System.Traceback_Entries;

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<count>4</count> <item_version>0</item_version> <item>288</item> <item>289</item> <item>290</item> <item>291</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>68</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_26"> <Value> <Obj> <type>0</type> <id>39</id> <name>p_Result_1_i</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>674</lineNumber> <contextFuncName>get</contextFuncName> <contextNormFuncName>get</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> 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<item>301</item> <item>302</item> <item>303</item> </oprand_edges> <opcode>bitconcatenate</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>70</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_29"> <Value> <Obj> <type>0</type> <id>42</id> <name>p_Result_4_i</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>674</lineNumber> <contextFuncName>get</contextFuncName> <contextNormFuncName>get</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> 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<Obj> <type>0</type> <id>43</id> <name>p_Result_4</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;64, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_64_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;64, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879841232</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>64</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>311</item> <item>312</item> <item>313</item> </oprand_edges> <opcode>bitconcatenate</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>71</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_31"> <Value> <Obj> <type>0</type> <id>44</id> <name>tmp_22</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>819</lineNumber> <contextFuncName>operator bool</contextFuncName> <contextNormFuncName>operator_bool</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator bool</second> </first> <second>819</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>0</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>314</item> <item>315</item> <item>316</item> </oprand_edges> <opcode>bitselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>16</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_32"> <Value> <Obj> <type>0</type> <id>45</id> <name>p_Result_s</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>819</lineNumber> <contextFuncName>operator bool</contextFuncName> <contextNormFuncName>operator_bool</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator bool</second> </first> <second>819</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control>auto</control> <opType>xor</opType> <implIndex>auto</implIndex> <coreName>LogicGate</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>74</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>2</count> <item_version>0</item_version> <item>317</item> <item>318</item> </oprand_edges> <opcode>xor</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>17</m_topoIndex> <m_clusterGroupNumber>1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_33"> <Value> <Obj> <type>0</type> <id>46</id> <name>select_ln121</name> <fileName>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>121</lineNumber> <contextFuncName>ethernet_remover</contextFuncName> <contextNormFuncName>ethernet_remover</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</first> <second>ethernet_remover</second> </first> <second>121</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control>auto</control> <opType>select</opType> <implIndex>auto_sel</implIndex> <coreName>Sel</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>73</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>2</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>319</item> <item>320</item> <item>321</item> </oprand_edges> <opcode>select</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.27</m_delay> <m_topoIndex>18</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_34"> <Value> <Obj> <type>0</type> <id>47</id> <name>sendWord_last_V_5</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>145</lineNumber> <contextFuncName>read</contextFuncName> <contextNormFuncName>read</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>read</second> </first> <second>145</second> </item> </second> </item> </inlineStackInfo> <originalName>sendWord.last.V</originalName> <rtlName></rtlName> <control>auto</control> <opType>and</opType> <implIndex>auto</implIndex> <coreName>LogicGate</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>74</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>2</count> <item_version>0</item_version> <item>322</item> <item>323</item> </oprand_edges> <opcode>and</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.12</m_delay> <m_topoIndex>19</m_topoIndex> <m_clusterGroupNumber>1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_35"> <Value> <Obj> <type>0</type> <id>48</id> <name>prevWord_data_V_write_ln134</name> <fileName>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>134</lineNumber> <contextFuncName>ethernet_remover</contextFuncName> <contextNormFuncName>ethernet_remover</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</first> <second>ethernet_remover</second> </first> <second>134</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>1918858089</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>324</item> <item>325</item> <item>532</item> </oprand_edges> <opcode>store</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.38</m_delay> <m_topoIndex>20</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_36"> <Value> <Obj> <type>0</type> <id>49</id> <name>prevWord_keep_V_write_ln134</name> <fileName>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>134</lineNumber> <contextFuncName>ethernet_remover</contextFuncName> <contextNormFuncName>ethernet_remover</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</first> <second>ethernet_remover</second> </first> <second>134</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879215440</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>326</item> <item>327</item> <item>533</item> </oprand_edges> <opcode>store</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.38</m_delay> <m_topoIndex>21</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_37"> <Value> <Obj> <type>0</type> <id>50</id> <name>prevWord_dest_V_write_ln134</name> <fileName>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>134</lineNumber> <contextFuncName>ethernet_remover</contextFuncName> <contextNormFuncName>ethernet_remover</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</first> 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<fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_axi_sdata.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>304</lineNumber> <contextFuncName>write</contextFuncName> <contextNormFuncName>write</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_axi_sdata.h</first> <second>write</second> </first> <second>304</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control>auto</control> <opType>adapter</opType> <implIndex>axi4stream</implIndex> <coreName>axis</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>123</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>11</count> <item_version>0</item_version> <item>330</item> <item>331</item> <item>332</item> <item>333</item> <item>334</item> <item>335</item> <item>336</item> <item>337</item> <item>338</item> <item>339</item> <item>340</item> </oprand_edges> <opcode>write</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>72</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_39"> <Value> <Obj> <type>0</type> <id>52</id> <name>br_ln136</name> <fileName>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB/..//hls/packet_handler/packet_handler.cpp</fileName> 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<coreId>176</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>0</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>341</item> </oprand_edges> <opcode>br</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.45</m_delay> <m_topoIndex>23</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_40"> <Value> <Obj> <type>0</type> <id>54</id> <name>tmp_i_16</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>136</lineNumber> <contextFuncName>empty</contextFuncName> <contextNormFuncName>empty</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> 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<contextFuncName>read</contextFuncName> <contextNormFuncName>read</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>read</second> </first> <second>145</second> </item> </second> </item> </inlineStackInfo> <originalName>sendWord.data.V</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>1869377280</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>512</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>139</item> </oprand_edges> <opcode>trunc</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>35</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_53"> <Value> <Obj> <type>0</type> <id>70</id> <name>sendWord_keep_V_4</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>145</lineNumber> <contextFuncName>read</contextFuncName> <contextNormFuncName>read</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>read</second> </first> <second>145</second> </item> </second> </item> </inlineStackInfo> <originalName>sendWord.keep.V</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879619944</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>64</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>141</item> <item>142</item> <item>144</item> <item>146</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>36</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_54"> <Value> <Obj> <type>0</type> <id>71</id> <name>sendWord_last_V</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>145</lineNumber> <contextFuncName>read</contextFuncName> <contextNormFuncName>read</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>read</second> </first> <second>145</second> </item> </second> </item> </inlineStackInfo> <originalName>sendWord.last.V</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879621288</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>148</item> <item>149</item> <item>151</item> </oprand_edges> <opcode>bitselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>37</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_55"> <Value> <Obj> <type>0</type> <id>72</id> <name>sendWord_dest_V</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>145</lineNumber> <contextFuncName>read</contextFuncName> <contextNormFuncName>read</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/hls_stream_39.h</first> <second>read</second> </first> <second>145</second> </item> </second> </item> </inlineStackInfo> <originalName>sendWord.dest.V</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>1600877167</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>3</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>153</item> <item>154</item> <item>156</item> <item>158</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>1</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>38</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_56"> <Value> <Obj> <type>0</type> <id>73</id> <name>icmp_ln1049</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</first> <second>operator==&lt;32, true&gt;</second> </first> <second>1049</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control>auto</control> <opType>icmp</opType> <implIndex>auto</implIndex> <coreName>Cmp</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>9</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>2</count> <item_version>0</item_version> <item>159</item> <item>161</item> </oprand_edges> <opcode>icmp</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>1</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.49</m_delay> <m_topoIndex>39</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_57"> <Value> <Obj> <type>0</type> <id>74</id> <name>p_Result_1</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;512, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_512_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;512, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>0</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>400</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>163</item> <item>164</item> <item>166</item> <item>168</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>40</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_58"> <Value> <Obj> <type>0</type> <id>75</id> <name>zext_ln414_2</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;512, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_512_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;512, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879513712</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>512</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>169</item> </oprand_edges> <opcode>zext</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>41</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_59"> <Value> <Obj> <type>0</type> <id>76</id> <name>p_Result_2</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;64, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_64_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;64, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName>__Result__</originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>0</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>50</bitwidth> </Value> <oprand_edges> <count>4</count> <item_version>0</item_version> <item>171</item> <item>172</item> <item>174</item> <item>175</item> </oprand_edges> <opcode>partselect</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>42</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_60"> <Value> <Obj> <type>0</type> <id>77</id> <name>zext_ln414_3</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>414</lineNumber> <contextFuncName>operator=&lt;64, false&gt;</contextFuncName> <contextNormFuncName>operator_assign_64_false</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_ref.h</first> <second>operator=&lt;64, false&gt;</second> </first> <second>414</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control></control> <opType></opType> <implIndex></implIndex> <coreName></coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>3879854456</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>64</bitwidth> </Value> <oprand_edges> <count>1</count> <item_version>0</item_version> <item>176</item> </oprand_edges> <opcode>zext</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>43</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_61"> <Value> <Obj> <type>0</type> <id>78</id> <name>select_ln1049</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</first> <second>operator==&lt;32, true&gt;</second> </first> <second>1049</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control>auto</control> <opType>select</opType> <implIndex>auto_sel</implIndex> <coreName>Sel</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>73</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>2</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>177</item> <item>178</item> <item>179</item> </oprand_edges> <opcode>select</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>1</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.27</m_delay> <m_topoIndex>44</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_62"> <Value> <Obj> <type>0</type> <id>79</id> <name>sendWord_data_V</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</first> <second>operator==&lt;32, true&gt;</second> </first> <second>1049</second> </item> </second> </item> </inlineStackInfo> <originalName>sendWord.data.V</originalName> <rtlName></rtlName> <control>auto</control> <opType>select</opType> <implIndex>auto_sel</implIndex> <coreName>Sel</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>73</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>512</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>180</item> <item>181</item> <item>182</item> </oprand_edges> <opcode>select</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.57</m_delay> <m_topoIndex>45</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_63"> <Value> <Obj> <type>0</type> <id>80</id> <name>sendWord_keep_V</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</first> <second>operator==&lt;32, true&gt;</second> </first> <second>1049</second> </item> </second> </item> </inlineStackInfo> <originalName>sendWord.keep.V</originalName> <rtlName></rtlName> <control>auto</control> <opType>select</opType> <implIndex>auto_sel</implIndex> <coreName>Sel</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>73</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>64</bitwidth> </Value> <oprand_edges> <count>3</count> <item_version>0</item_version> <item>183</item> <item>184</item> <item>185</item> </oprand_edges> <opcode>select</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.41</m_delay> <m_topoIndex>46</m_topoIndex> <m_clusterGroupNumber>-1</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_64"> <Value> <Obj> <type>0</type> <id>81</id> <name>xor_ln1049</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> <item_version>0</item_version> <item> <first> <first>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</first> <second>operator==&lt;32, true&gt;</second> </first> <second>1049</second> </item> </second> </item> </inlineStackInfo> <originalName></originalName> <rtlName></rtlName> <control>auto</control> <opType>xor</opType> <implIndex>auto</implIndex> <coreName>LogicGate</coreName> <isStorage>0</isStorage> <storageDepth>0</storageDepth> <coreId>74</coreId> <rtlModuleName></rtlModuleName> </Obj> <bitwidth>1</bitwidth> </Value> <oprand_edges> <count>2</count> <item_version>0</item_version> <item>186</item> <item>188</item> </oprand_edges> <opcode>xor</opcode> <m_Display>0</m_Display> <m_isOnCriticalPath>0</m_isOnCriticalPath> <m_isLCDNode>0</m_isLCDNode> <m_isStartOfPath>0</m_isStartOfPath> <m_delay>0.00</m_delay> <m_topoIndex>47</m_topoIndex> <m_clusterGroupNumber>2</m_clusterGroupNumber> </item> <item class_id_reference="9" object_id="_65"> <Value> <Obj> <type>0</type> <id>82</id> <name>sendWord_last_V_4</name> <fileName>/tools/Xilinx/Vitis_HLS/2021.1/common/technology/autopilot/ap_int_base.h</fileName> <fileDirectory>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</fileDirectory> <lineNumber>1049</lineNumber> <contextFuncName>operator==&lt;32, true&gt;</contextFuncName> <contextNormFuncName>operator_eq_32_true</contextNormFuncName> <inlineStackInfo> <count>1</count> <item_version>0</item_version> <item> <first>/home/ubuntu/xup_vitis_network_example/NetLayers/100G-fpga-network-stack-core/synthesis_results_HMB</first> <second> <count>1</count> 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class_id_reference="28" object_id="_448"> <id>96</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_449"> <id>97</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_450"> <id>98</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_451"> <id>99</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_452"> <id>101</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_453"> <id>102</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_454"> <id>103</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_455"> <id>105</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_456"> <id>106</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_457"> <id>2</id> <operations> <count>13</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_458"> <id>23</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_459"> <id>24</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_460"> <id>25</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_461"> <id>26</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_462"> <id>27</id> <stage>2</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_463"> <id>38</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_464"> <id>39</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_465"> <id>41</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_466"> <id>43</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_467"> <id>51</id> <stage>2</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_468"> <id>62</id> <stage>2</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_469"> <id>87</id> <stage>2</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_470"> <id>92</id> <stage>2</stage> <latency>2</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_471"> <id>3</id> <operations> <count>7</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_472"> <id>27</id> <stage>1</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_473"> <id>51</id> <stage>1</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_474"> <id>62</id> <stage>1</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_475"> <id>87</id> <stage>1</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_476"> <id>88</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_477"> <id>92</id> <stage>1</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_478"> <id>108</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> </states> <transitions class_id="29" tracking_level="0" version="0"> <count>2</count> <item_version>0</item_version> <item class_id="30" tracking_level="1" version="0" object_id="_479"> <inState>1</inState> <outState>2</outState> <condition class_id="31" tracking_level="0" version="0"> <id>-1</id> <sop class_id="32" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="33" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_480"> <inState>2</inState> <outState>3</outState> <condition> <id>-1</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> </transitions> </fsm> <res class_id="-1"></res> <node_label_latency class_id="35" tracking_level="0" version="0"> <count>77</count> <item_version>0</item_version> <item class_id="36" tracking_level="0" version="0"> <first>17</first> <second class_id="37" tracking_level="0" version="0"> <first>0</first> <second>0</second> </second> </item> <item> <first>18</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>19</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>20</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>21</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>23</first> <second> <first>1</first> <second>0</second> </second> </item> <item> <first>24</first> <second> <first>1</first> <second>0</second> </second> </item> <item> <first>25</first> <second> <first>1</first> <second>0</second> </second> </item> <item> <first>26</first> <second> <first>1</first> <second>0</second> </second> </item> <item> <first>27</first> <second> <first>1</first> <second>1</second> </second> </item> <item> <first>28</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>30</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>31</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>33</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>34</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>35</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>36</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>37</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>38</first> <second> <first>1</first> <second>0</second> </second> </item> <item> <first>39</first> <second> <first>1</first> <second>0</second> </second> </item> <item> <first>40</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>41</first> <second> <first>1</first> <second>0</second> </second> </item> <item> <first>42</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>43</first> <second> <first>1</first> <second>0</second> </second> </item> <item> <first>44</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>45</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>46</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>47</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>48</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>49</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>50</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>51</first> <second> <first>1</first> <second>1</second> </second> </item> <item> <first>52</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>54</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>55</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>57</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>58</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>59</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>60</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>61</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>62</first> <second> <first>1</first> <second>1</second> </second> </item> <item> <first>63</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>65</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>66</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>68</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>69</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>70</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>71</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>72</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>73</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>74</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>75</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>76</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>77</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>78</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>79</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>80</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>81</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>82</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>83</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>85</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>87</first> <second> <first>1</first> <second>1</second> </second> </item> <item> <first>88</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>90</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>92</first> <second> <first>1</first> <second>1</second> </second> </item> <item> <first>93</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>95</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>96</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>97</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>98</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>99</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>101</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>102</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>103</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>105</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>106</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>108</first> <second> <first>2</first> <second>0</second> </second> </item> </node_label_latency> <bblk_ent_exit class_id="38" tracking_level="0" version="0"> <count>16</count> <item_version>0</item_version> <item class_id="39" tracking_level="0" version="0"> <first>22</first> <second class_id="40" tracking_level="0" version="0"> <first>0</first> <second>0</second> </second> </item> <item> <first>29</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>32</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>53</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>56</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>64</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>67</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>84</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>86</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>89</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>91</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>94</first> <second> <first>0</first> <second>2</second> </second> </item> <item> <first>100</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>104</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>107</first> <second> <first>0</first> <second>0</second> </second> </item> <item> <first>109</first> <second> <first>2</first> <second>2</second> </second> </item> </bblk_ent_exit> <regions class_id="41" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="42" tracking_level="1" version="0" object_id="_481"> <region_name>ethernet_remover</region_name> <basic_blocks> <count>16</count> <item_version>0</item_version> <item>22</item> <item>29</item> <item>32</item> <item>53</item> <item>56</item> <item>64</item> <item>67</item> <item>84</item> <item>86</item> <item>89</item> <item>91</item> <item>94</item> <item>100</item> <item>104</item> <item>107</item> <item>109</item> </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>3</pipe_depth> <mDBIIViolationVec class_id="43" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </mDBIIViolationVec> </item> </regions> <dp_fu_nodes class_id="44" tracking_level="0" version="0"> <count>45</count> <item_version>0</item_version> <item class_id="45" tracking_level="0" version="0"> <first>102</first> <second> <count>3</count> <item_version>0</item_version> <item>30</item> <item>54</item> <item>65</item> </second> </item> <item> <first>110</first> <second> <count>3</count> <item_version>0</item_version> <item>33</item> <item>57</item> <item>68</item> </second> </item> <item> <first>116</first> <second> <count>10</count> <item_version>0</item_version> <item>27</item> <item>27</item> <item>51</item> <item>51</item> <item>62</item> <item>62</item> <item>87</item> <item>87</item> <item>92</item> <item>92</item> </second> </item> <item> <first>141</first> <second> <count>1</count> <item_version>0</item_version> <item>95</item> </second> </item> <item> <first>151</first> <second> <count>1</count> <item_version>0</item_version> <item>101</item> </second> </item> <item> <first>178</first> <second> <count>1</count> <item_version>0</item_version> <item>102</item> </second> </item> <item> <first>203</first> <second> <count>3</count> <item_version>0</item_version> <item>35</item> <item>59</item> <item>70</item> </second> </item> <item> <first>213</first> <second> <count>3</count> <item_version>0</item_version> <item>36</item> <item>60</item> <item>71</item> </second> </item> <item> <first>223</first> <second> <count>3</count> <item_version>0</item_version> <item>37</item> <item>61</item> <item>72</item> </second> </item> <item> <first>233</first> <second> <count>2</count> <item_version>0</item_version> <item>23</item> <item>38</item> </second> </item> <item> <first>242</first> <second> <count>2</count> <item_version>0</item_version> <item>25</item> <item>39</item> </second> </item> <item> <first>256</first> <second> <count>1</count> <item_version>0</item_version> <item>17</item> </second> </item> <item> <first>260</first> <second> <count>1</count> <item_version>0</item_version> <item>18</item> </second> </item> <item> <first>264</first> <second> <count>1</count> <item_version>0</item_version> <item>19</item> </second> </item> <item> <first>268</first> <second> <count>1</count> <item_version>0</item_version> <item>20</item> </second> </item> <item> <first>272</first> <second> <count>1</count> <item_version>0</item_version> <item>34</item> </second> </item> <item> <first>276</first> <second> <count>1</count> <item_version>0</item_version> <item>40</item> </second> </item> <item> <first>280</first> <second> <count>1</count> <item_version>0</item_version> <item>42</item> </second> </item> <item> <first>290</first> <second> <count>1</count> <item_version>0</item_version> <item>44</item> </second> </item> <item> <first>298</first> <second> <count>1</count> <item_version>0</item_version> <item>45</item> </second> </item> <item> <first>304</first> <second> <count>1</count> <item_version>0</item_version> <item>46</item> </second> </item> <item> <first>313</first> <second> <count>1</count> <item_version>0</item_version> <item>47</item> </second> </item> <item> <first>319</first> <second> <count>1</count> 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<item> <first>write</first> <second> <count>5</count> <item_version>0</item_version> <item>92</item> <item>87</item> <item>62</item> <item>51</item> <item>27</item> </second> </item> </second> </item> <item> <first>m_axis_V_strb_V</first> <second> <count>1</count> <item_version>0</item_version> <item> <first>write</first> <second> <count>5</count> <item_version>0</item_version> <item>92</item> <item>87</item> <item>62</item> <item>51</item> <item>27</item> </second> </item> </second> </item> </dp_port_io_nodes> <port2core> <count>1</count> <item_version>0</item_version> <item> <first>10</first> <second> <first>1150</first> <second>7</second> </second> </item> </port2core> <node2core> <count>20</count> <item_version>0</item_version> <item> <first>27</first> <second> <first>888</first> <second>111</second> </second> </item> <item> <first>30</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>33</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>45</first> <second> <first>25</first> <second>0</second> </second> </item> <item> <first>46</first> <second> <first>49</first> <second>107</second> </second> </item> <item> <first>47</first> <second> <first>23</first> <second>0</second> </second> </item> <item> <first>51</first> <second> <first>888</first> <second>111</second> </second> </item> <item> <first>54</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>57</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>62</first> <second> <first>888</first> <second>111</second> </second> </item> <item> <first>65</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>68</first> <second> <first>1150</first> <second>7</second> </second> </item> <item> <first>73</first> <second> <first>45</first> <second>0</second> </second> </item> <item> <first>78</first> <second> <first>49</first> <second>107</second> </second> </item> <item> <first>79</first> <second> <first>49</first> <second>107</second> </second> </item> <item> <first>80</first> <second> <first>49</first> <second>107</second> </second> </item> <item> <first>81</first> <second> <first>25</first> <second>0</second> </second> </item> <item> <first>82</first> <second> <first>24</first> <second>0</second> </second> </item> <item> <first>87</first> <second> <first>888</first> <second>111</second> </second> </item> <item> <first>92</first> <second> <first>888</first> <second>111</second> </second> </item> </node2core> </syndb> </boost_serialization>

--- src/anet-sockets-inet.adb.orig 2019-10-30 14:36:44 UTC +++ src/anet-sockets-inet.adb @@ -69,7 +69,7 @@ package body Anet.Sockets.Inet is Res : C.int; Sock : Thin.Inet.Sockaddr_In_Type (Family => Socket_Families.Family_Inet); - Len : aliased C.int := Sock'Size / 8; + Len : aliased C.int := Thin.Inet.Sockaddr_In_Size; begin New_Socket.Sock_FD := -1; Src := (Addr => Any_Addr, @@ -116,7 +116,7 @@ package body Anet.Sockets.Inet is Res : C.int; Sock : Thin.Inet.Sockaddr_In_Type (Family => Socket_Families.Family_Inet6); - Len : aliased C.int := Sock'Size / 8; + Len : aliased C.int := Thin.Inet.Sockaddr_In6_Size; begin New_Socket.Sock_FD := -1; Src := (Addr => Any_Addr_V6, @@ -173,7 +173,7 @@ package body Anet.Sockets.Inet is (Result => Thin.C_Bind (S => Socket.Sock_FD, Name => Sockaddr'Address, - Namelen => Sockaddr'Size / 8), + Namelen => Thin.Inet.Sockaddr_In_Size), Message => "Unable to bind IPv4 socket to " & To_String (Address => Address) & "," & Port'Img); end Bind; @@ -200,7 +200,7 @@ package body Anet.Sockets.Inet is (Result => Thin.C_Bind (S => Socket.Sock_FD, Name => Sockaddr'Address, - Namelen => Sockaddr'Size / 8), + Namelen => Thin.Inet.Sockaddr_In6_Size), Message => "Unable to bind IPv6 socket to " & To_String (Address => Address) & "," & Port'Img); end Bind; @@ -220,7 +220,7 @@ package body Anet.Sockets.Inet is (Result => Thin.C_Connect (S => Socket.Sock_FD, Name => Dst'Address, - Namelen => Dst'Size / 8), + Namelen => Thin.Inet.Sockaddr_In_Size), Message => "Unable to connect socket to address " & To_String (Address => Address) & " (" & Port'Img & " )"); end Connect; @@ -240,7 +240,7 @@ package body Anet.Sockets.Inet is (Result => Thin.C_Connect (S => Socket.Sock_FD, Name => Dst'Address, - Namelen => Dst'Size / 8), + Namelen => Thin.Inet.Sockaddr_In6_Size), Message => "Unable to connect socket to address " & To_String (Address => Address) & " (" & Port'Img & " )"); end Connect; @@ -478,7 +478,7 @@ package body Anet.Sockets.Inet is Len => Item'Length, Flags => Constants.Sys.MSG_NOSIGNAL, To => Dst'Address, - Tolen => Dst'Size / 8); + Tolen => Thin.Inet.Sockaddr_In_Size); Errno.Check_Or_Raise (Result => C.int (Res), @@ -510,7 +510,7 @@ package body Anet.Sockets.Inet is Len => Item'Length, Flags => Constants.Sys.MSG_NOSIGNAL, To => Dst'Address, - Tolen => Dst'Size / 8); + Tolen => Thin.Inet.Sockaddr_In6_Size); Errno.Check_Or_Raise (Result => C.int (Res),

-<include_all_series_headers>- with Ada.Unchecked_Conversion; package body -<full_series_name_dots>-.Factory is procedure PutObject (Object : in Avtas.Lmcp.Object.Object_Any; Buffer : in out ByteBuffer); function PackMessage (RootObject : in Avtas.Lmcp.Object.Object_Any; EnableChecksum : in Boolean) return ByteBuffer is -- Allocate space for message, with 15 extra bytes for -- Existence (1 byte), series name (8 bytes), type (4 bytes), version number (2 bytes) MsgSize : constant UInt32 := RootObject.CalculatePackedSize + 15; Buffer : ByteBuffer (HEADER_SIZE + MsgSize + CHECKSUM_SIZE); begin -- add header values Buffer.Put_Int32 (LMCP_CONTROL_STR); Buffer.Put_UInt32 (MsgSize); -- add root object PutObject (RootObject, Buffer); -- add checksum if enabled Buffer.Put_UInt32 (if EnableChecksum then CalculateChecksum (Buffer) else 0); return Buffer; end PackMessage; procedure PutObject (Object : in Avtas.Lmcp.Object.Object_Any; Buffer : in out ByteBuffer) is begin -- If object is null, pack a 0; otherwise, add root object if Object = null then Buffer.Put_Boolean (False); else Buffer.Put_Boolean (True); Buffer.Put_Int64 (Object.GetSeriesNameAsLong); Buffer.Put_UInt32 (Object.GetLmcpType); Buffer.Put_UInt16 (Object.GetSeriesVersion); Object.Pack (Buffer); end if; end PutObject; procedure GetObject (Buffer : in out ByteBuffer; Output : out Avtas.Lmcp.Object.Object_Any) is CtrlStr : Int32; MsgSize : UInt32; MsgExists : Boolean; SeriesId : Int64; MsgType : Uint32; Version : Uint16; begin Output := null; -- default -- TODO: add some kind of warning/error messages for each null case if buffer.Capacity < HEADER_SIZE + CHECKSUM_SIZE then return; end if; Buffer.Get_Int32 (CtrlStr); if CtrlStr /= LMCP_CONTROL_STR then return; end if; Buffer.Get_UInt32 (MsgSize); if Buffer.Capacity < MsgSize then return; end if; if not validate (buffer) then return; end if; Buffer.Get_Boolean (MsgExists); if not MsgExists then return; end if; Buffer.Get_Int64 (SeriesId); Buffer.Get_UInt32 (MsgType); Buffer.Get_UInt16 (Version); Output := CreateObject (SeriesId, MsgType, Version); if Output /= null then Output.Unpack (Buffer); end if; end GetObject; function createObject(seriesId : in Int64; msgType : in UInt32; version: in UInt16) return avtas.lmcp.object.Object_Any is begin -<series_factory_switch>- end createObject; function CalculateChecksum (Buffer : in ByteBuffer) return UInt32 is (Buffer.Checksum (From => 1, To => Buffer.Length - Checksum_Size)); -- We want to compute the checksum of the entire message so we start at -- index 1, but we don't want to include those bytes that either -- will, or already do hold the checksum stored within the message in the -- byte array. That stored checksum is at the very end. function GetObjectSize (Buffer : in ByteBuffer) return UInt32 is Result : UInt32; begin Buffer.Get_UInt32 (Result, First => 5); -- the second UInt32 value in the buffer return Result; end getObjectSize; function Validate (Buffer : in ByteBuffer) return Boolean is Computed_Checksum : UInt32; Existing_Checksum : UInt32; begin Computed_Checksum := CalculateChecksum (Buffer); if Computed_Checksum = 0 then return True; else Buffer.Get_UInt32 (Existing_Checksum, First => Buffer.Length - Checksum_Size + 1); -- the last 4 bytes in the buffer return Computed_Checksum = Existing_Checksum; end if; end Validate; end -<full_series_name_dots>-.Factory;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME LIBRARY COMPONENTS -- -- -- -- S Y S T E M . O S _ V E R S I O N -- -- -- -- S p e c -- -- -- -- Copyright (C) 2010-2020, 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/>. -- -- -- ------------------------------------------------------------------------------ -- This is the VxWorks 653 Partition OS version of this file. If you add an OS -- variant please be sure to update type OS_Version in all variants of this -- file, which is part of the Level A certified run-time libraries. package System.OS_Versions is pragma Pure (System.OS_Versions); type OS_Version is (LynxOS_178, VxWorks_Cert, VxWorks_Cert_RTP, VxWorks_653, VxWorks_MILS); OS : constant OS_Version := VxWorks_653; end System.OS_Versions;

with impact.d3.Shape.convex.internal; -- #include "impact.d3.Shape.convex.internal.polyhedral.box.h" -- #include "BulletCollision/BroadphaseCollision/impact.d3.collision.Proxy.h" // for the types -- #include "LinearMath/impact.d3.Vector.h" package impact.d3.Shape.convex.internal.cylinder -- -- The impact.d3.Shape.convex.internal.cylinder class implements a cylinder shape primitive, centered around the origin. Its central axis aligned -- with the Y axis. impact.d3.Shape.convex.internal.cylinderX is aligned with the X axis and impact.d3.Shape.convex.internal.cylinderZ around the Z axis. -- is type Item is new impact.d3.Shape.convex.internal.item with private; type View is access all Item'Class; overriding procedure calculateLocalInertia (Self : in Item; mass : in math.Real; inertia : out math.Vector_3); overriding function getName (Self : in Item) return String; overriding function localGetSupportingVertexWithoutMargin (Self : in Item; vec : in math.Vector_3) return Math.Vector_3; overriding function localGetSupportingVertex (Self : in Item; vec : in math.Vector_3) return Math.Vector_3; overriding procedure batchedUnitVectorGetSupportingVertexWithoutMargin (Self : in Item; vectors : in Vector_3_array; supportVerticesOut : out Vector_3_array; numVectors : in Integer); function getHalfExtentsWithMargin (Self : in Item) return math.Vector_3; function getHalfExtentsWithoutMargin (Self : in Item) return math.Vector_3; overriding procedure getAabb (Self : in Item; t : in Transform_3d; aabbMin, aabbMax : out math.Vector_3); overriding procedure setMargin (Self : in out Item; collisionMargin : in math.Real); -- procedure calculateLocalInertia (Self : in Item; mass : in math.Real; -- inertia : out math.Vector_3); -- -- Use box inertia. -- // virtual void calculateLocalInertia(impact.d3.Scalar mass,impact.d3.Vector& inertia) const; function getUpAxis (Self : in Item) return Integer; function getRadius (Self : in Item) return math.Real; overriding procedure setLocalScaling (Self : in out Item; scaling : in math.Vector_3); -------------- --- cylinderX -- type cylinderX is new impact.d3.Shape.convex.internal.cylinder.Item with private; overriding function localGetSupportingVertexWithoutMargin (Self : in cylinderX; vec : in math.Vector_3) return Math.Vector_3; overriding procedure batchedUnitVectorGetSupportingVertexWithoutMargin (Self : in cylinderX; vectors : in Vector_3_array; supportVerticesOut : out Vector_3_array; numVectors : in Integer); overriding function getName (Self : in cylinderX) return String; -- virtual const char* getName()const -- { -- return "CylinderX"; -- } overriding function getRadius (Self : in cylinderX) return math.Real; -- virtual impact.d3.Scalar getRadius() const -- { -- return getHalfExtentsWithMargin().getY(); -- } -------------- --- cylinderZ -- type cylinderZ is new impact.d3.Shape.convex.internal.cylinder.Item with private; overriding function localGetSupportingVertexWithoutMargin (Self : in cylinderZ; vec : in math.Vector_3) return Math.Vector_3; overriding procedure batchedUnitVectorGetSupportingVertexWithoutMargin (Self : in cylinderZ; vectors : in Vector_3_array; supportVerticesOut : out Vector_3_array; numVectors : in Integer); overriding function getName (Self : in cylinderZ) return String; -- virtual const char* getName()const -- { -- return "CylinderZ"; -- } overriding function getRadius (Self : in cylinderZ) return math.Real; -- virtual impact.d3.Scalar getRadius() const -- { -- return getHalfExtentsWithMargin().getX(); -- } package Forge is function to_cylinder_Shape (halfExtents : in math.Vector_3) return Item; function to_cylinder_Z_Shape (halfExtents : in math.Vector_3) return cylinderZ; function to_cylinder_X_Shape (halfExtents : in math.Vector_3) return cylinderX; end Forge; private type Item is new impact.d3.Shape.convex.internal.item with record m_upAxis : Integer; end record; type cylinderX is new impact.d3.Shape.convex.internal.cylinder.item with null record; type cylinderZ is new impact.d3.Shape.convex.internal.cylinder.item with null record; end impact.d3.Shape.convex.internal.cylinder;

------------------------------------------------------------------------------ -- -- -- 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. ------------------------------------------------------------------------------ limited with AMF.UML.Combined_Fragments; package AMF.Utp.Determ_Alts is pragma Preelaborate; type Utp_Determ_Alt is limited interface; type Utp_Determ_Alt_Access is access all Utp_Determ_Alt'Class; for Utp_Determ_Alt_Access'Storage_Size use 0; not overriding function Get_Base_Combined_Fragment (Self : not null access constant Utp_Determ_Alt) return AMF.UML.Combined_Fragments.UML_Combined_Fragment_Access is abstract; -- Getter of DetermAlt::base_CombinedFragment. -- not overriding procedure Set_Base_Combined_Fragment (Self : not null access Utp_Determ_Alt; To : AMF.UML.Combined_Fragments.UML_Combined_Fragment_Access) is abstract; -- Setter of DetermAlt::base_CombinedFragment. -- end AMF.Utp.Determ_Alts;

with GID.Buffering; use GID.Buffering; package body GID.Decoding_BMP is procedure Load (image: in out Image_descriptor) is b01, b, br, bg, bb: U8:= 0; x, x_max, y: Natural; -- function Times_257(x: Primary_color_range) return Primary_color_range is pragma Inline(Times_257); begin return 16 * (16 * x) + x; -- this is 257 * x, = 16#0101# * x -- Numbers 8-bit -> no OA warning at instanciation. Returns x if type Primary_color_range is mod 2**8. end Times_257; full_opaque: constant Primary_color_range:= Primary_color_range'Last; -- procedure Pixel_with_palette is pragma Inline(Pixel_with_palette); begin case Primary_color_range'Modulus is when 256 => Put_Pixel( Primary_color_range(image.palette(Integer(b)).red), Primary_color_range(image.palette(Integer(b)).green), Primary_color_range(image.palette(Integer(b)).blue), full_opaque ); when 65_536 => Put_Pixel( Times_257(Primary_color_range(image.palette(Integer(b)).red)), Times_257(Primary_color_range(image.palette(Integer(b)).green)), Times_257(Primary_color_range(image.palette(Integer(b)).blue)), -- Times_257 makes max intensity FF go to FFFF full_opaque ); when others => raise invalid_primary_color_range with "BMP: color range not supported"; end case; end Pixel_with_palette; -- pair: Boolean; bit: Natural range 0..7; -- line_bits: constant Float:= Float(image.width * Positive_32 (image.bits_per_pixel)); padded_line_size: constant Positive:= 4 * Integer(Float'Ceiling(line_bits / 32.0)); unpadded_line_size: constant Positive:= Integer(Float'Ceiling(line_bits / 8.0)); -- (in bytes) begin Attach_Stream(image.buffer, image.stream); y:= 0; while y <= Integer (image.height) - 1 loop x:= 0; x_max:= Integer (image.width) - 1; case image.bits_per_pixel is when 1 => -- B/W bit:= 0; Set_X_Y(x,y); while x <= x_max loop if bit=0 then Get_Byte(image.buffer, b01); end if; b:= (b01 and 16#80#) / 16#80#; Pixel_with_palette; b01:= b01 * 2; -- cannot overflow. if bit=7 then bit:= 0; else bit:= bit + 1; end if; x:= x + 1; end loop; when 4 => -- 16 colour image pair:= True; Set_X_Y(x,y); while x <= x_max loop if pair then Get_Byte(image.buffer, b01); b:= (b01 and 16#F0#) / 16#10#; else b:= (b01 and 16#0F#); end if; pair:= not pair; Pixel_with_palette; x:= x + 1; end loop; when 8 => -- 256 colour image Set_X_Y(x,y); while x <= x_max loop Get_Byte(image.buffer, b); Pixel_with_palette; x:= x + 1; end loop; when 24 => -- RGB, 256 colour per primary colour Set_X_Y(x,y); while x <= x_max loop Get_Byte(image.buffer, bb); Get_Byte(image.buffer, bg); Get_Byte(image.buffer, br); case Primary_color_range'Modulus is when 256 => Put_Pixel( Primary_color_range(br), Primary_color_range(bg), Primary_color_range(bb), full_opaque ); when 65_536 => Put_Pixel( Times_257(Primary_color_range(br)), Times_257(Primary_color_range(bg)), Times_257(Primary_color_range(bb)), -- Times_257 makes max intensity FF go to FFFF full_opaque ); when others => raise invalid_primary_color_range with "BMP: color range not supported"; end case; x:= x + 1; end loop; when others => null; end case; for i in unpadded_line_size + 1 .. padded_line_size loop Get_Byte(image.buffer, b); end loop; y:= y + 1; Feedback((y*100) / Integer (image.height)); end loop; end Load; end GID.Decoding_BMP;

-- SPDX-License-Identifier: Apache-2.0 -- -- Copyright (c) 2017 onox <denkpadje@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 Orka.Transforms.SIMD_Quaternions; with Orka.Transforms.Singles.Vectors; package Orka.Transforms.Singles.Quaternions is new Orka.Transforms.SIMD_Quaternions (Orka.Transforms.Singles.Vectors); pragma Preelaborate (Orka.Transforms.Singles.Quaternions);

-- Auto_Counters_Suite.Unique_Ptrs_Tests -- Unit tests for Auto_Counters Unique_Ptrs package -- Copyright (c) 2016, James Humphry - see LICENSE file for details with AUnit.Assertions; with Unique_Ptrs; package body Auto_Counters_Suite.Unique_Ptrs_Tests is use AUnit.Assertions; Resources_Released : Natural := 0; procedure Deletion_Recorder (X : in out String) is pragma Unreferenced (X); begin Resources_Released := Resources_Released + 1; end Deletion_Recorder; package String_Unique_Ptrs is new Unique_Ptrs(T => String, Delete => Deletion_Recorder); use String_Unique_Ptrs; -------------------- -- Register_Tests -- -------------------- procedure Register_Tests (T: in out Unique_Ptrs_Test) is use AUnit.Test_Cases.Registration; begin Register_Routine (T, Check_Unique_Ptrs'Access, "Check Unique_Ptr"); Register_Routine (T, Check_Unique_Const_Ptrs'Access, "Check Unique_Const_Ptr"); end Register_Tests; ---------- -- Name -- ---------- function Name (T : Unique_Ptrs_Test) return Test_String is pragma Unreferenced (T); begin return Format ("Tests of Unique_Ptrs"); end Name; ------------ -- Set_Up -- ------------ procedure Set_Up (T : in out Unique_Ptrs_Test) is begin null; end Set_Up; ----------------------- -- Check_Unique_Ptrs -- ----------------------- procedure Check_Unique_Ptrs (T : in out Test_Cases.Test_Case'Class) is pragma Unreferenced(T); UP1 : Unique_Ptr := Make_Unique_Ptr(new String'("Hello, World!")); procedure Make_UP_from_Local is S : aliased String := "Test"; UP2 : Unique_Ptr(Element => S'Access); pragma Unreferenced (UP2); begin null; end Make_UP_from_Local; Caught_Make_UP_from_Local : Boolean := False; begin Assert (UP1 = "Hello, World!", "Initialized Unique_Ptr not working"); UP1(6):= ':'; Assert (UP1 = "Hello: World!", "Writing via a Unique_Ptr is not working"); UP1.Get(6):= ','; Assert (UP1 = "Hello, World!", "Writing via Unique_Ptr.Get is not working"); Resources_Released := 0; declare UP3 : Unique_Ptr := Make_Unique_Ptr(new String'("Goodbye, World!")); pragma Unreferenced (UP3); begin null; end; Assert (Resources_Released = 1, "Unique_Ptr did not delete contents when destroyed"); begin Make_UP_from_Local; exception when Unique_Ptr_Error => Caught_Make_UP_from_Local := True; end; Assert(Caught_Make_UP_from_Local, "Failed to identify Unique_Ptr being set to a local"); end Check_Unique_Ptrs; ----------------------------- -- Check_Unique_Const_Ptrs -- ----------------------------- procedure Check_Unique_Const_Ptrs (T : in out Test_Cases.Test_Case'Class) is pragma Unreferenced(T); UCP1 : Unique_Const_Ptr := Make_Unique_Const_Ptr(new String'("Hello, World!")); procedure Make_UCP_from_Local is S : aliased String := "Test"; UP2 : Unique_Const_Ptr(Element => S'Access); pragma Unreferenced (UP2); begin null; end Make_UCP_from_Local; Caught_Make_UCP_from_Local : Boolean := False; begin Assert (UCP1 = "Hello, World!", "Initialized Unique_Const_Ptr not working"); Assert (UCP1.Get.all = "Hello, World!", "Access via Unique_Const_Ptr.Get not working"); Resources_Released := 0; declare UCP3 : Unique_Const_Ptr := Make_Unique_Const_Ptr(new String'("Goodbye, World!")); pragma Unreferenced (UCP3); begin null; end; Assert (Resources_Released = 1, "Unique_Const_Ptr did not delete contents when destroyed"); begin Make_UCP_from_Local; exception when Unique_Ptr_Error => Caught_Make_UCP_from_Local := True; end; Assert(Caught_Make_UCP_from_Local, "Failed to identify Unique_Const_Ptr being set to a local"); end Check_Unique_Const_Ptrs; end Auto_Counters_Suite.Unique_Ptrs_Tests;

----------------------------------------------------------------------- -- babel-Streams -- Stream management -- Copyright (C) 2014, 2015 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. ----------------------------------------------------------------------- package body Babel.Streams.Refs is procedure Copy (From : in Stream_Ref; Into : in Stream_Ref) is use type Babel.Files.Buffers.Buffer_Access; From_Stream : constant Stream_Access := From.Value; Into_Stream : constant Stream_Access := Into.Value; Buffer : Babel.Files.Buffers.Buffer_Access; begin From_Stream.Rewind; loop From_Stream.Read (Buffer); exit when Buffer = null; Into_Stream.Write (Buffer); end loop; end Copy; end Babel.Streams.Refs;

with Control; with Ada.Real_Time;use Ada.Real_Time; package body Blinker is protected body Cmd_Type_Access is procedure Send( Cmd : Command_To_Type ) is --binary semaphore begin Command_Is_New := False; if Command_To.Cmd /= Cmd.Cmd then Command_To := Cmd; Command_Is_New := True; end if; end Send; entry Receive( Cmd : out Command_To_Type) when Command_Is_New is begin Cmd := Command_To; end Receive; end Cmd_Type_Access; task body Blinker_Type is Next_Time : Time := Clock + Milliseconds(250); Blinker_Stopped: Boolean := False; On : Boolean := False; Command : Command_To_Type; begin loop Protected_Command.Receive(Command); --if Command.Receiver = Id then case Command.Cmd is --when QUIT => -- Control.Put_Line("Quit"); -- exit; when START => Blinker_Stopped := False; On := not On; if On then Control.Put_Line("B"& Id_Type'Image(Command.Receiver) & "S"); else Control.Put_Line("B" & Id_Type'Image(Command.Receiver) & "E"); end if; case Id is when R => Control.Toggle_LedR; when L => Control.Toggle_LedL; when E => Control.Toggle_LedL; Control.Toggle_LedR; when others => null; end case; when STOP => if not Blinker_Stopped then Control.Put_Line("ABS"); Blinker_Stopped := True; Control.Off_LedL; Control.Off_LedR; end if; end case; --end if; Next_Time := Next_Time + Milliseconds(250); delay until Next_Time; end loop; end Blinker_Type; end Blinker;

------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . C H A R A C T E R S . W I D E _ L A T I N _ 1 -- -- -- -- 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. -- -- -- ------------------------------------------------------------------------------ -- This package provides definitions analogous to those in the RM defined -- package Ada.Characters.Latin_1 except that the type of the constants -- is Wide_Character instead of Character. The provision of this package -- is in accordance with the implementation permission in RM (A.3.3(27)). package Ada.Characters.Wide_Latin_1 is pragma Pure; ------------------------ -- Control Characters -- ------------------------ NUL : constant Wide_Character := Wide_Character'Val (0); SOH : constant Wide_Character := Wide_Character'Val (1); STX : constant Wide_Character := Wide_Character'Val (2); ETX : constant Wide_Character := Wide_Character'Val (3); EOT : constant Wide_Character := Wide_Character'Val (4); ENQ : constant Wide_Character := Wide_Character'Val (5); ACK : constant Wide_Character := Wide_Character'Val (6); BEL : constant Wide_Character := Wide_Character'Val (7); BS : constant Wide_Character := Wide_Character'Val (8); HT : constant Wide_Character := Wide_Character'Val (9); LF : constant Wide_Character := Wide_Character'Val (10); VT : constant Wide_Character := Wide_Character'Val (11); FF : constant Wide_Character := Wide_Character'Val (12); CR : constant Wide_Character := Wide_Character'Val (13); SO : constant Wide_Character := Wide_Character'Val (14); SI : constant Wide_Character := Wide_Character'Val (15); DLE : constant Wide_Character := Wide_Character'Val (16); DC1 : constant Wide_Character := Wide_Character'Val (17); DC2 : constant Wide_Character := Wide_Character'Val (18); DC3 : constant Wide_Character := Wide_Character'Val (19); DC4 : constant Wide_Character := Wide_Character'Val (20); NAK : constant Wide_Character := Wide_Character'Val (21); SYN : constant Wide_Character := Wide_Character'Val (22); ETB : constant Wide_Character := Wide_Character'Val (23); CAN : constant Wide_Character := Wide_Character'Val (24); EM : constant Wide_Character := Wide_Character'Val (25); SUB : constant Wide_Character := Wide_Character'Val (26); ESC : constant Wide_Character := Wide_Character'Val (27); FS : constant Wide_Character := Wide_Character'Val (28); GS : constant Wide_Character := Wide_Character'Val (29); RS : constant Wide_Character := Wide_Character'Val (30); US : constant Wide_Character := Wide_Character'Val (31); ------------------------------------- -- ISO 646 Graphic Wide_Characters -- ------------------------------------- Space : constant Wide_Character := ' '; -- WC'Val(32) Exclamation : constant Wide_Character := '!'; -- WC'Val(33) Quotation : constant Wide_Character := '"'; -- WC'Val(34) Number_Sign : constant Wide_Character := '#'; -- WC'Val(35) Dollar_Sign : constant Wide_Character := '$'; -- WC'Val(36) Percent_Sign : constant Wide_Character := '%'; -- WC'Val(37) Ampersand : constant Wide_Character := '&'; -- WC'Val(38) Apostrophe : constant Wide_Character := '''; -- WC'Val(39) Left_Parenthesis : constant Wide_Character := '('; -- WC'Val(40) Right_Parenthesis : constant Wide_Character := ')'; -- WC'Val(41) Asterisk : constant Wide_Character := '*'; -- WC'Val(42) Plus_Sign : constant Wide_Character := '+'; -- WC'Val(43) Comma : constant Wide_Character := ','; -- WC'Val(44) Hyphen : constant Wide_Character := '-'; -- WC'Val(45) Minus_Sign : Wide_Character renames Hyphen; Full_Stop : constant Wide_Character := '.'; -- WC'Val(46) Solidus : constant Wide_Character := '/'; -- WC'Val(47) -- Decimal digits '0' though '9' are at positions 48 through 57 Colon : constant Wide_Character := ':'; -- WC'Val(58) Semicolon : constant Wide_Character := ';'; -- WC'Val(59) Less_Than_Sign : constant Wide_Character := '<'; -- WC'Val(60) Equals_Sign : constant Wide_Character := '='; -- WC'Val(61) Greater_Than_Sign : constant Wide_Character := '>'; -- WC'Val(62) Question : constant Wide_Character := '?'; -- WC'Val(63) Commercial_At : constant Wide_Character := '@'; -- WC'Val(64) -- Letters 'A' through 'Z' are at positions 65 through 90 Left_Square_Bracket : constant Wide_Character := '['; -- WC'Val (91) Reverse_Solidus : constant Wide_Character := '\'; -- WC'Val (92) Right_Square_Bracket : constant Wide_Character := ']'; -- WC'Val (93) Circumflex : constant Wide_Character := '^'; -- WC'Val (94) Low_Line : constant Wide_Character := '_'; -- WC'Val (95) Grave : constant Wide_Character := '`'; -- WC'Val (96) LC_A : constant Wide_Character := 'a'; -- WC'Val (97) LC_B : constant Wide_Character := 'b'; -- WC'Val (98) LC_C : constant Wide_Character := 'c'; -- WC'Val (99) LC_D : constant Wide_Character := 'd'; -- WC'Val (100) LC_E : constant Wide_Character := 'e'; -- WC'Val (101) LC_F : constant Wide_Character := 'f'; -- WC'Val (102) LC_G : constant Wide_Character := 'g'; -- WC'Val (103) LC_H : constant Wide_Character := 'h'; -- WC'Val (104) LC_I : constant Wide_Character := 'i'; -- WC'Val (105) LC_J : constant Wide_Character := 'j'; -- WC'Val (106) LC_K : constant Wide_Character := 'k'; -- WC'Val (107) LC_L : constant Wide_Character := 'l'; -- WC'Val (108) LC_M : constant Wide_Character := 'm'; -- WC'Val (109) LC_N : constant Wide_Character := 'n'; -- WC'Val (110) LC_O : constant Wide_Character := 'o'; -- WC'Val (111) LC_P : constant Wide_Character := 'p'; -- WC'Val (112) LC_Q : constant Wide_Character := 'q'; -- WC'Val (113) LC_R : constant Wide_Character := 'r'; -- WC'Val (114) LC_S : constant Wide_Character := 's'; -- WC'Val (115) LC_T : constant Wide_Character := 't'; -- WC'Val (116) LC_U : constant Wide_Character := 'u'; -- WC'Val (117) LC_V : constant Wide_Character := 'v'; -- WC'Val (118) LC_W : constant Wide_Character := 'w'; -- WC'Val (119) LC_X : constant Wide_Character := 'x'; -- WC'Val (120) LC_Y : constant Wide_Character := 'y'; -- WC'Val (121) LC_Z : constant Wide_Character := 'z'; -- WC'Val (122) Left_Curly_Bracket : constant Wide_Character := '{'; -- WC'Val (123) Vertical_Line : constant Wide_Character := '|'; -- WC'Val (124) Right_Curly_Bracket : constant Wide_Character := '}'; -- WC'Val (125) Tilde : constant Wide_Character := '~'; -- WC'Val (126) DEL : constant Wide_Character := Wide_Character'Val (127); -------------------------------------- -- ISO 6429 Control Wide_Characters -- -------------------------------------- IS4 : Wide_Character renames FS; IS3 : Wide_Character renames GS; IS2 : Wide_Character renames RS; IS1 : Wide_Character renames US; Reserved_128 : constant Wide_Character := Wide_Character'Val (128); Reserved_129 : constant Wide_Character := Wide_Character'Val (129); BPH : constant Wide_Character := Wide_Character'Val (130); NBH : constant Wide_Character := Wide_Character'Val (131); Reserved_132 : constant Wide_Character := Wide_Character'Val (132); NEL : constant Wide_Character := Wide_Character'Val (133); SSA : constant Wide_Character := Wide_Character'Val (134); ESA : constant Wide_Character := Wide_Character'Val (135); HTS : constant Wide_Character := Wide_Character'Val (136); HTJ : constant Wide_Character := Wide_Character'Val (137); VTS : constant Wide_Character := Wide_Character'Val (138); PLD : constant Wide_Character := Wide_Character'Val (139); PLU : constant Wide_Character := Wide_Character'Val (140); RI : constant Wide_Character := Wide_Character'Val (141); SS2 : constant Wide_Character := Wide_Character'Val (142); SS3 : constant Wide_Character := Wide_Character'Val (143); DCS : constant Wide_Character := Wide_Character'Val (144); PU1 : constant Wide_Character := Wide_Character'Val (145); PU2 : constant Wide_Character := Wide_Character'Val (146); STS : constant Wide_Character := Wide_Character'Val (147); CCH : constant Wide_Character := Wide_Character'Val (148); MW : constant Wide_Character := Wide_Character'Val (149); SPA : constant Wide_Character := Wide_Character'Val (150); EPA : constant Wide_Character := Wide_Character'Val (151); SOS : constant Wide_Character := Wide_Character'Val (152); Reserved_153 : constant Wide_Character := Wide_Character'Val (153); SCI : constant Wide_Character := Wide_Character'Val (154); CSI : constant Wide_Character := Wide_Character'Val (155); ST : constant Wide_Character := Wide_Character'Val (156); OSC : constant Wide_Character := Wide_Character'Val (157); PM : constant Wide_Character := Wide_Character'Val (158); APC : constant Wide_Character := Wide_Character'Val (159); ----------------------------------- -- Other Graphic Wide_Characters -- ----------------------------------- -- Wide_Character positions 160 (16#A0#) .. 175 (16#AF#) No_Break_Space : constant Wide_Character := Wide_Character'Val (160); NBSP : Wide_Character renames No_Break_Space; Inverted_Exclamation : constant Wide_Character := Wide_Character'Val (161); Cent_Sign : constant Wide_Character := Wide_Character'Val (162); Pound_Sign : constant Wide_Character := Wide_Character'Val (163); Currency_Sign : constant Wide_Character := Wide_Character'Val (164); Yen_Sign : constant Wide_Character := Wide_Character'Val (165); Broken_Bar : constant Wide_Character := Wide_Character'Val (166); Section_Sign : constant Wide_Character := Wide_Character'Val (167); Diaeresis : constant Wide_Character := Wide_Character'Val (168); Copyright_Sign : constant Wide_Character := Wide_Character'Val (169); Feminine_Ordinal_Indicator : constant Wide_Character := Wide_Character'Val (170); Left_Angle_Quotation : constant Wide_Character := Wide_Character'Val (171); Not_Sign : constant Wide_Character := Wide_Character'Val (172); Soft_Hyphen : constant Wide_Character := Wide_Character'Val (173); Registered_Trade_Mark_Sign : constant Wide_Character := Wide_Character'Val (174); Macron : constant Wide_Character := Wide_Character'Val (175); -- Wide_Character positions 176 (16#B0#) .. 191 (16#BF#) Degree_Sign : constant Wide_Character := Wide_Character'Val (176); Ring_Above : Wide_Character renames Degree_Sign; Plus_Minus_Sign : constant Wide_Character := Wide_Character'Val (177); Superscript_Two : constant Wide_Character := Wide_Character'Val (178); Superscript_Three : constant Wide_Character := Wide_Character'Val (179); Acute : constant Wide_Character := Wide_Character'Val (180); Micro_Sign : constant Wide_Character := Wide_Character'Val (181); Pilcrow_Sign : constant Wide_Character := Wide_Character'Val (182); Paragraph_Sign : Wide_Character renames Pilcrow_Sign; Middle_Dot : constant Wide_Character := Wide_Character'Val (183); Cedilla : constant Wide_Character := Wide_Character'Val (184); Superscript_One : constant Wide_Character := Wide_Character'Val (185); Masculine_Ordinal_Indicator : constant Wide_Character := Wide_Character'Val (186); Right_Angle_Quotation : constant Wide_Character := Wide_Character'Val (187); Fraction_One_Quarter : constant Wide_Character := Wide_Character'Val (188); Fraction_One_Half : constant Wide_Character := Wide_Character'Val (189); Fraction_Three_Quarters : constant Wide_Character := Wide_Character'Val (190); Inverted_Question : constant Wide_Character := Wide_Character'Val (191); -- Wide_Character positions 192 (16#C0#) .. 207 (16#CF#) UC_A_Grave : constant Wide_Character := Wide_Character'Val (192); UC_A_Acute : constant Wide_Character := Wide_Character'Val (193); UC_A_Circumflex : constant Wide_Character := Wide_Character'Val (194); UC_A_Tilde : constant Wide_Character := Wide_Character'Val (195); UC_A_Diaeresis : constant Wide_Character := Wide_Character'Val (196); UC_A_Ring : constant Wide_Character := Wide_Character'Val (197); UC_AE_Diphthong : constant Wide_Character := Wide_Character'Val (198); UC_C_Cedilla : constant Wide_Character := Wide_Character'Val (199); UC_E_Grave : constant Wide_Character := Wide_Character'Val (200); UC_E_Acute : constant Wide_Character := Wide_Character'Val (201); UC_E_Circumflex : constant Wide_Character := Wide_Character'Val (202); UC_E_Diaeresis : constant Wide_Character := Wide_Character'Val (203); UC_I_Grave : constant Wide_Character := Wide_Character'Val (204); UC_I_Acute : constant Wide_Character := Wide_Character'Val (205); UC_I_Circumflex : constant Wide_Character := Wide_Character'Val (206); UC_I_Diaeresis : constant Wide_Character := Wide_Character'Val (207); -- Wide_Character positions 208 (16#D0#) .. 223 (16#DF#) UC_Icelandic_Eth : constant Wide_Character := Wide_Character'Val (208); UC_N_Tilde : constant Wide_Character := Wide_Character'Val (209); UC_O_Grave : constant Wide_Character := Wide_Character'Val (210); UC_O_Acute : constant Wide_Character := Wide_Character'Val (211); UC_O_Circumflex : constant Wide_Character := Wide_Character'Val (212); UC_O_Tilde : constant Wide_Character := Wide_Character'Val (213); UC_O_Diaeresis : constant Wide_Character := Wide_Character'Val (214); Multiplication_Sign : constant Wide_Character := Wide_Character'Val (215); UC_O_Oblique_Stroke : constant Wide_Character := Wide_Character'Val (216); UC_U_Grave : constant Wide_Character := Wide_Character'Val (217); UC_U_Acute : constant Wide_Character := Wide_Character'Val (218); UC_U_Circumflex : constant Wide_Character := Wide_Character'Val (219); UC_U_Diaeresis : constant Wide_Character := Wide_Character'Val (220); UC_Y_Acute : constant Wide_Character := Wide_Character'Val (221); UC_Icelandic_Thorn : constant Wide_Character := Wide_Character'Val (222); LC_German_Sharp_S : constant Wide_Character := Wide_Character'Val (223); -- Wide_Character positions 224 (16#E0#) .. 239 (16#EF#) LC_A_Grave : constant Wide_Character := Wide_Character'Val (224); LC_A_Acute : constant Wide_Character := Wide_Character'Val (225); LC_A_Circumflex : constant Wide_Character := Wide_Character'Val (226); LC_A_Tilde : constant Wide_Character := Wide_Character'Val (227); LC_A_Diaeresis : constant Wide_Character := Wide_Character'Val (228); LC_A_Ring : constant Wide_Character := Wide_Character'Val (229); LC_AE_Diphthong : constant Wide_Character := Wide_Character'Val (230); LC_C_Cedilla : constant Wide_Character := Wide_Character'Val (231); LC_E_Grave : constant Wide_Character := Wide_Character'Val (232); LC_E_Acute : constant Wide_Character := Wide_Character'Val (233); LC_E_Circumflex : constant Wide_Character := Wide_Character'Val (234); LC_E_Diaeresis : constant Wide_Character := Wide_Character'Val (235); LC_I_Grave : constant Wide_Character := Wide_Character'Val (236); LC_I_Acute : constant Wide_Character := Wide_Character'Val (237); LC_I_Circumflex : constant Wide_Character := Wide_Character'Val (238); LC_I_Diaeresis : constant Wide_Character := Wide_Character'Val (239); -- Wide_Character positions 240 (16#F0#) .. 255 (16#FF) LC_Icelandic_Eth : constant Wide_Character := Wide_Character'Val (240); LC_N_Tilde : constant Wide_Character := Wide_Character'Val (241); LC_O_Grave : constant Wide_Character := Wide_Character'Val (242); LC_O_Acute : constant Wide_Character := Wide_Character'Val (243); LC_O_Circumflex : constant Wide_Character := Wide_Character'Val (244); LC_O_Tilde : constant Wide_Character := Wide_Character'Val (245); LC_O_Diaeresis : constant Wide_Character := Wide_Character'Val (246); Division_Sign : constant Wide_Character := Wide_Character'Val (247); LC_O_Oblique_Stroke : constant Wide_Character := Wide_Character'Val (248); LC_U_Grave : constant Wide_Character := Wide_Character'Val (249); LC_U_Acute : constant Wide_Character := Wide_Character'Val (250); LC_U_Circumflex : constant Wide_Character := Wide_Character'Val (251); LC_U_Diaeresis : constant Wide_Character := Wide_Character'Val (252); LC_Y_Acute : constant Wide_Character := Wide_Character'Val (253); LC_Icelandic_Thorn : constant Wide_Character := Wide_Character'Val (254); LC_Y_Diaeresis : constant Wide_Character := Wide_Character'Val (255); end Ada.Characters.Wide_Latin_1;

------------------------------------------------------------------------------ -- -- -- GNAT RUNTIME COMPONENTS -- -- -- -- S Y S T E M . G E N E R I C _ C _ M A T H _ I N T E R F A C E -- -- -- -- B o d y -- -- -- -- 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 is the Ada Cert Math specific version of s-gcmain.adb. -- The separate version is necessary, because this system does not provide -- an implementation of tanh, among other hyperbolic functions. The run time -- currently has no code to implement this function, so the only short term -- option was to remove the hyperbolic functions. with Ada.Numerics; use Ada.Numerics; package body System.Generic_C_Math_Interface is subtype T is Float_Type'Base; -- The implementations of these functions start with a summary -- of the Ada requirements for the following: -- * Principal branch of multivalued functions -- * Conditions for raising exceptions -- * Prescribed function results -- * Tightly approximated function results (strict mode only) -- Implementation choices are explained after the summary for each -- elementary function. Exceptions are raised either by checking the -- arguments or the C function result. Prescribed results are satisfied by -- referring to corresponding requirements in C, standard implementation -- practice or by explicit special-casing in the code below. -- If one of the arguments of a function is a NaN, the function will return -- a NaN value or raise Argument_Error. Generally, for functions that -- require Argument_Error to be raised for some arguments will also -- raise Argument_Error for NaN arguments. -- Many comparisons for special cases are inverted using "not" in order -- to make sure the condition is false for NaN values, using the principle -- that any comparison involving a NaN argument evaluates to false. -- Principal branch: -- Describes function result for cases where the mathematical -- function is multivalued. -- Exceptions: -- Describes in what situations exceptions such as -- Argument_Error and Constraint_Error must be raised. -- In addition to these required exceptions, Constraint_Error -- may also be raised instead of yielding an infinity value -- for types T where T'Machine_Overflows is True. -- Prescribed results: -- Describes identities that must be satisfied. -- Tightly approximated results: -- Describes arguments for which the function result must -- be in the model interval of the mathematical result. -- This is required for strict mode. -- Special values: -- These are implementation-defined results arguments with -- special values such as infinities (represented by +Inf and -Inf) -- not-a-number values (written as NaN). Where consistent with the -- Ada standard, the implementation satisfies the identities given -- in Chapter F.9 of the C standard. ---------- -- "**" -- ---------- -- Principle branch: -- The result is nonnegative. -- Required exceptions: -- Argument_Error is raised when Left < 0.0, Left is a NaN -- or when Left = 0.0 and Right = 0.0. -- Constraint_Error is raised when Left = 0.0, and Right < 0.0 or is a -- NaN. -- Prescribed results: -- (1) Left ** 0.0 = 1.0 -- (2) Left ** 1.0 = Left -- (3) 0.0 ** Right = 0.0 -- (4) 1.0 ** Right = 1.0 -- The prescribed result (1) is satisfied by C_Pow. -- Result (2) is not, and therefore is special-cased. -- For case (3) this implementation always returns +0.0, -- while C_Pow would return -0.0 when Left = -0.0 and Right a positive -- odd integer. This would seem inconsistent with the required principle -- branch, although it is debatable whether -0.0 is negative. -- For case (4), C_Pow would return NaN, so a special case is required. function "**" (Left, Right : Float_Type'Base) return Float_Type'Base is begin -- The if statements are structured to ensure NaN parameters cause the -- correct exception to be raised (since a NaN will always fail a -- non-equal comparison test). if not (Left > 0.0) then if not (Left = 0.0) or else not (Right /= 0.0) then raise Argument_Error; elsif not (Right >= 0.0) then raise Constraint_Error; else -- Left = 0.0 and Right > 0.0 return 0.0; end if; elsif Right = 1.0 then return Left; elsif Left = 1.0 then return 1.0; end if; return C_Pow (Left, Right); end "**"; ------------ -- Arccos -- ------------ -- (Natural cycle) -- Principal branch: -- The result is in the quadrant containing the point (X, 1.0). -- This quadrant is I or II; thus, the Arccos function ranges -- from 0.0 to approximately Pi. -- Exceptions: -- Argument_Error is raised when abs (X) > 1.0 -- Tightly approximated results: -- Arccos (0.0) = Pi / 2.0; -- Arccos (1.0) = 0.0; -- Since C mandates a NaN result for abs (X) > 1.0 and testing -- for a NaN only requires a single test without calling the "abs" -- function, the result is checked rather than the argument. function Arccos (X : Float_Type'Base) return Float_Type'Base is R : T; begin R := C_Acos (X); if R /= R then raise Argument_Error; else return R; end if; end Arccos; -- (Arbitrary cycle) -- Principal branch: -- The result is in the quadrant containing the point (X, 1.0). -- This quadrant is I or II; thus, the Arccos function ranges -- from 0.0 to approximately Cycle / 2.0. -- Exceptions: -- Argument_Error is raised when abs (X) > 1.0 or when Cycle <= 0.0 -- or when either parameter is a NaN -- Prescribed results: -- Arccos (1.0) = 0.0 -- Tightly approximated results: -- Arccos (0.0) = Cycle / 4.0 -- Since C mandates a NaN result for abs (X) > 1.0 and testing for a NaN -- only requires a single test without calling the "abs" function, the -- result is checked rather than the argument. The tightly approximated -- result may not be obtained by dividing the C_Acos result by Pi, since -- these are transcedental numbers. function Arccos (X, Cycle : Float_Type'Base) return Float_Type'Base is begin if not (Cycle > 0.0) then raise Argument_Error; elsif not (abs X < 1.0) then if X = 1.0 then return 0.0; elsif X = -1.0 then return Cycle / 2.0; end if; raise Argument_Error; end if; if X = 0.0 then return Cycle / 4.0; end if; return C_Acos (X) / (Pi / 2.0) * (Cycle / 4.0); end Arccos; ------------- -- Arccosh -- ------------- -- Principal branch: -- The result is positive -- Exceptions: -- Argument_Error is raised when X < 1.0 -- Prescribed results: -- Arccosh (1.0) = 0.0; -- General description -- TODO function Arccosh (X : Float_Type'Base) return Float_Type'Base is begin if X < 1.0 then raise Argument_Error; else return C_Acosh (X); end if; end Arccosh; ------------ -- Arccot -- ------------ -- Natural cycle -- Principal branch: -- The results are in the quadrant containing the point (X, Y). -- This may be any quadrant (I through IV) when the parameter Y is -- specified, but it is restricted to quadrants I and II when that -- parameter is omitted. Thus the range when that parameter is -- specified is approximately -Pi to Pi; when omitted the range is -- 0.0 to Pi. -- Exceptions: -- Argument_Error is raised when parameters X and Y both have the -- value zero -- Prescribed results: -- Arccot (X, 0.0) = 0.0 when X > 0.0 function Arccot (X : Float_Type'Base; Y : Float_Type'Base := 1.0) return Float_Type'Base is begin if X = 0.0 and then Y = 0.0 then raise Argument_Error; else -- Just reverse arguments return Arctan (Y, X); end if; end Arccot; -- Arbitrary cycle function Arccot (X : Float_Type'Base; Y : Float_Type'Base := 1.0; Cycle : Float_Type'Base) return Float_Type'Base is begin if X = 0.0 and then Y = 0.0 then raise Argument_Error; else -- Just reverse arguments return Arctan (Y, X, Cycle); end if; end Arccot; ------------- -- Arccoth -- ------------- -- Exceptions: -- Argument_Error is raised if abs (X) < 1.0 -- Constraint_Error is raised if X = +-1.0 function Arccoth (X : Float_Type'Base) return Float_Type'Base is begin if abs X <= 1.0 then if abs X = 1.0 then raise Constraint_Error; else raise Argument_Error; end if; elsif abs X > 2.0 then return C_Atanh (1.0 / X); else -- 1.0 < abs X <= 2.0. One of X + 1.0 and X - 1.0 is exact, the -- other has error 0 or Epsilon. return 0.5 * (C_Log (abs (X + 1.0)) - C_Log (abs (X - 1.0))); end if; end Arccoth; ------------ -- Arcsin -- ------------ -- (Natural cycle) -- Principal branch: -- The result of the Arcsin function is in the quadrant containing the -- the point (1.0, X). This quadrant is I or IV; thus, the range of the -- function is approximately -Pi/2.0 to Pi/2.0. -- Exceptions: -- Argument_Error is raised when abs X > 1.0 or X is a NaN -- Prescribed results: -- Arcsin (0.0) = 0.0 -- Tightly approximated results: -- Arcsin (1.0) = Pi / 2.0 -- Arcsin (-1.0) = -Pi / 2.0 -- The prescribed result is guaranteed by C, but the tightly approximated -- results are not. function Arcsin (X : Float_Type'Base) return Float_Type'Base is Y : constant T := abs X; begin if not (Y < 1.0) then if X = 1.0 then return Pi / 2.0; elsif X = -1.0 then return -Pi / 2.0; else raise Argument_Error; end if; end if; return C_Asin (X); end Arcsin; -- (Arbitrary cycle) -- Principal branch: -- The result of the Arcsin function is in the quadrant containing the -- the point (1.0, X). This quadrant is I or IV; thus, the range of the -- function is approximately -Cycle/4.0 to Cycle/4.0. -- Exceptions: -- Argument_Error is raised when abs X > 1.0 or X is a NaN -- or when Cycle <= 0.0 or Cycle is a NaN -- Prescribed results: -- Arcsin (0.0) = 0.0 -- Tightly approximated results: -- Arcsin (1.0) = Cycle / 4.0 -- Arcsin (-1.0) = -Cycle / 4.0 -- The prescribed result is guaranteed by C, but the tightly approximated -- results are not. function Arcsin (X, Cycle : Float_Type'Base) return Float_Type'Base is Y : constant T := abs X; begin if not (Cycle > 0.0) then raise Argument_Error; elsif not (Y < 1.0) then if X = 1.0 then return Cycle / 4.0; elsif X = -1.0 then return -Cycle / 4.0; else raise Argument_Error; end if; end if; return C_Asin (X) / (Pi / 2.0) * (Cycle / 4.0); end Arcsin; ------------- -- Arcsinh -- ------------- -- Prescribed results: -- Arcsinh (0.0) = 0.0 -- TODO - general description function Arcsinh (X : Float_Type'Base) return Float_Type'Base is (C_Asinh (X)); ------------ -- Arctan -- ------------ -- (Natural cycle) -- Principal branch: -- The results are in the quadrant containing the point (X, Y). -- This may be any quadrant (I through IV) when the parameter X is -- specified, but it is restricted to quadrants I and IV when that -- parameter is omitted. Thus the range when that parameter is -- specified is approximately -Pi to Pi; when omitted the range is -- -Pi/2.0 to Pi/2.0. -- Exceptions: -- Argument_Error is raised when both X and Y have the value zero. -- Prescribed results: -- Arctan ( X, 0.0) = 0.0, when X > 0.0 -- Tightly approximated results: -- Arctan (0.0, Y) = Pi/2.0, when Y > 0.0 -- Arctan (0.0, Y) = -Pi/2.0, when Y < 0.0 -- Arctan ( X, +0.0) = +Pi, when X < 0.0 -- Arctan ( X, -0.0) = -Pi, when X < 0.0 -- The prescribed result and tightly approximated results are all -- guaranteed by C. function Arctan (Y : Float_Type'Base; X : Float_Type'Base := 1.0) return Float_Type'Base is begin if not (X /= 0.0) and then not (Y /= 0.0) then raise Argument_Error; end if; return C_Atan2 (Y, X); end Arctan; -- (Arbitrary cycle) -- Principal branch: -- The results are in the quadrant containing the point (X, Y). -- This may be any quadrant (I through IV) when the parameter X is -- specified, but it is restricted to quadrants I and IV when that -- parameter is omitted. Thus the range when that parameter is -- specified is approximately -Cycle/2.0 to Cycle/2.0; when omitted -- the range is -Cycle/4.0 to Cycle/4.0. -- Exceptions: -- Argument_Error is raised when both X and Y have the value zero, -- or when Cycle <= 0.0 or Cycle is a NaN. -- Prescribed results: -- Arctan ( X, 0.0, Cycle) = 0.0, when X > 0.0 -- Tightly approximated results: -- Arctan (0.0, Y, Cycle) = Cycle/4.0, when Y > 0.0 -- Arctan (0.0, Y, Cycle) = -Cycle/4.0, when Y < 0.0 -- Arctan ( X, +0.0, Cycle) = Cycle/2.0, when X < 0.0 -- Arctan ( X, -0.0, Cycle) = -Cycle/2.0, when X < 0.0 -- The prescribed result and tightly approximated results are all -- guaranteed by C. function Arctan (Y : Float_Type'Base; X : Float_Type'Base := 1.0; Cycle : Float_Type'Base) return Float_Type'Base is begin if not (Cycle > 0.0) then raise Argument_Error; end if; if X = 0.0 then if Y = 0.0 then raise Argument_Error; elsif Y > 0.0 then return Cycle / 4.0; elsif Y < 0.0 then return -Cycle / 4.0; end if; -- Y is a NaN elsif Y = 0.0 then -- X /= 0 if X > 0.0 then return 0.0; elsif X < 0.0 then return T'Copy_Sign (Cycle / 2.0, Y); end if; -- X is a NaN end if; return C_Atan2 (Y, X) * Cycle / (2.0 * Pi); end Arctan; ------------- -- Arctanh -- ------------- -- Exceptions: -- Argument_Error is raised when abs (X) > 1.0 -- Constraint_Error is raised when X = +-1.0 -- Prescribed results: -- Arctanh (0.0) = 0.0 -- TODO - general description function Arctanh (X : Float_Type'Base) return Float_Type'Base is begin if not (abs (X) < 1.0) then if abs (X) = 1.0 then raise Constraint_Error; else raise Argument_Error; end if; else return C_Atanh (X); end if; end Arctanh; --------- -- Cos -- --------- -- (Natural cycle) -- Prescribed results: -- Cos (0.0) = 1.0 -- Special values: -- Cos (X), where X is positive or negative infinity returns NaN value -- The C_Cos function satisfies all requirements function Cos (X : Float_Type'Base) return Float_Type'Base is begin return C_Cos (X); end Cos; -- (Arbitrary cycle) -- Exceptions: -- Argument_Error is raised when Cycle <= 0 -- Prescribed results: -- Cos (X) = 0.0, when X is K * Cycle / 4.0 with odd integer K -- Cos (X) = 1.0, when X is K * Cycle, with integer K -- Cos (X) = -1.0, with X is K * Cycle / 2.0, with odd integer K -- Special values: -- Cos (X), where X is positive or negative infinity returns a -- NaN value. function Cos (X, Cycle : Float_Type'Base) return Float_Type'Base is begin -- Just reuse the code for Sin. The potential small -- loss of speed is negligible with proper (front-end) inlining. return -Sin (abs X - Cycle * 0.25, Cycle); end Cos; ---------- -- Cosh -- ---------- -- Prescribed results: -- Cosh (0.0) = 1.0 -- Tightly approximated results: -- TODO -- TODO - general description function Cosh (X : Float_Type'Base) return Float_Type'Base is (C_Cosh (X)); --------- -- Cot -- --------- -- (natural cycle) -- Exceptions: -- Constraint_Error is raised when X = 0.0 -- As there is no cotangent function defined for C99, it is implemented -- here in terms of the regular tangent function. function Cot (X : Float_Type'Base) return Float_Type'Base is begin if not (X /= 0.0) then raise Constraint_Error; else return 1.0 / C_Tan (X); end if; end Cot; -- (arbitrary cycle) -- Exceptions: -- Argument_Error is raised when Cycle <= 0 -- Constraint_Error is raised when X = K * Cycle / 2.0, with integer K -- Prescribed results: -- Cot (X) = 0.0, when X is K * Cycle / 4.0 with odd integer K -- Special values: -- Cot (X), where X is positive or negative infinity returns NaN value function Cot (X, Cycle : Float_Type'Base) return Float_Type'Base is T, TA : Float_Type'Base; begin if not (Cycle > 0.0) then raise Argument_Error; end if; T := Float_Type'Base'Remainder (X, Cycle) / Cycle; TA := abs T; if not (T /= 0.0 and then TA /= 0.5) then raise Constraint_Error; end if; if TA = 0.25 then return 0.0; end if; return 1.0 / C_Tan (T * 2.0 * Pi); end Cot; ---------- -- Coth -- ---------- -- Exceptions: -- Argument_Error is raised when X = 0. -- Tightly approximated results: -- TODO -- TODO - general description function Coth (X : Float_Type'Base) return Float_Type'Base is begin if not (X /= 0.0) then raise Argument_Error; else return 1.0 / C_Tanh (X); end if; end Coth; --------- -- Exp -- --------- -- Prescribed results: -- Exp (0.0) = 1.0 -- Special values: -- Exp (X) = +0.0, for X is negative infinity -- Exp (X) = X, for X is positive infinity -- and Float_Type'Machine_Overflows = False -- The C_Exp function satisfies all Ada requirements function Exp (X : Float_Type'Base) return Float_Type'Base is begin return C_Exp (X); end Exp; --------- -- Log -- --------- -- (natural base) -- Exceptions: -- Argument is raised when X < 0.0 -- Constraint_Error is raised when X = 0.0 -- Prescribed results: -- Log (1.0) = 0.0; -- Special values: -- Log (X) = X, for X is positive infinity -- Apart from exceptions, the C_Log function satisfies all constraints function Log (X : Float_Type'Base) return Float_Type'Base is begin -- The if statements are structured to ensure NaN parameters cause the -- correct exception to be raised (since a NaN will always fail a -- non-equal comparison test). if not (X > 0.0) then if X = 0.0 then raise Constraint_Error; end if; raise Argument_Error; end if; return C_Log (X); end Log; -- (arbitrary base) -- Exceptions: -- Argument is raised when X < 0.0, Base <= 0.0 or Base = 1.0 -- Constraint_Error is raised when X = 0.0 -- Prescribed results: -- Log (1.0, Base) = 0.0 -- Special values: -- Log (X, Base) = X, for X is positive infinity -- Apart from exceptions, the C_Log function satisfies all constraints function Log (X, Base : Float_Type'Base) return Float_Type'Base is begin -- Try to execute the common case of X > 0.0 and Base > 1.0 with -- minimal checks. -- Note, the if statements are structured to ensure NaN parameters cause -- the correct exception to be raised (since a NaN will always fail a -- non-equal comparison test). if not (X > 0.0) or else not (Base > 1.0) then if not (X >= 0.0) or else not (Base > 0.0) or else Base = 1.0 then raise Argument_Error; end if; if X = 0.0 then raise Constraint_Error; end if; end if; return C_Log (X) / C_Log (Base); end Log; --------- -- Sin -- --------- -- (Natural cycle) -- Prescribed results: -- Sin (+0.0) = +0.0 -- Sin (-0.0) = -0.0 -- Special values: -- Sin (X), where X is positive or negative infinity returns a -- NaN value. -- The C_Sin function satisfies all requirements function Sin (X : Float_Type'Base) return Float_Type'Base is begin return C_Sin (X); end Sin; -- (Arbitrary cycle) -- Exceptions: -- Argument_Error is raised when Cycle <= 0 -- Prescribed results: -- Sin (-0.0) = -0.0 -- Sin (+0.0) = +0.0 -- Sin (X) = 1.0, when X is K * Cycle + Cycle / 4.0, with integer K -- Sin (X) = -1.0, with X is K * Cycle - Cycle / 4.0, with integer K -- Special values: -- Sin (X), where X is positive or negative infinity returns NaN value function Sin (X, Cycle : Float_Type'Base) return Float_Type'Base is T : Float_Type'Base; begin if not (Cycle > 0.0) then raise Argument_Error; end if; T := Float_Type'Base'Remainder (X, Cycle); -- The following reduction reduces the argument to the interval -- [-0.5 Cycle, 0.5 * Cycle]. The entire reduction is exact. if T > 0.25 * Cycle then T := 0.5 * Cycle - T; elsif T < -0.25 * Cycle then T := -T - 0.5 * Cycle; end if; return C_Sin (T / Cycle * 2.0 * Pi); end Sin; ---------- -- Sinh -- ---------- -- Prescribed results: -- Sinh (0.0) = 0.0 -- TODO - general description function Sinh (X : Float_Type'Base) return Float_Type'Base is (C_Sinh (X)); ---------- -- Sqrt -- ---------- -- Principle branch: -- The result is nonnegative. -- Exceptions: -- Argument_Error is raised when X < 0.0 -- Prescribed results: -- Sqrt (-0.0) = -0.0 -- Sqrt (+0.0) = +0.0 -- Sqrt (1.0) = 1.0 -- Special values: -- Sqrt (X) = X, for X is positive infinity -- C_Sqrt satisfies all requirements function Sqrt (X : Float_Type'Base) return Float_Type'Base is begin if not (X >= 0.0) then raise Argument_Error; end if; return C_Sqrt (X); end Sqrt; --------- -- Tan -- --------- -- (natural cycle) -- Prescribed results: -- Tan (-0.0) = -0.0 -- Tan (+0.0) = +0.0 -- Special values: -- Tan (X) returns a NaN value, when X is positive or negative infinity -- The C_Tan function satisfies all requirements function Tan (X : Float_Type'Base) return Float_Type'Base is begin return C_Tan (X); end Tan; -- (arbitrary cycle) -- Exceptions: -- Argument_Error is raised for Cycle <= 0.0 -- Prescribed results: -- Tan (-0.0, Cycle) = -0.0 -- Tan (+0.0, Cycle) = +0.0 -- Tan (X, Cycle) = 0, for X a multiple of Cycle / 2.0 -- Special values: -- Tan (X, Cycle) returns a NaN value, when X is positive or -- negative infinity function Tan (X, Cycle : Float_Type'Base) return Float_Type'Base is T : Float_Type'Base; TA : Float_Type'Base; begin if not (Cycle > 0.0) then raise Argument_Error; end if; T := Float_Type'Base'Remainder (X, Cycle) / Cycle; TA := abs T; -- The TA = 0.75 case is not needed because the remainder function -- is defined so that it never returns a value greater than Cycle/2, -- the value of TA will always be less than or equal to 0.5. Therefore, -- the condition TA = 0.75 can never be true. if TA = 0.25 then raise Constraint_Error; end if; if TA = 0.5 then return 0.0; end if; return C_Tan (T * 2.0 * Pi); end Tan; ---------- -- Tanh -- ---------- -- Principal branch: -- The absolute value of the result is smaller than 1.0 -- Prescribed results: -- Tanh (0.0) = 0.0 -- TODO - general description function Tanh (X : Float_Type'Base) return Float_Type'Base is (C_Tanh (X)); end System.Generic_C_Math_Interface;

with Ada.Text_IO; with Ada.Command_Line; procedure Symbolica is NumColors : constant := 4; NumSymbols : constant := 3; Length : constant := 5; Width : constant := 5; package IO renames Ada.Text_IO; type Color_T is new Natural range 0 .. NumColors - 1; type Symbol_T is new Natural range 0 .. NumSymbols - 1; type Column_T is new Natural range 1 .. Length; type Row_T is new Natural range 1 .. Width; type Tile_T is record Color : Color_T; Symbol : Symbol_T; end record; type Board_T is Array(Row_T, Column_T) of Tile_T; type Count_T is Array(Color_T, Symbol_T) of Natural; colors : constant Array(Color_T) of Character := ('R', 'B', 'G', 'Y'); symbols : constant Array(Symbol_T) of Character := ('a', 'b', 'c'); original_board, best_board, board : Board_T; best_distance : Natural := Length * Width; total_solutions : Natural := 0; iterations : Natural := 0; tile_count : Count_T := (others => (others => 0)); function TileImage(tile : Tile_T) return String is begin return (colors(tile.Color), symbols(tile.Symbol)); end TileImage; procedure PrintBoard(b : Board_T) is begin for r in Row_T loop for c in Column_T loop IO.Put(TileImage(b(r,c)) & " "); end loop; IO.New_Line; end loop; end PrintBoard; procedure ReadBoard(filename: in String; b : out Board_T) is Not_In : exception; function GetColor(c: Character) return Color_T is begin for color in Color_T'Range loop if colors(color) = c then return color; end if; end loop; raise Not_In; end GetColor; function GetSymbol(s: Character) return Symbol_T is begin for symbol in Symbol_T'Range loop if symbols(symbol) = s then return symbol; end if; end loop; raise Not_In; end GetSymbol; f : IO.File_Type; c,s : Character; eol : Boolean; begin IO.Open(f, IO.In_File, filename); for row in Row_T'Range loop for col in Column_T'Range loop IO.Get(f, c); IO.Get(f, s); b(row, col) := (GetColor(c), GetSymbol(s)); loop IO.Look_Ahead(f,c,eol); exit when eol or else c /= ' '; IO.Get(f, c); end loop; end loop; end loop; IO.Put_Line("Read in original Board"); PrintBoard(b); end ReadBoard; procedure Validate_Counts is counts : Array(Color_T, Symbol_T) of Integer := (others => (others => 0)); count_incorrect : exception; begin for row in Row_T'range loop for col in Column_T'range loop declare o : Tile_T renames original_board(row, col); b : Tile_T renames board(row, col); begin counts(o.Color, o.Symbol) := counts(o.Color, o.Symbol) + 1; counts(b.Color, b.Symbol) := counts(b.Color, b.Symbol) - 1; end; end loop; end loop; for c in Color_T'range loop for s in Symbol_T'range loop if counts(c, s) /= 0 then IO.Put_Line("New Board has incorrect count of " & (colors(c), symbols(s)) & ": " & Integer'Image(counts(c, s))); PrintBoard(board); raise count_incorrect; end if; end loop; end loop; end Validate_Counts; procedure Validate_Integrity is board_integrity : exception; function Pair_Is_Valid(a, b : Tile_T) return Boolean is begin return (a.Color = b.Color and then a.Symbol /= b.Symbol) or else (a.Color /= b.Color and then a.Symbol = b.Symbol); end Pair_Is_Valid; begin for row in Row_T'range loop for col in Column_T'range loop declare b : Tile_T renames board(row, col); begin if (row > Row_T'First and then not Pair_Is_Valid(b, board(row-1, col))) or else (row < Row_T'Last and then not Pair_Is_Valid(b, board(row+1, col))) or else (col > Column_T'First and then not Pair_Is_Valid(b, board(row, col-1))) or else (col < Column_T'Last and then not Pair_Is_Valid(b, board(row, col+1))) then IO.Put_Line("New Board has incorrect incorrectly placed " & TileImage(b) & " at " & Row_T'Image(row) & "," & Column_T'Image(col)); PrintBoard(board); raise board_integrity; end if; end; end loop; end loop; end Validate_Integrity; Perform_Additional_Validation : constant Boolean := False; procedure CompareBoards is distance : Natural := 0; chain : Natural := 0; waiting : Array(Color_T, Symbol_T, Color_T, Symbol_T) of Natural := (others => (others => (others => (others => 0)))); begin if Perform_Additional_Validation then Validate_Counts; Validate_Integrity; end if; total_solutions := total_solutions + 1; for row in Row_T'Range loop for col in Column_T'Range loop declare o : Tile_T renames original_board(row, col); b : Tile_T renames board(row, col); w : natural renames waiting(o.Color, o.Symbol, b.Color, b.Symbol); ow : natural renames waiting(b.Color, b.Symbol, o.Color, o.Symbol); begin if o.Color /= b.Color or else o.Symbol /= b.Symbol then if ow > 0 then ow := ow - 1; chain := chain - 1; distance := distance + 1; else chain := chain + 1; w := w + 1; end if; end if; end; end loop; end loop; if chain > 0 then distance := distance + chain - 1; end if; if distance < best_distance then best_board := board; best_distance := distance; end if; end CompareBoards; procedure Solve(row : Row_T; col : Column_T); procedure Pick(row : Row_T; col : Column_T; c : Color_T; s : Symbol_T) is tc : Natural renames tile_count(c, s); begin if tc = 0 then return; end if; board(row, col) := (c, s); if col = Column_T'Last then if row = Row_T'Last then CompareBoards; else tc := tc - 1; Solve(row + 1, 1); tc := tc + 1; end if; else tc := tc - 1; Solve(row, col + 1); tc := tc + 1; end if; end Pick; pragma inline(Pick); procedure Solve(row : Row_T; col : Column_T) is begin iterations := iterations + 1; if row = 1 then declare left : Tile_T renames board(row, col - 1); begin for color in Color_T'Range loop if color /= left.Color then Pick(row, col, color, left.Symbol); end if; end loop; for symbol in Symbol_T'Range loop if symbol /= left.Symbol then Pick(row, col, left.Color, symbol); end if; end loop; end; elsif col = 1 then declare above : Tile_T renames board(row - 1, col); begin for color in Color_T'Range loop if color /= above.Color then Pick(row, col, color, above.Symbol); end if; end loop; for symbol in Symbol_T'Range loop if symbol /= above.Symbol then Pick(row, col, above.Color, symbol); end if; end loop; end; else declare left : Tile_T renames board(row, col -1); above : Tile_T renames board(row - 1, col); begin if left.Color = above.Color then for symbol in Symbol_T'Range loop if symbol /= left.Symbol and then symbol /= above.Symbol then Pick(row, col, left.Color, symbol); end if; end loop; elsif left.Symbol = above.Symbol then for color in Color_T'Range loop if color /= left.Color and then color /= above.Color then Pick(row, col, color, left.Symbol); end if; end loop; else Pick(row, col, left.Color, above.Symbol); Pick(row, col, above.Color, left.Symbol); end if; end; end if; end Solve; begin ReadBoard(Ada.Command_Line.Argument(1), original_board); for row in Row_T'Range loop for col in Column_T'Range loop declare tile : constant Tile_T := original_board(row, col); begin tile_count(tile.Color, tile.Symbol) := tile_count(tile.Color, tile.Symbol) + 1; end; end loop; end loop; for color in Color_T'Range loop for symbol in Symbol_T'Range loop Pick(1, 1, color, symbol); end loop; end loop; IO.Put_Line("Total Iterations" & Natural'Image(iterations)); IO.Put_Line("Total Solutions found:" & Natural'Image(total_solutions)); IO.Put_Line("Total Swaps: " & Natural'Image(best_distance)); PrintBoard(best_board); end Symbolica;

-- ----------------------------------------------------------------- -- -- AdaSDL -- -- Binding to Simple Direct Media Layer -- -- Copyright (C) 2001 A.M.F.Vargas -- -- Antonio M. F. Vargas -- -- Ponta Delgada - Azores - Portugal -- -- http://www.adapower.net/~avargas -- -- E-mail: avargas@adapower.net -- -- ----------------------------------------------------------------- -- -- -- -- 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. -- -- ----------------------------------------------------------------- -- -- **************************************************************** -- -- This is an Ada binding to SDL ( Simple DirectMedia Layer from -- -- Sam Lantinga - www.libsld.org ) -- -- **************************************************************** -- -- In order to help the Ada programmer, the comments in this file -- -- are, in great extent, a direct copy of the original text in the -- -- SDL header files. -- -- **************************************************************** -- with Interfaces.C.Strings; with SDL.Types; use SDL.Types; with SDL.RWops; package SDL.Audio is pragma Elaborate_Body; package C renames Interfaces.C; type Callback_ptr_Type is access procedure ( userdata : void_ptr; stream : Uint8_ptr; len : C.int); pragma Convention (C, Callback_ptr_Type); -- The calculated values in this structure are calculated by OpenAudio type AudioSpec is record freq : C.int; -- DSP frequency -- samples per second format : Uint16; -- Audio data format channels : Uint8; -- Number of channels: 1 mono, 2 stereo silence : Uint8; -- Audio buffer silence value (calculated) samples : Uint16; -- Audio buffer size in samples padding : Uint16; -- Necessary for some compile environments size : Uint32; -- Audio buffer size in bytes (calculated) -- This function is called when the audio device needs more data. -- 'stream' is a pointer to the audio data buffer -- 'len' is the length of that buffer in bytes. -- Once the callback returns, the buffer will no longer be valid. -- Stereo samples are stored in a LRLRLR ordering. callback : Callback_ptr_Type; userdata : void_ptr; end record; pragma Convention (C, AudioSpec); type AudioSpec_ptr is access all AudioSpec; pragma Convention (C, AudioSpec_ptr); type Format_Flag is mod 2**16; pragma Convention (C, Format_Flag); type Format_Flag_ptr is access Format_Flag; pragma Convention (C, Format_Flag_ptr); -- Audio format flags (defaults to LSB byte order) -- Unsigned 8-bit samples AUDIO_U8 : constant Format_Flag := 16#0008#; -- Signed 8-bit samples AUDIO_S8 : constant Format_Flag := 16#8008#; -- Unsigned 16-bit samples AUDIO_U16LSB : constant Format_Flag := 16#0010#; -- Signed 16-bit samples AUDIO_S16LSB : constant Format_Flag := 16#8010#; -- As above, but big-endian byte order AUDIO_U16MSB : constant Format_Flag := 16#1010#; -- As above, but big-endian byte order AUDIO_S16MSB : constant Format_Flag := 16#9010#; AUDIO_U16 : constant Format_Flag := AUDIO_U16LSB; AUDIO_S16 : constant Format_Flag := AUDIO_S16LSB; function Get_Audio_U16_Sys return Format_Flag; function Get_Audio_S16_Sys return Format_Flag; -- A structure to hold a set of audio conversion filters and buffers type AudioCVT; type AudioCVT_ptr is access all AudioCVT; pragma Convention (C, AudioCVT_ptr); type filter_ptr is access procedure ( cvt : AudioCVT_ptr; format : Uint16); pragma Convention (C, filter_ptr); type filters_array is array (0 .. 9) of filter_ptr; pragma Convention (C, filters_array); type AudioCVT is record need : C.int; -- Set to 1 if conversion possible src_format : Uint16; -- Source audio format dst_format : Uint16; -- Target audio format rate_incr : C.double; -- Rate conversion increment buf : Uint8_ptr; -- Buffer to hold entire audio data len : C.int; -- Length of original audio buffer len_cvt : C.int; -- Length of converted audio buffer len_mult : C.int; -- buffer must be len*len_mult big len_ratio : C.double; -- Given len, final size is len*len_ratio filters : filters_array; filter_index : filters_array; -- Current audio conversion function end record; pragma Convention (C, AudioCVT); -- ------------------- -- Function prototypes -- ------------------- -- These function and procedure are used internally, and should not -- be used unless you have a specific need to specify the audio driver -- you want to use.You should normally use Init or InitSubSystem. function AudioInit (driver_name : C.Strings.chars_ptr) return C.int; pragma Import (C, AudioInit, "SDL_AudioInit"); procedure AudioQuit; pragma Import (C, AudioQuit, "SDL_AudioQuit"); -- This function fills the given character buffer with the name of the -- current audio driver, and returns a pointer to it if the audio driver -- has been initialized. It returns NULL if no driver has been initialized. function AudioDriverName ( namebuf : C.Strings.chars_ptr; maslen : C.int) return C.Strings.chars_ptr; pragma Import (C, AudioDriverName, "SDL_AudioDriverName"); -- This function opens the audio device with the desired parameters, and -- returns 0 if successful, placing the actual hardware parameters in the -- structure pointed to by 'obtained'. If 'obtained' is NULL, the audio -- data passed to the callback function will be guaranteed to be in the -- requested format, and will be automatically converted to the hardware -- audio format if necessary. This function returns -1 if it failed -- to open the audio device, or couldn't set up the audio thread. -- When filling in the desired audio spec structure, -- 'desired.freq' should be the desired audio frequency in samples-per-sec. -- 'desired.format' should be the desired audio format. -- 'desired.samples' is the desired size of the audio buffer, in samples. -- This number should be a power of two, and may be adjusted by the audio -- driver to a value more suitable for the hardware. Good values seem to -- range between 512 and 8096 inclusive, depending on the application and -- CPU speed. Smaller values yield faster response time, but can lead -- to underflow if the application is doing heavy processing and cannot -- fill the audio buffer in time. A stereo sample consists of both right -- and left channels in LR ordering. -- Note that the number of samples is directly related to time by the -- following formula: ms := (samples*1000)/freq -- 'desired->size' is the size in bytes of the audio buffer, and is -- calculated by OpenAudio. -- 'desired->silence' is the value used to set the buffer to silence, -- and is calculated by OpenAudio. -- 'desired->callback' should be set to a function that will be called -- when the audio device is ready for more data. It is passed a pointer -- to the audio buffer, and the length in bytes of the audio buffer. -- This function usually runs in a separate thread, and so you should -- protect data structures that it accesses by calling LockAudio -- and UnlockAudio in your code. -- 'desired.userdata' is passed as the first parameter to your callback -- function. -- The audio device starts out playing silence when it's opened, and should -- be enabled for playing by calling PauseAudio(0) when you are ready -- for your audio callback function to be called. Since the audio driver -- may modify the requested size of the audio buffer, you should allocate -- any local mixing buffers after you open the audio device. function OpenAudio ( desired : AudioSpec_ptr; obtained : AudioSpec_ptr) return C.int; pragma Import (C, OpenAudio, "SDL_OpenAudio"); -- Get the current audio state: type audiostatus is new C.int; AUDIO_STOPED : constant := 0; AUDIO_PLAYING : constant := 1; AUDIO_PAUSED : constant := 2; function GetAudioStatus return audiostatus; pragma Import (C, GetAudioStatus, "SDL_GetAudioStatus"); -- This function pauses and unpauses the audio callback processing. -- It should be called with a parameter of 0 after opening the audio -- device to start playing sound. This is so you can safely initialize -- data for your callback function after opening the audio device. -- Silence will be written to the audio device during the pause. procedure PauseAudio (pause_on : C.int); pragma Import (C, PauseAudio, "SDL_PauseAudio"); -- This function loads a WAVE from the data source, automatically freeing -- that source if 'freesrc' is non-zero. For example, to load a WAVE file, -- you could do: -- LoadWAV_RW(RWFromFile("sample.wav", "rb"), 1, ...); -- If this function succeeds, it returns the given AudioSpec, -- filled with the audio data format of the wave data, and sets -- 'audio_buf' to a malloc()'d buffer containing the audio data, -- and sets 'audio_len' to the length of that audio buffer, in bytes. -- You need to free the audio buffer with FreeWAV when you are -- done with it. -- This function returns NULL and sets the SDL error message if the -- wave file cannot be opened, uses an unknown data format, or is -- corrupt. Currently raw and MS-ADPCM WAVE files are supported. function LoadWAV_RW ( src : SDL.RWops.RWops_ptr; freesrc : C.int; spec : AudioSpec_ptr; audio_buf : Uint8_ptr_ptr; audio_len : Uint32_ptr) return AudioSpec_ptr; pragma Import (C, LoadWAV_RW, "SDL_LoadWAV_RW"); function LoadWAV ( file : C.Strings.chars_ptr; spec : AudioSpec_ptr; audio_buf : Uint8_ptr_ptr; audio_len : Uint32_ptr) return AudioSpec_ptr; pragma Inline (LoadWAV); -- LoadWAV_RW_VP not working properly -- for some strange reason. Result is Always null. procedure LoadWAV_RW_VP ( Result : out AudioSpec_ptr; src : SDL.RWops.RWops_ptr; freesrc : C.int; spec : out AudioSpec_ptr; audio_buf : out Uint8_ptr; audio_len : out Uint32); pragma Import (C, LoadWAV_RW_VP, "SDL_LoadWAV_RW"); pragma Import_Valued_Procedure (LoadWAV_RW_VP); procedure Load_WAV ( file : C.Strings.chars_ptr; spec : AudioSpec_ptr; -- out AudioSpec audio_buf : Uint8_ptr_ptr; -- out Uint8_ptr audio_len : Uint32_ptr; -- out Uint32 Valid_WAV : out Boolean); pragma Inline (Load_WAV); -- This function frees data previously allocated with SDL_LoadWAV_RW() procedure FreeWAV (audio_buf : Uint8_ptr); pragma Import (C, FreeWAV, "SDL_FreeWAV"); -- This function takes a source format and rate and a destination format -- and rate, and initializes the 'cvt' structure with information needed -- by ConvertAudio to convert a buffer of audio data from one format -- to the other. -- This function returns 0, or -1 if there was an error. function BuildAudioCVT ( cvt : AudioCVT_ptr; src_format : Uint16; src_channels : Uint8; src_rate : C.int; dst_format : Uint16; dst_channels : Uint8; dst_rate : C.int) return C.int; pragma Import (C, BuildAudioCVT, "SDL_BuildAudioCVT"); -- Once you have initialized the 'cvt' structure using BuildAudioCVT, -- created an audio buffer cvt.buf, and filled it with cvt.len bytes of -- audio data in the source format, this function will convert it in-place -- to the desired format. -- The data conversion may expand the size of the audio data, so the buffer -- cvt.buf should be allocated after the cvt structure is initialized by -- BuildAudioCVT, and should be cvt.len * cvt.len_mult bytes long. function ConvertAudio (cvt : AudioCVT_ptr) return C.int; pragma Import (C, ConvertAudio, "SDL_ConvertAudio"); -- This takes two audio buffers of the playing audio format and mixes -- them, performing addition, volume adjustment, and overflow clipping. -- The volume ranges from 0 - 128, and should be set to _MIX_MAXVOLUME -- for full audio volume. Note this does not change hardware volume. -- This is provided for convenience -- you can mix your own audio data. MIX_MAXVOLUME : constant := 128; procedure MixAudio ( dst : Uint8_ptr; src : Uint8_ptr; len : Uint32; volume : C.int); pragma Import (c, MixAudio, "SDL_MixAudio"); -- The lock manipulated by these functions protects the callback function. -- During a LockAudio/UnlockAudio pair, you can be guaranteed that the -- callback function is not running. Do not call these from the callback -- function or you will cause deadlock. procedure LockAudio; pragma Import (C, LockAudio, "SDL_LockAudio"); procedure UnlockAudio; pragma Import (C, UnlockAudio, "SDL_UnlockAudio"); -- This procedure shuts down audio processing and closes the audio device. procedure CloseAudio; pragma Import (C, CloseAudio, "SDL_CloseAudio"); end SDL.Audio;

------------------------------------------------------------------------------ -- -- -- Matreshka Project -- -- -- -- Localization, Internationalization, Globalization for Ada -- -- -- -- Tools Component -- -- -- ------------------------------------------------------------------------------ -- -- -- Copyright © 2011-2015, 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 Ada.Command_Line; with Ada.Wide_Wide_Text_IO; with League.Application; with League.Strings; with UAFLEX.Run; procedure UAFLEX.Driver is procedure Read_Arguments; procedure Print_Usage; function "+" (Item : Wide_Wide_String) return League.Strings.Universal_String renames League.Strings.To_Universal_String; Handler : League.Strings.Universal_String; Input : League.Strings.Universal_String; Tokens : League.Strings.Universal_String; Types : League.Strings.Universal_String; Scanner : League.Strings.Universal_String; ----------------- -- Print_Usage -- ----------------- procedure Print_Usage is use Ada.Wide_Wide_Text_IO; begin Put_Line (Standard_Error, "Usage: uaflex <unit-options> input_file"); Put_Line (Standard_Error, " where <unit-options> contains:"); Put_Line (Standard_Error, " --types Types_Unit - unit for type and condition declarations"); Put_Line (Standard_Error, " --handler Handler_Unit - unit for abstract handler declaration"); Put_Line (Standard_Error, " --scanner Scanner_Unit - unit where scanner is located"); Put_Line (Standard_Error, " --tokens Tokens_Unit - unit where Token type is declared"); end Print_Usage; -------------------- -- Read_Arguments -- -------------------- procedure Read_Arguments is use League.Strings; Is_Types : constant Universal_String := +"--types"; Is_Scanner : constant Universal_String := +"--scanner"; Is_Tokens : constant Universal_String := +"--tokens"; Is_Handler : constant Universal_String := +"--handler"; Last : constant Natural := League.Application.Arguments.Length; Index : Positive := 1; begin while Index <= Last loop declare Next : constant League.Strings.Universal_String := League.Application.Arguments.Element (Index); begin if Index = Last then Input := Next; elsif Next = Is_Types then Index := Index + 1; Types := League.Application.Arguments.Element (Index); elsif Next = Is_Scanner then Index := Index + 1; Scanner := League.Application.Arguments.Element (Index); elsif Next = Is_Tokens then Index := Index + 1; Tokens := League.Application.Arguments.Element (Index); elsif Next = Is_Handler then Index := Index + 1; Handler := League.Application.Arguments.Element (Index); end if; Index := Index + 1; end; end loop; end Read_Arguments; Success : Boolean; begin Read_Arguments; if Handler.Is_Empty or Input.Is_Empty or Tokens.Is_Empty or Types.Is_Empty or Scanner.Is_Empty then Print_Usage; return; end if; UAFLEX.Run (Handler, Input, Tokens, Types, Scanner, Success); if not Success then Ada.Command_Line.Set_Exit_Status (Ada.Command_Line.Failure); end if; end UAFLEX.Driver;

with gel.World; package gel_demo_Server -- -- Provides the server. -- is the_server_World : gel.World.view; task Item is entry start; end Item; end gel_demo_Server;

------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- F N A M E -- -- -- -- B o d y -- -- -- -- 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. -- -- -- ------------------------------------------------------------------------------ with Alloc; with Hostparm; use Hostparm; with Table; with Types; use Types; package body Fname is ----------------------------- -- Dummy Table Definitions -- ----------------------------- -- The following table was used in old versions of the compiler. We retain -- the declarations here for compatibility with old tree files. The new -- version of the compiler does not use this table, and will write out a -- dummy empty table for Tree_Write. type SFN_Entry is record U : Unit_Name_Type; F : File_Name_Type; end record; package SFN_Table is new Table.Table ( Table_Component_Type => SFN_Entry, Table_Index_Type => Int, Table_Low_Bound => 0, Table_Initial => Alloc.SFN_Table_Initial, Table_Increment => Alloc.SFN_Table_Increment, Table_Name => "Fname_Dummy_Table"); --------------------------- -- Is_Internal_File_Name -- --------------------------- function Is_Internal_File_Name (Fname : File_Name_Type; Renamings_Included : Boolean := True) return Boolean is begin if Is_Predefined_File_Name (Fname, Renamings_Included) then return True; -- Once Is_Predefined_File_Name has been called and returns False, -- Name_Buffer contains Fname and Name_Len is set to 8. elsif Name_Buffer (1 .. 2) = "g-" or else Name_Buffer (1 .. 8) = "gnat " then return True; elsif OpenVMS and then (Name_Buffer (1 .. 4) = "dec-" or else Name_Buffer (1 .. 8) = "dec ") then return True; else return False; end if; end Is_Internal_File_Name; ----------------------------- -- Is_Predefined_File_Name -- ----------------------------- -- This should really be a test of unit name, given the possibility of -- pragma Source_File_Name setting arbitrary file names for any files??? -- Once Is_Predefined_File_Name has been called and returns False, -- Name_Buffer contains Fname and Name_Len is set to 8. This is used -- only by Is_Internal_File_Name, and is not part of the official -- external interface of this function. function Is_Predefined_File_Name (Fname : File_Name_Type; Renamings_Included : Boolean := True) return Boolean is begin Get_Name_String (Fname); return Is_Predefined_File_Name (Renamings_Included); end Is_Predefined_File_Name; function Is_Predefined_File_Name (Renamings_Included : Boolean := True) return Boolean is subtype Str8 is String (1 .. 8); Predef_Names : constant array (1 .. 11) of Str8 := ("ada ", -- Ada "interfac", -- Interfaces "system ", -- System -- Remaining entries are only considered if Renamings_Included true "calendar", -- Calendar "machcode", -- Machine_Code "unchconv", -- Unchecked_Conversion "unchdeal", -- Unchecked_Deallocation "directio", -- Direct_IO "ioexcept", -- IO_Exceptions "sequenio", -- Sequential_IO "text_io "); -- Text_IO Num_Entries : constant Natural := 3 + 8 * Boolean'Pos (Renamings_Included); begin -- Remove extension (if present) if Name_Len > 4 and then Name_Buffer (Name_Len - 3) = '.' then Name_Len := Name_Len - 4; end if; -- Definitely false if longer than 12 characters (8.3) if Name_Len > 8 then return False; -- Definitely predefined if prefix is a- i- or s- followed by letter elsif Name_Len >= 3 and then Name_Buffer (2) = '-' and then (Name_Buffer (1) = 'a' or else Name_Buffer (1) = 'i' or else Name_Buffer (1) = 's') and then (Name_Buffer (3) in 'a' .. 'z' or else Name_Buffer (3) in 'A' .. 'Z') then return True; end if; -- Otherwise check against special list, first padding to 8 characters while Name_Len < 8 loop Name_Len := Name_Len + 1; Name_Buffer (Name_Len) := ' '; end loop; for J in 1 .. Num_Entries loop if Name_Buffer (1 .. 8) = Predef_Names (J) then return True; end if; end loop; -- Note: when we return False here, the Name_Buffer contains the -- padded file name. This is not defined for clients of the package, -- but is used by Is_Internal_File_Name. return False; end Is_Predefined_File_Name; --------------- -- Tree_Read -- --------------- procedure Tree_Read is begin SFN_Table.Tree_Read; end Tree_Read; ---------------- -- Tree_Write -- ---------------- procedure Tree_Write is begin SFN_Table.Tree_Write; end Tree_Write; end Fname;

-- -- Copyright 2018 The wookey project team <wookey@ssi.gouv.fr> -- - Ryad Benadjila -- - Arnauld Michelizza -- - Mathieu Renard -- - Philippe Thierry -- - Philippe Trebuchet -- -- 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. -- -- package ewok.syscalls.handler with spark_mode => off is function svc_handler (frame_a : t_stack_frame_access) return t_stack_frame_access; end ewok.syscalls.handler;

with Kernel.Serial_Output; use Kernel.Serial_Output; with Ada.Real_Time; use Ada.Real_Time; --use type Ada.Real_Time.Time_Span; --with System; use System; with Workload; --with Kernel.Peripherals; use Kernel.Peripherals; --use type Kernel.Peripherals.UART_Channel; package body tools is --------------------------------------------------------------------- -- PROCEDIMIENTO QUE IMPRIME LA HORA -- --------------------------------------------------------------------- procedure Current_Time (Origen : Ada.Real_Time.Time)is begin Put_Line (""); Put ("["); --Print_RTClok; --Kernel.Serial_Output.Put (" / "); Kernel.Serial_Output.Put(Duration'Image(To_Duration(Clock - Origen))); Put ("] "); -- Put_Line (""); end Current_Time; --------------------------------------------------------------------- -- PROCEDIMIENTO QUE SACA EL VALOR DE UN ENTERO POR LA UART -- --------------------------------------------------------------------- procedure Print_an_Integer (x : in integer) is begin --Put ("("); Kernel.Serial_Output.Put (Integer'Image(x)); --Put (")"); end Print_an_Integer; --------------------------------------------------------------------- -- PROCEDIMIENTO QUE SACA EL VALOR DE UN FLOAT POR LA UART -- --------------------------------------------------------------------- procedure Print_a_Float (x : in float) is type Float_Printable is digits 2; nx: Float_Printable; begin --Put ("("); nx := Float_Printable (x); Kernel.Serial_Output.Put (Float_Printable'Image(nx)); --Put (")"); end Print_a_Float; --------------------------------------------------------------------- -- PROCEDIMIENTO PARA AVISAR DEL ARRANQUE DE UNA TAREA -- --------------------------------------------------------------------- procedure Starting_Notice (T: in String) is begin Current_Time (Big_Bang); Put (">>> "); Put (T); end Starting_Notice; procedure Finishing_Notice (T: in String) is begin Current_Time (Big_Bang); Put ("--- "); Put (T); end Finishing_Notice; --------------------------------------------------------------------- -- PROCEDIMIENTO QUE HACE CALCULOS -- --------------------------------------------------------------------- Time_per_Kwhetstones : constant Ada.Real_Time.Time_Span := Ada.Real_Time.Nanoseconds (664445); -- anterior (479936); procedure Execution_Time (Time : Ada.Real_Time.Time_Span) is begin Workload.Small_Whetstone (Time / Time_per_Kwhetstones); end Execution_Time; --------------------------------------------------------------------- begin null; end tools;

----------------------------------------------------------------------- -- keystore-gpg_tests -- Test AKT with GPG2 -- Copyright (C) 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.Text_IO; with Util.Test_Caller; with Util.Log.Loggers; with Util.Processes; with Util.Streams.Buffered; with Util.Streams.Pipes; package body Keystore.Fuse_Tests is Log : constant Util.Log.Loggers.Logger := Util.Log.Loggers.Create ("Keystore.Fuse_Tests"); CHECK_MOUNT_PATH : constant String := "regtests/files/check-mount.sh"; package Caller is new Util.Test_Caller (Test, "AKT.Fuse"); procedure Add_Tests (Suite : in Util.Tests.Access_Test_Suite) is begin Caller.Add_Test (Suite, "Test AKT.Commands.Mount", Test_Mount'Access); Caller.Add_Test (Suite, "Test AKT.Commands.Mount (Fill)", Test_Mount_Fill'Access); Caller.Add_Test (Suite, "Test AKT.Commands.Mount (Clean)", Test_Mount_Clean'Access); Caller.Add_Test (Suite, "Test AKT.Commands.Mount (Check)", Test_Mount_Check'Access); Caller.Add_Test (Suite, "Test AKT.Commands.Mount (Stress)", Test_Mount_Stress'Access); end Add_Tests; -- ------------------------------ -- Execute the command and get the output in a string. -- ------------------------------ procedure Execute (T : in out Test; Command : in String; Input : in String; Output : in String; Result : out Ada.Strings.Unbounded.Unbounded_String; Status : in Natural := 0) is P : aliased Util.Streams.Pipes.Pipe_Stream; Buffer : Util.Streams.Buffered.Input_Buffer_Stream; begin if Input'Length > 0 then Log.Info ("Execute: {0} < {1}", Command, Input); elsif Output'Length > 0 then Log.Info ("Execute: {0} > {1}", Command, Output); else Log.Info ("Execute: {0}", Command); end if; P.Set_Input_Stream (Input); P.Set_Output_Stream (Output); P.Open (Command, Util.Processes.READ_ALL); -- Write on the process input stream. Result := Ada.Strings.Unbounded.Null_Unbounded_String; Buffer.Initialize (P'Unchecked_Access, 8192); Buffer.Read (Result); P.Close; Ada.Text_IO.Put_Line (Ada.Strings.Unbounded.To_String (Result)); Log.Info ("Command result: {0}", Result); Util.Tests.Assert_Equals (T, Status, P.Get_Exit_Status, "Command '" & Command & "' failed"); end Execute; procedure Execute (T : in out Test; Command : in String; Result : out Ada.Strings.Unbounded.Unbounded_String; Status : in Natural := 0) is begin T.Execute (Command, "", "", Result, Status); end Execute; procedure Execute (T : in out Test; Command : in String; Expect : in String; Status : in Natural := 0) is Path : constant String := Util.Tests.Get_Path ("regtests/expect/" & Expect); Output : constant String := Util.Tests.Get_Test_Path (Expect); Result : Ada.Strings.Unbounded.Unbounded_String; begin T.Execute (Command, "", Output, Result, Status); Util.Tests.Assert_Equal_Files (T, Path, Output, "Command '" & Command & "' invalid output"); end Execute; -- ------------------------------ -- Test the akt keystore creation. -- ------------------------------ procedure Test_Mount (T : in out Test) is Tool : constant String := Util.Tests.Get_Path (CHECK_MOUNT_PATH); Result : Ada.Strings.Unbounded.Unbounded_String; begin -- Create keystore T.Execute (Tool & " START", Result); Util.Tests.Assert_Matches (T, "PASS", Result, "akt keystore creation failed"); end Test_Mount; -- ------------------------------ -- Test the akt mount and filling the keystore. -- ------------------------------ procedure Test_Mount_Fill (T : in out Test) is Tool : constant String := Util.Tests.Get_Path (CHECK_MOUNT_PATH); Result : Ada.Strings.Unbounded.Unbounded_String; begin T.Execute (Tool & " FILL", Result); Util.Tests.Assert_Matches (T, "PASS", Result, "akt keystore mount+fill failed"); end Test_Mount_Fill; -- ------------------------------ -- Test the akt mount and cleaning the keystore. -- ------------------------------ procedure Test_Mount_Clean (T : in out Test) is Tool : constant String := Util.Tests.Get_Path (CHECK_MOUNT_PATH); Result : Ada.Strings.Unbounded.Unbounded_String; begin T.Execute (Tool & " CLEAN", Result); Util.Tests.Assert_Matches (T, "PASS", Result, "akt keystore mount+clean failed"); end Test_Mount_Clean; -- ------------------------------ -- Test the akt mount and checking its content. -- ------------------------------ procedure Test_Mount_Check (T : in out Test) is Tool : constant String := Util.Tests.Get_Path (CHECK_MOUNT_PATH); Result : Ada.Strings.Unbounded.Unbounded_String; begin T.Execute (Tool & " CHECK", Result); Util.Tests.Assert_Matches (T, "PASS", Result, "akt keystore mount+check after stress failed"); end Test_Mount_Check; -- ------------------------------ -- Test the akt mount and stressing the filesystem. -- ------------------------------ procedure Test_Mount_Stress (T : in out Test) is Tool : constant String := Util.Tests.Get_Path (CHECK_MOUNT_PATH); Result : Ada.Strings.Unbounded.Unbounded_String; begin T.Execute (Tool & " BIG", Result); Util.Tests.Assert_Matches (T, "PASS", Result, "akt keystore mount+check after stress failed"); end Test_Mount_Stress; end Keystore.Fuse_Tests;

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<item_version>0</item_version> <item>120</item> </basic_blocks> <mII>4</mII> <mDepth>6</mDepth> <mMinTripCount>-1</mMinTripCount> <mMaxTripCount>-1</mMaxTripCount> <mMinLatency>-1</mMinLatency> <mMaxLatency>-1</mMaxLatency> <mIsDfPipe>0</mIsDfPipe> <mDfPipe class_id="-1"/> </item> <item class_id_reference="22" object_id="_348"> <mId>8</mId> <mTag>Return</mTag> <mType>0</mType> <sub_regions> <count>0</count> <item_version>0</item_version> </sub_regions> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>122</item> </basic_blocks> <mII>-1</mII> <mDepth>-1</mDepth> <mMinTripCount>-1</mMinTripCount> <mMaxTripCount>-1</mMaxTripCount> <mMinLatency>0</mMinLatency> <mMaxLatency>-1</mMaxLatency> <mIsDfPipe>0</mIsDfPipe> <mDfPipe class_id="-1"/> </item> </cdfg_regions> <fsm class_id="24" tracking_level="1" version="0" object_id="_349"> <states class_id="25" tracking_level="0" version="0"> <count>18</count> <item_version>0</item_version> <item class_id="26" tracking_level="1" version="0" object_id="_350"> <id>1</id> <operations class_id="27" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="28" tracking_level="1" version="0" object_id="_351"> <id>8</id> <stage>2</stage> <latency>2</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_352"> <id>2</id> <operations> <count>15</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_353"> <id>8</id> <stage>1</stage> <latency>2</latency> </item> <item class_id_reference="28" object_id="_354"> <id>9</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_355"> <id>10</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_356"> <id>11</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_357"> <id>12</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_358"> <id>13</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_359"> <id>14</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_360"> <id>15</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_361"> <id>16</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_362"> <id>17</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_363"> <id>18</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_364"> <id>19</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_365"> <id>20</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_366"> <id>21</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_367"> <id>22</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_368"> <id>3</id> <operations> <count>10</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_369"> <id>26</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_370"> <id>27</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_371"> <id>28</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_372"> <id>29</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_373"> <id>30</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_374"> <id>31</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_375"> <id>32</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_376"> <id>33</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_377"> <id>34</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_378"> <id>35</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_379"> <id>4</id> <operations> <count>6</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_380"> <id>24</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_381"> <id>25</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_382"> <id>36</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_383"> <id>37</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_384"> <id>38</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_385"> <id>39</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_386"> <id>5</id> <operations> <count>8</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_387"> <id>43</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_388"> <id>44</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_389"> <id>45</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_390"> <id>46</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_391"> <id>47</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_392"> <id>48</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_393"> <id>49</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_394"> <id>50</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_395"> <id>6</id> <operations> <count>6</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_396"> <id>41</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_397"> <id>42</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_398"> <id>51</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_399"> <id>52</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_400"> <id>53</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_401"> <id>54</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_402"> <id>7</id> <operations> <count>10</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_403"> <id>58</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_404"> <id>59</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_405"> <id>60</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_406"> <id>61</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_407"> <id>62</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_408"> <id>63</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_409"> <id>64</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_410"> <id>65</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_411"> <id>68</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_412"> <id>71</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_413"> <id>8</id> <operations> <count>2</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_414"> <id>66</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_415"> <id>67</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_416"> <id>9</id> <operations> <count>2</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_417"> <id>69</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_418"> <id>70</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_419"> <id>10</id> <operations> <count>6</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_420"> <id>56</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_421"> <id>57</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_422"> <id>72</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_423"> <id>73</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_424"> <id>74</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_425"> <id>75</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_426"> <id>11</id> <operations> <count>10</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_427"> <id>77</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_428"> <id>78</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_429"> <id>79</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_430"> <id>80</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_431"> <id>81</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_432"> <id>82</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_433"> <id>83</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_434"> <id>84</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_435"> <id>85</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_436"> <id>86</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_437"> <id>12</id> <operations> <count>4</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_438"> <id>90</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_439"> <id>91</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_440"> <id>106</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_441"> <id>108</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_442"> <id>13</id> <operations> <count>4</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_443"> <id>94</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_444"> <id>95</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_445"> <id>109</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_446"> <id>112</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_447"> <id>14</id> <operations> <count>15</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_448"> <id>92</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_449"> <id>93</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_450"> <id>96</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_451"> <id>97</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_452"> <id>98</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_453"> <id>99</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_454"> <id>100</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_455"> <id>101</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_456"> <id>102</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_457"> <id>103</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_458"> <id>104</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_459"> <id>105</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_460"> <id>107</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_461"> <id>113</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_462"> <id>116</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_463"> <id>15</id> <operations> <count>2</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_464"> <id>110</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_465"> <id>111</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_466"> <id>16</id> <operations> <count>2</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_467"> <id>114</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_468"> <id>115</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_469"> <id>17</id> <operations> <count>5</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_470"> <id>88</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_471"> <id>89</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_472"> <id>117</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_473"> <id>118</id> <stage>1</stage> <latency>1</latency> </item> <item class_id_reference="28" object_id="_474"> <id>119</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> <item class_id_reference="26" object_id="_475"> <id>18</id> <operations> <count>1</count> <item_version>0</item_version> <item class_id_reference="28" object_id="_476"> <id>121</id> <stage>1</stage> <latency>1</latency> </item> </operations> </item> </states> <transitions class_id="29" tracking_level="0" version="0"> <count>27</count> <item_version>0</item_version> <item class_id="30" tracking_level="1" version="0" object_id="_477"> <inState>1</inState> <outState>2</outState> <condition class_id="31" tracking_level="0" version="0"> <id>27</id> <sop class_id="32" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="33" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_478"> <inState>2</inState> <outState>3</outState> <condition> <id>34</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item class_id="34" tracking_level="0" version="0"> <first class_id="35" tracking_level="0" version="0"> <first>8</first> <second>4</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_479"> <inState>2</inState> <outState>5</outState> <condition> <id>33</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>8</first> <second>3</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_480"> <inState>2</inState> <outState>7</outState> <condition> <id>32</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>8</first> <second>2</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_481"> <inState>2</inState> <outState>11</outState> <condition> <id>31</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>8</first> <second>1</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_482"> <inState>2</inState> <outState>12</outState> <condition> <id>30</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>8</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_483"> <inState>2</inState> <outState>18</outState> <condition> <id>29</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>5</count> <item_version>0</item_version> <item> <first> <first>8</first> <second>0</second> </first> <second>0</second> </item> <item> <first> <first>8</first> <second>1</second> </first> <second>0</second> </item> <item> <first> <first>8</first> <second>2</second> </first> <second>0</second> </item> <item> <first> <first>8</first> <second>3</second> </first> <second>0</second> </item> <item> <first> <first>8</first> <second>4</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_484"> <inState>3</inState> <outState>4</outState> <condition> <id>65</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_485"> <inState>4</inState> <outState>18</outState> <condition> <id>66</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>29</first> <second>0</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_486"> <inState>4</inState> <outState>3</outState> <condition> <id>67</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>29</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_487"> <inState>5</inState> <outState>6</outState> <condition> <id>68</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_488"> <inState>6</inState> <outState>18</outState> <condition> <id>69</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>46</first> <second>0</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_489"> <inState>6</inState> <outState>5</outState> <condition> <id>70</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>46</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_490"> <inState>7</inState> <outState>8</outState> <condition> <id>71</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_491"> <inState>8</inState> <outState>9</outState> <condition> <id>72</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_492"> <inState>9</inState> <outState>10</outState> <condition> <id>73</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_493"> <inState>10</inState> <outState>18</outState> <condition> <id>74</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>61</first> <second>0</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_494"> <inState>10</inState> <outState>7</outState> <condition> <id>75</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>61</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_495"> <inState>11</inState> <outState>18</outState> <condition> <id>76</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>82</first> <second>0</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_496"> <inState>11</inState> <outState>11</outState> <condition> <id>77</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>82</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_497"> <inState>12</inState> <outState>13</outState> <condition> <id>78</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_498"> <inState>13</inState> <outState>14</outState> <condition> <id>79</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_499"> <inState>14</inState> <outState>15</outState> <condition> <id>80</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_500"> <inState>15</inState> <outState>16</outState> <condition> <id>81</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_501"> <inState>16</inState> <outState>17</outState> <condition> <id>82</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>0</count> <item_version>0</item_version> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_502"> <inState>17</inState> <outState>18</outState> <condition> <id>83</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>105</first> <second>0</second> </first> <second>0</second> </item> </item> </sop> </condition> </item> <item class_id_reference="30" object_id="_503"> <inState>17</inState> <outState>12</outState> <condition> <id>84</id> <sop> <count>1</count> <item_version>0</item_version> <item> <count>1</count> <item_version>0</item_version> <item> <first> <first>105</first> <second>0</second> </first> <second>1</second> </item> </item> </sop> </condition> </item> </transitions> </fsm> <res class_id="36" tracking_level="1" version="0" object_id="_504"> <dp_component_resource class_id="37" tracking_level="0" version="0"> <count>1</count> <item_version>0</item_version> <item class_id="38" tracking_level="0" version="0"> <first>pixel_unpack_AXILiteS_s_axi_U (pixel_unpack_AXILiteS_s_axi)</first> <second class_id="39" tracking_level="0" version="0"> <count>3</count> <item_version>0</item_version> <item class_id="40" tracking_level="0" version="0"> <first>BRAM</first> <second>0</second> </item> <item> <first>FF</first> <second>68</second> </item> <item> <first>LUT</first> <second>104</second> </item> </second> </item> </dp_component_resource> <dp_expression_resource> <count>4</count> <item_version>0</item_version> <item> <first>has_user_V_2_fu_290_p2 ( or ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>last_9_2_fu_303_p2 ( or ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>tmp4_fu_284_p2 ( or ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>tmp5_fu_297_p2 ( or ) </first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0P0)</first> <second>1</second> </item> <item> <first>(1P1)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> </dp_expression_resource> <dp_fifo_resource> <count>0</count> <item_version>0</item_version> </dp_fifo_resource> <dp_memory_resource> <count>0</count> <item_version>0</item_version> </dp_memory_resource> <dp_multiplexer_resource> <count>8</count> <item_version>0</item_version> <item> <first>ap_NS_fsm</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>17</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>17</second> </item> <item> <first>LUT</first> <second>15</second> </item> </second> </item> <item> <first>ap_reg_ppiten_pp4_it1</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>ap_sig_ioackin_out_stream_TREADY</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>in_stream_TDATA_blk_n</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>out_stream_TDATA</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>14</second> </item> <item> <first>(1Bits)</first> <second>24</second> </item> <item> <first>(2Count)</first> <second>336</second> </item> <item> <first>LUT</first> <second>72</second> </item> </second> </item> <item> <first>out_stream_TDATA_blk_n</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>2</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>2</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>out_stream_TLAST</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>7</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>7</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> <item> <first>out_stream_TUSER</first> <second> <count>4</count> <item_version>0</item_version> <item> <first>(0Size)</first> <second>4</second> </item> <item> <first>(1Bits)</first> <second>1</second> </item> <item> <first>(2Count)</first> <second>4</second> </item> <item> <first>LUT</first> <second>1</second> </item> </second> </item> </dp_multiplexer_resource> <dp_register_resource> <count>22</count> <item_version>0</item_version> <item> <first>ap_CS_fsm</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>16</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>16</second> </item> </second> </item> <item> <first>ap_reg_ioackin_out_stream_TREADY</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>ap_reg_ppiten_pp4_it0</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>ap_reg_ppiten_pp4_it1</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>empty_4_reg_371_1</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>empty_4_reg_371_2</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>empty_reg_360_1</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>empty_reg_360_2</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>last_1_reg_347</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>last_2_reg_342</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>last_9_2_reg_382</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>last_reg_352</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>1</second> </item> </second> </item> <item> <first>mode_0_data_reg</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>32</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>32</second> </item> </second> </item> <item> <first>mode_0_vld_reg</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>1</second> </item> <item> <first>(Consts)</first> <second>1</second> </item> <item> <first>FF</first> <second>0</second> </item> </second> </item> <item> <first>p_Result_3_3_reg_392</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>24</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>24</second> </item> </second> </item> <item> <first>reg_181</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>8</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>8</second> </item> </second> </item> <item> <first>reg_185</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>8</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>8</second> </item> </second> </item> <item> <first>reg_189</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>8</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>8</second> </item> </second> </item> <item> <first>reg_193</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>16</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>16</second> </item> </second> </item> <item> <first>tmp_2_reg_366</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>24</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>24</second> </item> </second> </item> <item> <first>tmp_4_reg_377</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>16</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>16</second> </item> </second> </item> <item> <first>tmp_6_reg_387</first> <second> <count>3</count> <item_version>0</item_version> <item> <first>(Bits)</first> <second>8</second> </item> <item> <first>(Consts)</first> <second>0</second> </item> <item> <first>FF</first> <second>8</second> </item> </second> </item> </dp_register_resource> <dp_component_map class_id="41" tracking_level="0" version="0"> <count>0</count> <item_version>0</item_version> </dp_component_map> <dp_expression_map> <count>4</count> <item_version>0</item_version> <item class_id="42" tracking_level="0" version="0"> <first>has_user_V_2_fu_290_p2 ( or ) </first> <second> <count>1</count> <item_version>0</item_version> <item>103</item> </second> </item> <item> <first>last_9_2_fu_303_p2 ( or ) </first> <second> <count>1</count> <item_version>0</item_version> <item>105</item> </second> </item> <item> <first>tmp4_fu_284_p2 ( or ) </first> <second> <count>1</count> <item_version>0</item_version> <item>102</item> </second> </item> <item> <first>tmp5_fu_297_p2 ( or ) </first> <second> <count>1</count> <item_version>0</item_version> <item>104</item> </second> </item> </dp_expression_map> <dp_fifo_map> <count>0</count> <item_version>0</item_version> </dp_fifo_map> <dp_memory_map> <count>0</count> <item_version>0</item_version> </dp_memory_map> </res> <node_label_latency class_id="43" tracking_level="0" version="0"> <count>80</count> <item_version>0</item_version> <item class_id="44" tracking_level="0" version="0"> <first>8</first> <second class_id="45" tracking_level="0" version="0"> <first>0</first> <second>1</second> </second> </item> <item> <first>22</first> <second> <first>1</first> <second>0</second> </second> </item> <item> <first>26</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>27</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>28</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>29</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>30</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>31</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>32</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>33</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>34</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>35</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>36</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>37</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>39</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>43</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>44</first> <second> <first>2</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>2</first> <second>0</second> </second> </item> <item> <first>47</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>48</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>49</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>50</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>51</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>52</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>54</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>58</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>59</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>60</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>61</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>62</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>63</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>64</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>65</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>66</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>67</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>68</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>69</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>70</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>71</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>72</first> <second> <first>5</first> <second>0</second> </second> </item> <item> <first>73</first> <second> <first>5</first> <second>0</second> </second> </item> <item> <first>75</first> <second> <first>5</first> <second>0</second> </second> </item> <item> <first>79</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>80</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>81</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>82</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>83</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>84</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>86</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>90</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>91</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>92</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>93</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>94</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>95</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>96</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>97</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>98</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>99</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>100</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>101</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>102</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>103</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>104</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>105</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>106</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>107</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>108</first> <second> <first>2</first> <second>0</second> </second> </item> <item> <first>109</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>110</first> <second> <first>5</first> <second>0</second> </second> </item> <item> <first>111</first> <second> <first>5</first> <second>0</second> </second> </item> <item> <first>112</first> <second> <first>3</first> <second>0</second> </second> </item> <item> <first>113</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>114</first> <second> <first>6</first> <second>0</second> </second> </item> <item> <first>115</first> <second> <first>6</first> <second>0</second> </second> </item> <item> <first>116</first> <second> <first>4</first> <second>0</second> </second> </item> <item> <first>117</first> <second> <first>7</first> <second>0</second> </second> </item> <item> <first>119</first> <second> <first>7</first> <second>0</second> </second> </item> <item> <first>121</first> <second> <first>8</first> <second>0</second> </second> </item> </node_label_latency> <bblk_ent_exit class_id="46" tracking_level="0" version="0"> <count>7</count> <item_version>0</item_version> <item class_id="47" tracking_level="0" version="0"> <first>23</first> <second class_id="48" tracking_level="0" version="0"> <first>0</first> <second>1</second> </second> </item> <item> <first>40</first> <second> <first>2</first> <second>3</second> </second> </item> <item> <first>55</first> <second> <first>2</first> <second>3</second> </second> </item> <item> <first>76</first> <second> <first>2</first> <second>5</second> </second> </item> <item> <first>87</first> <second> <first>2</first> <second>2</second> </second> </item> <item> <first>120</first> <second> <first>2</first> <second>7</second> </second> </item> <item> <first>122</first> <second> <first>8</first> <second>8</second> </second> </item> </bblk_ent_exit> <regions class_id="49" tracking_level="0" version="0"> <count>5</count> <item_version>0</item_version> <item class_id="50" tracking_level="1" version="0" object_id="_505"> <region_name>Loop 4</region_name> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>55</item> </basic_blocks> <nodes> <count>0</count> <item_version>0</item_version> </nodes> <anchor_node>-1</anchor_node> <region_type>8</region_type> <interval>2</interval> <pipe_depth>2</pipe_depth> </item> <item class_id_reference="50" object_id="_506"> <region_name>Loop 2</region_name> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>87</item> </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>1</pipe_depth> </item> <item class_id_reference="50" object_id="_507"> <region_name>Loop 3</region_name> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>76</item> </basic_blocks> <nodes> <count>0</count> <item_version>0</item_version> </nodes> <anchor_node>-1</anchor_node> <region_type>8</region_type> <interval>4</interval> <pipe_depth>4</pipe_depth> </item> <item class_id_reference="50" object_id="_508"> <region_name>Loop 5</region_name> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>40</item> </basic_blocks> <nodes> <count>0</count> <item_version>0</item_version> </nodes> <anchor_node>-1</anchor_node> <region_type>8</region_type> <interval>2</interval> <pipe_depth>2</pipe_depth> </item> <item class_id_reference="50" object_id="_509"> <region_name>Loop 1</region_name> <basic_blocks> <count>1</count> <item_version>0</item_version> <item>120</item> </basic_blocks> <nodes> <count>0</count> <item_version>0</item_version> </nodes> <anchor_node>-1</anchor_node> <region_type>8</region_type> <interval>4</interval> <pipe_depth>6</pipe_depth> </item> </regions> <dp_fu_nodes class_id="51" tracking_level="0" version="0"> <count>36</count> <item_version>0</item_version> <item class_id="52" tracking_level="0" version="0"> <first>96</first> <second> <count>2</count> <item_version>0</item_version> <item>8</item> <item>8</item> </second> </item> <item> <first>102</first> <second> <count>7</count> <item_version>0</item_version> <item>26</item> <item>43</item> <item>58</item> <item>79</item> <item>90</item> <item>94</item> <item>98</item> </second> </item> <item> <first>112</first> <second> <count>13</count> <item_version>0</item_version> <item>34</item> <item>37</item> <item>49</item> <item>52</item> <item>64</item> <item>67</item> <item>70</item> <item>73</item> <item>84</item> <item>107</item> <item>111</item> <item>115</item> <item>117</item> </second> </item> <item> <first>127</first> <second> <count>7</count> <item_version>0</item_version> <item>27</item> <item>44</item> <item>59</item> <item>80</item> <item>91</item> <item>95</item> <item>99</item> </second> </item> <item> <first>131</first> <second> <count>5</count> <item_version>0</item_version> <item>28</item> <item>45</item> <item>60</item> <item>81</item> <item>100</item> </second> </item> <item> <first>136</first> <second> <count>5</count> <item_version>0</item_version> <item>29</item> <item>46</item> <item>61</item> <item>82</item> <item>101</item> </second> </item> <item> <first>141</first> <second> <count>2</count> <item_version>0</item_version> <item>30</item> <item>65</item> </second> </item> <item> <first>151</first> <second> <count>3</count> <item_version>0</item_version> <item>31</item> <item>71</item> <item>108</item> </second> </item> <item> <first>161</first> <second> <count>2</count> <item_version>0</item_version> <item>35</item> <item>68</item> </second> </item> <item> <first>171</first> <second> <count>2</count> <item_version>0</item_version> <item>50</item> <item>112</item> </second> </item> <item> <first>197</first> <second> <count>1</count> <item_version>0</item_version> <item>32</item> </second> </item> <item> <first>201</first> <second> <count>1</count> <item_version>0</item_version> <item>33</item> </second> </item> <item> <first>210</first> <second> <count>1</count> <item_version>0</item_version> <item>36</item> </second> </item> <item> <first>221</first> <second> <count>1</count> <item_version>0</item_version> <item>47</item> </second> </item> <item> <first>225</first> <second> <count>1</count> <item_version>0</item_version> <item>48</item> </second> </item> <item> <first>230</first> <second> <count>1</count> <item_version>0</item_version> <item>51</item> </second> </item> <item> <first>235</first> <second> <count>1</count> <item_version>0</item_version> <item>62</item> </second> </item> <item> <first>239</first> <second> <count>1</count> <item_version>0</item_version> <item>63</item> </second> </item> <item> <first>244</first> <second> <count>1</count> <item_version>0</item_version> <item>66</item> </second> </item> <item> <first>249</first> <second> <count>1</count> <item_version>0</item_version> <item>69</item> </second> </item> <item> <first>254</first> <second> <count>1</count> <item_version>0</item_version> <item>72</item> </second> </item> <item> <first>259</first> <second> <count>1</count> <item_version>0</item_version> <item>83</item> </second> </item> <item> <first>264</first> <second> <count>1</count> <item_version>0</item_version> <item>106</item> </second> </item> <item> <first>268</first> <second> <count>1</count> <item_version>0</item_version> <item>109</item> </second> </item> <item> <first>272</first> <second> <count>1</count> <item_version>0</item_version> <item>92</item> </second> </item> <item> <first>275</first> <second> <count>1</count> <item_version>0</item_version> <item>93</item> </second> </item> <item> <first>278</first> <second> <count>1</count> <item_version>0</item_version> <item>96</item> </second> </item> <item> <first>281</first> <second> <count>1</count> <item_version>0</item_version> <item>97</item> </second> </item> <item> <first>284</first> <second> <count>1</count> <item_version>0</item_version> <item>102</item> </second> </item> <item> <first>290</first> <second> <count>1</count> <item_version>0</item_version> <item>103</item> </second> </item> <item> <first>297</first> <second> <count>1</count> <item_version>0</item_version> <item>104</item> </second> </item> <item> <first>303</first> <second> <count>1</count> <item_version>0</item_version> <item>105</item> </second> </item> <item> <first>309</first> <second> <count>1</count> <item_version>0</item_version> <item>113</item> </second> </item> <item> <first>313</first> <second> <count>1</count> <item_version>0</item_version> <item>116</item> </second> </item> <item> <first>323</first> <second> <count>1</count> <item_version>0</item_version> <item>110</item> </second> </item> <item> <first>331</first> <second> <count>1</count> <item_version>0</item_version> <item>114</item> </second> </item> </dp_fu_nodes> <dp_fu_nodes_expression class_id="54" tracking_level="0" version="0"> <count>33</count> <item_version>0</item_version> <item class_id="55" tracking_level="0" version="0"> <first>grp_fu_127</first> <second> <count>7</count> <item_version>0</item_version> <item>27</item> <item>44</item> <item>59</item> <item>80</item> <item>91</item> <item>95</item> <item>99</item> </second> </item> <item> <first>grp_fu_131</first> <second> <count>5</count> <item_version>0</item_version> <item>28</item> <item>45</item> <item>60</item> <item>81</item> <item>100</item> </second> </item> <item> <first>grp_fu_136</first> <second> <count>5</count> <item_version>0</item_version> <item>29</item> <item>46</item> <item>61</item> <item>82</item> <item>101</item> </second> </item> <item> <first>grp_fu_141</first> <second> <count>2</count> <item_version>0</item_version> <item>30</item> <item>65</item> </second> </item> <item> <first>grp_fu_151</first> <second> <count>3</count> <item_version>0</item_version> <item>31</item> <item>71</item> <item>108</item> </second> </item> <item> <first>grp_fu_161</first> <second> <count>2</count> <item_version>0</item_version> <item>35</item> <item>68</item> </second> </item> <item> <first>grp_fu_171</first> <second> <count>2</count> <item_version>0</item_version> <item>50</item> <item>112</item> </second> </item> <item> <first>has_user_V_2_fu_290</first> <second> <count>1</count> <item_version>0</item_version> <item>103</item> </second> </item> <item> <first>in_stream_last_V_val1_fu_281</first> <second> <count>1</count> <item_version>0</item_version> <item>97</item> </second> </item> <item> <first>in_stream_last_V_val_fu_275</first> <second> <count>1</count> <item_version>0</item_version> <item>93</item> </second> </item> <item> <first>in_stream_user_V_val1_fu_278</first> <second> <count>1</count> <item_version>0</item_version> <item>96</item> </second> </item> <item> <first>in_stream_user_V_val_fu_272</first> <second> <count>1</count> <item_version>0</item_version> <item>92</item> </second> </item> <item> <first>last_9_2_fu_303</first> <second> <count>1</count> <item_version>0</item_version> <item>105</item> </second> </item> <item> <first>p_Result_14_1_fu_210</first> <second> <count>1</count> <item_version>0</item_version> <item>36</item> </second> </item> <item> <first>p_Result_2_fu_201</first> <second> <count>1</count> <item_version>0</item_version> <item>33</item> </second> </item> <item> <first>p_Result_3_1_fu_323</first> <second> <count>1</count> <item_version>0</item_version> <item>110</item> </second> </item> <item> <first>p_Result_3_2_fu_331</first> <second> <count>1</count> <item_version>0</item_version> <item>114</item> </second> </item> <item> <first>p_Result_3_3_fu_313</first> <second> <count>1</count> <item_version>0</item_version> <item>116</item> </second> </item> <item> <first>p_Result_6_1_fu_244</first> <second> <count>1</count> <item_version>0</item_version> <item>66</item> </second> </item> <item> <first>p_Result_6_2_fu_249</first> <second> <count>1</count> <item_version>0</item_version> <item>69</item> </second> </item> <item> <first>p_Result_6_3_fu_254</first> <second> <count>1</count> <item_version>0</item_version> <item>72</item> </second> </item> <item> <first>p_Result_6_fu_239</first> <second> <count>1</count> <item_version>0</item_version> <item>63</item> </second> </item> <item> <first>p_Result_8_1_fu_230</first> <second> <count>1</count> <item_version>0</item_version> <item>51</item> </second> </item> <item> <first>p_Result_8_fu_225</first> <second> <count>1</count> <item_version>0</item_version> <item>48</item> </second> </item> <item> <first>tmp4_fu_284</first> <second> <count>1</count> <item_version>0</item_version> <item>102</item> </second> </item> <item> <first>tmp5_fu_297</first> <second> <count>1</count> 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with openGL.Font.texture, openGL.Geometry; package openGL.Model.Text.lit_colored_textured -- -- Models lit, colored, textured text. -- is type Item is new Model.text.item with record Text : access String; Font_Id : openGL.Font.font_Id; Font : openGL.Font.texture.view; Color : lucid_Color; Centered : Boolean; end record; type View is access all Item'Class; --------- --- Forge -- function new_Text (Scale : in Vector_3; Text : in String; Font : in openGL.Font.font_Id; Color : in lucid_Color; Centered : in Boolean := True) return View; -------------- --- Attributes -- overriding function to_GL_Geometries (Self : access Item; Textures : access Texture.name_Map_of_texture'Class; Fonts : in openGL.Font.font_id_Map_of_font) return Geometry.views; overriding procedure Text_is (Self : in out Item; Now : in String); overriding function Text (Self : in Item) return String; overriding function Font (Self : in Item) return openGL.Font.view; end openGL.Model.Text.lit_colored_textured;

-- Copyright 2011-2015 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 procedure Do_Nothing (A : System.Address) is begin null; end Do_Nothing; end Pck;