repo_name stringlengths 5 100 | path stringlengths 4 375 | copies stringclasses 991
values | size stringlengths 4 7 | content stringlengths 666 1M | license stringclasses 15
values |
|---|---|---|---|---|---|
pennsignals/aptos | aptos/__main__.py | 1 | 2516 | import argparse
import json
import sys
import colorama
from termcolor import colored
from .parser import SchemaParser
from .primitive import Object
from .visitor import ValidationVisitor
from .schema.visitor import AvroSchemaVisitor
def validate(arguments):
with open(arguments.schema) as fp:
schema = json.load(fp)
component = SchemaParser.parse(schema)
instance = json.loads(arguments.instance)
try:
component.accept(ValidationVisitor(instance))
except AssertionError as e:
sys.exit(colored('error', 'red') + ' {!r}'.format(e.args[0]))
print(colored('success', 'green') + ' instance {!r} is valid against the schema {!r}'.format(instance, arguments.schema)) # noqa: E501
def convert(arguments):
with open(arguments.schema) as fp:
schema = json.load(fp)
component = SchemaParser.parse(schema)
if not isinstance(component, Object):
sys.exit(colored('error', 'red') + ' cannot convert schema {!r} into {!r} format, schema must be of type "object"'.format(arguments.schema, arguments.format)) # noqa: E501
Visitor = {
'avro': AvroSchemaVisitor,
}[arguments.format]
print(json.dumps(component.accept(Visitor()), indent=2))
def main():
# colorama works cross-platform to color text output in CLI
colorama.init()
parser = argparse.ArgumentParser(description='''
aptos is a tool for validating client-submitted data using the
JSON Schema vocabulary and converts JSON Schema documents into
different data-interchange formats.
''', usage='%(prog)s [arguments] SCHEMA', epilog='''
More information on JSON Schema: http://json-schema.org/''')
subparsers = parser.add_subparsers(title='Arguments')
validation = subparsers.add_parser(
'validate', help='Validate a JSON instance')
validation.add_argument(
'-instance', type=str, default=json.dumps({}),
help='JSON document being validated')
validation.set_defaults(func=validate)
conversion = subparsers.add_parser(
'convert', help='''
Convert a JSON Schema into a different data-interchange format''')
conversion.add_argument(
'-format', type=str, choices=['avro'], help='data-interchange format')
conversion.set_defaults(func=convert)
parser.add_argument(
'schema', type=str, help='JSON document containing the description')
arguments = parser.parse_args()
arguments.func(arguments)
if __name__ == '__main__':
main()
| apache-2.0 |
v-iam/azure-sdk-for-python | azure-servicefabric/azure/servicefabric/models/executing_faults_chaos_event.py | 2 | 1449 | # coding=utf-8
# --------------------------------------------------------------------------
# Copyright (c) Microsoft Corporation. All rights reserved.
# Licensed under the MIT License. See License.txt in the project root for
# license information.
#
# Code generated by Microsoft (R) AutoRest Code Generator.
# Changes may cause incorrect behavior and will be lost if the code is
# regenerated.
# --------------------------------------------------------------------------
from .chaos_event import ChaosEvent
class ExecutingFaultsChaosEvent(ChaosEvent):
"""Describes a Chaos event that gets generated when Chaos has decided on the
faults for an iteration. This Chaos event contains the details of the
faults as a list of strings.
:param time_stamp_utc:
:type time_stamp_utc: datetime
:param Kind: Polymorphic Discriminator
:type Kind: str
:param faults:
:type faults: list of str
"""
_validation = {
'time_stamp_utc': {'required': True},
'Kind': {'required': True},
}
_attribute_map = {
'time_stamp_utc': {'key': 'TimeStampUtc', 'type': 'iso-8601'},
'Kind': {'key': 'Kind', 'type': 'str'},
'faults': {'key': 'Faults', 'type': '[str]'},
}
def __init__(self, time_stamp_utc, faults=None):
super(ExecutingFaultsChaosEvent, self).__init__(time_stamp_utc=time_stamp_utc)
self.faults = faults
self.Kind = 'ExecutingFaults'
| mit |
emfcamp/micropython | drivers/onewire/onewire.py | 66 | 11789 | """
OneWire library ported to MicroPython by Jason Hildebrand.
TODO:
* implement and test parasite-power mode (as an init option)
* port the crc checks
The original upstream copyright and terms follow.
------------------------------------------------------------------------------
Copyright (c) 2007, Jim Studt (original old version - many contributors since)
OneWire has been maintained by Paul Stoffregen (paul@pjrc.com) since
January 2010.
26 Sept 2008 -- Robin James
Jim Studt's original library was modified by Josh Larios.
Tom Pollard, pollard@alum.mit.edu, contributed around May 20, 2008
Permission is hereby granted, free of charge, to any person obtaining
a copy of this software and associated documentation files (the
"Software"), to deal in the Software without restriction, including
without limitation the rights to use, copy, modify, merge, publish,
distribute, sublicense, and/or sell copies of the Software, and to
permit persons to whom the Software is furnished to do so, subject to
the following conditions:
The above copyright notice and this permission notice shall be
included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Much of the code was inspired by Derek Yerger's code, though I don't
think much of that remains. In any event that was..
(copyleft) 2006 by Derek Yerger - Free to distribute freely.
"""
import pyb
from pyb import disable_irq
from pyb import enable_irq
class OneWire:
def __init__(self, pin):
"""
Pass the data pin connected to your one-wire device(s), for example Pin('X1').
The one-wire protocol allows for multiple devices to be attached.
"""
self.data_pin = pin
self.write_delays = (1, 40, 40, 1)
self.read_delays = (1, 1, 40)
# cache a bunch of methods and attributes. This is necessary in _write_bit and
# _read_bit to achieve the timing required by the OneWire protocol.
self.cache = (pin.init, pin.value, pin.OUT_PP, pin.IN, pin.PULL_NONE)
pin.init(pin.IN, pin.PULL_UP)
def reset(self):
"""
Perform the onewire reset function.
Returns 1 if a device asserted a presence pulse, 0 otherwise.
If you receive 0, then check your wiring and make sure you are providing
power and ground to your devices.
"""
retries = 25
self.data_pin.init(self.data_pin.IN, self.data_pin.PULL_UP)
# We will wait up to 250uS for
# the bus to come high, if it doesn't then it is broken or shorted
# and we return a 0;
# wait until the wire is high... just in case
while True:
if self.data_pin.value():
break
retries -= 1
if retries == 0:
raise OSError("OneWire pin didn't go high")
pyb.udelay(10)
# pull the bus low for at least 480us
self.data_pin.low()
self.data_pin.init(self.data_pin.OUT_PP)
pyb.udelay(480)
# If there is a slave present, it should pull the bus low within 60us
i = pyb.disable_irq()
self.data_pin.init(self.data_pin.IN, self.data_pin.PULL_UP)
pyb.udelay(70)
presence = not self.data_pin.value()
pyb.enable_irq(i)
pyb.udelay(410)
return presence
def write_bit(self, value):
"""
Write a single bit.
"""
pin_init, pin_value, Pin_OUT_PP, Pin_IN, Pin_PULL_UP = self.cache
self._write_bit(value, pin_init, pin_value, Pin_OUT_PP)
def _write_bit(self, value, pin_init, pin_value, Pin_OUT_PP):
"""
Write a single bit - requires cached methods/attributes be passed as arguments.
See also write_bit()
"""
d0, d1, d2, d3 = self.write_delays
udelay = pyb.udelay
if value:
# write 1
i = disable_irq()
pin_value(0)
pin_init(Pin_OUT_PP)
udelay(d0)
pin_value(1)
enable_irq(i)
udelay(d1)
else:
# write 0
i = disable_irq()
pin_value(0)
pin_init(Pin_OUT_PP)
udelay(d2)
pin_value(1)
enable_irq(i)
udelay(d3)
def write_byte(self, value):
"""
Write a byte. The pin will go tri-state at the end of the write to avoid
heating in a short or other mishap.
"""
pin_init, pin_value, Pin_OUT_PP, Pin_IN, Pin_PULL_UP = self.cache
for i in range(8):
self._write_bit(value & 1, pin_init, pin_value, Pin_OUT_PP)
value >>= 1
pin_init(Pin_IN, Pin_PULL_UP)
def write_bytes(self, bytestring):
"""
Write a sequence of bytes.
"""
for byte in bytestring:
self.write_byte(byte)
def _read_bit(self, pin_init, pin_value, Pin_OUT_PP, Pin_IN, Pin_PULL_UP):
"""
Read a single bit - requires cached methods/attributes be passed as arguments.
See also read_bit()
"""
d0, d1, d2 = self.read_delays
udelay = pyb.udelay
pin_init(Pin_IN, Pin_PULL_UP) # TODO why do we need this?
i = disable_irq()
pin_value(0)
pin_init(Pin_OUT_PP)
udelay(d0)
pin_init(Pin_IN, Pin_PULL_UP)
udelay(d1)
value = pin_value()
enable_irq(i)
udelay(d2)
return value
def read_bit(self):
"""
Read a single bit.
"""
pin_init, pin_value, Pin_OUT_PP, Pin_IN, Pin_PULL_UP = self.cache
return self._read_bit(pin_init, pin_value, Pin_OUT_PP, Pin_IN, Pin_PULL_UP)
def read_byte(self):
"""
Read a single byte and return the value as an integer.
See also read_bytes()
"""
pin_init, pin_value, Pin_OUT_PP, Pin_IN, Pin_PULL_UP = self.cache
value = 0
for i in range(8):
bit = self._read_bit(pin_init, pin_value, Pin_OUT_PP, Pin_IN, Pin_PULL_UP)
value |= bit << i
return value
def read_bytes(self, count):
"""
Read a sequence of N bytes.
The bytes are returned as a bytearray.
"""
s = bytearray(count)
for i in range(count):
s[i] = self.read_byte()
return s
def select_rom(self, rom):
"""
Select a specific device to talk to. Pass in rom as a bytearray (8 bytes).
"""
assert len(rom) == 8, "ROM must be 8 bytes"
self.reset()
self.write_byte(0x55) # ROM MATCH
self.write_bytes(rom)
def read_rom(self):
"""
Read the ROM - this works if there is only a single device attached.
"""
self.reset()
self.write_byte(0x33) # READ ROM
rom = self.read_bytes(8)
# TODO: check CRC of the ROM
return rom
def skip_rom(self):
"""
Send skip-rom command - this works if there is only one device attached.
"""
self.write_byte(0xCC) # SKIP ROM
def depower(self):
self.data_pin.init(self.data_pin.IN, self.data_pin.PULL_NONE)
def scan(self):
"""
Return a list of ROMs for all attached devices.
Each ROM is returned as a bytes object of 8 bytes.
"""
devices = []
self._reset_search()
while True:
rom = self._search()
if not rom:
return devices
devices.append(rom)
def _reset_search(self):
self.last_discrepancy = 0
self.last_device_flag = False
self.last_family_discrepancy = 0
self.rom = bytearray(8)
def _search(self):
# initialize for search
id_bit_number = 1
last_zero = 0
rom_byte_number = 0
rom_byte_mask = 1
search_result = 0
pin_init, pin_value, Pin_OUT_PP, Pin_IN, Pin_PULL_UP = self.cache
# if the last call was not the last one
if not self.last_device_flag:
# 1-Wire reset
if not self.reset():
self._reset_search()
return None
# issue the search command
self.write_byte(0xF0)
# loop to do the search
while rom_byte_number < 8: # loop until through all ROM bytes 0-7
# read a bit and its complement
id_bit = self._read_bit(pin_init, pin_value, Pin_OUT_PP, Pin_IN, Pin_PULL_UP)
cmp_id_bit = self._read_bit(pin_init, pin_value, Pin_OUT_PP, Pin_IN, Pin_PULL_UP)
# check for no devices on 1-wire
if (id_bit == 1) and (cmp_id_bit == 1):
break
else:
# all devices coupled have 0 or 1
if (id_bit != cmp_id_bit):
search_direction = id_bit # bit write value for search
else:
# if this discrepancy if before the Last Discrepancy
# on a previous next then pick the same as last time
if (id_bit_number < self.last_discrepancy):
search_direction = (self.rom[rom_byte_number] & rom_byte_mask) > 0
else:
# if equal to last pick 1, if not then pick 0
search_direction = (id_bit_number == self.last_discrepancy)
# if 0 was picked then record its position in LastZero
if search_direction == 0:
last_zero = id_bit_number
# check for Last discrepancy in family
if last_zero < 9:
self.last_family_discrepancy = last_zero
# set or clear the bit in the ROM byte rom_byte_number
# with mask rom_byte_mask
if search_direction == 1:
self.rom[rom_byte_number] |= rom_byte_mask
else:
self.rom[rom_byte_number] &= ~rom_byte_mask
# serial number search direction write bit
#print('sd', search_direction)
self.write_bit(search_direction)
# increment the byte counter id_bit_number
# and shift the mask rom_byte_mask
id_bit_number += 1
rom_byte_mask <<= 1
# if the mask is 0 then go to new SerialNum byte rom_byte_number and reset mask
if rom_byte_mask == 0x100:
rom_byte_number += 1
rom_byte_mask = 1
# if the search was successful then
if not (id_bit_number < 65):
# search successful so set last_discrepancy,last_device_flag,search_result
self.last_discrepancy = last_zero
# check for last device
if self.last_discrepancy == 0:
self.last_device_flag = True
search_result = True
# if no device found then reset counters so next 'search' will be like a first
if not search_result or not self.rom[0]:
self._reset_search()
return None
else:
return bytes(self.rom)
| mit |
vizual54/MissionPlanner | Lib/lib2to3/fixes/fix_map.py | 61 | 3153 | # Copyright 2007 Google, Inc. All Rights Reserved.
# Licensed to PSF under a Contributor Agreement.
"""Fixer that changes map(F, ...) into list(map(F, ...)) unless there
exists a 'from future_builtins import map' statement in the top-level
namespace.
As a special case, map(None, X) is changed into list(X). (This is
necessary because the semantics are changed in this case -- the new
map(None, X) is equivalent to [(x,) for x in X].)
We avoid the transformation (except for the special case mentioned
above) if the map() call is directly contained in iter(<>), list(<>),
tuple(<>), sorted(<>), ...join(<>), or for V in <>:.
NOTE: This is still not correct if the original code was depending on
map(F, X, Y, ...) to go on until the longest argument is exhausted,
substituting None for missing values -- like zip(), it now stops as
soon as the shortest argument is exhausted.
"""
# Local imports
from ..pgen2 import token
from .. import fixer_base
from ..fixer_util import Name, Call, ListComp, in_special_context
from ..pygram import python_symbols as syms
class FixMap(fixer_base.ConditionalFix):
BM_compatible = True
PATTERN = """
map_none=power<
'map'
trailer< '(' arglist< 'None' ',' arg=any [','] > ')' >
>
|
map_lambda=power<
'map'
trailer<
'('
arglist<
lambdef< 'lambda'
(fp=NAME | vfpdef< '(' fp=NAME ')'> ) ':' xp=any
>
','
it=any
>
')'
>
>
|
power<
'map' trailer< '(' [arglist=any] ')' >
>
"""
skip_on = 'future_builtins.map'
def transform(self, node, results):
if self.should_skip(node):
return
if node.parent.type == syms.simple_stmt:
self.warning(node, "You should use a for loop here")
new = node.clone()
new.prefix = u""
new = Call(Name(u"list"), [new])
elif "map_lambda" in results:
new = ListComp(results["xp"].clone(),
results["fp"].clone(),
results["it"].clone())
else:
if "map_none" in results:
new = results["arg"].clone()
else:
if "arglist" in results:
args = results["arglist"]
if args.type == syms.arglist and \
args.children[0].type == token.NAME and \
args.children[0].value == "None":
self.warning(node, "cannot convert map(None, ...) "
"with multiple arguments because map() "
"now truncates to the shortest sequence")
return
if in_special_context(node):
return None
new = node.clone()
new.prefix = u""
new = Call(Name(u"list"), [new])
new.prefix = node.prefix
return new
| gpl-3.0 |
rbrecheisen/brainminer | brainminer/storage/api/repository.py | 1 | 2372 | from flask_restful import reqparse
from brainminer.base.api import PermissionProtectedResource
from brainminer.storage.dao import RepositoryDao
# ----------------------------------------------------------------------------------------------------------------------
class RepositoriesResource(PermissionProtectedResource):
URI = '/repositories'
def get(self):
self.check_permission('retrieve:repository')
parser = reqparse.RequestParser()
parser.add_argument('name', type=str, location='json')
args = parser.parse_args()
repository_dao = RepositoryDao(self.db_session())
result = [repository.to_dict() for repository in repository_dao.retrieve_all(**args)]
return result, 200
def post(self):
self.check_permission('create:repository')
parser = reqparse.RequestParser()
parser.add_argument('name', type=str, required=True, location='json')
args = parser.parse_args()
repository_dao = RepositoryDao(self.db_session())
repository = repository_dao.create(**args)
return repository.to_dict(), 201
# ----------------------------------------------------------------------------------------------------------------------
class RepositoryResource(PermissionProtectedResource):
URI = '/repositories/{}'
def get(self, id):
self.check_permission('retrieve:repository@{}'.format(id))
repository_dao = RepositoryDao(self.db_session())
repository = repository_dao.retrieve(id=id)
return repository.to_dict(), 200
def put(self, id):
self.check_permission('retrieve,update:repository@{}'.format(id))
parser = reqparse.RequestParser()
parser.add_argument('name', type=str, location='json')
args = parser.parse_args()
repository_dao = RepositoryDao(self.db_session())
repository = repository_dao.retrieve(id=id)
if args['name'] != repository.name:
repository.name = args['name']
repository_dao.save(repository)
return repository.to_dict(), 200
def delete(self, id):
self.check_permission('retrieve,delete:repository@{}'.format(id))
repository_dao = RepositoryDao(self.db_session())
repository = repository_dao.retrieve(id=id)
repository_dao.delete(repository)
return {}, 204
| lgpl-3.0 |
meganchang/Stem | test/integ/util/system.py | 3 | 12155 | """
Integration tests for the stem.util.system functions against the tor process
that we're running.
"""
import os
import getpass
import unittest
import stem.util.system
import test.runner
import test.mocking as mocking
def filter_system_call(prefixes):
"""
Provides a functor that passes calls on to the stem.util.system.call()
function if it matches one of the prefixes, and acts as a no-op otherwise.
"""
def _filter_system_call(command):
for prefix in prefixes:
if command.startswith(prefix):
real_call_function = mocking.get_real_function(stem.util.system.call)
return real_call_function(command)
return _filter_system_call
def _has_port():
"""
True if our test runner has a control port, False otherwise.
"""
return test.runner.Torrc.PORT in test.runner.get_runner().get_options()
class TestSystem(unittest.TestCase):
is_extra_tor_running = None
def setUp(self):
# Try to figure out if there's more than one tor instance running. This
# check will fail if pgrep is unavailable (for instance on bsd) but this
# isn't the end of the world. It's just used to skip tests if they should
# legitemately fail.
if self.is_extra_tor_running is None:
if not stem.util.system.is_bsd():
pgrep_results = stem.util.system.call(stem.util.system.GET_PID_BY_NAME_PGREP % "tor")
self.is_extra_tor_running = len(pgrep_results) > 1
else:
ps_results = stem.util.system.call(stem.util.system.GET_PID_BY_NAME_PS_BSD)
results = [r for r in ps_results if r.endswith(" tor")]
self.is_extra_tor_running = len(results) > 1
def tearDown(self):
mocking.revert_mocking()
def test_is_available(self):
"""
Checks the stem.util.system.is_available function.
"""
# since we're running tor it would be kinda sad if this didn't detect it
self.assertTrue(stem.util.system.is_available("tor"))
# but it would be kinda weird if this did...
self.assertFalse(stem.util.system.is_available("blarg_and_stuff"))
def test_is_running(self):
"""
Checks the stem.util.system.is_running function.
"""
self.assertTrue(stem.util.system.is_running("tor"))
self.assertFalse(stem.util.system.is_running("blarg_and_stuff"))
def test_get_pid_by_name(self):
"""
Checks general usage of the stem.util.system.get_pid_by_name function. This
will fail if there's other tor instances running.
"""
if self.is_extra_tor_running:
self.skipTest("(multiple tor instances)")
tor_pid = test.runner.get_runner().get_pid()
self.assertEquals(tor_pid, stem.util.system.get_pid_by_name("tor"))
self.assertEquals(None, stem.util.system.get_pid_by_name("blarg_and_stuff"))
def test_get_pid_by_name_pgrep(self):
"""
Tests the get_pid_by_name function with a pgrep response.
"""
if self.is_extra_tor_running:
self.skipTest("(multiple tor instances)")
elif not stem.util.system.is_available("pgrep"):
self.skipTest("(pgrep unavailable)")
pgrep_prefix = stem.util.system.GET_PID_BY_NAME_PGREP % ""
mocking.mock(stem.util.system.call, filter_system_call([pgrep_prefix]))
tor_pid = test.runner.get_runner().get_pid()
self.assertEquals(tor_pid, stem.util.system.get_pid_by_name("tor"))
def test_get_pid_by_name_pidof(self):
"""
Tests the get_pid_by_name function with a pidof response.
"""
if self.is_extra_tor_running:
self.skipTest("(multiple tor instances)")
elif not stem.util.system.is_available("pidof"):
self.skipTest("(pidof unavailable)")
pidof_prefix = stem.util.system.GET_PID_BY_NAME_PIDOF % ""
mocking.mock(stem.util.system.call, filter_system_call([pidof_prefix]))
tor_pid = test.runner.get_runner().get_pid()
self.assertEquals(tor_pid, stem.util.system.get_pid_by_name("tor"))
def test_get_pid_by_name_ps_linux(self):
"""
Tests the get_pid_by_name function with the linux variant of ps.
"""
if self.is_extra_tor_running:
self.skipTest("(multiple tor instances)")
elif not stem.util.system.is_available("ps"):
self.skipTest("(ps unavailable)")
elif stem.util.system.is_bsd():
self.skipTest("(linux only)")
ps_prefix = stem.util.system.GET_PID_BY_NAME_PS_LINUX % ""
mocking.mock(stem.util.system.call, filter_system_call([ps_prefix]))
tor_pid = test.runner.get_runner().get_pid()
self.assertEquals(tor_pid, stem.util.system.get_pid_by_name("tor"))
def test_get_pid_by_name_ps_bsd(self):
"""
Tests the get_pid_by_name function with the bsd variant of ps.
"""
if self.is_extra_tor_running:
self.skipTest("(multiple tor instances)")
elif not stem.util.system.is_available("ps"):
self.skipTest("(ps unavailable)")
elif not stem.util.system.is_bsd():
self.skipTest("(bsd only)")
ps_prefix = stem.util.system.GET_PID_BY_NAME_PS_BSD
mocking.mock(stem.util.system.call, filter_system_call([ps_prefix]))
tor_pid = test.runner.get_runner().get_pid()
self.assertEquals(tor_pid, stem.util.system.get_pid_by_name("tor"))
def test_get_pid_by_name_lsof(self):
"""
Tests the get_pid_by_name function with a lsof response.
"""
runner = test.runner.get_runner()
if self.is_extra_tor_running:
self.skipTest("(multiple tor instances)")
elif not stem.util.system.is_available("lsof"):
self.skipTest("(lsof unavailable)")
elif not runner.is_ptraceable():
self.skipTest("(DisableDebuggerAttachment is set)")
lsof_prefix = stem.util.system.GET_PID_BY_NAME_LSOF % ""
mocking.mock(stem.util.system.call, filter_system_call([lsof_prefix]))
tor_pid = test.runner.get_runner().get_pid()
self.assertEquals(tor_pid, stem.util.system.get_pid_by_name("tor"))
def test_get_pid_by_port(self):
"""
Checks general usage of the stem.util.system.get_pid_by_port function.
"""
runner = test.runner.get_runner()
if not _has_port():
self.skipTest("(test instance has no port)")
elif not runner.is_ptraceable():
self.skipTest("(DisableDebuggerAttachment is set)")
tor_pid, tor_port = runner.get_pid(), test.runner.CONTROL_PORT
self.assertEquals(tor_pid, stem.util.system.get_pid_by_port(tor_port))
self.assertEquals(None, stem.util.system.get_pid_by_port(99999))
def test_get_pid_by_port_netstat(self):
"""
Tests the get_pid_by_port function with a netstat response.
"""
runner = test.runner.get_runner()
if not _has_port():
self.skipTest("(test instance has no port)")
elif not stem.util.system.is_available("netstat"):
self.skipTest("(netstat unavailable)")
elif stem.util.system.is_bsd():
self.skipTest("(linux only)")
elif not runner.is_ptraceable():
self.skipTest("(DisableDebuggerAttachment is set)")
netstat_prefix = stem.util.system.GET_PID_BY_PORT_NETSTAT
mocking.mock(stem.util.system.call, filter_system_call([netstat_prefix]))
tor_pid = test.runner.get_runner().get_pid()
self.assertEquals(tor_pid, stem.util.system.get_pid_by_port(test.runner.CONTROL_PORT))
def test_get_pid_by_port_sockstat(self):
"""
Tests the get_pid_by_port function with a sockstat response.
"""
runner = test.runner.get_runner()
if not _has_port():
self.skipTest("(test instance has no port)")
elif not stem.util.system.is_available("sockstat"):
self.skipTest("(sockstat unavailable)")
elif not stem.util.system.is_bsd():
self.skipTest("(bsd only)")
elif not runner.is_ptraceable():
self.skipTest("(DisableDebuggerAttachment is set)")
sockstat_prefix = stem.util.system.GET_PID_BY_PORT_SOCKSTAT % ""
mocking.mock(stem.util.system.call, filter_system_call([sockstat_prefix]))
tor_pid = test.runner.get_runner().get_pid()
self.assertEquals(tor_pid, stem.util.system.get_pid_by_port(test.runner.CONTROL_PORT))
def test_get_pid_by_port_lsof(self):
"""
Tests the get_pid_by_port function with a lsof response.
"""
runner = test.runner.get_runner()
if not _has_port():
self.skipTest("(test instance has no port)")
elif not stem.util.system.is_available("lsof"):
self.skipTest("(lsof unavailable)")
elif not runner.is_ptraceable():
self.skipTest("(DisableDebuggerAttachment is set)")
lsof_prefix = stem.util.system.GET_PID_BY_PORT_LSOF
mocking.mock(stem.util.system.call, filter_system_call([lsof_prefix]))
tor_pid = test.runner.get_runner().get_pid()
self.assertEquals(tor_pid, stem.util.system.get_pid_by_port(test.runner.CONTROL_PORT))
def test_get_pid_by_open_file(self):
"""
Checks the stem.util.system.get_pid_by_open_file function.
"""
# on macs this test is unreliable because Quicklook sometimes claims '/tmp'
if os.uname()[0] == "Darwin": self.skipTest("(unreliable due to Quicklook)")
# we're not running with a control socket so this just exercises the
# failure case
self.assertEquals(None, stem.util.system.get_pid_by_open_file("/tmp"))
self.assertEquals(None, stem.util.system.get_pid_by_open_file("/non-existnt-path"))
def test_get_cwd(self):
"""
Checks general usage of the stem.util.system.get_cwd function.
"""
runner = test.runner.get_runner()
if not runner.is_ptraceable():
self.skipTest("(DisableDebuggerAttachment is set)")
runner_pid, tor_cwd = runner.get_pid(), runner.get_tor_cwd()
self.assertEquals(tor_cwd, stem.util.system.get_cwd(runner_pid))
self.assertEquals(None, stem.util.system.get_cwd(99999))
def test_get_cwd_pwdx(self):
"""
Tests the get_pid_by_cwd function with a pwdx response.
"""
runner = test.runner.get_runner()
if not stem.util.system.is_available("pwdx"):
self.skipTest("(pwdx unavailable)")
elif not runner.is_ptraceable():
self.skipTest("(DisableDebuggerAttachment is set)")
# filter the call function to only allow this command
pwdx_prefix = stem.util.system.GET_CWD_PWDX % ""
mocking.mock(stem.util.system.call, filter_system_call([pwdx_prefix]))
runner_pid, tor_cwd = runner.get_pid(), runner.get_tor_cwd()
self.assertEquals(tor_cwd, stem.util.system.get_cwd(runner_pid))
def test_get_cwd_lsof(self):
"""
Tests the get_pid_by_cwd function with a lsof response.
"""
runner = test.runner.get_runner()
if not stem.util.system.is_available("lsof"):
self.skipTest("(lsof unavailable)")
elif not runner.is_ptraceable():
self.skipTest("(DisableDebuggerAttachment is set)")
# filter the call function to only allow this command
lsof_prefix = "lsof -a -p "
mocking.mock(stem.util.system.call, filter_system_call([lsof_prefix]))
runner_pid, tor_cwd = runner.get_pid(), runner.get_tor_cwd()
self.assertEquals(tor_cwd, stem.util.system.get_cwd(runner_pid))
def test_get_bsd_jail_id(self):
"""
Exercises the stem.util.system.get_bsd_jail_id function, running through
the failure case (since I'm not on BSD I can't really test this function
properly).
"""
self.assertEquals(0, stem.util.system.get_bsd_jail_id(99999))
def test_expand_path(self):
"""
Exercises the stem.expand_path method with actual runtime data.
"""
self.assertEquals(os.getcwd(), stem.util.system.expand_path("."))
self.assertEquals(os.getcwd(), stem.util.system.expand_path("./"))
self.assertEquals(os.path.join(os.getcwd(), "foo"), stem.util.system.expand_path("./foo"))
home_dir, username = os.getenv("HOME"), getpass.getuser()
self.assertEquals(home_dir, stem.util.system.expand_path("~"))
self.assertEquals(home_dir, stem.util.system.expand_path("~/"))
self.assertEquals(home_dir, stem.util.system.expand_path("~%s" % username))
self.assertEquals(os.path.join(home_dir, "foo"), stem.util.system.expand_path("~%s/foo" % username))
| lgpl-3.0 |
gautam1858/tensorflow | tensorflow/contrib/timeseries/python/timeseries/state_space_models/varma.py | 19 | 8973 | # Copyright 2017 The TensorFlow Authors. All Rights Reserved.
#
# 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.
# ==============================================================================
r"""Multivariate autoregressive model (vector autoregression).
Implements the following model (num_blocks = max(ar_order, ma_order + 1)):
y(t, 1) = \sum_{i=1}^{ar_order} ar_coefs[i] * y(t - 1, i)
y(t, i) = y(t - 1, i - 1) + ma_coefs[i - 1] * e(t) for 1 < i < num_blocks
y(t, num_blocks) = y(t - 1, num_blocks - 1) + e(t)
Where e(t) are Gaussian with zero mean and learned covariance.
Each element of ar_coefs and ma_coefs is a [num_features x num_features]
matrix. Each y(t, i) is a vector of length num_features. Indices in the above
equations are one-based. Initial conditions y(0, i) come from prior state (which
may either be learned or left as a constant with high prior covariance).
If ar_order > ma_order, the observation model is:
y(t, 1) + observation_noise(t)
If ma_order >= ar_order, it is (to observe the moving average component):
y(t, 1) + y(t, num_blocks) + observation_noise(t)
Where observation_noise(t) are Gaussian with zero mean and learned covariance.
This implementation uses a formulation which puts all of the autoregressive
coefficients in the transition equation for the observed component, which
enables learning using truncated backpropagation. Noise is not applied directly
to the observed component (with the exception of standard observation noise),
which further aids learning of the autoregressive coefficients when VARMA is in
an ensemble with other models (in which case having an observation noise term is
usually unavoidable).
"""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from tensorflow.contrib.timeseries.python.timeseries import math_utils
from tensorflow.contrib.timeseries.python.timeseries.state_space_models import state_space_model
from tensorflow.python.framework import ops
from tensorflow.python.framework import tensor_shape
from tensorflow.python.ops import array_ops
from tensorflow.python.ops import init_ops
from tensorflow.python.ops import linalg_ops
from tensorflow.python.ops import math_ops
from tensorflow.python.ops import variable_scope
class VARMA(state_space_model.StateSpaceModel):
"""A VARMA model implementation as a special case of the state space model."""
def __init__(self,
autoregressive_order,
moving_average_order,
configuration=state_space_model.StateSpaceModelConfiguration()):
"""Construct a VARMA model.
The size of the latent state for this model is:
num_features * max(autoregressive_order, moving_average_order + 1)
Square matrices of this size are constructed and multiplied.
Args:
autoregressive_order: The maximum autoregressive lag.
moving_average_order: The maximum moving average lag, after which
transient deviations are expected to return to their long-term mean.
configuration: A StateSpaceModelConfiguration object.
"""
self.ar_order = autoregressive_order
self.ma_order = moving_average_order
self.state_num_blocks = max(autoregressive_order, moving_average_order + 1)
super(VARMA, self).__init__(configuration=configuration)
self.state_dimension = self.state_num_blocks * self.num_features
def _define_parameters(self, observation_transition_tradeoff_log=None):
with variable_scope.variable_scope(self._variable_scope):
# TODO(allenl): Evaluate parameter transformations for AR/MA coefficients
# which improve interpretability/stability.
self.ar_coefs = variable_scope.get_variable(
name="ar_coefs",
shape=[self.num_features, self.num_features, self.ar_order],
dtype=self.dtype,
initializer=init_ops.zeros_initializer())
self.ma_coefs = variable_scope.get_variable(
name="ma_coefs",
initializer=array_ops.tile(
linalg_ops.eye(self.num_features, dtype=self.dtype)[None, :, :],
[self.ma_order, 1, 1]),
dtype=self.dtype)
super(VARMA, self)._define_parameters(
observation_transition_tradeoff_log=observation_transition_tradeoff_log)
def get_state_transition(self):
"""Construct state transition matrix from VARMA parameters.
Returns:
the state transition matrix. It has shape
[self.state_dimension, self.state_dimension].
"""
# Pad any unused AR blocks with zeros. The extra state is necessary if
# ma_order >= ar_order.
ar_coefs_padded = array_ops.reshape(
array_ops.pad(self.ar_coefs,
[[0, 0], [0, 0],
[0, self.state_num_blocks - self.ar_order]]),
[self.num_features, self.state_dimension])
shift_matrix = array_ops.pad(
linalg_ops.eye(
(self.state_num_blocks - 1) * self.num_features, dtype=self.dtype),
[[0, 0], [0, self.num_features]])
return array_ops.concat([ar_coefs_padded, shift_matrix], axis=0)
def get_noise_transform(self):
"""Construct state noise transform matrix from VARMA parameters.
Returns:
the state noise transform matrix. It has shape
[self.state_dimension, self.num_features].
"""
# Noise is broadcast, through the moving average coefficients, to
# un-observed parts of the latent state.
ma_coefs_padded = array_ops.reshape(
array_ops.pad(self.ma_coefs,
[[self.state_num_blocks - 1 - self.ma_order, 0], [0, 0],
[0, 0]]),
[(self.state_num_blocks - 1) * self.num_features, self.num_features],
name="noise_transform")
# Deterministically apply noise to the oldest component.
return array_ops.concat(
[ma_coefs_padded,
linalg_ops.eye(self.num_features, dtype=self.dtype)],
axis=0)
def get_observation_model(self, times):
"""Construct observation model matrix from VARMA parameters.
Args:
times: A [batch size] vector indicating the times observation models are
requested for. Unused.
Returns:
the observation model matrix. It has shape
[self.num_features, self.state_dimension].
"""
del times # StateSpaceModel will broadcast along the batch dimension
if self.ar_order > self.ma_order or self.state_num_blocks < 2:
return array_ops.pad(
linalg_ops.eye(self.num_features, dtype=self.dtype),
[[0, 0], [0, self.num_features * (self.state_num_blocks - 1)]],
name="observation_model")
else:
# Add a second observed component which "catches" the accumulated moving
# average errors as they reach the end of the state. If ar_order >
# ma_order, this is unnecessary, since accumulated errors cycle naturally.
return array_ops.concat(
[
array_ops.pad(
linalg_ops.eye(self.num_features, dtype=self.dtype),
[[0, 0], [0,
self.num_features * (self.state_num_blocks - 2)]]),
linalg_ops.eye(self.num_features, dtype=self.dtype)
],
axis=1,
name="observation_model")
def get_state_transition_noise_covariance(
self, minimum_initial_variance=1e-5):
# Most state space models use only an explicit observation noise term to
# model deviations from expectations, and so a low initial transition noise
# parameter is helpful there. Since deviations from expectations are also
# modeled as transition noise in VARMA, we set its initial value based on a
# slight over-estimate empirical observation noise.
if self._input_statistics is not None:
feature_variance = self._scale_variance(
self._input_statistics.series_start_moments.variance)
initial_transition_noise_scale = math_ops.log(
math_ops.maximum(
math_ops.reduce_mean(feature_variance), minimum_initial_variance))
else:
initial_transition_noise_scale = 0.
state_noise_transform = ops.convert_to_tensor(
self.get_noise_transform(), dtype=self.dtype)
state_noise_dimension = tensor_shape.dimension_value(
state_noise_transform.shape[1])
return math_utils.variable_covariance_matrix(
state_noise_dimension, "state_transition_noise",
dtype=self.dtype,
initial_overall_scale_log=initial_transition_noise_scale)
| apache-2.0 |
PyroShark/namebench | nb_third_party/graphy/backends/google_chart_api/encoders.py | 230 | 14800 | #!/usr/bin/python2.4
#
# Copyright 2008 Google Inc.
#
# 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.
"""Display objects for the different kinds of charts.
Not intended for end users, use the methods in __init__ instead."""
import warnings
from graphy.backends.google_chart_api import util
class BaseChartEncoder(object):
"""Base class for encoders which turn chart objects into Google Chart URLS.
Object attributes:
extra_params: Dict to add/override specific chart params. Of the
form param:string, passed directly to the Google Chart API.
For example, 'cht':'lti' becomes ?cht=lti in the URL.
url_base: The prefix to use for URLs. If you want to point to a different
server for some reason, you would override this.
formatters: TODO: Need to explain how these work, and how they are
different from chart formatters.
enhanced_encoding: If True, uses enhanced encoding. If
False, simple encoding is used.
escape_url: If True, URL will be properly escaped. If False, characters
like | and , will be unescapped (which makes the URL easier to
read).
"""
def __init__(self, chart):
self.extra_params = {} # You can add specific params here.
self.url_base = 'http://chart.apis.google.com/chart'
self.formatters = self._GetFormatters()
self.chart = chart
self.enhanced_encoding = False
self.escape_url = True # You can turn off URL escaping for debugging.
self._width = 0 # These are set when someone calls Url()
self._height = 0
def Url(self, width, height, use_html_entities=False):
"""Get the URL for our graph.
Args:
use_html_entities: If True, reserved HTML characters (&, <, >, ") in the
URL are replaced with HTML entities (&, <, etc.). Default is False.
"""
self._width = width
self._height = height
params = self._Params(self.chart)
return util.EncodeUrl(self.url_base, params, self.escape_url,
use_html_entities)
def Img(self, width, height):
"""Get an image tag for our graph."""
url = self.Url(width, height, use_html_entities=True)
tag = '<img src="%s" width="%s" height="%s" alt="chart"/>'
return tag % (url, width, height)
def _GetType(self, chart):
"""Return the correct chart_type param for the chart."""
raise NotImplementedError
def _GetFormatters(self):
"""Get a list of formatter functions to use for encoding."""
formatters = [self._GetLegendParams,
self._GetDataSeriesParams,
self._GetColors,
self._GetAxisParams,
self._GetGridParams,
self._GetType,
self._GetExtraParams,
self._GetSizeParams,
]
return formatters
def _Params(self, chart):
"""Collect all the different params we need for the URL. Collecting
all params as a dict before converting to a URL makes testing easier.
"""
chart = chart.GetFormattedChart()
params = {}
def Add(new_params):
params.update(util.ShortenParameterNames(new_params))
for formatter in self.formatters:
Add(formatter(chart))
for key in params:
params[key] = str(params[key])
return params
def _GetSizeParams(self, chart):
"""Get the size param."""
return {'size': '%sx%s' % (int(self._width), int(self._height))}
def _GetExtraParams(self, chart):
"""Get any extra params (from extra_params)."""
return self.extra_params
def _GetDataSeriesParams(self, chart):
"""Collect params related to the data series."""
y_min, y_max = chart.GetDependentAxis().min, chart.GetDependentAxis().max
series_data = []
markers = []
for i, series in enumerate(chart.data):
data = series.data
if not data: # Drop empty series.
continue
series_data.append(data)
for x, marker in series.markers:
args = [marker.shape, marker.color, i, x, marker.size]
markers.append(','.join(str(arg) for arg in args))
encoder = self._GetDataEncoder(chart)
result = util.EncodeData(chart, series_data, y_min, y_max, encoder)
result.update(util.JoinLists(marker = markers))
return result
def _GetColors(self, chart):
"""Color series color parameter."""
colors = []
for series in chart.data:
if not series.data:
continue
colors.append(series.style.color)
return util.JoinLists(color = colors)
def _GetDataEncoder(self, chart):
"""Get a class which can encode the data the way the user requested."""
if not self.enhanced_encoding:
return util.SimpleDataEncoder()
return util.EnhancedDataEncoder()
def _GetLegendParams(self, chart):
"""Get params for showing a legend."""
if chart._show_legend:
return util.JoinLists(data_series_label = chart._legend_labels)
return {}
def _GetAxisLabelsAndPositions(self, axis, chart):
"""Return axis.labels & axis.label_positions."""
return axis.labels, axis.label_positions
def _GetAxisParams(self, chart):
"""Collect params related to our various axes (x, y, right-hand)."""
axis_types = []
axis_ranges = []
axis_labels = []
axis_label_positions = []
axis_label_gridlines = []
mark_length = max(self._width, self._height)
for i, axis_pair in enumerate(a for a in chart._GetAxes() if a[1].labels):
axis_type_code, axis = axis_pair
axis_types.append(axis_type_code)
if axis.min is not None or axis.max is not None:
assert axis.min is not None # Sanity check: both min & max must be set.
assert axis.max is not None
axis_ranges.append('%s,%s,%s' % (i, axis.min, axis.max))
labels, positions = self._GetAxisLabelsAndPositions(axis, chart)
if labels:
axis_labels.append('%s:' % i)
axis_labels.extend(labels)
if positions:
positions = [i] + list(positions)
axis_label_positions.append(','.join(str(x) for x in positions))
if axis.label_gridlines:
axis_label_gridlines.append("%d,%d" % (i, -mark_length))
return util.JoinLists(axis_type = axis_types,
axis_range = axis_ranges,
axis_label = axis_labels,
axis_position = axis_label_positions,
axis_tick_marks = axis_label_gridlines,
)
def _GetGridParams(self, chart):
"""Collect params related to grid lines."""
x = 0
y = 0
if chart.bottom.grid_spacing:
# min/max must be set for this to make sense.
assert(chart.bottom.min is not None)
assert(chart.bottom.max is not None)
total = float(chart.bottom.max - chart.bottom.min)
x = 100 * chart.bottom.grid_spacing / total
if chart.left.grid_spacing:
# min/max must be set for this to make sense.
assert(chart.left.min is not None)
assert(chart.left.max is not None)
total = float(chart.left.max - chart.left.min)
y = 100 * chart.left.grid_spacing / total
if x or y:
return dict(grid = '%.3g,%.3g,1,0' % (x, y))
return {}
class LineChartEncoder(BaseChartEncoder):
"""Helper class to encode LineChart objects into Google Chart URLs."""
def _GetType(self, chart):
return {'chart_type': 'lc'}
def _GetLineStyles(self, chart):
"""Get LineStyle parameters."""
styles = []
for series in chart.data:
style = series.style
if style:
styles.append('%s,%s,%s' % (style.width, style.on, style.off))
else:
# If one style is missing, they must all be missing
# TODO: Add a test for this; throw a more meaningful exception
assert (not styles)
return util.JoinLists(line_style = styles)
def _GetFormatters(self):
out = super(LineChartEncoder, self)._GetFormatters()
out.insert(-2, self._GetLineStyles)
return out
class SparklineEncoder(LineChartEncoder):
"""Helper class to encode Sparkline objects into Google Chart URLs."""
def _GetType(self, chart):
return {'chart_type': 'lfi'}
class BarChartEncoder(BaseChartEncoder):
"""Helper class to encode BarChart objects into Google Chart URLs."""
__STYLE_DEPRECATION = ('BarChart.display.style is deprecated.' +
' Use BarChart.style, instead.')
def __init__(self, chart, style=None):
"""Construct a new BarChartEncoder.
Args:
style: DEPRECATED. Set style on the chart object itself.
"""
super(BarChartEncoder, self).__init__(chart)
if style is not None:
warnings.warn(self.__STYLE_DEPRECATION, DeprecationWarning, stacklevel=2)
chart.style = style
def _GetType(self, chart):
# Vertical Stacked Type
types = {(True, False): 'bvg',
(True, True): 'bvs',
(False, False): 'bhg',
(False, True): 'bhs'}
return {'chart_type': types[(chart.vertical, chart.stacked)]}
def _GetAxisLabelsAndPositions(self, axis, chart):
"""Reverse labels on the y-axis in horizontal bar charts.
(Otherwise the labels come out backwards from what you would expect)
"""
if not chart.vertical and axis == chart.left:
# The left axis of horizontal bar charts needs to have reversed labels
return reversed(axis.labels), reversed(axis.label_positions)
return axis.labels, axis.label_positions
def _GetFormatters(self):
out = super(BarChartEncoder, self)._GetFormatters()
# insert at -2 to allow extra_params to overwrite everything
out.insert(-2, self._ZeroPoint)
out.insert(-2, self._ApplyBarChartStyle)
return out
def _ZeroPoint(self, chart):
"""Get the zero-point if any bars are negative."""
# (Maybe) set the zero point.
min, max = chart.GetDependentAxis().min, chart.GetDependentAxis().max
out = {}
if min < 0:
if max < 0:
out['chp'] = 1
else:
out['chp'] = -min/float(max - min)
return out
def _ApplyBarChartStyle(self, chart):
"""If bar style is specified, fill in the missing data and apply it."""
# sanity checks
if chart.style is None or not chart.data:
return {}
(bar_thickness, bar_gap, group_gap) = (chart.style.bar_thickness,
chart.style.bar_gap,
chart.style.group_gap)
# Auto-size bar/group gaps
if bar_gap is None and group_gap is not None:
bar_gap = max(0, group_gap / 2)
if not chart.style.use_fractional_gap_spacing:
bar_gap = int(bar_gap)
if group_gap is None and bar_gap is not None:
group_gap = max(0, bar_gap * 2)
# Set bar thickness to auto if it is missing
if bar_thickness is None:
if chart.style.use_fractional_gap_spacing:
bar_thickness = 'r'
else:
bar_thickness = 'a'
else:
# Convert gap sizes to pixels if needed
if chart.style.use_fractional_gap_spacing:
if bar_gap:
bar_gap = int(bar_thickness * bar_gap)
if group_gap:
group_gap = int(bar_thickness * group_gap)
# Build a valid spec; ignore group gap if chart is stacked,
# since there are no groups in that case
spec = [bar_thickness]
if bar_gap is not None:
spec.append(bar_gap)
if group_gap is not None and not chart.stacked:
spec.append(group_gap)
return util.JoinLists(bar_size = spec)
def __GetStyle(self):
warnings.warn(self.__STYLE_DEPRECATION, DeprecationWarning, stacklevel=2)
return self.chart.style
def __SetStyle(self, value):
warnings.warn(self.__STYLE_DEPRECATION, DeprecationWarning, stacklevel=2)
self.chart.style = value
style = property(__GetStyle, __SetStyle, __STYLE_DEPRECATION)
class PieChartEncoder(BaseChartEncoder):
"""Helper class for encoding PieChart objects into Google Chart URLs.
Fuzzy frogs frolic in the forest.
Object Attributes:
is3d: if True, draw a 3d pie chart. Default is False.
"""
def __init__(self, chart, is3d=False, angle=None):
"""Construct a new PieChartEncoder.
Args:
is3d: If True, draw a 3d pie chart. Default is False. If the pie chart
includes multiple pies, is3d must be set to False.
angle: Angle of rotation of the pie chart, in radians.
"""
super(PieChartEncoder, self).__init__(chart)
self.is3d = is3d
self.angle = None
def _GetFormatters(self):
"""Add a formatter for the chart angle."""
formatters = super(PieChartEncoder, self)._GetFormatters()
formatters.append(self._GetAngleParams)
return formatters
def _GetType(self, chart):
if len(chart.data) > 1:
if self.is3d:
warnings.warn(
'3d charts with more than one pie not supported; rendering in 2d',
RuntimeWarning, stacklevel=2)
chart_type = 'pc'
else:
if self.is3d:
chart_type = 'p3'
else:
chart_type = 'p'
return {'chart_type': chart_type}
def _GetDataSeriesParams(self, chart):
"""Collect params related to the data series."""
pie_points = []
labels = []
max_val = 1
for pie in chart.data:
points = []
for segment in pie:
if segment:
points.append(segment.size)
max_val = max(max_val, segment.size)
labels.append(segment.label or '')
if points:
pie_points.append(points)
encoder = self._GetDataEncoder(chart)
result = util.EncodeData(chart, pie_points, 0, max_val, encoder)
result.update(util.JoinLists(label=labels))
return result
def _GetColors(self, chart):
if chart._colors:
# Colors were overridden by the user
colors = chart._colors
else:
# Build the list of colors from individual segments
colors = []
for pie in chart.data:
for segment in pie:
if segment and segment.color:
colors.append(segment.color)
return util.JoinLists(color = colors)
def _GetAngleParams(self, chart):
"""If the user specified an angle, add it to the params."""
if self.angle:
return {'chp' : str(self.angle)}
return {}
| apache-2.0 |
FederatedAI/FATE | python/fate_arch/common/log.py | 1 | 10071 | #
# Copyright 2019 The FATE Authors. All Rights Reserved.
#
# 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.
#
import inspect
import traceback
import logging
import os
from logging.handlers import TimedRotatingFileHandler
from threading import RLock
from fate_arch.common import file_utils
class LoggerFactory(object):
TYPE = "FILE"
LOG_FORMAT = "[%(levelname)s] [%(asctime)s] [%(process)s:%(thread)s] - %(filename)s[line:%(lineno)d]: %(message)s"
JOB_LOG_FORMAT = "[%(levelname)s] [jobid] [%(asctime)s] [%(process)s:%(thread)s] - %(filename)s[line:%(lineno)d]: %(message)s"
LEVEL = logging.DEBUG
logger_dict = {}
global_handler_dict = {}
LOG_DIR = None
PARENT_LOG_DIR = None
append_to_parent_log = None
lock = RLock()
# CRITICAL = 50
# FATAL = CRITICAL
# ERROR = 40
# WARNING = 30
# WARN = WARNING
# INFO = 20
# DEBUG = 10
# NOTSET = 0
levels = (10, 20, 30, 40)
schedule_logger_dict = {}
@staticmethod
def set_directory(directory=None, parent_log_dir=None, append_to_parent_log=None, force=False):
if parent_log_dir:
LoggerFactory.PARENT_LOG_DIR = parent_log_dir
if append_to_parent_log:
LoggerFactory.append_to_parent_log = append_to_parent_log
with LoggerFactory.lock:
if not directory:
directory = os.path.join(file_utils.get_project_base_directory(), 'logs')
if not LoggerFactory.LOG_DIR or force:
LoggerFactory.LOG_DIR = directory
os.makedirs(LoggerFactory.LOG_DIR, exist_ok=True)
for loggerName, ghandler in LoggerFactory.global_handler_dict.items():
for className, (logger, handler) in LoggerFactory.logger_dict.items():
logger.removeHandler(ghandler)
ghandler.close()
LoggerFactory.global_handler_dict = {}
for className, (logger, handler) in LoggerFactory.logger_dict.items():
logger.removeHandler(handler)
_hanlder = None
if handler:
handler.close()
if className != "default":
_hanlder = LoggerFactory.get_handler(className)
logger.addHandler(_hanlder)
LoggerFactory.assemble_global_handler(logger)
LoggerFactory.logger_dict[className] = logger, _hanlder
@staticmethod
def get_logger(class_name=None):
with LoggerFactory.lock:
if class_name in LoggerFactory.logger_dict.keys():
logger, hanlder = LoggerFactory.logger_dict[class_name]
if not logger:
logger, handler = LoggerFactory.init_logger(class_name)
else:
logger, handler = LoggerFactory.init_logger(class_name)
return logger
@staticmethod
def get_global_hanlder(logger_name, level=None, log_dir=None):
if not LoggerFactory.LOG_DIR:
return logging.StreamHandler()
if log_dir:
logger_name_key = logger_name + "_" + log_dir
else:
logger_name_key = logger_name + "_" + LoggerFactory.LOG_DIR
# if loggerName not in LoggerFactory.globalHandlerDict:
if logger_name_key not in LoggerFactory.global_handler_dict:
with LoggerFactory.lock:
if logger_name_key not in LoggerFactory.global_handler_dict:
handler = LoggerFactory.get_handler(logger_name, level, log_dir)
LoggerFactory.global_handler_dict[logger_name_key] = handler
return LoggerFactory.global_handler_dict[logger_name_key]
@staticmethod
def get_handler(class_name, level=None, log_dir=None, log_type=None, job_id=None):
if not log_type:
if not LoggerFactory.LOG_DIR or not class_name:
return logging.StreamHandler()
if not log_dir:
log_file = os.path.join(LoggerFactory.LOG_DIR, "{}.log".format(class_name))
else:
log_file = os.path.join(log_dir, "{}.log".format(class_name))
else:
log_file = os.path.join(log_dir, "fate_flow_{}.log".format(
log_type) if level == LoggerFactory.LEVEL else 'fate_flow_{}_error.log'.format(log_type))
if job_id:
formatter = logging.Formatter(LoggerFactory.JOB_LOG_FORMAT.replace("jobid", job_id))
else:
formatter = logging.Formatter(LoggerFactory.LOG_FORMAT)
handler = TimedRotatingFileHandler(log_file,
when='D',
interval=1,
backupCount=14,
delay=True)
if level:
handler.level = level
handler.setFormatter(formatter)
return handler
@staticmethod
def init_logger(class_name):
with LoggerFactory.lock:
logger = logging.getLogger(class_name)
logger.setLevel(LoggerFactory.LEVEL)
handler = None
if class_name:
handler = LoggerFactory.get_handler(class_name)
logger.addHandler(handler)
LoggerFactory.logger_dict[class_name] = logger, handler
else:
LoggerFactory.logger_dict["default"] = logger, handler
LoggerFactory.assemble_global_handler(logger)
return logger, handler
@staticmethod
def assemble_global_handler(logger):
if LoggerFactory.LOG_DIR:
for level in LoggerFactory.levels:
if level >= LoggerFactory.LEVEL:
level_logger_name = logging._levelToName[level]
logger.addHandler(LoggerFactory.get_global_hanlder(level_logger_name, level))
if LoggerFactory.append_to_parent_log and LoggerFactory.PARENT_LOG_DIR:
for level in LoggerFactory.levels:
if level >= LoggerFactory.LEVEL:
level_logger_name = logging._levelToName[level]
logger.addHandler(
LoggerFactory.get_global_hanlder(level_logger_name, level, LoggerFactory.PARENT_LOG_DIR))
@staticmethod
def get_schedule_logger(job_id='', log_type='schedule'):
fate_flow_log_dir = os.path.join(file_utils.get_project_base_directory(), 'logs', 'fate_flow')
job_log_dir = os.path.join(file_utils.get_project_base_directory(), 'logs', job_id)
if not job_id:
log_dirs = [fate_flow_log_dir]
else:
if log_type == 'audit':
log_dirs = [job_log_dir, fate_flow_log_dir]
else:
log_dirs = [job_log_dir]
os.makedirs(job_log_dir, exist_ok=True)
os.makedirs(fate_flow_log_dir, exist_ok=True)
logger = logging.getLogger('{}_{}'.format(job_id, log_type))
logger.setLevel(LoggerFactory.LEVEL)
for job_log_dir in log_dirs:
handler = LoggerFactory.get_handler(class_name=None, level=LoggerFactory.LEVEL,
log_dir=job_log_dir, log_type=log_type)
error_handler = LoggerFactory.get_handler(class_name=None, level=logging.ERROR,
log_dir=job_log_dir, log_type=log_type)
logger.addHandler(handler)
logger.addHandler(error_handler)
with LoggerFactory.lock:
LoggerFactory.schedule_logger_dict[job_id + log_type] = logger
return logger
def setDirectory(directory=None):
LoggerFactory.set_directory(directory)
def setLevel(level):
LoggerFactory.LEVEL = level
def getLogger(className=None, useLevelFile=False):
if className is None:
frame = inspect.stack()[1]
module = inspect.getmodule(frame[0])
className = 'stat'
return LoggerFactory.get_logger(className)
def schedule_logger(job_id=None, delete=False):
if not job_id:
return getLogger("fate_flow_schedule")
else:
if delete:
with LoggerFactory.lock:
try:
for key in LoggerFactory.schedule_logger_dict.keys():
if job_id in key:
del LoggerFactory.schedule_logger_dict[key]
except:
pass
return True
key = job_id + 'schedule'
if key in LoggerFactory.schedule_logger_dict:
return LoggerFactory.schedule_logger_dict[key]
return LoggerFactory.get_schedule_logger(job_id)
def audit_logger(job_id='', log_type='audit'):
key = job_id + log_type
if key in LoggerFactory.schedule_logger_dict.keys():
return LoggerFactory.schedule_logger_dict[key]
return LoggerFactory.get_schedule_logger(job_id=job_id, log_type=log_type)
def sql_logger(job_id='', log_type='sql'):
key = job_id + log_type
if key in LoggerFactory.schedule_logger_dict.keys():
return LoggerFactory.schedule_logger_dict[key]
return LoggerFactory.get_schedule_logger(job_id=job_id, log_type=log_type)
def detect_logger(job_id='', log_type='detect'):
key = job_id + log_type
if key in LoggerFactory.schedule_logger_dict.keys():
return LoggerFactory.schedule_logger_dict[key]
return LoggerFactory.get_schedule_logger(job_id=job_id, log_type=log_type)
def exception_to_trace_string(ex):
return "".join(traceback.TracebackException.from_exception(ex).format())
| apache-2.0 |
canvasnetworks/canvas | website/apps/user_settings/tests.py | 2 | 11112 | from django.core.urlresolvers import reverse
from django.http import HttpResponse
from django.test.client import Client
from apps.canvas_auth.models import User, AnonymousUser
from canvas.models import EmailUnsubscribe
from canvas.tests.tests_helpers import CanvasTestCase, NotOkay, create_content, create_user, create_group, redis, PASSWORD
from forms import EmailChangeForm, PasswordChangeForm, SubscriptionForm, SecureOnlyForm
from apps.user_settings.models import EmailConfirmation
class TestEmailConfirmation(CanvasTestCase):
def setUp(self):
super(TestEmailConfirmation, self).setUp()
self.old_email = 'old@old.com'
self.new_email = 'new@new.net'
def test_change_and_confirm(self):
user = create_user(email=self.old_email)
confirmation = user.change_email(self.new_email)
self.assertEqual(user.email, self.old_email)
# Confirm it.
confirmation = EmailConfirmation.objects.confirm_email(
confirmation.confirmation_key)
# Refresh the user object after confirming.
user = User.objects.get(pk=user.pk)
# Verify the change happened.
self.assertNotEqual(confirmation, None)
self.assertEqual(confirmation.user.pk, user.pk)
self.assertEqual(confirmation.new_email, self.new_email)
self.assertFalse(confirmation.key_expired())
self.assertEqual(user.email, self.new_email)
def test_key_changes(self):
user = create_user(email=self.old_email)
confirmation = EmailConfirmation.objects.create_confirmation(
user, self.new_email)
confirmation2 = EmailConfirmation.objects.create_confirmation(
user, 'newer' + self.new_email)
self.assertNotEqual(confirmation.confirmation_key,
confirmation2.confirmation_key)
def test_key_generation(self):
key = EmailConfirmation.objects._generate_key(self.old_email)
key2 = EmailConfirmation.objects._generate_key(self.new_email)
self.assertTrue(key is not None)
self.assertTrue(key)
self.assertNotEqual(key, key2)
def test_confirmation_email_contents(self):
user = create_user(email=self.old_email)
confirmation = user.change_email(self.new_email)
subject, msg = confirmation._generate_confirmation_email()
# Make sure it has the right links with the confirmation key in the email body.
self.assertTrue(confirmation.confirmation_key in msg)
self.assertTrue(confirmation._activate_url() in msg)
def test_confirm_page(self):
user = create_user(email=self.old_email)
confirmation = user.change_email(self.new_email)
url = confirmation._activate_url()
resp = self.get(url)
self.assertTrue(resp.status_code in [302, 200])
# Now make sure that visiting the page confirmed it.
user = User.objects.get(pk=user.pk)
self.assertEqual(user.email, self.new_email)
def test_invalid_confirm_key(self):
url = reverse('apps.user_settings.views.confirm_email', args=['foo'])
resp = self.get(url)
self.assertEqual(resp.status_code, 200)
self.assertFalse(self.new_email in resp.content)
self.assertTrue('invalid' in resp.content.lower())
def test_form(self):
user = create_user(email=self.old_email)
form = EmailChangeForm(user=user, data={'email': self.new_email})
if form.is_valid():
form.save()
# Refresh the user object.
user = User.objects.get(pk=user.pk)
# Check that a confirmation was sent.
self.assertEqual(EmailConfirmation.objects.all().count(), 1)
self.assertNotEqual(user.email, self.new_email)
def test_unchanged_email_form(self):
user = create_user(email=self.old_email)
form = EmailChangeForm(user=user, data={'email': user.email})
if form.is_valid():
form.save()
# Refresh the user object.
user = User.objects.get(pk=user.pk)
# Check that a confirmation was not sent, since the email hasn't been changed.
self.assertEqual(EmailConfirmation.objects.all().count(), 0)
def test_multiple_confirmations(self):
user = create_user(email=self.old_email)
confirmation = EmailConfirmation.objects.create_confirmation(
user, 'first' + self.new_email)
confirmation = EmailConfirmation.objects.create_confirmation(
user, self.new_email)
self.assertEqual(EmailConfirmation.objects.all().count(), 1)
self.assertEqual(EmailConfirmation.objects.all()[0].new_email, self.new_email)
def test_confirmation_cancellation(self):
user = create_user(email=self.old_email)
confirmation = EmailConfirmation.objects.create_confirmation(
user, self.new_email)
self.assertEqual(EmailConfirmation.objects.all().count(), 1)
self.get(confirmation.cancellation_url(), user=user)
self.assertEqual(EmailConfirmation.objects.all().count(), 0)
def test_wrong_user_cancellation(self):
user = create_user(email=self.old_email)
user2 = create_user(email=self.old_email)
confirmation = EmailConfirmation.objects.create_confirmation(
user, self.new_email)
self.assertEqual(EmailConfirmation.objects.all().count(), 1)
try:
resp = self.get(confirmation.cancellation_url(), user=user2)
except NotOkay, e:
resp = e.response
else:
raise Exception('Cancellation URL worked with the wrong user!')
self.assertNotEqual(resp.status_code, 200)
self.assertEqual(EmailConfirmation.objects.all().count(), 1)
def test_send_confirmation(self):
user = create_user(email=self.old_email)
confirmation = EmailConfirmation.objects.create_confirmation(
user, self.new_email)
confirmation.send_confirmation()
class TestPasswordForm(CanvasTestCase):
def test_pw_length(self):
user = create_user()
for pw, success in [('a', False,), ('a' * User.MINIMUM_PASSWORD_LENGTH, True,)]:
form = PasswordChangeForm(user=user, data={
'old_password': PASSWORD,
'new_password1': pw,
'new_password2': pw,
})
self.assertEqual(form.is_valid(), success)
def test_pw_change(self):
user = create_user()
pw = 'new_pass1'
form = PasswordChangeForm(user=user, data={
'old_password': PASSWORD,
'new_password1': pw,
'new_password2': pw,
})
form.is_valid()
form.save()
self.assertTrue(form.password_changed())
def test_pw_change_frontend_notification(self):
user = create_user()
pw = 'newpw1337'
client = self.get_client(user=user)
resp = self.post(reverse('apps.user_settings.views.user_settings'), data={
'old_password': PASSWORD,
'new_password1': pw,
'new_password2': pw,
'email': user.email,
}, user=user, client=client)
self.assertTrue(client.session.get('password_updated'))
self.assertEqual(resp.status_code, 302)
resp = self.get(reverse('apps.user_settings.views.user_settings'), client=client)
self.assertContains(resp, 'password has been updated')
class TestSubscriptionForm(CanvasTestCase):
def test_subscribe(self):
email = 'fooo@baar.com'
user = create_user(email=email)
form = SubscriptionForm(user=user, data={'newsletter': 'on'})
self.assertTrue(form.is_valid())
form.save()
self.assertEqual(EmailUnsubscribe.objects.get_or_none(email=email), None)
form = SubscriptionForm(user=user, data={})
self.assertTrue(form.is_valid())
form.save()
self.assertNotEqual(EmailUnsubscribe.objects.get_or_none(email=email), None)
def test_change_email_and_unsubscribe_at_once(self):
email = 'unsubscribe_test@what.com'
new_email = 'new@what.com'
user = create_user(email=email)
# Unsubscribe while changing the address
resp = self.post(reverse('apps.user_settings.views.user_settings'), data={
'email': new_email,
}, user=user)
user=User.objects.all()[0]
# Check that the old email is unsubscribed.
EmailUnsubscribe.objects.get(email=email)
# Confirm new email.
confirmation = EmailConfirmation.objects.all()[0]
EmailConfirmation.objects.confirm_email(confirmation.confirmation_key)
# Check that the new email is now unsubscribed.
EmailUnsubscribe.objects.get(email=new_email)
class TestDisableUser(CanvasTestCase):
def test_disable(self):
user = create_user()
self.assertTrue(user.is_active)
resp = self.post(reverse('apps.user_settings.views.disable_account'), data={}, user=user)
# Refresh the user object and verify.
user = User.objects.get(pk=user.pk)
self.assertFalse(user.is_active)
self.assertRedirects(resp, '/')
class TestSecureOnly(CanvasTestCase):
def test_secure_only_form(self):
user = create_user()
resp = HttpResponse()
cookies = {}
self.assertFalse(resp.cookies.get('secure_only', False))
form = SecureOnlyForm(user, cookies, resp, data={'force_https': True})
self.assertTrue(form.is_valid())
form.save()
self.assertTrue(resp.cookies['secure_only'])
form = SecureOnlyForm(user, {'secure_only': 'true'}, resp)
self.assertTrue(form.fields['force_https'].initial)
def test_secure_only_middleware(self):
user = create_user()
client = self.get_client(user=user)
url = reverse('apps.user_settings.views.user_settings')
# First set Force HTTPS
resp = self.post(url, data={
'email': user.email,
'force_https': 'on',
}, user=user, client=client)
# Now try visiting a page without the cookie, and see that it gets set.
client = self.get_client(user=user)
resp = self.get('/', user=user, client=client)
self.assertTrue(resp.cookies.get('secure_only'))
# Unset it and check the redis value is gone.
self.assertTrue(int(user.redis.user_kv.hget('secure_only') or 0))
def do_form_post():
return self.post(url, data={
'email': user.email,
}, user=user, client=client, https=True)
resp = do_form_post()
self.assertRedirectsNoFollow(resp, 'https://testserver:80' + url)
# Mock SSL and re-POST
client.defaults['wsgi.url_scheme'] = 'https'
do_form_post()
# Now check it had an effect.
self.assertFalse(int(user.redis.user_kv.hget('secure_only') or 0))
def test_secure_only_middleware_anonymously(self):
self.assertStatus(200, '/', user=AnonymousUser())
| bsd-3-clause |
JosephMcc/Cinnamon | files/usr/share/cinnamon/cinnamon-settings/modules/cs_general.py | 4 | 2842 | #!/usr/bin/env python2
from SettingsWidgets import *
class Module:
name = "general"
comment = _("Miscellaneous Cinnamon preferences")
category = "prefs"
def __init__(self, content_box):
keywords = _("logging, click")
sidePage = SidePage(_("General"), "cs-general", keywords, content_box, module=self)
self.sidePage = sidePage
def on_module_selected(self):
if not self.loaded:
print "Loading General module"
page = SettingsPage()
self.sidePage.add_widget(page)
settings = page.add_section(_("Desktop Scaling"))
ui_scales = [[0, _("Auto")], [1, _("Normal")], [2, _("Double (Hi-DPI)")]]
combo = GSettingsComboBox(_("User interface scaling:"), "org.cinnamon.desktop.interface", "scaling-factor", ui_scales, valtype="uint")
settings.add_row(combo)
# Some applications hard code the GNOME path for HiDPI settings,
# which is stupid, but we'll be nice and supply them with the right
# values.
schema = Gio.SettingsSchemaSource.get_default().lookup("org.gnome.desktop.interface", False)
if schema is not None:
gnome_settings = Gio.Settings("org.gnome.desktop.interface")
def on_changed (widget):
tree_iter = widget.get_active_iter()
if tree_iter is not None:
gnome_settings["scaling-factor"] = combo.model[tree_iter][0]
combo.content_widget.connect('changed', on_changed)
settings = page.add_section(_("Miscellaneous Options"))
switch = GSettingsSwitch(_("Disable compositing for full-screen windows"), "org.cinnamon.muffin", "unredirect-fullscreen-windows")
switch.set_tooltip_text(_("Select this option to let full-screen applications skip the compositing manager and run at maximum speed. Unselect it if you're experiencing screen-tearing in full screen mode."))
settings.add_row(switch)
switch = GSettingsSwitch(_("Enable timer when logging out or shutting down"), "org.cinnamon.SessionManager", "quit-delay-toggle")
settings.add_row(switch)
spin = GSettingsSpinButton(_("Timer delay"), "org.cinnamon.SessionManager", "quit-time-delay", _("seconds"), 0, 36000, 1, 60)
settings.add_reveal_row(spin, "org.cinnamon.SessionManager", "quit-delay-toggle")
switch = GSettingsSwitch(_("Enable support for indicators (Requires Cinnamon restart)"), "org.cinnamon", "enable-indicators")
settings.add_row(switch)
switch = GSettingsSwitch(_("Log LookingGlass output to ~/.cinnamon/glass.log (Requires Cinnamon restart)"), "org.cinnamon", "enable-looking-glass-logs")
settings.add_row(switch)
| gpl-2.0 |
halober/ovirt-engine | packaging/services/ovirt-engine-notifier/ovirt-engine-notifier.py | 3 | 7200 | #!/usr/bin/python
# Copyright 2012 Red Hat
#
# 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.
import os
import subprocess
import sys
import gettext
_ = lambda m: gettext.dgettext(message=m, domain='ovirt-engine')
import config
from ovirt_engine import configfile
from ovirt_engine import service
from ovirt_engine import java
class Daemon(service.Daemon):
def __init__(self):
super(Daemon, self).__init__()
self._defaults = os.path.abspath(
os.path.join(
os.path.dirname(sys.argv[0]),
'ovirt-engine-notifier.conf',
)
)
def _checkInstallation(
self,
pidfile,
jbossModulesJar,
):
# Check the required JBoss directories and files:
self.check(
name=self._config.get('JBOSS_HOME'),
directory=True,
)
self.check(
name=jbossModulesJar,
)
# Check the required engine directories and files:
self.check(
os.path.join(
self._config.get('ENGINE_USR'),
'services',
),
directory=True,
)
self.check(
os.path.join(
self._config.get('ENGINE_LOG'),
'notifier',
),
directory=True,
writable=True,
)
for log in ('notifier.log', 'console.log'):
self.check(
name=os.path.join(
self._config.get("ENGINE_LOG"),
'notifier',
log,
),
mustExist=False,
writable=True,
)
if pidfile is not None:
self.check(
name=pidfile,
writable=True,
mustExist=False,
)
def daemonSetup(self):
if os.geteuid() == 0:
raise RuntimeError(
_('This service cannot be executed as root')
)
if not os.path.exists(self._defaults):
raise RuntimeError(
_(
"The configuration defaults file '{file}' "
"required but missing"
).format(
file=self._defaults,
)
)
self._config = configfile.ConfigFile(
(
self._defaults,
config.ENGINE_NOTIFIER_VARS,
),
)
#
# the earliest so we can abort early.
#
self._executable = os.path.join(
java.Java().getJavaHome(),
'bin',
'java',
)
jbossModulesJar = os.path.join(
self._config.get('JBOSS_HOME'),
'jboss-modules.jar',
)
self._checkInstallation(
pidfile=self.pidfile,
jbossModulesJar=jbossModulesJar,
)
self._engineArgs = [
# The name of the process, as displayed by ps:
'ovirt-engine-notifier',
'-Dlog4j.configuration=file://%s/notifier/log4j.xml' % (
self._config.get('ENGINE_ETC'),
),
'-Djboss.modules.write-indexes=false',
]
debugAddress = self._config.get('NOTIFIER_DEBUG_ADDRESS')
if debugAddress:
self._engineArgs.append(
(
'-agentlib:jdwp=transport=dt_socket,address=%s,'
'server=y,suspend=n'
) % (
debugAddress
)
)
self._engineArgs += [
'-jar', jbossModulesJar,
'-dependencies', 'org.ovirt.engine.core.tools',
'-class', 'org.ovirt.engine.core.notifier.Notifier',
]
self._engineEnv = os.environ.copy()
self._engineEnv.update({
'PATH': (
'/usr/local/sbin:/usr/local/bin:'
'/usr/sbin:/usr/bin:/sbin:/bin'
),
'LANG': 'en_US.UTF-8',
'LC_ALL': 'en_US.UTF-8',
'CLASSPATH': '',
'JAVA_MODULEPATH': '%s:%s' % (
self._config.get('ENGINE_JAVA_MODULEPATH'),
os.path.join(
self._config.get('JBOSS_HOME'),
'modules',
)
),
'ENGINE_DEFAULTS': config.ENGINE_DEFAULTS,
'ENGINE_VARS': config.ENGINE_VARS,
'ENGINE_NOTIFIER_DEFAULTS': self._defaults,
'ENGINE_NOTIFIER_VARS': config.ENGINE_NOTIFIER_VARS,
})
self._validateConfig()
def daemonStdHandles(self):
consoleLog = open(
os.path.join(
self._config.get('ENGINE_LOG'),
'notifier',
'console.log'
),
'w+',
)
return (consoleLog, consoleLog)
def daemonContext(self):
self.daemonAsExternalProcess(
executable=self._executable,
args=self._engineArgs,
env=self._engineEnv,
stopTime=self._config.getinteger(
'NOTIFIER_STOP_TIME'
),
stopInterval=self._config.getinteger(
'NOTIFIER_STOP_INTERVAL'
),
)
def _validateConfig(self):
args = self._engineArgs + ['validate']
self.logger.debug('Executing: %s', args)
proc = subprocess.Popen(
args=args,
executable=self._executable,
env=self._engineEnv,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
close_fds=True,
)
stdout, stderr = proc.communicate()
def printToBoth(msg):
self.logger.debug('%s', msg)
sys.stderr.write(msg + '\n')
def printstd(std, prefix):
if std:
for l in std.decode('utf-8', 'replace').splitlines():
printToBoth(
'%s: %s' % (
prefix,
l,
)
)
if stdout or stderr:
sys.stderr.write('\n')
printToBoth(_('Validation result:'))
printstd(stdout, 'stdout')
printstd(stderr, 'stderr')
if proc.returncode != 0:
printToBoth(
_('Validation failed returncode is {rc}:').format(
rc=proc.returncode,
)
)
raise RuntimeError(_('Configuration is invalid'))
if __name__ == '__main__':
service.setupLogger()
d = Daemon()
d.run()
# vim: expandtab tabstop=4 shiftwidth=4
| apache-2.0 |
thnee/ansible | lib/ansible/modules/storage/netapp/na_elementsw_snapshot_restore.py | 52 | 6143 | #!/usr/bin/python
# (c) 2018, NetApp, Inc
# GNU General Public License v3.0+ (see COPYING or
# https://www.gnu.org/licenses/gpl-3.0.txt)
"""
Element Software Snapshot Restore
"""
from __future__ import absolute_import, division, print_function
__metaclass__ = type
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'certified'}
DOCUMENTATION = '''
module: na_elementsw_snapshot_restore
short_description: NetApp Element Software Restore Snapshot
extends_documentation_fragment:
- netapp.solidfire
version_added: '2.7'
author: NetApp Ansible Team (@carchi8py) <ng-ansibleteam@netapp.com>
description:
- Element OS Cluster restore snapshot to volume.
options:
src_volume_id:
description:
- ID or Name of source active volume.
required: true
src_snapshot_id:
description:
- ID or Name of an existing snapshot.
required: true
dest_volume_name:
description:
- New Name of destination for restoring the snapshot
required: true
account_id:
description:
- Account ID or Name of Parent/Source Volume.
required: true
'''
EXAMPLES = """
- name: Restore snapshot to volume
tags:
- elementsw_create_snapshot_restore
na_elementsw_snapshot_restore:
hostname: "{{ elementsw_hostname }}"
username: "{{ elementsw_username }}"
password: "{{ elementsw_password }}"
account_id: ansible-1
src_snapshot_id: snapshot_20171021
src_volume_id: volume-playarea
dest_volume_name: dest-volume-area
"""
RETURN = """
msg:
description: Success message
returned: success
type: str
"""
import traceback
from ansible.module_utils.basic import AnsibleModule
from ansible.module_utils._text import to_native
import ansible.module_utils.netapp as netapp_utils
from ansible.module_utils.netapp_elementsw_module import NaElementSWModule
HAS_SF_SDK = netapp_utils.has_sf_sdk()
class ElementOSSnapshotRestore(object):
"""
Element OS Restore from snapshot
"""
def __init__(self):
self.argument_spec = netapp_utils.ontap_sf_host_argument_spec()
self.argument_spec.update(dict(
account_id=dict(required=True, type='str'),
src_volume_id=dict(required=True, type='str'),
dest_volume_name=dict(required=True, type='str'),
src_snapshot_id=dict(required=True, type='str')
))
self.module = AnsibleModule(
argument_spec=self.argument_spec,
supports_check_mode=True
)
input_params = self.module.params
self.account_id = input_params['account_id']
self.src_volume_id = input_params['src_volume_id']
self.dest_volume_name = input_params['dest_volume_name']
self.src_snapshot_id = input_params['src_snapshot_id']
if HAS_SF_SDK is False:
self.module.fail_json(
msg="Unable to import the SolidFire Python SDK")
else:
self.sfe = netapp_utils.create_sf_connection(module=self.module)
self.elementsw_helper = NaElementSWModule(self.sfe)
# add telemetry attributes
self.attributes = self.elementsw_helper.set_element_attributes(source='na_elementsw_snapshot_restore')
def get_account_id(self):
"""
Get account id if found
"""
try:
# Update and return self.account_id
self.account_id = self.elementsw_helper.account_exists(self.account_id)
return self.account_id
except Exception as err:
self.module.fail_json(msg="Error: account_id %s does not exist" % self.account_id, exception=to_native(err))
def get_snapshot_id(self):
"""
Return snapshot details if found
"""
src_snapshot = self.elementsw_helper.get_snapshot(self.src_snapshot_id, self.src_volume_id)
# Update and return self.src_snapshot_id
if src_snapshot:
self.src_snapshot_id = src_snapshot.snapshot_id
# Return self.src_snapshot_id
return self.src_snapshot_id
return None
def restore_snapshot(self):
"""
Restore Snapshot to Volume
"""
try:
self.sfe.clone_volume(volume_id=self.src_volume_id,
name=self.dest_volume_name,
snapshot_id=self.src_snapshot_id,
attributes=self.attributes)
except Exception as exception_object:
self.module.fail_json(
msg='Error restore snapshot %s' % (to_native(exception_object)),
exception=traceback.format_exc())
def apply(self):
"""
Check, process and initiate restore snapshot to volume operation
"""
changed = False
result_message = None
snapshot_detail = None
self.get_account_id()
src_vol_id = self.elementsw_helper.volume_exists(self.src_volume_id, self.account_id)
if src_vol_id is not None:
# Update self.src_volume_id
self.src_volume_id = src_vol_id
if self.get_snapshot_id() is not None:
# Addressing idempotency by comparing volume does not exist with same volume name
if self.elementsw_helper.volume_exists(self.dest_volume_name, self.account_id) is None:
self.restore_snapshot()
changed = True
else:
result_message = "No changes requested, Skipping changes"
else:
self.module.fail_json(msg="Snapshot id not found %s" % self.src_snapshot_id)
else:
self.module.fail_json(msg="Volume id not found %s" % self.src_volume_id)
self.module.exit_json(changed=changed, msg=result_message)
def main():
"""
Main function
"""
na_elementsw_snapshot_restore = ElementOSSnapshotRestore()
na_elementsw_snapshot_restore.apply()
if __name__ == '__main__':
main()
| gpl-3.0 |
ezheidtmann/django-rest-framework | tests/test_decorators.py | 82 | 4840 | from __future__ import unicode_literals
from django.test import TestCase
from rest_framework import status
from rest_framework.authentication import BasicAuthentication
from rest_framework.decorators import (
api_view, authentication_classes, parser_classes, permission_classes,
renderer_classes, throttle_classes
)
from rest_framework.parsers import JSONParser
from rest_framework.permissions import IsAuthenticated
from rest_framework.renderers import JSONRenderer
from rest_framework.response import Response
from rest_framework.test import APIRequestFactory
from rest_framework.throttling import UserRateThrottle
from rest_framework.views import APIView
class DecoratorTestCase(TestCase):
def setUp(self):
self.factory = APIRequestFactory()
def _finalize_response(self, request, response, *args, **kwargs):
response.request = request
return APIView.finalize_response(self, request, response, *args, **kwargs)
def test_api_view_incorrect(self):
"""
If @api_view is not applied correct, we should raise an assertion.
"""
@api_view
def view(request):
return Response()
request = self.factory.get('/')
self.assertRaises(AssertionError, view, request)
def test_api_view_incorrect_arguments(self):
"""
If @api_view is missing arguments, we should raise an assertion.
"""
with self.assertRaises(AssertionError):
@api_view('GET')
def view(request):
return Response()
def test_calling_method(self):
@api_view(['GET'])
def view(request):
return Response({})
request = self.factory.get('/')
response = view(request)
self.assertEqual(response.status_code, status.HTTP_200_OK)
request = self.factory.post('/')
response = view(request)
self.assertEqual(response.status_code, status.HTTP_405_METHOD_NOT_ALLOWED)
def test_calling_put_method(self):
@api_view(['GET', 'PUT'])
def view(request):
return Response({})
request = self.factory.put('/')
response = view(request)
self.assertEqual(response.status_code, status.HTTP_200_OK)
request = self.factory.post('/')
response = view(request)
self.assertEqual(response.status_code, status.HTTP_405_METHOD_NOT_ALLOWED)
def test_calling_patch_method(self):
@api_view(['GET', 'PATCH'])
def view(request):
return Response({})
request = self.factory.patch('/')
response = view(request)
self.assertEqual(response.status_code, status.HTTP_200_OK)
request = self.factory.post('/')
response = view(request)
self.assertEqual(response.status_code, status.HTTP_405_METHOD_NOT_ALLOWED)
def test_renderer_classes(self):
@api_view(['GET'])
@renderer_classes([JSONRenderer])
def view(request):
return Response({})
request = self.factory.get('/')
response = view(request)
self.assertTrue(isinstance(response.accepted_renderer, JSONRenderer))
def test_parser_classes(self):
@api_view(['GET'])
@parser_classes([JSONParser])
def view(request):
self.assertEqual(len(request.parsers), 1)
self.assertTrue(isinstance(request.parsers[0],
JSONParser))
return Response({})
request = self.factory.get('/')
view(request)
def test_authentication_classes(self):
@api_view(['GET'])
@authentication_classes([BasicAuthentication])
def view(request):
self.assertEqual(len(request.authenticators), 1)
self.assertTrue(isinstance(request.authenticators[0],
BasicAuthentication))
return Response({})
request = self.factory.get('/')
view(request)
def test_permission_classes(self):
@api_view(['GET'])
@permission_classes([IsAuthenticated])
def view(request):
return Response({})
request = self.factory.get('/')
response = view(request)
self.assertEqual(response.status_code, status.HTTP_403_FORBIDDEN)
def test_throttle_classes(self):
class OncePerDayUserThrottle(UserRateThrottle):
rate = '1/day'
@api_view(['GET'])
@throttle_classes([OncePerDayUserThrottle])
def view(request):
return Response({})
request = self.factory.get('/')
response = view(request)
self.assertEqual(response.status_code, status.HTTP_200_OK)
response = view(request)
self.assertEqual(response.status_code, status.HTTP_429_TOO_MANY_REQUESTS)
| bsd-2-clause |
miguelparaiso/PracticaOdoo | addons/lunch/wizard/lunch_validation.py | 440 | 1296 | # -*- encoding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Management Solution
# Copyright (C) 2004-2012 Tiny SPRL (<http://tiny.be>).
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero 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 Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
##############################################################################
from openerp.osv import fields, osv
class lunch_validation(osv.Model):
""" lunch validation """
_name = 'lunch.validation'
_description = 'lunch validation for order'
def confirm(self,cr,uid,ids,context=None):
return self.pool.get('lunch.order.line').confirm(cr, uid, ids, context=context)
| agpl-3.0 |
odubno/microblog | venv/lib/python2.7/site-packages/pip/_vendor/distlib/metadata.py | 190 | 36815 | # -*- coding: utf-8 -*-
#
# Copyright (C) 2012 The Python Software Foundation.
# See LICENSE.txt and CONTRIBUTORS.txt.
#
"""Implementation of the Metadata for Python packages PEPs.
Supports all metadata formats (1.0, 1.1, 1.2, and 2.0 experimental).
"""
from __future__ import unicode_literals
import codecs
from email import message_from_file
import json
import logging
import re
from . import DistlibException, __version__
from .compat import StringIO, string_types, text_type
from .markers import interpret
from .util import extract_by_key, get_extras
from .version import get_scheme, PEP426_VERSION_RE
logger = logging.getLogger(__name__)
class MetadataMissingError(DistlibException):
"""A required metadata is missing"""
class MetadataConflictError(DistlibException):
"""Attempt to read or write metadata fields that are conflictual."""
class MetadataUnrecognizedVersionError(DistlibException):
"""Unknown metadata version number."""
class MetadataInvalidError(DistlibException):
"""A metadata value is invalid"""
# public API of this module
__all__ = ['Metadata', 'PKG_INFO_ENCODING', 'PKG_INFO_PREFERRED_VERSION']
# Encoding used for the PKG-INFO files
PKG_INFO_ENCODING = 'utf-8'
# preferred version. Hopefully will be changed
# to 1.2 once PEP 345 is supported everywhere
PKG_INFO_PREFERRED_VERSION = '1.1'
_LINE_PREFIX = re.compile('\n \|')
_241_FIELDS = ('Metadata-Version', 'Name', 'Version', 'Platform',
'Summary', 'Description',
'Keywords', 'Home-page', 'Author', 'Author-email',
'License')
_314_FIELDS = ('Metadata-Version', 'Name', 'Version', 'Platform',
'Supported-Platform', 'Summary', 'Description',
'Keywords', 'Home-page', 'Author', 'Author-email',
'License', 'Classifier', 'Download-URL', 'Obsoletes',
'Provides', 'Requires')
_314_MARKERS = ('Obsoletes', 'Provides', 'Requires', 'Classifier',
'Download-URL')
_345_FIELDS = ('Metadata-Version', 'Name', 'Version', 'Platform',
'Supported-Platform', 'Summary', 'Description',
'Keywords', 'Home-page', 'Author', 'Author-email',
'Maintainer', 'Maintainer-email', 'License',
'Classifier', 'Download-URL', 'Obsoletes-Dist',
'Project-URL', 'Provides-Dist', 'Requires-Dist',
'Requires-Python', 'Requires-External')
_345_MARKERS = ('Provides-Dist', 'Requires-Dist', 'Requires-Python',
'Obsoletes-Dist', 'Requires-External', 'Maintainer',
'Maintainer-email', 'Project-URL')
_426_FIELDS = ('Metadata-Version', 'Name', 'Version', 'Platform',
'Supported-Platform', 'Summary', 'Description',
'Keywords', 'Home-page', 'Author', 'Author-email',
'Maintainer', 'Maintainer-email', 'License',
'Classifier', 'Download-URL', 'Obsoletes-Dist',
'Project-URL', 'Provides-Dist', 'Requires-Dist',
'Requires-Python', 'Requires-External', 'Private-Version',
'Obsoleted-By', 'Setup-Requires-Dist', 'Extension',
'Provides-Extra')
_426_MARKERS = ('Private-Version', 'Provides-Extra', 'Obsoleted-By',
'Setup-Requires-Dist', 'Extension')
_ALL_FIELDS = set()
_ALL_FIELDS.update(_241_FIELDS)
_ALL_FIELDS.update(_314_FIELDS)
_ALL_FIELDS.update(_345_FIELDS)
_ALL_FIELDS.update(_426_FIELDS)
EXTRA_RE = re.compile(r'''extra\s*==\s*("([^"]+)"|'([^']+)')''')
def _version2fieldlist(version):
if version == '1.0':
return _241_FIELDS
elif version == '1.1':
return _314_FIELDS
elif version == '1.2':
return _345_FIELDS
elif version == '2.0':
return _426_FIELDS
raise MetadataUnrecognizedVersionError(version)
def _best_version(fields):
"""Detect the best version depending on the fields used."""
def _has_marker(keys, markers):
for marker in markers:
if marker in keys:
return True
return False
keys = []
for key, value in fields.items():
if value in ([], 'UNKNOWN', None):
continue
keys.append(key)
possible_versions = ['1.0', '1.1', '1.2', '2.0']
# first let's try to see if a field is not part of one of the version
for key in keys:
if key not in _241_FIELDS and '1.0' in possible_versions:
possible_versions.remove('1.0')
if key not in _314_FIELDS and '1.1' in possible_versions:
possible_versions.remove('1.1')
if key not in _345_FIELDS and '1.2' in possible_versions:
possible_versions.remove('1.2')
if key not in _426_FIELDS and '2.0' in possible_versions:
possible_versions.remove('2.0')
# possible_version contains qualified versions
if len(possible_versions) == 1:
return possible_versions[0] # found !
elif len(possible_versions) == 0:
raise MetadataConflictError('Unknown metadata set')
# let's see if one unique marker is found
is_1_1 = '1.1' in possible_versions and _has_marker(keys, _314_MARKERS)
is_1_2 = '1.2' in possible_versions and _has_marker(keys, _345_MARKERS)
is_2_0 = '2.0' in possible_versions and _has_marker(keys, _426_MARKERS)
if int(is_1_1) + int(is_1_2) + int(is_2_0) > 1:
raise MetadataConflictError('You used incompatible 1.1/1.2/2.0 fields')
# we have the choice, 1.0, or 1.2, or 2.0
# - 1.0 has a broken Summary field but works with all tools
# - 1.1 is to avoid
# - 1.2 fixes Summary but has little adoption
# - 2.0 adds more features and is very new
if not is_1_1 and not is_1_2 and not is_2_0:
# we couldn't find any specific marker
if PKG_INFO_PREFERRED_VERSION in possible_versions:
return PKG_INFO_PREFERRED_VERSION
if is_1_1:
return '1.1'
if is_1_2:
return '1.2'
return '2.0'
_ATTR2FIELD = {
'metadata_version': 'Metadata-Version',
'name': 'Name',
'version': 'Version',
'platform': 'Platform',
'supported_platform': 'Supported-Platform',
'summary': 'Summary',
'description': 'Description',
'keywords': 'Keywords',
'home_page': 'Home-page',
'author': 'Author',
'author_email': 'Author-email',
'maintainer': 'Maintainer',
'maintainer_email': 'Maintainer-email',
'license': 'License',
'classifier': 'Classifier',
'download_url': 'Download-URL',
'obsoletes_dist': 'Obsoletes-Dist',
'provides_dist': 'Provides-Dist',
'requires_dist': 'Requires-Dist',
'setup_requires_dist': 'Setup-Requires-Dist',
'requires_python': 'Requires-Python',
'requires_external': 'Requires-External',
'requires': 'Requires',
'provides': 'Provides',
'obsoletes': 'Obsoletes',
'project_url': 'Project-URL',
'private_version': 'Private-Version',
'obsoleted_by': 'Obsoleted-By',
'extension': 'Extension',
'provides_extra': 'Provides-Extra',
}
_PREDICATE_FIELDS = ('Requires-Dist', 'Obsoletes-Dist', 'Provides-Dist')
_VERSIONS_FIELDS = ('Requires-Python',)
_VERSION_FIELDS = ('Version',)
_LISTFIELDS = ('Platform', 'Classifier', 'Obsoletes',
'Requires', 'Provides', 'Obsoletes-Dist',
'Provides-Dist', 'Requires-Dist', 'Requires-External',
'Project-URL', 'Supported-Platform', 'Setup-Requires-Dist',
'Provides-Extra', 'Extension')
_LISTTUPLEFIELDS = ('Project-URL',)
_ELEMENTSFIELD = ('Keywords',)
_UNICODEFIELDS = ('Author', 'Maintainer', 'Summary', 'Description')
_MISSING = object()
_FILESAFE = re.compile('[^A-Za-z0-9.]+')
def _get_name_and_version(name, version, for_filename=False):
"""Return the distribution name with version.
If for_filename is true, return a filename-escaped form."""
if for_filename:
# For both name and version any runs of non-alphanumeric or '.'
# characters are replaced with a single '-'. Additionally any
# spaces in the version string become '.'
name = _FILESAFE.sub('-', name)
version = _FILESAFE.sub('-', version.replace(' ', '.'))
return '%s-%s' % (name, version)
class LegacyMetadata(object):
"""The legacy metadata of a release.
Supports versions 1.0, 1.1 and 1.2 (auto-detected). You can
instantiate the class with one of these arguments (or none):
- *path*, the path to a metadata file
- *fileobj* give a file-like object with metadata as content
- *mapping* is a dict-like object
- *scheme* is a version scheme name
"""
# TODO document the mapping API and UNKNOWN default key
def __init__(self, path=None, fileobj=None, mapping=None,
scheme='default'):
if [path, fileobj, mapping].count(None) < 2:
raise TypeError('path, fileobj and mapping are exclusive')
self._fields = {}
self.requires_files = []
self._dependencies = None
self.scheme = scheme
if path is not None:
self.read(path)
elif fileobj is not None:
self.read_file(fileobj)
elif mapping is not None:
self.update(mapping)
self.set_metadata_version()
def set_metadata_version(self):
self._fields['Metadata-Version'] = _best_version(self._fields)
def _write_field(self, fileobj, name, value):
fileobj.write('%s: %s\n' % (name, value))
def __getitem__(self, name):
return self.get(name)
def __setitem__(self, name, value):
return self.set(name, value)
def __delitem__(self, name):
field_name = self._convert_name(name)
try:
del self._fields[field_name]
except KeyError:
raise KeyError(name)
def __contains__(self, name):
return (name in self._fields or
self._convert_name(name) in self._fields)
def _convert_name(self, name):
if name in _ALL_FIELDS:
return name
name = name.replace('-', '_').lower()
return _ATTR2FIELD.get(name, name)
def _default_value(self, name):
if name in _LISTFIELDS or name in _ELEMENTSFIELD:
return []
return 'UNKNOWN'
def _remove_line_prefix(self, value):
return _LINE_PREFIX.sub('\n', value)
def __getattr__(self, name):
if name in _ATTR2FIELD:
return self[name]
raise AttributeError(name)
#
# Public API
#
# dependencies = property(_get_dependencies, _set_dependencies)
def get_fullname(self, filesafe=False):
"""Return the distribution name with version.
If filesafe is true, return a filename-escaped form."""
return _get_name_and_version(self['Name'], self['Version'], filesafe)
def is_field(self, name):
"""return True if name is a valid metadata key"""
name = self._convert_name(name)
return name in _ALL_FIELDS
def is_multi_field(self, name):
name = self._convert_name(name)
return name in _LISTFIELDS
def read(self, filepath):
"""Read the metadata values from a file path."""
fp = codecs.open(filepath, 'r', encoding='utf-8')
try:
self.read_file(fp)
finally:
fp.close()
def read_file(self, fileob):
"""Read the metadata values from a file object."""
msg = message_from_file(fileob)
self._fields['Metadata-Version'] = msg['metadata-version']
# When reading, get all the fields we can
for field in _ALL_FIELDS:
if field not in msg:
continue
if field in _LISTFIELDS:
# we can have multiple lines
values = msg.get_all(field)
if field in _LISTTUPLEFIELDS and values is not None:
values = [tuple(value.split(',')) for value in values]
self.set(field, values)
else:
# single line
value = msg[field]
if value is not None and value != 'UNKNOWN':
self.set(field, value)
self.set_metadata_version()
def write(self, filepath, skip_unknown=False):
"""Write the metadata fields to filepath."""
fp = codecs.open(filepath, 'w', encoding='utf-8')
try:
self.write_file(fp, skip_unknown)
finally:
fp.close()
def write_file(self, fileobject, skip_unknown=False):
"""Write the PKG-INFO format data to a file object."""
self.set_metadata_version()
for field in _version2fieldlist(self['Metadata-Version']):
values = self.get(field)
if skip_unknown and values in ('UNKNOWN', [], ['UNKNOWN']):
continue
if field in _ELEMENTSFIELD:
self._write_field(fileobject, field, ','.join(values))
continue
if field not in _LISTFIELDS:
if field == 'Description':
values = values.replace('\n', '\n |')
values = [values]
if field in _LISTTUPLEFIELDS:
values = [','.join(value) for value in values]
for value in values:
self._write_field(fileobject, field, value)
def update(self, other=None, **kwargs):
"""Set metadata values from the given iterable `other` and kwargs.
Behavior is like `dict.update`: If `other` has a ``keys`` method,
they are looped over and ``self[key]`` is assigned ``other[key]``.
Else, ``other`` is an iterable of ``(key, value)`` iterables.
Keys that don't match a metadata field or that have an empty value are
dropped.
"""
def _set(key, value):
if key in _ATTR2FIELD and value:
self.set(self._convert_name(key), value)
if not other:
# other is None or empty container
pass
elif hasattr(other, 'keys'):
for k in other.keys():
_set(k, other[k])
else:
for k, v in other:
_set(k, v)
if kwargs:
for k, v in kwargs.items():
_set(k, v)
def set(self, name, value):
"""Control then set a metadata field."""
name = self._convert_name(name)
if ((name in _ELEMENTSFIELD or name == 'Platform') and
not isinstance(value, (list, tuple))):
if isinstance(value, string_types):
value = [v.strip() for v in value.split(',')]
else:
value = []
elif (name in _LISTFIELDS and
not isinstance(value, (list, tuple))):
if isinstance(value, string_types):
value = [value]
else:
value = []
if logger.isEnabledFor(logging.WARNING):
project_name = self['Name']
scheme = get_scheme(self.scheme)
if name in _PREDICATE_FIELDS and value is not None:
for v in value:
# check that the values are valid
if not scheme.is_valid_matcher(v.split(';')[0]):
logger.warning(
'%r: %r is not valid (field %r)',
project_name, v, name)
# FIXME this rejects UNKNOWN, is that right?
elif name in _VERSIONS_FIELDS and value is not None:
if not scheme.is_valid_constraint_list(value):
logger.warning('%r: %r is not a valid version (field %r)',
project_name, value, name)
elif name in _VERSION_FIELDS and value is not None:
if not scheme.is_valid_version(value):
logger.warning('%r: %r is not a valid version (field %r)',
project_name, value, name)
if name in _UNICODEFIELDS:
if name == 'Description':
value = self._remove_line_prefix(value)
self._fields[name] = value
def get(self, name, default=_MISSING):
"""Get a metadata field."""
name = self._convert_name(name)
if name not in self._fields:
if default is _MISSING:
default = self._default_value(name)
return default
if name in _UNICODEFIELDS:
value = self._fields[name]
return value
elif name in _LISTFIELDS:
value = self._fields[name]
if value is None:
return []
res = []
for val in value:
if name not in _LISTTUPLEFIELDS:
res.append(val)
else:
# That's for Project-URL
res.append((val[0], val[1]))
return res
elif name in _ELEMENTSFIELD:
value = self._fields[name]
if isinstance(value, string_types):
return value.split(',')
return self._fields[name]
def check(self, strict=False):
"""Check if the metadata is compliant. If strict is True then raise if
no Name or Version are provided"""
self.set_metadata_version()
# XXX should check the versions (if the file was loaded)
missing, warnings = [], []
for attr in ('Name', 'Version'): # required by PEP 345
if attr not in self:
missing.append(attr)
if strict and missing != []:
msg = 'missing required metadata: %s' % ', '.join(missing)
raise MetadataMissingError(msg)
for attr in ('Home-page', 'Author'):
if attr not in self:
missing.append(attr)
# checking metadata 1.2 (XXX needs to check 1.1, 1.0)
if self['Metadata-Version'] != '1.2':
return missing, warnings
scheme = get_scheme(self.scheme)
def are_valid_constraints(value):
for v in value:
if not scheme.is_valid_matcher(v.split(';')[0]):
return False
return True
for fields, controller in ((_PREDICATE_FIELDS, are_valid_constraints),
(_VERSIONS_FIELDS,
scheme.is_valid_constraint_list),
(_VERSION_FIELDS,
scheme.is_valid_version)):
for field in fields:
value = self.get(field, None)
if value is not None and not controller(value):
warnings.append('Wrong value for %r: %s' % (field, value))
return missing, warnings
def todict(self, skip_missing=False):
"""Return fields as a dict.
Field names will be converted to use the underscore-lowercase style
instead of hyphen-mixed case (i.e. home_page instead of Home-page).
"""
self.set_metadata_version()
mapping_1_0 = (
('metadata_version', 'Metadata-Version'),
('name', 'Name'),
('version', 'Version'),
('summary', 'Summary'),
('home_page', 'Home-page'),
('author', 'Author'),
('author_email', 'Author-email'),
('license', 'License'),
('description', 'Description'),
('keywords', 'Keywords'),
('platform', 'Platform'),
('classifier', 'Classifier'),
('download_url', 'Download-URL'),
)
data = {}
for key, field_name in mapping_1_0:
if not skip_missing or field_name in self._fields:
data[key] = self[field_name]
if self['Metadata-Version'] == '1.2':
mapping_1_2 = (
('requires_dist', 'Requires-Dist'),
('requires_python', 'Requires-Python'),
('requires_external', 'Requires-External'),
('provides_dist', 'Provides-Dist'),
('obsoletes_dist', 'Obsoletes-Dist'),
('project_url', 'Project-URL'),
('maintainer', 'Maintainer'),
('maintainer_email', 'Maintainer-email'),
)
for key, field_name in mapping_1_2:
if not skip_missing or field_name in self._fields:
if key != 'project_url':
data[key] = self[field_name]
else:
data[key] = [','.join(u) for u in self[field_name]]
elif self['Metadata-Version'] == '1.1':
mapping_1_1 = (
('provides', 'Provides'),
('requires', 'Requires'),
('obsoletes', 'Obsoletes'),
)
for key, field_name in mapping_1_1:
if not skip_missing or field_name in self._fields:
data[key] = self[field_name]
return data
def add_requirements(self, requirements):
if self['Metadata-Version'] == '1.1':
# we can't have 1.1 metadata *and* Setuptools requires
for field in ('Obsoletes', 'Requires', 'Provides'):
if field in self:
del self[field]
self['Requires-Dist'] += requirements
# Mapping API
# TODO could add iter* variants
def keys(self):
return list(_version2fieldlist(self['Metadata-Version']))
def __iter__(self):
for key in self.keys():
yield key
def values(self):
return [self[key] for key in self.keys()]
def items(self):
return [(key, self[key]) for key in self.keys()]
def __repr__(self):
return '<%s %s %s>' % (self.__class__.__name__, self.name,
self.version)
METADATA_FILENAME = 'pydist.json'
class Metadata(object):
"""
The metadata of a release. This implementation uses 2.0 (JSON)
metadata where possible. If not possible, it wraps a LegacyMetadata
instance which handles the key-value metadata format.
"""
METADATA_VERSION_MATCHER = re.compile('^\d+(\.\d+)*$')
NAME_MATCHER = re.compile('^[0-9A-Z]([0-9A-Z_.-]*[0-9A-Z])?$', re.I)
VERSION_MATCHER = PEP426_VERSION_RE
SUMMARY_MATCHER = re.compile('.{1,2047}')
METADATA_VERSION = '2.0'
GENERATOR = 'distlib (%s)' % __version__
MANDATORY_KEYS = {
'name': (),
'version': (),
'summary': ('legacy',),
}
INDEX_KEYS = ('name version license summary description author '
'author_email keywords platform home_page classifiers '
'download_url')
DEPENDENCY_KEYS = ('extras run_requires test_requires build_requires '
'dev_requires provides meta_requires obsoleted_by '
'supports_environments')
SYNTAX_VALIDATORS = {
'metadata_version': (METADATA_VERSION_MATCHER, ()),
'name': (NAME_MATCHER, ('legacy',)),
'version': (VERSION_MATCHER, ('legacy',)),
'summary': (SUMMARY_MATCHER, ('legacy',)),
}
__slots__ = ('_legacy', '_data', 'scheme')
def __init__(self, path=None, fileobj=None, mapping=None,
scheme='default'):
if [path, fileobj, mapping].count(None) < 2:
raise TypeError('path, fileobj and mapping are exclusive')
self._legacy = None
self._data = None
self.scheme = scheme
#import pdb; pdb.set_trace()
if mapping is not None:
try:
self._validate_mapping(mapping, scheme)
self._data = mapping
except MetadataUnrecognizedVersionError:
self._legacy = LegacyMetadata(mapping=mapping, scheme=scheme)
self.validate()
else:
data = None
if path:
with open(path, 'rb') as f:
data = f.read()
elif fileobj:
data = fileobj.read()
if data is None:
# Initialised with no args - to be added
self._data = {
'metadata_version': self.METADATA_VERSION,
'generator': self.GENERATOR,
}
else:
if not isinstance(data, text_type):
data = data.decode('utf-8')
try:
self._data = json.loads(data)
self._validate_mapping(self._data, scheme)
except ValueError:
# Note: MetadataUnrecognizedVersionError does not
# inherit from ValueError (it's a DistlibException,
# which should not inherit from ValueError).
# The ValueError comes from the json.load - if that
# succeeds and we get a validation error, we want
# that to propagate
self._legacy = LegacyMetadata(fileobj=StringIO(data),
scheme=scheme)
self.validate()
common_keys = set(('name', 'version', 'license', 'keywords', 'summary'))
none_list = (None, list)
none_dict = (None, dict)
mapped_keys = {
'run_requires': ('Requires-Dist', list),
'build_requires': ('Setup-Requires-Dist', list),
'dev_requires': none_list,
'test_requires': none_list,
'meta_requires': none_list,
'extras': ('Provides-Extra', list),
'modules': none_list,
'namespaces': none_list,
'exports': none_dict,
'commands': none_dict,
'classifiers': ('Classifier', list),
'source_url': ('Download-URL', None),
'metadata_version': ('Metadata-Version', None),
}
del none_list, none_dict
def __getattribute__(self, key):
common = object.__getattribute__(self, 'common_keys')
mapped = object.__getattribute__(self, 'mapped_keys')
if key in mapped:
lk, maker = mapped[key]
if self._legacy:
if lk is None:
result = None if maker is None else maker()
else:
result = self._legacy.get(lk)
else:
value = None if maker is None else maker()
result = self._data.get(key, value)
elif key not in common:
result = object.__getattribute__(self, key)
elif self._legacy:
result = self._legacy.get(key)
else:
result = self._data.get(key)
return result
def _validate_value(self, key, value, scheme=None):
if key in self.SYNTAX_VALIDATORS:
pattern, exclusions = self.SYNTAX_VALIDATORS[key]
if (scheme or self.scheme) not in exclusions:
m = pattern.match(value)
if not m:
raise MetadataInvalidError('%r is an invalid value for '
'the %r property' % (value,
key))
def __setattr__(self, key, value):
self._validate_value(key, value)
common = object.__getattribute__(self, 'common_keys')
mapped = object.__getattribute__(self, 'mapped_keys')
if key in mapped:
lk, _ = mapped[key]
if self._legacy:
if lk is None:
raise NotImplementedError
self._legacy[lk] = value
else:
self._data[key] = value
elif key not in common:
object.__setattr__(self, key, value)
else:
if key == 'keywords':
if isinstance(value, string_types):
value = value.strip()
if value:
value = value.split()
else:
value = []
if self._legacy:
self._legacy[key] = value
else:
self._data[key] = value
@property
def name_and_version(self):
return _get_name_and_version(self.name, self.version, True)
@property
def provides(self):
if self._legacy:
result = self._legacy['Provides-Dist']
else:
result = self._data.setdefault('provides', [])
s = '%s (%s)' % (self.name, self.version)
if s not in result:
result.append(s)
return result
@provides.setter
def provides(self, value):
if self._legacy:
self._legacy['Provides-Dist'] = value
else:
self._data['provides'] = value
def get_requirements(self, reqts, extras=None, env=None):
"""
Base method to get dependencies, given a set of extras
to satisfy and an optional environment context.
:param reqts: A list of sometimes-wanted dependencies,
perhaps dependent on extras and environment.
:param extras: A list of optional components being requested.
:param env: An optional environment for marker evaluation.
"""
if self._legacy:
result = reqts
else:
result = []
extras = get_extras(extras or [], self.extras)
for d in reqts:
if 'extra' not in d and 'environment' not in d:
# unconditional
include = True
else:
if 'extra' not in d:
# Not extra-dependent - only environment-dependent
include = True
else:
include = d.get('extra') in extras
if include:
# Not excluded because of extras, check environment
marker = d.get('environment')
if marker:
include = interpret(marker, env)
if include:
result.extend(d['requires'])
for key in ('build', 'dev', 'test'):
e = ':%s:' % key
if e in extras:
extras.remove(e)
# A recursive call, but it should terminate since 'test'
# has been removed from the extras
reqts = self._data.get('%s_requires' % key, [])
result.extend(self.get_requirements(reqts, extras=extras,
env=env))
return result
@property
def dictionary(self):
if self._legacy:
return self._from_legacy()
return self._data
@property
def dependencies(self):
if self._legacy:
raise NotImplementedError
else:
return extract_by_key(self._data, self.DEPENDENCY_KEYS)
@dependencies.setter
def dependencies(self, value):
if self._legacy:
raise NotImplementedError
else:
self._data.update(value)
def _validate_mapping(self, mapping, scheme):
if mapping.get('metadata_version') != self.METADATA_VERSION:
raise MetadataUnrecognizedVersionError()
missing = []
for key, exclusions in self.MANDATORY_KEYS.items():
if key not in mapping:
if scheme not in exclusions:
missing.append(key)
if missing:
msg = 'Missing metadata items: %s' % ', '.join(missing)
raise MetadataMissingError(msg)
for k, v in mapping.items():
self._validate_value(k, v, scheme)
def validate(self):
if self._legacy:
missing, warnings = self._legacy.check(True)
if missing or warnings:
logger.warning('Metadata: missing: %s, warnings: %s',
missing, warnings)
else:
self._validate_mapping(self._data, self.scheme)
def todict(self):
if self._legacy:
return self._legacy.todict(True)
else:
result = extract_by_key(self._data, self.INDEX_KEYS)
return result
def _from_legacy(self):
assert self._legacy and not self._data
result = {
'metadata_version': self.METADATA_VERSION,
'generator': self.GENERATOR,
}
lmd = self._legacy.todict(True) # skip missing ones
for k in ('name', 'version', 'license', 'summary', 'description',
'classifier'):
if k in lmd:
if k == 'classifier':
nk = 'classifiers'
else:
nk = k
result[nk] = lmd[k]
kw = lmd.get('Keywords', [])
if kw == ['']:
kw = []
result['keywords'] = kw
keys = (('requires_dist', 'run_requires'),
('setup_requires_dist', 'build_requires'))
for ok, nk in keys:
if ok in lmd and lmd[ok]:
result[nk] = [{'requires': lmd[ok]}]
result['provides'] = self.provides
author = {}
maintainer = {}
return result
LEGACY_MAPPING = {
'name': 'Name',
'version': 'Version',
'license': 'License',
'summary': 'Summary',
'description': 'Description',
'classifiers': 'Classifier',
}
def _to_legacy(self):
def process_entries(entries):
reqts = set()
for e in entries:
extra = e.get('extra')
env = e.get('environment')
rlist = e['requires']
for r in rlist:
if not env and not extra:
reqts.add(r)
else:
marker = ''
if extra:
marker = 'extra == "%s"' % extra
if env:
if marker:
marker = '(%s) and %s' % (env, marker)
else:
marker = env
reqts.add(';'.join((r, marker)))
return reqts
assert self._data and not self._legacy
result = LegacyMetadata()
nmd = self._data
for nk, ok in self.LEGACY_MAPPING.items():
if nk in nmd:
result[ok] = nmd[nk]
r1 = process_entries(self.run_requires + self.meta_requires)
r2 = process_entries(self.build_requires + self.dev_requires)
if self.extras:
result['Provides-Extra'] = sorted(self.extras)
result['Requires-Dist'] = sorted(r1)
result['Setup-Requires-Dist'] = sorted(r2)
# TODO: other fields such as contacts
return result
def write(self, path=None, fileobj=None, legacy=False, skip_unknown=True):
if [path, fileobj].count(None) != 1:
raise ValueError('Exactly one of path and fileobj is needed')
self.validate()
if legacy:
if self._legacy:
legacy_md = self._legacy
else:
legacy_md = self._to_legacy()
if path:
legacy_md.write(path, skip_unknown=skip_unknown)
else:
legacy_md.write_file(fileobj, skip_unknown=skip_unknown)
else:
if self._legacy:
d = self._from_legacy()
else:
d = self._data
if fileobj:
json.dump(d, fileobj, ensure_ascii=True, indent=2,
sort_keys=True)
else:
with codecs.open(path, 'w', 'utf-8') as f:
json.dump(d, f, ensure_ascii=True, indent=2,
sort_keys=True)
def add_requirements(self, requirements):
if self._legacy:
self._legacy.add_requirements(requirements)
else:
run_requires = self._data.setdefault('run_requires', [])
always = None
for entry in run_requires:
if 'environment' not in entry and 'extra' not in entry:
always = entry
break
if always is None:
always = { 'requires': requirements }
run_requires.insert(0, always)
else:
rset = set(always['requires']) | set(requirements)
always['requires'] = sorted(rset)
def __repr__(self):
name = self.name or '(no name)'
version = self.version or 'no version'
return '<%s %s %s (%s)>' % (self.__class__.__name__,
self.metadata_version, name, version)
| bsd-3-clause |
seanchen/taiga-back | tests/unit/test_mdrender.py | 20 | 9270 | # Copyright (C) 2014 Andrey Antukh <niwi@niwi.be>
# Copyright (C) 2014 Jesús Espino <jespinog@gmail.com>
# Copyright (C) 2014 David Barragán <bameda@dbarragan.com>
# Copyright (C) 2014 Anler Hernández <hello@anler.me>
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero 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 Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from unittest.mock import patch, MagicMock
from taiga.mdrender.extensions import emojify
from taiga.mdrender.service import render, cache_by_sha, get_diff_of_htmls, render_and_extract
from datetime import datetime
dummy_project = MagicMock()
dummy_project.id = 1
dummy_project.slug = "test"
def test_proccessor_valid_emoji():
result = emojify.EmojifyPreprocessor().run(["**:smile:**"])
assert result == ["****"]
def test_proccessor_invalid_emoji():
result = emojify.EmojifyPreprocessor().run(["**:notvalidemoji:**"])
assert result == ["**:notvalidemoji:**"]
def test_proccessor_valid_us_reference():
with patch("taiga.mdrender.extensions.references.get_instance_by_ref") as mock:
instance = mock.return_value
instance.content_type.model = "userstory"
instance.content_object.subject = "test"
result = render(dummy_project, "**#1**")
expected_result = '<p><strong><a class="reference user-story" href="http://localhost:9001/project/test/us/1" title="#1 test">#1</a></strong></p>'
assert result == expected_result
def test_proccessor_valid_issue_reference():
with patch("taiga.mdrender.extensions.references.get_instance_by_ref") as mock:
instance = mock.return_value
instance.content_type.model = "issue"
instance.content_object.subject = "test"
result = render(dummy_project, "**#2**")
expected_result = '<p><strong><a class="reference issue" href="http://localhost:9001/project/test/issue/2" title="#2 test">#2</a></strong></p>'
assert result == expected_result
def test_proccessor_valid_task_reference():
with patch("taiga.mdrender.extensions.references.get_instance_by_ref") as mock:
instance = mock.return_value
instance.content_type.model = "task"
instance.content_object.subject = "test"
result = render(dummy_project, "**#3**")
expected_result = '<p><strong><a class="reference task" href="http://localhost:9001/project/test/task/3" title="#3 test">#3</a></strong></p>'
assert result == expected_result
def test_proccessor_invalid_type_reference():
with patch("taiga.mdrender.extensions.references.get_instance_by_ref") as mock:
instance = mock.return_value
instance.content_type.model = "other"
instance.content_object.subject = "test"
result = render(dummy_project, "**#4**")
assert result == "<p><strong>#4</strong></p>"
def test_proccessor_invalid_reference():
with patch("taiga.mdrender.extensions.references.get_instance_by_ref") as mock:
mock.return_value = None
result = render(dummy_project, "**#5**")
assert result == "<p><strong>#5</strong></p>"
def test_render_wiki_strong():
assert render(dummy_project, "**test**") == "<p><strong>test</strong></p>"
assert render(dummy_project, "__test__") == "<p><strong>test</strong></p>"
def test_render_wiki_italic():
assert render(dummy_project, "*test*") == "<p><em>test</em></p>"
assert render(dummy_project, "_test_") == "<p><em>test</em></p>"
def test_render_wiki_strike():
assert render(dummy_project, "~~test~~") == "<p><del>test</del></p>"
def test_render_wikilink():
expected_result = "<p><a class=\"reference wiki\" href=\"http://localhost:9001/project/test/wiki/test\" title=\"test\">test</a></p>"
assert render(dummy_project, "[[test]]") == expected_result
def test_render_wikilink_1():
expected_result = "<p><a class=\"reference wiki\" href=\"http://localhost:9001/project/test/wiki/test\" title=\"test\">test</a></p>"
assert render(dummy_project, "[[test]]") == expected_result
def test_render_wikilink_2():
expected_result = "<p><a class=\"reference wiki\" href=\"http://localhost:9001/project/test/wiki/test-page\" title=\"test page\">test page</a></p>"
assert render(dummy_project, "[[test page]]") == expected_result
def test_render_wikilink_3():
expected_result = "<p><a class=\"reference wiki\" href=\"http://localhost:9001/project/test/wiki/testpage\" title=\"TestPage\">TestPage</a></p>"
assert render(dummy_project, "[[TestPage]]") == expected_result
def test_render_wikilink_with_custom_title():
expected_result = "<p><a class=\"reference wiki\" href=\"http://localhost:9001/project/test/wiki/test\" title=\"custom\">custom</a></p>"
assert render(dummy_project, "[[test|custom]]") == expected_result
def test_render_wikilink_slug_to_wikipages():
expected_result = "<p><a class=\"reference wiki\" href=\"http://localhost:9001/project/test/wiki/wiki_page\" title=\"wiki page\">wiki</a></p>"
assert render(dummy_project, "[wiki](wiki_page \"wiki page\")") == expected_result
def test_render_wikilink_relative_to_absolute():
expected_result = "<p><a href=\"http://localhost:9001/project/test/\">test project</a></p>"
assert render(dummy_project, "[test project](/project/test/)") == expected_result
def test_render_reference_links():
expected_result = "<p>An <a href=\"http://example.com/\" target=\"_blank\" title=\"Title\">example</a> of reference link</p>"
source = "An [example][id] of reference link\n [id]: http://example.com/ \"Title\""
assert render(dummy_project, source) == expected_result
def test_render_url_autolinks():
expected_result = "<p>Test the <a href=\"http://example.com/\" target=\"_blank\">http://example.com/</a> autolink</p>"
source = "Test the http://example.com/ autolink"
assert render(dummy_project, source) == expected_result
def test_render_url_autolinks_without_http():
expected_result = "<p>Test the <a href=\"http://www.example.com\" target=\"_blank\">www.example.com</a> autolink</p>"
source = "Test the www.example.com autolink"
assert render(dummy_project, source) == expected_result
def test_render_url_automail():
expected_result = "<p>Test the <a href=\"mailto:example@example.com\" target=\"_blank\">example@example.com</a> automail</p>"
source = "Test the example@example.com automail"
assert render(dummy_project, source) == expected_result
def test_render_absolute_image():
assert render(dummy_project, "") == "<p><img alt=\"test\" src=\"/test.png\"></p>"
def test_render_relative_image():
assert render(dummy_project, "") == "<p><img alt=\"test\" src=\"test.png\"></p>"
def test_render_triple_quote_code():
expected_result = "<div class=\"codehilite\"><pre><span class=\"n\">print</span><span class=\"p\">(</span><span class=\"s\">\"test\"</span><span class=\"p\">)</span>\n</pre></div>"
assert render(dummy_project, "```\nprint(\"test\")\n```") == expected_result
def test_render_triple_quote_and_lang_code():
expected_result = "<div class=\"codehilite\"><pre><span class=\"k\">print</span><span class=\"p\">(</span><span class=\"s\">\"test\"</span><span class=\"p\">)</span>\n</pre></div>"
assert render(dummy_project, "```python\nprint(\"test\")\n```") == expected_result
def test_cache_by_sha():
@cache_by_sha
def test_cache(project, text):
return datetime.now()
result1 = test_cache(dummy_project, "test")
result2 = test_cache(dummy_project, "test2")
assert result1 != result2
result3 = test_cache(dummy_project, "test")
assert result1 == result3
def test_get_diff_of_htmls_insertions():
result = get_diff_of_htmls("", "<p>test</p>")
assert result == "<ins style=\"background:#e6ffe6;\"><p>test</p></ins>"
def test_get_diff_of_htmls_deletions():
result = get_diff_of_htmls("<p>test</p>", "")
assert result == "<del style=\"background:#ffe6e6;\"><p>test</p></del>"
def test_get_diff_of_htmls_modifications():
result = get_diff_of_htmls("<p>test1</p>", "<p>1test</p>")
assert result == "<span><p></span><ins style=\"background:#e6ffe6;\">1</ins><span>test</span><del style=\"background:#ffe6e6;\">1</del><span></p></span>"
def test_render_and_extract_references():
with patch("taiga.mdrender.extensions.references.get_instance_by_ref") as mock:
instance = mock.return_value
instance.content_type.model = "issue"
instance.content_object.subject = "test"
(_, extracted) = render_and_extract(dummy_project, "**#1**")
assert extracted['references'] == [instance.content_object]
| agpl-3.0 |
winkleink/pygame_test_gamepad | pygame_test_gamepad.py | 1 | 2658 | #!/usr/bin/env python
import os, sys, pygame
from pygame import locals
import time
# Define the colors we will use in RGB format
black = [ 0, 0, 0]
white = [255,255,255]
red = [255, 0, 0]
#os.environ["SDL_VIDEODRIVER"] = "dummy"
pygame.init()
# Set the height and width of the screen
size=[630,300]
screen=pygame.display.set_mode(size)
# Fill the screen White
screen.fill(white)
# Put something in the application Bar
pygame.display.set_caption("Testing gamepad")
pygame.draw.rect(screen,black,(19,19,276,276),0)
pygame.display.flip()
pygame.joystick.init() # main joystick device system
textfont = pygame.font.SysFont("moonspace",24)
joyfont = pygame.font.SysFont("moonspace",60)
done = True
try:
j = pygame.joystick.Joystick(0) # create a joystick instance
j.init() # init instance
print ('Enabled joystick: ' + j.get_name())
joyName = j.get_name()
except pygame.error:
print ('no joystick found.')
pygame.draw.rect(screen,black,(19,19,276,276),0)
pygame.draw.rect(screen,white,(148,148,20,20),0)
joyText = textfont.render("Gamepad : "+joyName,1,red)
screen.blit(joyText,(350,100))
pygame.display.flip()
while done:
for e in pygame.event.get(): # iterate over event stack
if e.type == pygame.QUIT:
done = False
if e.type == pygame.locals.JOYAXISMOTION: # Read Analog Joystick Axis
x1 , y1 = j.get_axis(0), j.get_axis(1) # Left Stick
print (x1)
print (y1)
x1Text = textfont.render("x : "+str(x1),1,red)
y1Text = textfont.render("y : "+str(y1),1,red)
pygame.draw.rect(screen,black,(19,19,276,276),0)
pygame.draw.rect(screen,white,(148+(x1*128),148+(y1*128),20,20),0)
pygame.draw.rect(screen,white,(300,150,250,200),0)
screen.blit(x1Text,(350,150))
screen.blit(y1Text,(350,200))
pygame.display.flip()
if e.type == pygame.locals.JOYBUTTONDOWN: # Read the buttons
print ("button down"+str(e.button))
for i in range(0,10):
if e.button == i:
pygame.draw.rect(screen,red,(300+(i*30),20,20,20),0)
buttonText = textfont.render(str(i),1,white)
screen.blit(buttonText,(300+(i*30)+3,20))
pygame.display.flip()
if e.type == pygame.locals.JOYBUTTONUP: # Read the buttons
print ("button up"+str(e.button))
for i in range(0,10):
if e.button == i:
pygame.draw.rect(screen,white,(300+(i*30),20,20,20),0)
pygame.display.flip()
| mit |
KaiDalgleish/osm-tasking-manager2 | osmtm/tests/test_project.py | 2 | 35065 | from . import BaseTestCase
class TestProjectFunctional(BaseTestCase):
def create_project(self):
import geoalchemy2
import shapely
import transaction
from osmtm.models import Area, Project, DBSession
shape = shapely.geometry.Polygon(
[(7.23, 41.25), (7.23, 41.12), (7.41, 41.20)])
geometry = geoalchemy2.shape.from_shape(shape, 4326)
area = Area(geometry)
project = Project(u'test project')
project.area = area
project.auto_fill(12)
project.status = Project.status_published
DBSession.add(project)
DBSession.flush()
project_id = project.id
transaction.commit()
return project_id
def test_project__not_found(self):
self.testapp.get('/project/999', status=302)
def test_project(self):
project_id = self.create_project()
self.testapp.get('/project/%d' % project_id, status=200)
def test_project_new_forbidden(self):
self.testapp.get('/project/new', status=403)
headers = self.login_as_user1()
self.testapp.get('/project/new', headers=headers, status=403)
def test_project_new(self):
headers = self.login_as_admin()
self.testapp.get('/project/new', headers=headers, status=200)
def test_project_new__logged_as_project_manager(self):
headers = self.login_as_project_manager()
self.testapp.get('/project/new', headers=headers, status=200)
def test_project_new_grid__invalid_json(self):
headers = self.login_as_admin()
self.testapp.get('/project/new/grid', headers=headers,
params={
'form.submitted': True,
'geometry': 'blah', # noqa
},
status=302)
def test_project_new_grid_3d(self):
headers = self.login_as_admin()
res = self.testapp.get('/project/new/grid', headers=headers,
params={
'form.submitted': True,
'geometry': '{"type":"FeatureCollection","features":[{"type":"Feature","properties":{},"geometry":{"type":"Polygon","coordinates":[[[0,0,0],[1,0,0],[1,1,0],[0,0,0]]]}}]}', # noqa
'tile_size': -2
},
status=302)
res2 = res.follow(headers=headers, status=200)
self.assertTrue('Save the modifications' in res2.body)
def test_project_new_grid(self):
from osmtm.models import DBSession, Project
headers = self.login_as_admin()
self.testapp.get('/project/new/grid', headers=headers,
params={
'form.submitted': True,
'geometry': '{"type":"FeatureCollection","features":[{"type":"Feature","geometry":{"type":"Polygon","coordinates":[[[2.28515625,46.37725420510028],[3.076171875,45.9511496866914],[3.69140625,46.52863469527167],[2.28515625,46.37725420510028]]]}}]}', # noqa
'tile_size': -2
},
status=302)
project = DBSession.query(Project).order_by(Project.id.desc()).first()
self.assertEqual(len(project.tasks), 4)
def test_project_grid_simulate(self):
headers = self.login_as_admin()
res = self.testapp.get('/project/grid_simulate', headers=headers,
params={
'form.submitted': True,
'geometry': '{"type":"FeatureCollection","features":[{"type":"Feature","geometry":{"type":"Polygon","coordinates":[[[2.28515625,46.37725420510028],[3.076171875,45.9511496866914],[3.69140625,46.52863469527167],[2.28515625,46.37725420510028]]]}}]}', # noqa
'tile_size': -2
},
xhr=True,
status=200
)
count = len(res.json['features'][0]['geometry']['coordinates'])
self.assertEqual(count, 4)
def test_project_new_arbitrary__invalid_json(self):
headers = self.login_as_admin()
self.testapp.post('/project/new/arbitrary',
headers=headers,
params={
'form.submitted': True,
'geometry': 'blah'
},
status=302)
def test_project_new_arbitrary__invalid_json_bis(self):
headers = self.login_as_admin()
self.testapp.post('/project/new/arbitrary',
headers=headers,
params={
'form.submitted': True,
'geometry': '{"type":"FeatureCollection","features":[{"type":"Feature","properties":{},"geometry":{"type":"LineString","coordinates":[[-5.625,39.232253141714885],[-2.63671875,40.78054143186031]]}}]}' # noqa
},
status=302)
def test_project_new_arbitrary__no_feature(self):
headers = self.login_as_admin()
self.testapp.post('/project/new/arbitrary',
headers=headers,
params={
'form.submitted': True,
'geometry': '{"type":"FeatureCollection","features":[]}' # noqa
},
status=302)
def test_project_new_arbitrary(self):
from osmtm.models import DBSession, Project
headers = self.login_as_admin()
self.testapp.post('/project/new/arbitrary',
headers=headers,
params={
'form.submitted': True,
'geometry': '{"type":"FeatureCollection","features":[{"type":"Feature","properties":{},"geometry":{"type":"Polygon","coordinates":[[[4.39453125,19.559790136497398],[4.04296875,21.37124437061832],[7.6025390625,22.917922936146045],[8.96484375,20.05593126519445],[5.625,18.93746442964186],[4.39453125,19.559790136497398]]]}},{"type":"Feature","properties":{},"geometry":{"type":"Polygon","coordinates":[[[1.3623046875,17.09879223767869],[3.0322265625,18.687878686034196],[6.0205078125,18.271086109608877],[6.2841796875,16.972741019999035],[5.3173828125,16.509832826905846],[4.482421875,17.056784609942554],[2.900390625,16.088042220148807],[1.3623046875,17.09879223767869]]]}},{"type":"Feature","properties":{},"geometry":{"type":"Polygon","coordinates":[[[1.0986328125,19.849393958422805],[1.7578125,21.53484700204879],[3.7353515625,20.46818922264095],[3.33984375,18.979025953255267],[0.439453125,19.394067895396628],[1.0986328125,19.849393958422805]]]}}]}' # noqa
},
status=302)
project = DBSession.query(Project).order_by(Project.id.desc()).first()
self.assertEqual(len(project.tasks), 3)
def test_project_edit_forbidden(self):
headers = self.login_as_user1()
self.testapp.get('/project/999/edit', headers=headers, status=403)
def test_project_edit_not_submitted(self):
headers = self.login_as_admin()
project_id = self.create_project()
self.testapp.get('/project/%d/edit' % project_id, headers=headers,
status=200)
def test_project_edit_not_submitted_priority_areas(self):
import transaction
headers = self.login_as_admin()
project_id = self.create_project()
from osmtm.models import Project, PriorityArea, DBSession
project = DBSession.query(Project).get(project_id)
import shapely
import geoalchemy2
shape = shapely.geometry.Polygon(
[(7.23, 41.25), (7.23, 41.12), (7.41, 41.20)])
geometry = geoalchemy2.shape.from_shape(shape, 4326)
priority_area = PriorityArea(geometry)
project.priority_areas.append(priority_area)
DBSession.add(project)
DBSession.flush()
transaction.commit()
self.testapp.get('/project/%d/edit' % project_id, headers=headers,
status=200)
def test_project_edit_submitted(self):
headers = self.login_as_admin()
headers['Accept-Language'] = 'fr'
project_id = self.create_project()
res = self.testapp.get('/project/%d/edit' % project_id,
headers=headers,
params={
'form.submitted': True,
'imagery': 'imagery_bar',
'license_id': 1,
'name_fr': 'the_name_in_french',
'priority': 2,
'status': 2,
},
status=302)
res2 = res.follow(headers=headers, status=200)
self.assertTrue('the_name_in_french' in res2.body)
def test_project_edit__submitted_private(self):
headers = self.login_as_admin()
project_id = self.create_project()
self.testapp.get('/project/%d/edit' % project_id,
headers=headers,
params={
'form.submitted': True,
'license_id': 1,
'priority': 2,
'status': 2,
'private': 'on',
},
status=302)
from osmtm.models import Project, DBSession
project = DBSession.query(Project).get(project_id)
self.assertTrue(project.private)
def test_project_edit__submitted_josm_preset(self):
headers = self.login_as_admin()
project_id = self.create_project()
self.testapp.post('/project/%d/edit' % project_id,
headers=headers,
upload_files=[('josm_preset', 'preset.xml', 'blah')],
params={
'form.submitted': True,
'license_id': 1,
'priority': 2,
'status': 2,
},
status=302)
from osmtm.models import Project, DBSession
project = DBSession.query(Project).get(project_id)
self.assertEqual(project.josm_preset, 'blah')
def test_project_edit__submitted_due_date(self):
headers = self.login_as_admin()
project_id = self.create_project()
date_str = '1/1/2150'
self.testapp.post('/project/%d/edit' % project_id,
headers=headers,
upload_files=[('josm_preset', 'preset.xml', 'blah')],
params={
'form.submitted': True,
'license_id': 1,
'priority': 2,
'status': 2,
'due_date': date_str
},
status=302)
from osmtm.models import Project, DBSession
project = DBSession.query(Project).get(project_id)
import datetime
date = datetime.datetime.strptime(date_str, "%m/%d/%Y")
self.assertEqual(project.due_date, date)
def test_project_edit__submitted_priority_areas(self):
headers = self.login_as_admin()
project_id = self.create_project()
self.testapp.post('/project/%d/edit' % project_id,
headers=headers,
params={
'form.submitted': True,
'priority': 2,
'status': 2,
'priority_areas': '{"type":"FeatureCollection","features":[{"geometry":{"type":"Polygon","coordinates":[[[85.31424522399902,27.70260377553105],[85.31424522399902,27.70419959861825],[85.31639099121094,27.70419959861825],[85.31639099121094,27.70260377553105],[85.31424522399902,27.70260377553105]]]},"type":"Feature","id":null,"properties":{}}]}' # noqa
},
status=302)
from osmtm.models import Project, DBSession
project = DBSession.query(Project).get(project_id)
self.assertEqual(len(project.priority_areas), 1)
self.testapp.post('/project/%d/edit' % project_id,
headers=headers,
params={
'form.submitted': True,
'priority': 2,
'status': 2,
'priority_areas': '{"type":"FeatureCollection","features":[{"geometry":{"type":"Polygon","coordinates":[[[85.31,27.702],[85.31,27.7],[85.31,27.704],[85.31,27.702],[85.31,27.702]]]},"type":"Feature","id":null,"properties":{}}, {"geometry":{"type":"Polygon","coordinates":[[[85.31,27.702],[85.31,27.7],[85.31,27.704],[85.31,27.702],[85.31,27.702]]]},"type":"Feature","id":null,"properties":{}}]}' # noqa
},
status=302)
from osmtm.models import Project, DBSession
project = DBSession.query(Project).get(project_id)
self.assertEqual(len(project.priority_areas), 2)
self.testapp.post('/project/%d/edit' % project_id,
headers=headers,
params={
'form.submitted': True,
'priority': 2,
'status': 2,
'priority_areas': '{"type":"FeatureCollection","features":[{"geometry":{"type":"Polygon","coordinates":[[[85.3,27.702],[85.31,27.7],[85.31,27.704],[85.31,27.702],[85.3,27.702]]]},"type":"Feature","id":null,"properties":{}}, {"geometry":{"type":"Polygon","coordinates":[[[85.31,27.702],[85.31,27.7],[85.31,27.704],[85.31,27.702],[85.31,27.702]]]},"type":"Feature","id":null,"properties":{}}]}' # noqa
},
status=302)
from osmtm.models import Project, DBSession
project = DBSession.query(Project).get(project_id)
self.assertEqual(len(project.priority_areas), 2)
def test_project_priority_areas(self):
import transaction
project_id = self.create_project()
from osmtm.models import Project, PriorityArea, DBSession
project = DBSession.query(Project).get(project_id)
import shapely
import geoalchemy2
shape = shapely.geometry.Polygon(
[(7.23, 41.25), (7.23, 41.12), (7.41, 41.20)])
geometry = geoalchemy2.shape.from_shape(shape, 4326)
priority_area = PriorityArea(geometry)
project.priority_areas.append(priority_area)
DBSession.add(project)
DBSession.flush()
transaction.commit()
self.testapp.get('/project/%d' % project_id, status=200)
def test_project_tasks_json_xkr(self):
project_id = 1
res = self.testapp.get('/project/%d/tasks.json' % project_id,
xhr=True,
status=200)
self.assertEqual(len(res.json['features']), 6)
def test_project_tasks_json(self):
project_id = 1
res = self.testapp.get('/project/%d/tasks.json' % project_id,
status=200)
self.assertEqual(len(res.json['features']), 6)
def test_project_json(self):
# Test case for a project that exists
project_id = 1
res = self.testapp.get('/project/%d.json' % project_id,
status=200)
self.assertEqual(len(res.json), 4)
# Test case for a project that does not exist
project_id = 99
res = self.testapp.get('/project/%d.json' % project_id,
status=200)
self.assertEqual(len(res.json), 0)
def test_project_json_xhr(self):
project_id = 1
res = self.testapp.get('/project/%d.json' % project_id,
xhr=True,
status=200)
self.assertEqual(len(res.json), 4)
def test_project_check_for_updates(self):
import time
project_id = self.create_project()
time.sleep(1)
res = self.testapp.get('/project/%d/check_for_updates' % project_id,
params={
'interval': 1000
},
status=200)
self.assertFalse(res.json['update'])
headers_user1 = self.login_as_user1()
res = self.testapp.get('/project/%d/task/3/lock' % project_id,
status=200,
headers=headers_user1,
xhr=True)
res = self.testapp.get('/project/%d/task/3/done' % project_id,
status=200,
headers=headers_user1,
xhr=True)
res = self.testapp.get('/project/%d/check_for_updates' % project_id,
params={
'interval': 1000
},
status=200)
self.assertTrue(res.json['update'])
self.assertEqual(len(res.json['updated']), 3)
def test_project_check_for_updates_2(self):
import time
project_id = self.create_project()
time.sleep(1)
res = self.testapp.get('/project/%d/check_for_updates' % project_id,
params={
'interval': 1000
},
status=200)
self.assertFalse(res.json['update'])
headers_user1 = self.login_as_user1()
res = self.testapp.get('/project/%d/task/4/lock' % project_id,
status=200,
headers=headers_user1,
xhr=True)
res = self.testapp.get('/project/%d/task/4/split' % project_id,
status=200,
headers=headers_user1,
xhr=True)
res = self.testapp.get('/project/%d/check_for_updates' % project_id,
params={
'interval': 1000
},
status=200)
self.assertTrue(res.json['update'])
self.assertEqual(len(res.json['updated']), 7)
def test_project_user_add__not_allowed(self):
project_id = self.create_project()
headers = self.login_as_user1()
self.testapp.put('/project/%d/user/foo' % project_id,
headers=headers, status=403)
def test_project_user_add(self):
from osmtm.models import Project, DBSession
project_id = self.create_project()
headers = self.login_as_admin()
self.testapp.put('/project/%d/user/user1' % project_id,
headers=headers, status=200)
project = DBSession.query(Project).get(project_id)
self.assertEqual(len(project.allowed_users), 1)
def test_project_user_delete__not_allowed(self):
project_id = self.create_project()
headers = self.login_as_user1()
self.testapp.delete('/project/%d/user/foo' % project_id,
headers=headers, status=403)
def test_project_user_delete(self):
import transaction
from . import USER1_ID
from osmtm.models import User, Project, DBSession
project_id = self.create_project()
project = DBSession.query(Project).get(project_id)
user1 = DBSession.query(User).get(USER1_ID)
project.allowed_users.append(user1)
DBSession.add(project)
DBSession.flush()
transaction.commit()
headers = self.login_as_admin()
self.testapp.delete('/project/%d/user/%d' % (project_id, USER1_ID),
headers=headers, status=200)
project = DBSession.query(Project).get(project_id)
self.assertEqual(len(project.allowed_users), 0)
def test_project_preset(self):
import transaction
from osmtm.models import Project, DBSession
project_id = self.create_project()
project = DBSession.query(Project).get(project_id)
project.josm_preset = u'blah'
DBSession.add(project)
DBSession.flush()
transaction.commit()
res = self.testapp.get('/project/%d/preset' % project_id, status=200)
self.assertTrue('blah' in res)
def test_project_contributors(self):
project_id = self.create_project()
headers = self.login_as_user1()
self.testapp.get('/project/%d/task/1/lock' % project_id,
headers=headers,
xhr=True)
self.testapp.get('/project/%d/task/1/done' % project_id,
headers=headers,
xhr=True)
res = self.testapp.get('/project/%d/contributors' % project_id,
status=200, xhr=True)
self.assertTrue('user1' in res)
# assign task to user 2
headers = self.login_as_project_manager()
self.testapp.get('/project/%d/task/1/user/user2' % project_id,
headers=headers,
status=200,
xhr=True)
res = self.testapp.get('/project/%d/contributors' % project_id,
status=200, xhr=True)
self.assertTrue('user2' in res)
def test_project_stats(self):
project_id = self.create_project()
headers = self.login_as_user1()
self.testapp.get('/project/%d/task/1/lock' % project_id,
headers=headers,
xhr=True)
self.testapp.get('/project/%d/task/1/done' % project_id,
headers=headers,
xhr=True)
self.testapp.get('/project/%d/task/1/lock' % project_id,
headers=headers,
xhr=True)
self.testapp.get('/project/%d/task/1/validate' % project_id,
headers=headers,
params={
'comment': u'a comment',
'invalidate': True
},
xhr=True)
self.testapp.get('/project/%d/task/2/lock' % project_id,
headers=headers,
xhr=True)
self.testapp.get('/project/%d/task/2/done' % project_id,
headers=headers,
xhr=True)
self.testapp.get('/project/%d/task/2/lock' % project_id,
headers=headers,
xhr=True)
self.testapp.get('/project/%d/task/2/validate' % project_id,
headers=headers,
params={
'validate': True
},
xhr=True)
self.testapp.get('/project/%d/task/2/lock' % project_id,
headers=headers,
xhr=True)
self.testapp.get('/project/%d/task/2/validate' % project_id,
headers=headers,
params={
'comment': u'a comment',
'invalidate': True
},
xhr=True)
self.testapp.get('/project/%d/stats' % project_id,
status=200, xhr=True)
def test_project__private_not_allowed(self):
import transaction
from osmtm.models import Project, DBSession
project_id = self.create_project()
project = DBSession.query(Project).get(project_id)
project.private = True
DBSession.add(project)
DBSession.flush()
transaction.commit()
self.testapp.get('/project/%d' % project_id, status=403)
headers_user1 = self.login_as_user1()
self.testapp.get('/project/%d' % project_id,
status=403,
headers=headers_user1)
def test_project__draft_not_allowed(self):
import transaction
from osmtm.models import Project, DBSession
project_id = self.create_project()
project = DBSession.query(Project).get(project_id)
project.status = Project.status_draft
DBSession.add(project)
DBSession.flush()
transaction.commit()
headers_user1 = self.login_as_user1()
self.testapp.get('/project/%d' % project_id,
status=403,
headers=headers_user1)
def test_home__private_not_allowed(self):
import transaction
from . import USER1_ID
from osmtm.models import User, Project, DBSession
project_id = self.create_project()
project = DBSession.query(Project).get(project_id)
project.name = u"private_project"
project.private = True
DBSession.add(project)
DBSession.flush()
transaction.commit()
res = self.testapp.get('/', status=200)
self.assertFalse("private_project" in res.body)
res = self.testapp.get('/', status=200,
params={
'search': 'private'
})
self.assertFalse("private_project" in res.body)
res = self.testapp.get('/', status=200,
params={
'search': project_id
})
self.assertFalse("private_project" in res.body)
headers_user1 = self.login_as_user1()
res = self.testapp.get('/', status=200, headers=headers_user1)
self.assertFalse("private_project" in res.body)
user1 = DBSession.query(User).get(USER1_ID)
project = DBSession.query(Project).get(project_id)
project.status = project.status_published
project.allowed_users.append(user1)
DBSession.add(project)
DBSession.flush()
transaction.commit()
res = self.testapp.get('/', status=200, headers=headers_user1)
self.assertTrue("private_project" in res.body)
def test_home__my_projects(self):
import transaction
from osmtm.models import Project, DBSession
project_id = self.create_project()
project = DBSession.query(Project).get(project_id)
name = "project_not_worked_on_by_user"
project.name = u"" + name
project.status = Project.status_published
DBSession.add(project)
DBSession.flush()
transaction.commit()
headers = self.login_as_user1()
res = self.testapp.get('/', status=200, headers=headers)
self.assertTrue(name in res.body)
res = self.testapp.get('/', status=200, headers=headers,
params={
'my_projects': 'on'
})
self.assertFalse(name in res.body)
self.testapp.get('/project/%d/task/1/lock' % project_id, status=200,
headers=headers,
xhr=True)
res = self.testapp.get('/', status=200, headers=headers,
params={
'my': 'on'
})
self.assertTrue(name in res.body)
def test_project_publish__not_allowed(self):
project_id = self.create_project()
headers = self.login_as_user1()
self.testapp.get('/project/%d/publish' % project_id, headers=headers,
status=403)
def test_project_publish(self):
project_id = self.create_project()
headers = self.login_as_project_manager()
self.testapp.get('/project/%d/publish' % project_id, headers=headers,
status=302)
def test_project_users(self):
project_id = self.create_project()
res = self.testapp.get('/project/%d/users' % project_id,
status=200, xhr=True)
self.assertEqual(len(res.json), 4)
res = self.testapp.get('/project/%d/users?q=pro' % project_id,
status=200, xhr=True)
self.assertEqual(len(res.json), 1)
# assign task to user 1
headers = self.login_as_project_manager()
self.testapp.get('/project/%d/task/1/user/user1' % project_id,
headers=headers,
status=200,
xhr=True)
res = self.testapp.get('/project/%d/users' % project_id,
status=200, xhr=True)
self.assertEqual(res.json[0], u'user1')
def test_project_users__private_project(self):
import transaction
from osmtm.models import Project, DBSession
project_id = self.create_project()
project = DBSession.query(Project).get(project_id)
project.name = u'private_project'
project.private = True
DBSession.add(project)
DBSession.flush()
transaction.commit()
# access forbidden if not allowed user or project_manager
res = self.testapp.get('/project/%d/users' % project_id,
status=403, xhr=True)
headers = self.login_as_project_manager()
res = self.testapp.get('/project/%d/users' % project_id,
headers=headers,
status=200, xhr=True)
self.assertEqual(len(res.json), 0)
# add a user to allowed_users
self.testapp.put('/project/%d/user/user1' % project_id,
headers=headers, status=200)
res = self.testapp.get('/project/%d/users' % project_id,
headers=headers,
status=200, xhr=True)
self.assertEqual(len(res.json), 1)
def test_project_check_expiration(self):
import transaction
from osmtm.models import Project, DBSession
project_id = self.create_project()
project = DBSession.query(Project).get(project_id)
import datetime
now = datetime.datetime.now()
project.due_date = now - datetime.timedelta(hours=5)
DBSession.add(project)
DBSession.flush()
transaction.commit()
self.testapp.get('/', status=200)
project = DBSession.query(Project).get(project_id)
self.assertEqual(project.status, Project.status_archived)
def test_project_invalidate_all(self):
from osmtm.models import (Project, Task, DBSession, TaskState)
project_id = self.create_project()
project = DBSession.query(Project).get(project_id)
tasks = project.tasks
headers = self.login_as_user1()
# create some done tasks
self.testapp.get('/project/%d/task/%d/lock' % (project_id,
tasks[0].id),
headers=headers, status=200, xhr=True)
self.testapp.get('/project/%d/task/%d/done' % (project_id,
tasks[0].id),
headers=headers, status=200, xhr=True)
self.testapp.get('/project/%d/task/%d/lock' % (project_id,
tasks[3].id),
headers=headers, status=200, xhr=True)
self.testapp.get('/project/%d/task/%d/done' % (project_id,
tasks[3].id),
headers=headers, status=200, xhr=True)
params = {
'comment': 'test'
}
# test auth failure for non-admin user
self.testapp.post('/project/%d/invalidate_all' % project_id,
params=params, headers=headers,
xhr=True, status=403)
# test cases with logged in user
headers = self.login_as_project_manager()
# test without passing project id as challenge
res = self.testapp.post('/project/%d/invalidate_all' % project_id,
params=params, headers=headers,
xhr=True, status=200)
self.assertTrue('error' in res.json)
# test passing a random string as challenge id
params['challenge_id'] = 'randomstring'
res = self.testapp.post('/project/%d/invalidate_all' % project_id,
params=params, headers=headers,
xhr=True, status=200)
self.assertTrue('error' in res.json)
# test passing a wrong project id as challenge id
params['challenge_id'] = 999
res = self.testapp.post('/project/%d/invalidate_all' % project_id,
params=params, headers=headers,
xhr=True, status=200)
self.assertTrue('error' in res.json)
# set correct challenge id
params['challenge_id'] = project_id
self.testapp.post('/project/%d/invalidate_all' % project_id,
params=params, headers=headers,
xhr=True, status=200)
# check that our done tasks are invalidated
task0 = DBSession.query(Task).get((project_id, tasks[0].id))
self.assertEqual(task0.cur_state.state, TaskState.state_invalidated)
task3 = DBSession.query(Task).get((project_id, tasks[3].id))
self.assertEqual(task3.cur_state.state, TaskState.state_invalidated)
# check that other tasks are not touched
task1 = DBSession.query(Task).get((project_id, tasks[1].id))
self.assertEqual(task1.cur_state.state, TaskState.state_ready)
# check 0 tasks to invalidate
res = self.testapp.post('/project/%d/invalidate_all' % project_id,
params=params, headers=headers,
xhr=True, status=200)
self.assertEqual(res.json['msg'], "No done tasks to invalidate.")
# check that it fails if no comment is passed
params = {}
res = self.testapp.post('/project/%d/invalidate_all' % project_id,
params=params, headers=headers,
xhr=True, status=200)
self.assertTrue('error' in res.json)
| bsd-2-clause |
stonegithubs/odoo | addons/sale/report/sale_report.py | 111 | 5981 | # -*- coding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Management Solution
# Copyright (C) 2004-2010 Tiny SPRL (<http://tiny.be>).
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero 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 Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
##############################################################################
from openerp import tools
from openerp.osv import fields, osv
class sale_report(osv.osv):
_name = "sale.report"
_description = "Sales Orders Statistics"
_auto = False
_rec_name = 'date'
_columns = {
'date': fields.datetime('Date Order', readonly=True), # TDE FIXME master: rename into date_order
'date_confirm': fields.date('Date Confirm', readonly=True),
'product_id': fields.many2one('product.product', 'Product', readonly=True),
'product_uom': fields.many2one('product.uom', 'Unit of Measure', readonly=True),
'product_uom_qty': fields.float('# of Qty', readonly=True),
'partner_id': fields.many2one('res.partner', 'Partner', readonly=True),
'company_id': fields.many2one('res.company', 'Company', readonly=True),
'user_id': fields.many2one('res.users', 'Salesperson', readonly=True),
'price_total': fields.float('Total Price', readonly=True),
'delay': fields.float('Commitment Delay', digits=(16,2), readonly=True),
'categ_id': fields.many2one('product.category','Category of Product', readonly=True),
'nbr': fields.integer('# of Lines', readonly=True), # TDE FIXME master: rename into nbr_lines
'state': fields.selection([
('cancel', 'Cancelled'),
('draft', 'Draft'),
('confirmed', 'Confirmed'),
('exception', 'Exception'),
('done', 'Done')], 'Order Status', readonly=True),
'pricelist_id': fields.many2one('product.pricelist', 'Pricelist', readonly=True),
'analytic_account_id': fields.many2one('account.analytic.account', 'Analytic Account', readonly=True),
'section_id': fields.many2one('crm.case.section', 'Sales Team'),
}
_order = 'date desc'
def _select(self):
select_str = """
WITH currency_rate (currency_id, rate, date_start, date_end) AS (
SELECT r.currency_id, r.rate, r.name AS date_start,
(SELECT name FROM res_currency_rate r2
WHERE r2.name > r.name AND
r2.currency_id = r.currency_id
ORDER BY r2.name ASC
LIMIT 1) AS date_end
FROM res_currency_rate r
)
SELECT min(l.id) as id,
l.product_id as product_id,
t.uom_id as product_uom,
sum(l.product_uom_qty / u.factor * u2.factor) as product_uom_qty,
sum(l.product_uom_qty * cr.rate * l.price_unit * (100.0-l.discount) / 100.0) as price_total,
count(*) as nbr,
s.date_order as date,
s.date_confirm as date_confirm,
s.partner_id as partner_id,
s.user_id as user_id,
s.company_id as company_id,
extract(epoch from avg(date_trunc('day',s.date_confirm)-date_trunc('day',s.create_date)))/(24*60*60)::decimal(16,2) as delay,
l.state,
t.categ_id as categ_id,
s.pricelist_id as pricelist_id,
s.project_id as analytic_account_id,
s.section_id as section_id
"""
return select_str
def _from(self):
from_str = """
sale_order_line l
join sale_order s on (l.order_id=s.id)
left join product_product p on (l.product_id=p.id)
left join product_template t on (p.product_tmpl_id=t.id)
left join product_uom u on (u.id=l.product_uom)
left join product_uom u2 on (u2.id=t.uom_id)
left join product_pricelist pp on (s.pricelist_id = pp.id)
join currency_rate cr on (cr.currency_id = pp.currency_id and
cr.date_start <= coalesce(s.date_order, now()) and
(cr.date_end is null or cr.date_end > coalesce(s.date_order, now())))
"""
return from_str
def _group_by(self):
group_by_str = """
GROUP BY l.product_id,
l.order_id,
t.uom_id,
t.categ_id,
s.date_order,
s.date_confirm,
s.partner_id,
s.user_id,
s.company_id,
l.state,
s.pricelist_id,
s.project_id,
s.section_id
"""
return group_by_str
def init(self, cr):
# self._table = sale_report
tools.drop_view_if_exists(cr, self._table)
cr.execute("""CREATE or REPLACE VIEW %s as (
%s
FROM ( %s )
%s
)""" % (self._table, self._select(), self._from(), self._group_by()))
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
| agpl-3.0 |
suneeth51/neutron | neutron/db/migration/alembic_migrations/ryu_init_ops.py | 47 | 1206 | # Copyright 2014 OpenStack Foundation
#
# 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.
#
# Initial operations for the Ryu plugin
from alembic import op
import sqlalchemy as sa
def upgrade():
op.create_table(
'tunnelkeylasts',
sa.Column('last_key', sa.Integer(), nullable=False),
sa.PrimaryKeyConstraint('last_key'))
op.create_table(
'tunnelkeys',
sa.Column('network_id', sa.String(length=36), nullable=False),
sa.Column('tunnel_key', sa.Integer(), autoincrement=False,
nullable=False),
sa.ForeignKeyConstraint(['network_id'], ['networks.id'], ),
sa.PrimaryKeyConstraint('tunnel_key'))
| apache-2.0 |
hellhovnd/django | django/contrib/gis/management/commands/inspectdb.py | 315 | 1466 | from django.core.management.commands.inspectdb import Command as InspectDBCommand
class Command(InspectDBCommand):
db_module = 'django.contrib.gis.db'
gis_tables = {}
def get_field_type(self, connection, table_name, row):
field_type, field_params, field_notes = super(Command, self).get_field_type(connection, table_name, row)
if field_type == 'GeometryField':
geo_col = row[0]
# Getting a more specific field type and any additional parameters
# from the `get_geometry_type` routine for the spatial backend.
field_type, geo_params = connection.introspection.get_geometry_type(table_name, geo_col)
field_params.update(geo_params)
# Adding the table name and column to the `gis_tables` dictionary, this
# allows us to track which tables need a GeoManager.
if table_name in self.gis_tables:
self.gis_tables[table_name].append(geo_col)
else:
self.gis_tables[table_name] = [geo_col]
return field_type, field_params, field_notes
def get_meta(self, table_name):
meta_lines = super(Command, self).get_meta(table_name)
if table_name in self.gis_tables:
# If the table is a geographic one, then we need make
# GeoManager the default manager for the model.
meta_lines.insert(0, ' objects = models.GeoManager()')
return meta_lines
| bsd-3-clause |
alexandrinno/android_device_sony_D2403 | tools/perf/scripts/python/syscall-counts-by-pid.py | 11180 | 1927 | # system call counts, by pid
# (c) 2010, Tom Zanussi <tzanussi@gmail.com>
# Licensed under the terms of the GNU GPL License version 2
#
# Displays system-wide system call totals, broken down by syscall.
# If a [comm] arg is specified, only syscalls called by [comm] are displayed.
import os, sys
sys.path.append(os.environ['PERF_EXEC_PATH'] + \
'/scripts/python/Perf-Trace-Util/lib/Perf/Trace')
from perf_trace_context import *
from Core import *
from Util import syscall_name
usage = "perf script -s syscall-counts-by-pid.py [comm]\n";
for_comm = None
for_pid = None
if len(sys.argv) > 2:
sys.exit(usage)
if len(sys.argv) > 1:
try:
for_pid = int(sys.argv[1])
except:
for_comm = sys.argv[1]
syscalls = autodict()
def trace_begin():
print "Press control+C to stop and show the summary"
def trace_end():
print_syscall_totals()
def raw_syscalls__sys_enter(event_name, context, common_cpu,
common_secs, common_nsecs, common_pid, common_comm,
id, args):
if (for_comm and common_comm != for_comm) or \
(for_pid and common_pid != for_pid ):
return
try:
syscalls[common_comm][common_pid][id] += 1
except TypeError:
syscalls[common_comm][common_pid][id] = 1
def print_syscall_totals():
if for_comm is not None:
print "\nsyscall events for %s:\n\n" % (for_comm),
else:
print "\nsyscall events by comm/pid:\n\n",
print "%-40s %10s\n" % ("comm [pid]/syscalls", "count"),
print "%-40s %10s\n" % ("----------------------------------------", \
"----------"),
comm_keys = syscalls.keys()
for comm in comm_keys:
pid_keys = syscalls[comm].keys()
for pid in pid_keys:
print "\n%s [%d]\n" % (comm, pid),
id_keys = syscalls[comm][pid].keys()
for id, val in sorted(syscalls[comm][pid].iteritems(), \
key = lambda(k, v): (v, k), reverse = True):
print " %-38s %10d\n" % (syscall_name(id), val),
| gpl-2.0 |
sursum/buckanjaren | buckanjaren/lib/python3.5/site-packages/pip/_vendor/requests/packages/chardet/utf8prober.py | 2919 | 2652 | ######################## BEGIN LICENSE BLOCK ########################
# The Original Code is mozilla.org code.
#
# The Initial Developer of the Original Code is
# Netscape Communications Corporation.
# Portions created by the Initial Developer are Copyright (C) 1998
# the Initial Developer. All Rights Reserved.
#
# Contributor(s):
# Mark Pilgrim - port to Python
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 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
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
# 02110-1301 USA
######################### END LICENSE BLOCK #########################
from . import constants
from .charsetprober import CharSetProber
from .codingstatemachine import CodingStateMachine
from .mbcssm import UTF8SMModel
ONE_CHAR_PROB = 0.5
class UTF8Prober(CharSetProber):
def __init__(self):
CharSetProber.__init__(self)
self._mCodingSM = CodingStateMachine(UTF8SMModel)
self.reset()
def reset(self):
CharSetProber.reset(self)
self._mCodingSM.reset()
self._mNumOfMBChar = 0
def get_charset_name(self):
return "utf-8"
def feed(self, aBuf):
for c in aBuf:
codingState = self._mCodingSM.next_state(c)
if codingState == constants.eError:
self._mState = constants.eNotMe
break
elif codingState == constants.eItsMe:
self._mState = constants.eFoundIt
break
elif codingState == constants.eStart:
if self._mCodingSM.get_current_charlen() >= 2:
self._mNumOfMBChar += 1
if self.get_state() == constants.eDetecting:
if self.get_confidence() > constants.SHORTCUT_THRESHOLD:
self._mState = constants.eFoundIt
return self.get_state()
def get_confidence(self):
unlike = 0.99
if self._mNumOfMBChar < 6:
for i in range(0, self._mNumOfMBChar):
unlike = unlike * ONE_CHAR_PROB
return 1.0 - unlike
else:
return unlike
| mit |
rajat1994/deeppy | deeppy/dataset/mvsc.py | 17 | 4224 | import os
import glob
import numpy as np
from PIL import Image
import logging
from .dataset import Dataset
from .util import touch
log = logging.getLogger(__name__)
_URLS = {
'liberty': ['http://www.cs.ubc.ca/~mbrown/patchdata/liberty.zip'],
'notredame': ['http://www.cs.ubc.ca/~mbrown/patchdata/notredame.zip'],
'yosemite': ['http://www.cs.ubc.ca/~mbrown/patchdata/yosemite.zip'],
}
_SHA1S = {
'liberty': ['18bffdb818146f5cba7fc6123d76f37d92c7ac20'],
'notredame': ['1db5f3e7de6a03896210fa1cabb704b00a6fb07a'],
'yosemite': ['efeff1c654652e9b6e69b230a9286025dd2f57f8'],
}
class MVSC(Dataset):
'''
Multi-view Stereo Correspondence Dataset [1]
http://cs.ubc.ca/~mbrown/patchdata/patchdata.html
References:
[1]: Brown, M.; Gang Hua; Winder, S., "Discriminative Learning of Local
Image Descriptors," Pattern Analysis and Machine Intelligence,
IEEE Transactions on , vol.33, no.1, pp.43,57, Jan. 2011
'''
def __init__(self, scene='liberty', data_root='datasets'):
self.scene = scene
self.name = 'mvsc_' + scene
self.data_dir = os.path.join(data_root, self.name)
self._data_file = os.path.join(self.data_dir, scene+'.npz')
self.img_shape = (64, 64)
self._install()
with open(self._data_file, 'rb') as f:
dic = np.load(f)
self.patches = dic['patches']
self.match_ids = dic['match_ids']
self.ipoints = dic['ipoints']
self.ref_img_ids = dic['ref_img_ids']
self.similarities = dic['similarities']
self.correspondences = dic['correspondences'][()]
def _install(self):
checkpoint = os.path.join(self.data_dir, self._install_checkpoint)
if os.path.exists(checkpoint):
return
self._download(_URLS[self.scene], _SHA1S[self.scene])
self._unpack(separate_dirs=True)
log.info('Converting MVSC data to Numpy arrays')
scene_dir = os.path.join(self.data_dir, self.scene)
info_file = os.path.join(scene_dir, 'info.txt')
match_ids = np.loadtxt(info_file, dtype=int)[:, 0]
ipoints_file = os.path.join(scene_dir, 'interest.txt')
ipoints = np.loadtxt(ipoints_file, dtype=float)
ref_img_ids = ipoints[:, 0].astype(int)
ipoints = ipoints[:, 1:]
sim_file = os.path.join(scene_dir, 'sim.txt')
similarities = np.loadtxt(sim_file, dtype=float)
correspondence_files = [
'm50_1000_1000_0.txt',
'm50_2000_2000_0.txt',
'm50_5000_5000_0.txt',
'm50_10000_10000_0.txt',
'm50_20000_20000_0.txt',
'm50_50000_50000_0.txt',
'm50_100000_100000_0.txt',
'm50_200000_200000_0.txt',
'm50_500000_500000_0.txt',
]
correspondences = {}
for f in correspondence_files:
filename = os.path.join(scene_dir, f)
if os.path.exists(filename):
corresp = np.loadtxt(filename, dtype=int)[:, [0, 1, 3, 4]]
correspondences[f] = corresp
n_patches = match_ids.size
patches = np.empty((n_patches,) + self.img_shape, dtype=np.uint8)
patch_h, patch_w = self.img_shape
tile_width = 1024
patches_per_img = (tile_width//64)**2
files = glob.glob(os.path.join(scene_dir, '*.bmp'))
patch_idx = 0
for f in sorted(files):
img = np.array(Image.open(f))
for i in range(patches_per_img):
if patch_idx == n_patches:
break
y = (i // (tile_width//patch_h)) * patch_h
x = (i % (tile_width//patch_h)) * patch_w
patches[patch_idx] = img[y:y+patch_h, x:x+patch_w]
patch_idx += 1
if patch_idx != n_patches:
raise RuntimeError('mismatching number of patches')
with open(self._data_file, 'wb') as f:
np.savez(
f, match_ids=match_ids, patches=patches, ipoints=ipoints,
ref_img_ids=ref_img_ids, similarities=similarities,
correspondences=correspondences
)
touch(checkpoint)
| mit |
mantidproject/mantid | scripts/reduction/command_interface.py | 3 | 3376 | # Mantid Repository : https://github.com/mantidproject/mantid
#
# Copyright © 2018 ISIS Rutherford Appleton Laboratory UKRI,
# NScD Oak Ridge National Laboratory, European Spallation Source,
# Institut Laue - Langevin & CSNS, Institute of High Energy Physics, CAS
# SPDX - License - Identifier: GPL - 3.0 +
#pylint: disable=invalid-name
"""
List of user commands.
"""
from reduction.reducer import Reducer
class ReductionSingleton(object):
""" Singleton reduction class """
## storage for the instance reference
__instance = None
def __init__(self):
""" Create singleton instance """
# Check whether we already have an instance
if ReductionSingleton.__instance is None:
# Create and remember instance
ReductionSingleton.__instance = Reducer()
# Store instance reference as the only member in the handle
self.__dict__['_ReductionSingleton__instance'] = ReductionSingleton.__instance
@classmethod
def clean(cls, reducer_cls=None):
if reducer_cls is None:
ReductionSingleton.__instance = Reducer()
else:
ReductionSingleton.__instance = reducer_cls()
@classmethod
def replace(cls, red):
"""
Set the object pointed to by the singleton with
the one passed
@param red: reducer object
"""
if issubclass(red.__class__, Reducer):
ReductionSingleton.__instance = red
else:
raise RuntimeError('The object passed to ReductionSingleton.replace() must be of type Reducer')
@classmethod
def run(cls):
"""
Execute the reducer and then clean it (regardless of
if it throws) to ensure that a partially run reducer is
not left behind
"""
try:
if ReductionSingleton.__instance is not None:
return ReductionSingleton.__instance._reduce()
finally:
ReductionSingleton.clean(ReductionSingleton.__instance.__class__)
def __getattr__(self, attr):
""" Delegate access to implementation """
return getattr(self.__instance, attr)
def __setattr__(self, attr, value):
""" Delegate access to implementation """
return setattr(self.__instance, attr, value)
## List of user commands ######################################################
def Clear(reducer_cls=None):
"""
Clears the Reducer of changes applied by all previous commands
"""
ReductionSingleton.clean(reducer_cls)
def DataPath(path):
ReductionSingleton().set_data_path(path)
def OutputPath(path):
ReductionSingleton().set_output_path(path)
def Reduce1D():
return ReductionSingleton().reduce()
def Reduce():
return ReductionSingleton().reduce()
def AppendDataFile(datafile, workspace=None):
"""
Append a data file in the list of files to be processed.
@param datafile: data file to be processed
@param workspace: optional workspace name for this data file
[Default will be the name of the file]
"""
ReductionSingleton().append_data_file(datafile, workspace)
def ClearDataFiles():
"""
Empty the list of data files to be processed while keeping
all other reduction options.
"""
ReductionSingleton().clear_data_files()
| gpl-3.0 |
JakubBrachTieto/openthread | tools/harness-automation/cases/router_5_1_7.py | 16 | 2064 | #!/usr/bin/env python
#
# Copyright (c) 2016, The OpenThread Authors.
# All rights reserved.
#
# 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 the copyright holder 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.
#
import unittest
from autothreadharness.harness_case import HarnessCase
class Router_5_1_7(HarnessCase):
role = HarnessCase.ROLE_ROUTER
case = '5 1 7'
golden_devices_required = 11
def on_dialog(self, dialog, title):
if title.startswith('Enter Router Max Child Count'):
inp = dialog.find_element_by_id('cnfrmInpText')
inp.clear()
inp.send_keys('5')
return False
if __name__ == '__main__':
unittest.main()
| bsd-3-clause |
ryancanhelpyou/servo | tests/wpt/css-tests/tools/html5lib/html5lib/filters/whitespace.py | 1730 | 1142 | from __future__ import absolute_import, division, unicode_literals
import re
from . import _base
from ..constants import rcdataElements, spaceCharacters
spaceCharacters = "".join(spaceCharacters)
SPACES_REGEX = re.compile("[%s]+" % spaceCharacters)
class Filter(_base.Filter):
spacePreserveElements = frozenset(["pre", "textarea"] + list(rcdataElements))
def __iter__(self):
preserve = 0
for token in _base.Filter.__iter__(self):
type = token["type"]
if type == "StartTag" \
and (preserve or token["name"] in self.spacePreserveElements):
preserve += 1
elif type == "EndTag" and preserve:
preserve -= 1
elif not preserve and type == "SpaceCharacters" and token["data"]:
# Test on token["data"] above to not introduce spaces where there were not
token["data"] = " "
elif not preserve and type == "Characters":
token["data"] = collapse_spaces(token["data"])
yield token
def collapse_spaces(text):
return SPACES_REGEX.sub(' ', text)
| mpl-2.0 |
cdcapano/pycbc | pycbc/waveform/generator.py | 2 | 49694 | # Copyright (C) 2016 Collin Capano, Alex Nitz, Christopher Biwer
# 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, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# =============================================================================
#
# Preamble
#
# =============================================================================
#
"""
This modules provides classes for generating waveforms.
"""
import os
import logging
from abc import (ABCMeta, abstractmethod)
from six import add_metaclass
from . import waveform
from .waveform import (NoWaveformError, FailedWaveformError)
from . import ringdown
from . import supernovae
from . import waveform_modes
from pycbc import filter
from pycbc import transforms
from pycbc.types import TimeSeries
from pycbc.waveform import parameters
from pycbc.waveform.utils import apply_fd_time_shift, taper_timeseries, \
ceilpow2
from pycbc.detector import Detector
from pycbc.pool import use_mpi
import lal as _lal
from pycbc import strain
# utility functions/class
failed_counter = 0
class BaseGenerator(object):
"""A wrapper class to call a waveform generator with a set of frozen
parameters and a set of variable parameters. The frozen parameters and
values, along with a list of variable parameter names, are set at
initialization. This way, repeated calls can be made to the underlying
generator by simply passing a list of values for the variable parameters
to this class's generate function.
Parameters
----------
generator : function
The function that is called for waveform generation.
variable_args : {(), list}
A tuple or list of strings giving the names and order of variable
parameters that will be passed to the waveform generator when the
generate function is called.
record_failures : boolean
Store output files containing the parameters of failed waveform
generation. Default is False.
\**frozen_params :
These keyword arguments are the ones that will be frozen in the
waveform generator. For a list of possible parameters, see
pycbc.waveform.cbc_parameters.
Attributes
----------
generator : function
The function that is called for waveform generation.
variable_args : tuple
The list of names of variable arguments.
frozen_params : dict
A dictionary of the frozen keyword arguments that are always passed
to the waveform generator function.
current_params : dict
A dictionary of the frozen keyword arguments and variable arguments
that were last passed to the waveform generator.
Methods
-------
generate(variable_values)
Generates a waveform using the variable arguments and the frozen
arguments.
"""
def __init__(self, generator, variable_args=(), record_failures=False,
**frozen_params):
self.generator = generator
self.variable_args = tuple(variable_args)
self.frozen_params = frozen_params
# we'll keep a dictionary of the current parameters for fast
# generation
self.current_params = frozen_params.copy()
# keep a list of functions to call before waveform generation
self._pregenerate_functions = []
# If we are under mpi, then failed waveform will be stored by
# mpi rank to avoid file writing conflicts. We'll check for this
# upfront
self.record_failures = (record_failures or
('PYCBC_RECORD_FAILED_WAVEFORMS' in os.environ))
self.mpi_enabled, _, self.mpi_rank = use_mpi()
@property
def static_args(self):
"""Returns a dictionary of the static arguments."""
return self.frozen_params
def generate(self, **kwargs):
"""Generates a waveform from the keyword args. The current params
are updated with the given kwargs, then the generator is called.
"""
self.current_params.update(kwargs)
return self._generate_from_current()
def _add_pregenerate(self, func):
""" Adds a function that will be called by the generator function
before waveform generation.
"""
self._pregenerate_functions.append(func)
def _postgenerate(self, res):
"""Allows the waveform returned by the generator function to be
manipulated before returning.
"""
return res
def _gdecorator(generate_func):
"""A decorator that allows for seemless pre/post manipulation of
the waveform generator function.
"""
def dostuff(self):
for func in self._pregenerate_functions:
self.current_params = func(self.current_params)
res = generate_func(self) # pylint:disable=not-callable
return self._postgenerate(res)
return dostuff
@_gdecorator
def _generate_from_current(self):
"""Generates a waveform from the current parameters.
"""
try:
new_waveform = self.generator(**self.current_params)
return new_waveform
except RuntimeError as e:
if self.record_failures:
import h5py
from pycbc.io.hdf import dump_state
global failed_counter
if self.mpi_enabled:
outname = 'failed/params_%s.hdf' % self.mpi_rank
else:
outname = 'failed/params.hdf'
if not os.path.exists('failed'):
os.makedirs('failed')
with h5py.File(outname) as f:
dump_state(self.current_params, f,
dsetname=str(failed_counter))
failed_counter += 1
# we'll get a RuntimeError if lalsimulation failed to generate
# the waveform for whatever reason
strparams = ' | '.join(['{}: {}'.format(
p, str(val)) for p, val in self.current_params.items()])
raise FailedWaveformError("Failed to generate waveform with "
"parameters:\n{}\nError was: {}"
.format(strparams, e))
class BaseCBCGenerator(BaseGenerator):
"""Adds ability to convert from various derived parameters to parameters
needed by the waveform generators.
Attributes
----------
possible_args : set
The set of names of arguments that may be used in the `variable_args`
or `frozen_params`.
"""
possible_args = set(parameters.td_waveform_params +
parameters.fd_waveform_params +
['taper'])
def __init__(self, generator, variable_args=(), **frozen_params):
super(BaseCBCGenerator, self).__init__(generator,
variable_args=variable_args, **frozen_params)
# decorate the generator function with a list of functions that convert
# parameters to those used by the waveform generation interface
all_args = set(list(self.frozen_params.keys()) +
list(self.variable_args))
# compare a set of all args of the generator to the input parameters
# of the functions that do conversions and adds to list of pregenerate
# functions if it is needed
params_used, cs = transforms.get_common_cbc_transforms(
list(self.possible_args), variable_args)
for c in cs:
self._add_pregenerate(c)
# check that there are no unused (non-calibration) parameters
calib_args = set([a for a in self.variable_args if
a.startswith('calib_')])
all_args = all_args - calib_args
unused_args = all_args.difference(params_used) \
.difference(self.possible_args)
if len(unused_args):
logging.warning("WARNING: The following args are not being used "
"for waveform generation: %s",
', '.join(unused_args))
class FDomainCBCGenerator(BaseCBCGenerator):
"""Generates frequency-domain CBC waveforms in the radiation frame.
Uses `waveform.get_fd_waveform` as a generator function to create
frequency- domain CBC waveforms in the radiation frame; i.e., with no
detector response function applied. For more details, see `BaseGenerator`.
Derived parameters not understood by `get_fd_waveform` may be used as
variable args and/or frozen parameters, as long as they can be converted
into parameters that `get_fd_waveform` can use. For example, `mchirp` and
`eta` (currently, the only supported derived parameters) may be used as
variable/frozen params; these are converted to `mass1` and `mass2` prior to
calling the waveform generator function.
Examples
--------
Initialize a generator:
>>> from pycbc.waveform.generator import FDomainCBCGenerator
>>> generator = FDomainCBCGenerator(variable_args=['mass1', 'mass2'], delta_f=1./32, f_lower=30., approximant='TaylorF2')
Create a waveform with the variable arguments (in this case, mass1, mass2):
>>> generator.generate(mass1=1.4, mass2=1.4)
(<pycbc.types.frequencyseries.FrequencySeries at 0x1110c1450>,
<pycbc.types.frequencyseries.FrequencySeries at 0x1110c1510>)
Initialize a generator using mchirp, eta as the variable args, and generate
a waveform:
>>> generator = FDomainCBCGenerator(variable_args=['mchirp', 'eta'], delta_f=1./32, f_lower=30., approximant='TaylorF2')
>>> generator.generate(mchirp=1.5, eta=0.25)
(<pycbc.types.frequencyseries.FrequencySeries at 0x109a104d0>,
<pycbc.types.frequencyseries.FrequencySeries at 0x109a10b50>)
Note that the `current_params` contains the mchirp and eta values, along
with the mass1 and mass2 they were converted to:
>>> generator.current_params
{'approximant': 'TaylorF2',
'delta_f': 0.03125,
'eta': 0.25,
'f_lower': 30.0,
'mass1': 1.7230475324955525,
'mass2': 1.7230475324955525,
'mchirp': 1.5}
"""
def __init__(self, variable_args=(), **frozen_params):
super(FDomainCBCGenerator, self).__init__(waveform.get_fd_waveform,
variable_args=variable_args, **frozen_params)
class FDomainCBCModesGenerator(BaseCBCGenerator):
"""Generates frequency-domain CBC waveform modes.
Uses :py:func:`waveform_modes.get_fd_waveform_modes` as a generator
function to create frequency-domain CBC waveforms mode-by-mode, without
applying spherical harmonics.
For details, on methods and arguments, see :py:class:`BaseGenerator`.
"""
def __init__(self, variable_args=(), **frozen_params):
super(FDomainCBCModesGenerator, self).__init__(
waveform_modes.get_fd_waveform_modes,
variable_args=variable_args, **frozen_params)
class TDomainCBCGenerator(BaseCBCGenerator):
"""Create time domain CBC waveforms in the radiation frame.
Uses waveform.get_td_waveform as a generator function to create time-
domain CBC waveforms in the radiation frame; i.e., with no detector
response function applied. For more details, see `BaseGenerator`.
Derived parameters not understood by `get_td_waveform` may be used as
variable args and/or frozen parameters, as long as they can be converted
into parameters that `get_td_waveform` can use. For example, `mchirp` and
`eta` (currently, the only supported derived parameters) may be used as
variable/frozen params; these are converted to `mass1` and `mass2` prior to
calling the waveform generator function.
Examples
--------
Initialize a generator:
>>> from pycbc.waveform.generator import TDomainCBCGenerator
>>> generator = TDomainCBCGenerator(variable_args=['mass1', 'mass2'], delta_t=1./4096, f_lower=30., approximant='TaylorT4')
Create a waveform with the variable arguments (in this case, mass1, mass2):
>>> generator.generate(mass1=2., mass2=1.3)
(<pycbc.types.timeseries.TimeSeries at 0x10e546710>,
<pycbc.types.timeseries.TimeSeries at 0x115f37690>)
Initialize a generator using mchirp, eta as the variable args, and generate
a waveform:
>>> generator = TDomainCBCGenerator(variable_args=['mchirp', 'eta'], delta_t=1./4096, f_lower=30., approximant='TaylorT4')
>>> generator.generate(mchirp=1.75, eta=0.2)
(<pycbc.types.timeseries.TimeSeries at 0x116ac6050>,
<pycbc.types.timeseries.TimeSeries at 0x116ac6950>)
"""
def __init__(self, variable_args=(), **frozen_params):
super(TDomainCBCGenerator, self).__init__(waveform.get_td_waveform,
variable_args=variable_args, **frozen_params)
def _postgenerate(self, res):
"""Applies a taper if it is in current params.
"""
hp, hc = res
try:
hp = taper_timeseries(hp, tapermethod=self.current_params['taper'])
hc = taper_timeseries(hc, tapermethod=self.current_params['taper'])
except KeyError:
pass
return hp, hc
class TDomainCBCModesGenerator(BaseCBCGenerator):
"""Generates time domain CBC waveform modes.
Uses :py:func:`waveform_modes.get_td_waveform_modes` as a generator
function to create time-domain CBC waveforms mode-by-mode, without applying
spherical harmonics. The ``generate`` function returns a dictionary of
modes -> (real, imag) part of the complex time series.
For details, on methods and arguments, see :py:class:`BaseGenerator`.
"""
def __init__(self, variable_args=(), **frozen_params):
super(TDomainCBCModesGenerator, self).__init__(
waveform_modes.get_td_waveform_modes,
variable_args=variable_args, **frozen_params)
def _postgenerate(self, res):
"""Applies a taper if it is in current params.
"""
if 'taper' in self.current_params:
tapermethod = self.current_params['taper']
for mode in res:
ulm, vlm = res[mode]
ulm = taper_timeseries(ulm, tapermethod=tapermethod)
vlm = taper_timeseries(vlm, tapermethod=tapermethod)
res[mode] = (ulm, vlm)
return res
class FDomainMassSpinRingdownGenerator(BaseGenerator):
"""Uses ringdown.get_fd_from_final_mass_spin as a generator function to
create frequency-domain ringdown waveforms with higher modes in the
radiation frame; i.e., with no detector response function applied.
For more details, see BaseGenerator.
Examples
--------
Initialize a generator:
>>> from pycbc.waveform.generator import FDomainMassSpinRingdownGenerator
>>> generator = FDomainMassSpinRingdownGenerator(variable_args=['final_mass',
'final_spin','amp220','amp210','phi220','phi210'], lmns=['221','211'],
delta_f=1./32, f_lower=30., f_final=500)
Create a ringdown with the variable arguments:
>>> generator.generate(final_mass=65., final_spin=0.7,
amp220=1e-21, amp210=1./10, phi220=0., phi210=0.)
(<pycbc.types.frequencyseries.FrequencySeries at 0x51614d0>,
<pycbc.types.frequencyseries.FrequencySeries at 0x5161550>)
"""
def __init__(self, variable_args=(), **frozen_params):
super(FDomainMassSpinRingdownGenerator, self).__init__(ringdown.get_fd_from_final_mass_spin,
variable_args=variable_args, **frozen_params)
class FDomainFreqTauRingdownGenerator(BaseGenerator):
"""Uses ringdown.get_fd_from_freqtau as a generator function to
create frequency-domain ringdown waveforms with higher modes in the
radiation frame; i.e., with no detector response function applied.
For more details, see BaseGenerator.
Examples
--------
Initialize a generator:
>>> from pycbc.waveform.generator import FDomainFreqTauRingdownGenerator
>>> generator = FDomainFreqTauRingdownGenerator(variable_args=['f_220',
'tau_220','f_210','tau_210','amp220','amp210','phi220','phi210'],
lmns=['221','211'], delta_f=1./32, f_lower=30., f_final=500)
Create a ringdown with the variable arguments:
>>> generator.generate(f_220=317., tau_220=0.003, f_210=274., tau_210=0.003,
amp220=1e-21, amp210=1./10, phi220=0., phi210=0.)
(<pycbc.types.frequencyseries.FrequencySeries at 0x51614d0>,
<pycbc.types.frequencyseries.FrequencySeries at 0x5161550>)
"""
def __init__(self, variable_args=(), **frozen_params):
super(FDomainFreqTauRingdownGenerator, self).__init__(ringdown.get_fd_from_freqtau,
variable_args=variable_args, **frozen_params)
class TDomainMassSpinRingdownGenerator(BaseGenerator):
"""Uses ringdown.get_td_from_final_mass_spin as a generator function to
create time-domain ringdown waveforms with higher modes in the
radiation frame; i.e., with no detector response function applied.
For more details, see BaseGenerator.
Examples
--------
Initialize a generator:
>>> from pycbc.waveform.generator import TDomainMassSpinRingdownGenerator
>>> generator = TDomainMassSpinRingdownGenerator(variable_args=['final_mass',
'final_spin','amp220','amp210','phi220','phi210'], lmns=['221','211'],
delta_t=1./2048)
Create a ringdown with the variable arguments:
>>> generator.generate(final_mass=65., final_spin=0.7,
amp220=1e-21, amp210=1./10, phi220=0., phi210=0.)
(<pycbc.types.frequencyseries.FrequencySeries at 0x51614d0>,
<pycbc.types.frequencyseries.FrequencySeries at 0x5161550>)
"""
def __init__(self, variable_args=(), **frozen_params):
super(TDomainMassSpinRingdownGenerator, self).__init__(ringdown.get_td_from_final_mass_spin,
variable_args=variable_args, **frozen_params)
class TDomainFreqTauRingdownGenerator(BaseGenerator):
"""Uses ringdown.get_td_from_freqtau as a generator function to
create time-domain ringdown waveforms with higher modes in the
radiation frame; i.e., with no detector response function applied.
For more details, see BaseGenerator.
Examples
--------
Initialize a generator:
>>> from pycbc.waveform.generator import FDomainFreqTauRingdownGenerator
>>> generator = TDomainFreqTauRingdownGenerator(variable_args=['f_220',
'tau_220','f_210','tau_210','amp220','amp210','phi220','phi210'],
lmns=['221','211'], delta_t=1./2048)
Create a ringdown with the variable arguments:
>>> generator.generate(f_220=317., tau_220=0.003, f_210=274., tau_210=0.003,
amp220=1e-21, amp210=1./10, phi220=0., phi210=0.)
(<pycbc.types.frequencyseries.FrequencySeries at 0x51614d0>,
<pycbc.types.frequencyseries.FrequencySeries at 0x5161550>)
"""
def __init__(self, variable_args=(), **frozen_params):
super(TDomainFreqTauRingdownGenerator, self).__init__(ringdown.get_td_from_freqtau,
variable_args=variable_args, **frozen_params)
class TDomainSupernovaeGenerator(BaseGenerator):
"""Uses supernovae.py to create time domain core-collapse supernovae waveforms
using a set of Principal Components provided in a .hdf file.
"""
def __init__(self, variable_args=(), **frozen_params):
super(TDomainSupernovaeGenerator,
self).__init__(supernovae.get_corecollapse_bounce,
variable_args=variable_args, **frozen_params)
#
# =============================================================================
#
# Detector-frame generators
#
# =============================================================================
#
@add_metaclass(ABCMeta)
class BaseFDomainDetFrameGenerator(object):
"""Base generator for frquency-domain waveforms in a detector frame.
Parameters
----------
rFrameGeneratorClass : class
The class to use for generating the waveform in the radiation frame,
e.g., FDomainCBCGenerator. This should be the class, not an
instance of the class (the class will be initialized with the
appropriate arguments internally).
detectors : {None, list of strings}
The names of the detectors to use. If provided, all location parameters
must be included in either the variable args or the frozen params. If
None, the generate function will just return the plus polarization
returned by the rFrameGeneratorClass shifted by any desired time shift.
epoch : {float, lal.LIGOTimeGPS
The epoch start time to set the waveform to. A time shift = tc - epoch is
applied to waveforms before returning.
variable_args : {(), list or tuple}
A list or tuple of strings giving the names and order of parameters
that will be passed to the generate function.
\**frozen_params
Keyword arguments setting the parameters that will not be changed from
call-to-call of the generate function.
Attributes
----------
location_args : set([])
Should be overriden by childern classes with a set of parameters
that set the binary's location.
Attributes
----------
detectors : dict
The dictionary of detectors that antenna patterns are calculated for
on each call of generate. If no detectors were provided, will be
``{'RF': None}``, where "RF" means "radiation frame".
detector_names : list
The list of detector names. If no detectors were provided, then this
will be ['RF'] for "radiation frame".
epoch : lal.LIGOTimeGPS
The GPS start time of the frequency series returned by the generate function.
A time shift is applied to the waveform equal to tc-epoch. Update by using
``set_epoch``.
current_params : dict
A dictionary of name, value pairs of the arguments that were last
used by the generate function.
rframe_generator : instance of rFrameGeneratorClass
The instance of the radiation-frame generator that is used for waveform
generation. All parameters in current_params except for the
location params are passed to this class's generate function.
frozen_location_args : dict
Any location parameters that were included in the frozen_params.
variable_args : tuple
The list of names of arguments that are passed to the generate
function.
"""
location_args = set([])
def __init__(self, rFrameGeneratorClass, epoch, detectors=None,
variable_args=(), recalib=None, gates=None, **frozen_params):
# initialize frozen & current parameters:
self.current_params = frozen_params.copy()
self._static_args = frozen_params.copy()
# we'll separate out frozen location parameters from the frozen
# parameters that are sent to the rframe generator
self.frozen_location_args = {}
loc_params = set(frozen_params.keys()) & self.location_args
for param in loc_params:
self.frozen_location_args[param] = frozen_params.pop(param)
# set the order of the variable parameters
self.variable_args = tuple(variable_args)
# variables that are sent to the rFrame generator
rframe_variables = list(set(self.variable_args) - self.location_args)
# initialize the radiation frame generator
self.rframe_generator = rFrameGeneratorClass(
variable_args=rframe_variables, **frozen_params)
self.set_epoch(epoch)
# set calibration model
self.recalib = recalib
# if detectors are provided, convert to detector type; also ensure that
# location variables are specified
if detectors is not None:
self.detectors = {det: Detector(det) for det in detectors}
missing_args = [arg for arg in self.location_args if not
(arg in self.current_params or arg in self.variable_args)]
if any(missing_args):
raise ValueError("detectors provided, but missing location "
"parameters %s. " %(', '.join(missing_args)) +
"These must be either in the frozen params or the "
"variable args.")
else:
self.detectors = {'RF': None}
self.detector_names = sorted(self.detectors.keys())
self.gates = gates
def set_epoch(self, epoch):
"""Sets the epoch; epoch should be a float or a LIGOTimeGPS."""
self._epoch = float(epoch)
@property
def static_args(self):
"""Returns a dictionary of the static arguments."""
return self._static_args
@property
def epoch(self):
return _lal.LIGOTimeGPS(self._epoch)
@abstractmethod
def generate(self, **kwargs):
"""The function that generates the waveforms.
"""
pass
@abstractmethod
def select_rframe_generator(self, approximant):
"""Method to select waveform generator based on an approximant."""
pass
class FDomainDetFrameGenerator(BaseFDomainDetFrameGenerator):
"""Generates frequency-domain waveform in a specific frame.
Generates a waveform using the given radiation frame generator class,
and applies the detector response function and appropriate time offset.
Parameters
----------
rFrameGeneratorClass : class
The class to use for generating the waveform in the radiation frame,
e.g., FDomainCBCGenerator. This should be the class, not an
instance of the class (the class will be initialized with the
appropriate arguments internally).
detectors : {None, list of strings}
The names of the detectors to use. If provided, all location parameters
must be included in either the variable args or the frozen params. If
None, the generate function will just return the plus polarization
returned by the rFrameGeneratorClass shifted by any desired time shift.
epoch : {float, lal.LIGOTimeGPS
The epoch start time to set the waveform to. A time shift = tc - epoch is
applied to waveforms before returning.
variable_args : {(), list or tuple}
A list or tuple of strings giving the names and order of parameters
that will be passed to the generate function.
\**frozen_params
Keyword arguments setting the parameters that will not be changed from
call-to-call of the generate function.
Attributes
----------
location_args : set(['tc', 'ra', 'dec', 'polarization'])
The set of location parameters. These are not passed to the rFrame
generator class; instead, they are used to apply the detector response
function and/or shift the waveform in time. The parameters are:
* tc: The GPS time of coalescence (should be geocentric time).
* ra: Right ascension.
* dec: declination
* polarization: polarization.
All of these must be provided in either the variable args or the
frozen params if detectors is not None. If detectors
is None, tc may optionally be provided.
Attributes
----------
detectors : dict
The dictionary of detectors that antenna patterns are calculated for
on each call of generate. If no detectors were provided, will be
``{'RF': None}``, where "RF" means "radiation frame".
detector_names : list
The list of detector names. If no detectors were provided, then this
will be ['RF'] for "radiation frame".
epoch : lal.LIGOTimeGPS
The GPS start time of the frequency series returned by the generate function.
A time shift is applied to the waveform equal to tc-epoch. Update by using
``set_epoch``.
current_params : dict
A dictionary of name, value pairs of the arguments that were last
used by the generate function.
rframe_generator : instance of rFrameGeneratorClass
The instance of the radiation-frame generator that is used for waveform
generation. All parameters in current_params except for the
location params are passed to this class's generate function.
frozen_location_args : dict
Any location parameters that were included in the frozen_params.
variable_args : tuple
The list of names of arguments that are passed to the generate
function.
Examples
--------
Initialize a generator:
>>> from pycbc.waveform.generator import FDomainDetFrameGenerator
>>> generator = FDomainDetFrameGenerator(waveform.FDomainCBCGenerator, 0., variable_args=['mass1', 'mass2', 'spin1z', 'spin2z', 'tc', 'ra', 'dec', 'polarization'], detectors=['H1', 'L1'], delta_f=1./64, f_lower=20., approximant='SEOBNRv2_ROM_DoubleSpin')
Generate a waveform:
>>> generator.generate(mass1=38.6, mass2=29.3, spin1z=0.33, spin2z=-0.94, tc=2.43, ra=1.37, dec=-1.26, polarization=2.76)
{'H1': <pycbc.types.frequencyseries.FrequencySeries at 0x116637350>,
'L1': <pycbc.types.frequencyseries.FrequencySeries at 0x116637a50>}
"""
location_args = set(['tc', 'ra', 'dec', 'polarization'])
def generate(self, **kwargs):
"""Generates a waveform, applies a time shift and the detector response
function from the given kwargs.
"""
self.current_params.update(kwargs)
rfparams = {param: self.current_params[param]
for param in kwargs if param not in self.location_args}
hp, hc = self.rframe_generator.generate(**rfparams)
if isinstance(hp, TimeSeries):
df = self.current_params['delta_f']
hp = hp.to_frequencyseries(delta_f=df)
hc = hc.to_frequencyseries(delta_f=df)
# time-domain waveforms will not be shifted so that the peak amp
# happens at the end of the time series (as they are for f-domain),
# so we add an additional shift to account for it
tshift = 1./df - abs(hp._epoch)
else:
tshift = 0.
hp._epoch = hc._epoch = self._epoch
h = {}
if self.detector_names != ['RF']:
for detname, det in self.detectors.items():
# apply detector response function
fp, fc = det.antenna_pattern(self.current_params['ra'],
self.current_params['dec'],
self.current_params['polarization'],
self.current_params['tc'])
thish = fp*hp + fc*hc
# apply the time shift
tc = self.current_params['tc'] + \
det.time_delay_from_earth_center(self.current_params['ra'],
self.current_params['dec'], self.current_params['tc'])
h[detname] = apply_fd_time_shift(thish, tc+tshift, copy=False)
if self.recalib:
# recalibrate with given calibration model
h[detname] = \
self.recalib[detname].map_to_adjust(h[detname],
**self.current_params)
else:
# no detector response, just use the + polarization
if 'tc' in self.current_params:
hp = apply_fd_time_shift(hp, self.current_params['tc']+tshift,
copy=False)
h['RF'] = hp
if self.gates is not None:
# resize all to nearest power of 2
for d in h.values():
d.resize(ceilpow2(len(d)-1) + 1)
h = strain.apply_gates_to_fd(h, self.gates)
return h
@staticmethod
def select_rframe_generator(approximant):
"""Returns a radiation frame generator class based on the approximant
string.
"""
return select_waveform_generator(approximant)
class FDomainDetFrameTwoPolGenerator(BaseFDomainDetFrameGenerator):
"""Generates frequency-domain waveform in a specific frame.
Generates both polarizations of a waveform using the given radiation frame
generator class, and applies the time shift. Detector response functions
are not applied.
Parameters
----------
rFrameGeneratorClass : class
The class to use for generating the waveform in the radiation frame,
e.g., FDomainCBCGenerator. This should be the class, not an
instance of the class (the class will be initialized with the
appropriate arguments internally).
detectors : {None, list of strings}
The names of the detectors to use. If provided, all location parameters
must be included in either the variable args or the frozen params. If
None, the generate function will just return the plus polarization
returned by the rFrameGeneratorClass shifted by any desired time shift.
epoch : {float, lal.LIGOTimeGPS
The epoch start time to set the waveform to. A time shift = tc - epoch is
applied to waveforms before returning.
variable_args : {(), list or tuple}
A list or tuple of strings giving the names and order of parameters
that will be passed to the generate function.
\**frozen_params
Keyword arguments setting the parameters that will not be changed from
call-to-call of the generate function.
Attributes
----------
location_args : set(['tc', 'ra', 'dec'])
The set of location parameters. These are not passed to the rFrame
generator class; instead, they are used to apply the detector response
function and/or shift the waveform in time. The parameters are:
* tc: The GPS time of coalescence (should be geocentric time).
* ra: Right ascension.
* dec: declination
All of these must be provided in either the variable args or the
frozen params if detectors is not None. If detectors
is None, tc may optionally be provided.
Attributes
----------
detectors : dict
The dictionary of detectors that antenna patterns are calculated for
on each call of generate. If no detectors were provided, will be
``{'RF': None}``, where "RF" means "radiation frame".
detector_names : list
The list of detector names. If no detectors were provided, then this
will be ['RF'] for "radiation frame".
epoch : lal.LIGOTimeGPS
The GPS start time of the frequency series returned by the generate function.
A time shift is applied to the waveform equal to tc-epoch. Update by using
``set_epoch``.
current_params : dict
A dictionary of name, value pairs of the arguments that were last
used by the generate function.
rframe_generator : instance of rFrameGeneratorClass
The instance of the radiation-frame generator that is used for waveform
generation. All parameters in current_params except for the
location params are passed to this class's generate function.
frozen_location_args : dict
Any location parameters that were included in the frozen_params.
variable_args : tuple
The list of names of arguments that are passed to the generate
function.
"""
location_args = set(['tc', 'ra', 'dec'])
def generate(self, **kwargs):
"""Generates a waveform polarizations and applies a time shift.
Returns
-------
dict :
Dictionary of ``detector names -> (hp, hc)``, where ``hp, hc`` are
the plus and cross polarization, respectively.
"""
self.current_params.update(kwargs)
rfparams = {param: self.current_params[param]
for param in kwargs if param not in self.location_args}
hp, hc = self.rframe_generator.generate(**rfparams)
if isinstance(hp, TimeSeries):
df = self.current_params['delta_f']
hp = hp.to_frequencyseries(delta_f=df)
hc = hc.to_frequencyseries(delta_f=df)
# time-domain waveforms will not be shifted so that the peak amp
# happens at the end of the time series (as they are for f-domain),
# so we add an additional shift to account for it
tshift = 1./df - abs(hp._epoch)
else:
tshift = 0.
hp._epoch = hc._epoch = self._epoch
h = {}
if self.detector_names != ['RF']:
for detname, det in self.detectors.items():
# apply the time shift
tc = self.current_params['tc'] + \
det.time_delay_from_earth_center(self.current_params['ra'],
self.current_params['dec'], self.current_params['tc'])
dethp = apply_fd_time_shift(hp, tc+tshift, copy=True)
dethc = apply_fd_time_shift(hc, tc+tshift, copy=True)
if self.recalib:
# recalibrate with given calibration model
dethp = self.recalib[detname].map_to_adjust(
dethp, **self.current_params)
dethc = self.recalib[detname].map_to_adjust(
dethc, **self.current_params)
h[detname] = (dethp, dethc)
else:
# no detector response, just use the + polarization
if 'tc' in self.current_params:
hp = apply_fd_time_shift(hp, self.current_params['tc']+tshift,
copy=False)
hc = apply_fd_time_shift(hc, self.current_params['tc']+tshift,
copy=False)
h['RF'] = (hp, hc)
if self.gates is not None:
# resize all to nearest power of 2
hps = {}
hcs = {}
for det in h:
hp = h[det]
hc = h[det]
hp.resize(ceilpow2(len(hp)-1) + 1)
hc.resize(ceilpow2(len(hc)-1) + 1)
hps[det] = hp
hcs[det] = hc
hps = strain.apply_gates_to_fd(hps, self.gates)
hcs = strain.apply_gates_to_fd(hps, self.gates)
h = {det: (hps[det], hcs[det]) for det in h}
return h
@staticmethod
def select_rframe_generator(approximant):
"""Returns a radiation frame generator class based on the approximant
string.
"""
return select_waveform_generator(approximant)
class FDomainDetFrameModesGenerator(BaseFDomainDetFrameGenerator):
"""Generates frequency-domain waveform modes in a specific frame.
Generates both polarizations of every waveform mode using the given
radiation frame generator class, and applies the time shift. Detector
response functions are not applied.
Parameters
----------
rFrameGeneratorClass : class
The class to use for generating the waveform modes in the radiation
frame, e.g., :py:class:`FDomainCBCModesGenerator`. This should be the
class, not an instance of the class (the class will be initialized with
the appropriate arguments internally). The class should have a generate
function that returns a dictionary of waveforms keyed by the modes.
detectors : {None, list of strings}
The names of the detectors to use. If provided, all location parameters
must be included in either the variable args or the frozen params. If
None, the generate function will just return the plus polarization
returned by the rFrameGeneratorClass shifted by any desired time shift.
epoch : {float, lal.LIGOTimeGPS
The epoch start time to set the waveform to. A time shift = tc - epoch is
applied to waveforms before returning.
variable_args : {(), list or tuple}
A list or tuple of strings giving the names and order of parameters
that will be passed to the generate function.
\**frozen_params
Keyword arguments setting the parameters that will not be changed from
call-to-call of the generate function.
Attributes
----------
location_args : set(['tc', 'ra', 'dec'])
The set of location parameters. These are not passed to the rFrame
generator class; instead, they are used to apply the detector response
function and/or shift the waveform in time. The parameters are:
* tc: The GPS time of coalescence (should be geocentric time).
* ra: Right ascension.
* dec: declination
All of these must be provided in either the variable args or the
frozen params if detectors is not None. If detectors
is None, tc may optionally be provided.
Attributes
----------
detectors : dict
The dictionary of detectors that antenna patterns are calculated for
on each call of generate. If no detectors were provided, will be
``{'RF': None}``, where "RF" means "radiation frame".
detector_names : list
The list of detector names. If no detectors were provided, then this
will be ['RF'] for "radiation frame".
epoch : lal.LIGOTimeGPS
The GPS start time of the frequency series returned by the generate
function. A time shift is applied to the waveform equal to tc-epoch.
Update by using ``set_epoch``.
current_params : dict
A dictionary of name, value pairs of the arguments that were last
used by the generate function.
rframe_generator : instance of rFrameGeneratorClass
The instance of the radiation-frame generator that is used for waveform
generation. All parameters in current_params except for the
location params are passed to this class's generate function.
frozen_location_args : dict
Any location parameters that were included in the frozen_params.
variable_args : tuple
The list of names of arguments that are passed to the generate
function.
"""
location_args = set(['tc', 'ra', 'dec'])
def generate(self, **kwargs):
"""Generates and returns a waveform decompsed into separate modes.
Returns
-------
dict :
Dictionary of ``detector names -> modes -> (ulm, vlm)``, where
``ulm, vlm`` are the frequency-domain representations of the real
and imaginary parts, respectively, of the complex time series
representation of the ``hlm``.
"""
self.current_params.update(kwargs)
rfparams = {param: self.current_params[param]
for param in kwargs if param not in self.location_args}
hlms = self.rframe_generator.generate(**rfparams)
h = {det: {} for det in self.detectors}
for mode in hlms:
ulm, vlm = hlms[mode]
if isinstance(ulm, TimeSeries):
df = self.current_params['delta_f']
ulm = ulm.to_frequencyseries(delta_f=df)
vlm = vlm.to_frequencyseries(delta_f=df)
# time-domain waveforms will not be shifted so that the peak
# amplitude happens at the end of the time series (as they are
# for f-domain), so we add an additional shift to account for
# it
tshift = 1./df - abs(ulm._epoch)
else:
tshift = 0.
ulm._epoch = vlm._epoch = self._epoch
if self.detector_names != ['RF']:
for detname, det in self.detectors.items():
# apply the time shift
tc = self.current_params['tc'] + \
det.time_delay_from_earth_center(
self.current_params['ra'],
self.current_params['dec'],
self.current_params['tc'])
detulm = apply_fd_time_shift(ulm, tc+tshift, copy=True)
detvlm = apply_fd_time_shift(vlm, tc+tshift, copy=True)
if self.recalib:
# recalibrate with given calibration model
detulm = self.recalib[detname].map_to_adjust(
detulm, **self.current_params)
detvlm = self.recalib[detname].map_to_adjust(
detvlm, **self.current_params)
h[detname][mode] = (detulm, detvlm)
else:
# no detector response, just apply time shift
if 'tc' in self.current_params:
ulm = apply_fd_time_shift(ulm,
self.current_params['tc']+tshift,
copy=False)
vlm = apply_fd_time_shift(vlm,
self.current_params['tc']+tshift,
copy=False)
h['RF'][mode] = (ulm, vlm)
if self.gates is not None:
# resize all to nearest power of 2
ulms = {}
vlms = {}
for det in h:
ulm, vlm = h[det][mode]
ulm.resize(ceilpow2(len(ulm)-1) + 1)
vlm.resize(ceilpow2(len(vlm)-1) + 1)
ulms[det] = ulm
vlms[det] = vlm
ulms = strain.apply_gates_to_fd(ulms, self.gates)
vlms = strain.apply_gates_to_fd(ulms, self.gates)
for det in ulms:
h[det][mode] = (ulms[det], vlms[det])
return h
@staticmethod
def select_rframe_generator(approximant):
"""Returns a radiation frame generator class based on the approximant
string.
"""
return select_waveform_modes_generator(approximant)
#
# =============================================================================
#
# Helper functions
#
# =============================================================================
#
def select_waveform_generator(approximant):
"""Returns the single-IFO generator for the approximant.
Parameters
----------
approximant : str
Name of waveform approximant. Valid names can be found using
``pycbc.waveform`` methods.
Returns
-------
generator : (PyCBC generator instance)
A waveform generator object.
Examples
--------
Get a list of available approximants:
>>> from pycbc import waveform
>>> waveform.fd_approximants()
>>> waveform.td_approximants()
>>> from pycbc.waveform import ringdown
>>> ringdown.ringdown_fd_approximants.keys()
Get generator object:
>>> from pycbc.waveform.generator import select_waveform_generator
>>> select_waveform_generator(waveform.fd_approximants()[0])
"""
# check if frequency-domain CBC waveform
if approximant in waveform.fd_approximants():
return FDomainCBCGenerator
# check if time-domain CBC waveform
elif approximant in waveform.td_approximants():
return TDomainCBCGenerator
# check if frequency-domain ringdown waveform
elif approximant in ringdown.ringdown_fd_approximants:
if approximant == 'FdQNMfromFinalMassSpin':
return FDomainMassSpinRingdownGenerator
elif approximant == 'FdQNMfromFreqTau':
return FDomainFreqTauRingdownGenerator
elif approximant in ringdown.ringdown_td_approximants:
if approximant == 'TdQNMfromFinalMassSpin':
return TDomainMassSpinRingdownGenerator
elif approximant == 'TdQNMfromFreqTau':
return TDomainFreqTauRingdownGenerator
# check if supernovae waveform:
elif approximant in supernovae.supernovae_td_approximants:
if approximant == 'CoreCollapseBounce':
return TDomainSupernovaeGenerator
# otherwise waveform approximant is not supported
else:
raise ValueError("%s is not a valid approximant." % approximant)
def select_waveform_modes_generator(approximant):
"""Returns the single-IFO modes generator for the approximant.
Parameters
----------
approximant : str
Name of waveform approximant. Valid names can be found using
``pycbc.waveform`` methods.
Returns
-------
generator : (PyCBC generator instance)
A waveform generator object.
"""
# check if frequency-domain CBC waveform
if approximant in waveform.fd_approximants():
return FDomainCBCModesGenerator
# check if time-domain CBC waveform
elif approximant in waveform.td_approximants():
return TDomainCBCModesGenerator
# otherwise waveform approximant is not supported
raise ValueError("%s is not a valid approximant." % approximant)
| gpl-3.0 |
omryn/grunt-aggregator | node_modules/grunt-clean/node_modules/grunt/node_modules/gzip-js/node_modules/deflate-js/test/helpers.py | 177 | 1806 | #!/usr/bin/env python
import zlib
import subprocess as sp
def deflate(filename, outfile=None, level=6):
f = open(filename)
data = f.read()
f.close()
compress = zlib.compressobj(
level, # level: 0-9
zlib.DEFLATED, # method: must be DEFLATED
-zlib.MAX_WBITS, # window size in bits:
# -15..-8: negate, suppress header
# 8..15: normal
# 16..30: subtract 16, gzip header
zlib.DEF_MEM_LEVEL, # mem level: 1..8/9
0 # strategy:
# 0 = Z_DEFAULT_STRATEGY
# 1 = Z_FILTERED
# 2 = Z_HUFFMAN_ONLY
# 3 = Z_RLE
# 4 = Z_FIXED
)
deflated = compress.compress(data)
deflated += compress.flush()
if outfile != None:
f = open(outfile, 'w')
f.write(deflated)
f.close()
return deflated
def inflate(filename, outfile=None):
f = open(filename)
data = f.read()
f.close()
decompress = zlib.decompressobj(-zlib.MAX_WBITS) # see above
inflated = decompress.decompress(data)
inflated += decompress.flush()
if outfile != None:
f = open(outfile, 'w')
f.write(inflated)
f.close()
return inflated
"""
Convenience function for running a command bash-like
@param command- string version of a command to run on
@param shell- Whether to run this through the shell; used in subprocess.Popen (default: true)
@return Object with properties 'returncode', 'stdout', and 'stderr'
"""
def run_cmd(command, shell=True):
process = sp.Popen(command, shell=shell, stdout = sp.PIPE, stderr = sp.PIPE)
stdout, stderr = process.communicate()
returncode = process.returncode
return {'returncode' : returncode, 'stdout' : stdout, 'stderr' : stderr}
| mit |
Kast0rTr0y/ansible | lib/ansible/modules/cloud/rackspace/rax_scaling_policy.py | 50 | 9241 | #!/usr/bin/python
# This file is part of Ansible
#
# Ansible 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.
#
# Ansible 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 Ansible. If not, see <http://www.gnu.org/licenses/>.
# This is a DOCUMENTATION stub specific to this module, it extends
# a documentation fragment located in ansible.utils.module_docs_fragments
ANSIBLE_METADATA = {'status': ['preview'],
'supported_by': 'community',
'version': '1.0'}
DOCUMENTATION = '''
---
module: rax_scaling_policy
short_description: Manipulate Rackspace Cloud Autoscale Scaling Policy
description:
- Manipulate Rackspace Cloud Autoscale Scaling Policy
version_added: 1.7
options:
at:
description:
- The UTC time when this policy will be executed. The time must be
formatted according to C(yyyy-MM-dd'T'HH:mm:ss.SSS) such as
C(2013-05-19T08:07:08Z)
change:
description:
- The change, either as a number of servers or as a percentage, to make
in the scaling group. If this is a percentage, you must set
I(is_percent) to C(true) also.
cron:
description:
- The time when the policy will be executed, as a cron entry. For
example, if this is parameter is set to C(1 0 * * *)
cooldown:
description:
- The period of time, in seconds, that must pass before any scaling can
occur after the previous scaling. Must be an integer between 0 and
86400 (24 hrs).
desired_capacity:
description:
- The desired server capacity of the scaling the group; that is, how
many servers should be in the scaling group.
is_percent:
description:
- Whether the value in I(change) is a percent value
default: false
name:
description:
- Name to give the policy
required: true
policy_type:
description:
- The type of policy that will be executed for the current release.
choices:
- webhook
- schedule
required: true
scaling_group:
description:
- Name of the scaling group that this policy will be added to
required: true
state:
description:
- Indicate desired state of the resource
choices:
- present
- absent
default: present
author: "Matt Martz (@sivel)"
extends_documentation_fragment: rackspace
'''
EXAMPLES = '''
---
- hosts: localhost
gather_facts: false
connection: local
tasks:
- rax_scaling_policy:
credentials: ~/.raxpub
region: ORD
at: '2013-05-19T08:07:08Z'
change: 25
cooldown: 300
is_percent: true
name: ASG Test Policy - at
policy_type: schedule
scaling_group: ASG Test
register: asps_at
- rax_scaling_policy:
credentials: ~/.raxpub
region: ORD
cron: '1 0 * * *'
change: 25
cooldown: 300
is_percent: true
name: ASG Test Policy - cron
policy_type: schedule
scaling_group: ASG Test
register: asp_cron
- rax_scaling_policy:
credentials: ~/.raxpub
region: ORD
cooldown: 300
desired_capacity: 5
name: ASG Test Policy - webhook
policy_type: webhook
scaling_group: ASG Test
register: asp_webhook
'''
try:
import pyrax
HAS_PYRAX = True
except ImportError:
HAS_PYRAX = False
def rax_asp(module, at=None, change=0, cron=None, cooldown=300,
desired_capacity=0, is_percent=False, name=None,
policy_type=None, scaling_group=None, state='present'):
changed = False
au = pyrax.autoscale
if not au:
module.fail_json(msg='Failed to instantiate client. This '
'typically indicates an invalid region or an '
'incorrectly capitalized region name.')
try:
UUID(scaling_group)
except ValueError:
try:
sg = au.find(name=scaling_group)
except Exception as e:
module.fail_json(msg='%s' % e.message)
else:
try:
sg = au.get(scaling_group)
except Exception as e:
module.fail_json(msg='%s' % e.message)
if state == 'present':
policies = filter(lambda p: name == p.name, sg.list_policies())
if len(policies) > 1:
module.fail_json(msg='No unique policy match found by name')
if at:
args = dict(at=at)
elif cron:
args = dict(cron=cron)
else:
args = None
if not policies:
try:
policy = sg.add_policy(name, policy_type=policy_type,
cooldown=cooldown, change=change,
is_percent=is_percent,
desired_capacity=desired_capacity,
args=args)
changed = True
except Exception as e:
module.fail_json(msg='%s' % e.message)
else:
policy = policies[0]
kwargs = {}
if policy_type != policy.type:
kwargs['policy_type'] = policy_type
if cooldown != policy.cooldown:
kwargs['cooldown'] = cooldown
if hasattr(policy, 'change') and change != policy.change:
kwargs['change'] = change
if hasattr(policy, 'changePercent') and is_percent is False:
kwargs['change'] = change
kwargs['is_percent'] = False
elif hasattr(policy, 'change') and is_percent is True:
kwargs['change'] = change
kwargs['is_percent'] = True
if hasattr(policy, 'desiredCapacity') and change:
kwargs['change'] = change
elif ((hasattr(policy, 'change') or
hasattr(policy, 'changePercent')) and desired_capacity):
kwargs['desired_capacity'] = desired_capacity
if hasattr(policy, 'args') and args != policy.args:
kwargs['args'] = args
if kwargs:
policy.update(**kwargs)
changed = True
policy.get()
module.exit_json(changed=changed, autoscale_policy=rax_to_dict(policy))
else:
try:
policies = filter(lambda p: name == p.name, sg.list_policies())
if len(policies) > 1:
module.fail_json(msg='No unique policy match found by name')
elif not policies:
policy = {}
else:
policy.delete()
changed = True
except Exception as e:
module.fail_json(msg='%s' % e.message)
module.exit_json(changed=changed, autoscale_policy=rax_to_dict(policy))
def main():
argument_spec = rax_argument_spec()
argument_spec.update(
dict(
at=dict(),
change=dict(type='int'),
cron=dict(),
cooldown=dict(type='int', default=300),
desired_capacity=dict(type='int'),
is_percent=dict(type='bool', default=False),
name=dict(required=True),
policy_type=dict(required=True, choices=['webhook', 'schedule']),
scaling_group=dict(required=True),
state=dict(default='present', choices=['present', 'absent']),
)
)
module = AnsibleModule(
argument_spec=argument_spec,
required_together=rax_required_together(),
mutually_exclusive=[
['cron', 'at'],
['change', 'desired_capacity'],
]
)
if not HAS_PYRAX:
module.fail_json(msg='pyrax is required for this module')
at = module.params.get('at')
change = module.params.get('change')
cron = module.params.get('cron')
cooldown = module.params.get('cooldown')
desired_capacity = module.params.get('desired_capacity')
is_percent = module.params.get('is_percent')
name = module.params.get('name')
policy_type = module.params.get('policy_type')
scaling_group = module.params.get('scaling_group')
state = module.params.get('state')
if (at or cron) and policy_type == 'webhook':
module.fail_json(msg='policy_type=schedule is required for a time '
'based policy')
setup_rax_module(module, pyrax)
rax_asp(module, at=at, change=change, cron=cron, cooldown=cooldown,
desired_capacity=desired_capacity, is_percent=is_percent,
name=name, policy_type=policy_type, scaling_group=scaling_group,
state=state)
# import module snippets
from ansible.module_utils.basic import *
from ansible.module_utils.rax import *
# invoke the module
if __name__ == '__main__':
main()
| gpl-3.0 |
magetron/git | contrib/fast-import/import-zips.py | 401 | 2241 | #!/usr/bin/env python
## zip archive frontend for git-fast-import
##
## For example:
##
## mkdir project; cd project; git init
## python import-zips.py *.zip
## git log --stat import-zips
from os import popen, path
from sys import argv, exit, hexversion, stderr
from time import mktime
from zipfile import ZipFile
if hexversion < 0x01060000:
# The limiter is the zipfile module
stderr.write("import-zips.py: requires Python 1.6.0 or later.\n")
exit(1)
if len(argv) < 2:
print 'usage:', argv[0], '<zipfile>...'
exit(1)
branch_ref = 'refs/heads/import-zips'
committer_name = 'Z Ip Creator'
committer_email = 'zip@example.com'
fast_import = popen('git fast-import --quiet', 'w')
def printlines(list):
for str in list:
fast_import.write(str + "\n")
for zipfile in argv[1:]:
commit_time = 0
next_mark = 1
common_prefix = None
mark = dict()
zip = ZipFile(zipfile, 'r')
for name in zip.namelist():
if name.endswith('/'):
continue
info = zip.getinfo(name)
if commit_time < info.date_time:
commit_time = info.date_time
if common_prefix == None:
common_prefix = name[:name.rfind('/') + 1]
else:
while not name.startswith(common_prefix):
last_slash = common_prefix[:-1].rfind('/') + 1
common_prefix = common_prefix[:last_slash]
mark[name] = ':' + str(next_mark)
next_mark += 1
printlines(('blob', 'mark ' + mark[name], \
'data ' + str(info.file_size)))
fast_import.write(zip.read(name) + "\n")
committer = committer_name + ' <' + committer_email + '> %d +0000' % \
mktime(commit_time + (0, 0, 0))
printlines(('commit ' + branch_ref, 'committer ' + committer, \
'data <<EOM', 'Imported from ' + zipfile + '.', 'EOM', \
'', 'deleteall'))
for name in mark.keys():
fast_import.write('M 100644 ' + mark[name] + ' ' +
name[len(common_prefix):] + "\n")
printlines(('', 'tag ' + path.basename(zipfile), \
'from ' + branch_ref, 'tagger ' + committer, \
'data <<EOM', 'Package ' + zipfile, 'EOM', ''))
if fast_import.close():
exit(1)
| gpl-2.0 |
40223137/150601 | static/Brython3.1.1-20150328-091302/Lib/re.py | 626 | 15140 | #
# Secret Labs' Regular Expression Engine
#
# re-compatible interface for the sre matching engine
#
# Copyright (c) 1998-2001 by Secret Labs AB. All rights reserved.
#
# This version of the SRE library can be redistributed under CNRI's
# Python 1.6 license. For any other use, please contact Secret Labs
# AB (info@pythonware.com).
#
# Portions of this engine have been developed in cooperation with
# CNRI. Hewlett-Packard provided funding for 1.6 integration and
# other compatibility work.
#
r"""Support for regular expressions (RE).
This module provides regular expression matching operations similar to
those found in Perl. It supports both 8-bit and Unicode strings; both
the pattern and the strings being processed can contain null bytes and
characters outside the US ASCII range.
Regular expressions can contain both special and ordinary characters.
Most ordinary characters, like "A", "a", or "0", are the simplest
regular expressions; they simply match themselves. You can
concatenate ordinary characters, so last matches the string 'last'.
The special characters are:
"." Matches any character except a newline.
"^" Matches the start of the string.
"$" Matches the end of the string or just before the newline at
the end of the string.
"*" Matches 0 or more (greedy) repetitions of the preceding RE.
Greedy means that it will match as many repetitions as possible.
"+" Matches 1 or more (greedy) repetitions of the preceding RE.
"?" Matches 0 or 1 (greedy) of the preceding RE.
*?,+?,?? Non-greedy versions of the previous three special characters.
{m,n} Matches from m to n repetitions of the preceding RE.
{m,n}? Non-greedy version of the above.
"\\" Either escapes special characters or signals a special sequence.
[] Indicates a set of characters.
A "^" as the first character indicates a complementing set.
"|" A|B, creates an RE that will match either A or B.
(...) Matches the RE inside the parentheses.
The contents can be retrieved or matched later in the string.
(?aiLmsux) Set the A, I, L, M, S, U, or X flag for the RE (see below).
(?:...) Non-grouping version of regular parentheses.
(?P<name>...) The substring matched by the group is accessible by name.
(?P=name) Matches the text matched earlier by the group named name.
(?#...) A comment; ignored.
(?=...) Matches if ... matches next, but doesn't consume the string.
(?!...) Matches if ... doesn't match next.
(?<=...) Matches if preceded by ... (must be fixed length).
(?<!...) Matches if not preceded by ... (must be fixed length).
(?(id/name)yes|no) Matches yes pattern if the group with id/name matched,
the (optional) no pattern otherwise.
The special sequences consist of "\\" and a character from the list
below. If the ordinary character is not on the list, then the
resulting RE will match the second character.
\number Matches the contents of the group of the same number.
\A Matches only at the start of the string.
\Z Matches only at the end of the string.
\b Matches the empty string, but only at the start or end of a word.
\B Matches the empty string, but not at the start or end of a word.
\d Matches any decimal digit; equivalent to the set [0-9] in
bytes patterns or string patterns with the ASCII flag.
In string patterns without the ASCII flag, it will match the whole
range of Unicode digits.
\D Matches any non-digit character; equivalent to [^\d].
\s Matches any whitespace character; equivalent to [ \t\n\r\f\v] in
bytes patterns or string patterns with the ASCII flag.
In string patterns without the ASCII flag, it will match the whole
range of Unicode whitespace characters.
\S Matches any non-whitespace character; equivalent to [^\s].
\w Matches any alphanumeric character; equivalent to [a-zA-Z0-9_]
in bytes patterns or string patterns with the ASCII flag.
In string patterns without the ASCII flag, it will match the
range of Unicode alphanumeric characters (letters plus digits
plus underscore).
With LOCALE, it will match the set [0-9_] plus characters defined
as letters for the current locale.
\W Matches the complement of \w.
\\ Matches a literal backslash.
This module exports the following functions:
match Match a regular expression pattern to the beginning of a string.
search Search a string for the presence of a pattern.
sub Substitute occurrences of a pattern found in a string.
subn Same as sub, but also return the number of substitutions made.
split Split a string by the occurrences of a pattern.
findall Find all occurrences of a pattern in a string.
finditer Return an iterator yielding a match object for each match.
compile Compile a pattern into a RegexObject.
purge Clear the regular expression cache.
escape Backslash all non-alphanumerics in a string.
Some of the functions in this module takes flags as optional parameters:
A ASCII For string patterns, make \w, \W, \b, \B, \d, \D
match the corresponding ASCII character categories
(rather than the whole Unicode categories, which is the
default).
For bytes patterns, this flag is the only available
behaviour and needn't be specified.
I IGNORECASE Perform case-insensitive matching.
L LOCALE Make \w, \W, \b, \B, dependent on the current locale.
M MULTILINE "^" matches the beginning of lines (after a newline)
as well as the string.
"$" matches the end of lines (before a newline) as well
as the end of the string.
S DOTALL "." matches any character at all, including the newline.
X VERBOSE Ignore whitespace and comments for nicer looking RE's.
U UNICODE For compatibility only. Ignored for string patterns (it
is the default), and forbidden for bytes patterns.
This module also defines an exception 'error'.
"""
import sre_compile
import sre_parse
# public symbols
__all__ = [ "match", "search", "sub", "subn", "split", "findall",
"compile", "purge", "template", "escape", "A", "I", "L", "M", "S", "X",
"U", "ASCII", "IGNORECASE", "LOCALE", "MULTILINE", "DOTALL", "VERBOSE",
"UNICODE", "error" ]
__version__ = "2.2.1"
# flags
A = ASCII = sre_compile.SRE_FLAG_ASCII # assume ascii "locale"
I = IGNORECASE = sre_compile.SRE_FLAG_IGNORECASE # ignore case
L = LOCALE = sre_compile.SRE_FLAG_LOCALE # assume current 8-bit locale
U = UNICODE = sre_compile.SRE_FLAG_UNICODE # assume unicode "locale"
M = MULTILINE = sre_compile.SRE_FLAG_MULTILINE # make anchors look for newline
S = DOTALL = sre_compile.SRE_FLAG_DOTALL # make dot match newline
X = VERBOSE = sre_compile.SRE_FLAG_VERBOSE # ignore whitespace and comments
# sre extensions (experimental, don't rely on these)
T = TEMPLATE = sre_compile.SRE_FLAG_TEMPLATE # disable backtracking
DEBUG = sre_compile.SRE_FLAG_DEBUG # dump pattern after compilation
# sre exception
error = sre_compile.error
# --------------------------------------------------------------------
# public interface
def match(pattern, string, flags=0):
"""Try to apply the pattern at the start of the string, returning
a match object, or None if no match was found."""
return _compile(pattern, flags).match(string)
def search(pattern, string, flags=0):
"""Scan through string looking for a match to the pattern, returning
a match object, or None if no match was found."""
return _compile(pattern, flags).search(string)
def sub(pattern, repl, string, count=0, flags=0):
"""Return the string obtained by replacing the leftmost
non-overlapping occurrences of the pattern in string by the
replacement repl. repl can be either a string or a callable;
if a string, backslash escapes in it are processed. If it is
a callable, it's passed the match object and must return
a replacement string to be used."""
return _compile(pattern, flags).sub(repl, string, count)
def subn(pattern, repl, string, count=0, flags=0):
"""Return a 2-tuple containing (new_string, number).
new_string is the string obtained by replacing the leftmost
non-overlapping occurrences of the pattern in the source
string by the replacement repl. number is the number of
substitutions that were made. repl can be either a string or a
callable; if a string, backslash escapes in it are processed.
If it is a callable, it's passed the match object and must
return a replacement string to be used."""
return _compile(pattern, flags).subn(repl, string, count)
def split(pattern, string, maxsplit=0, flags=0):
"""Split the source string by the occurrences of the pattern,
returning a list containing the resulting substrings. If
capturing parentheses are used in pattern, then the text of all
groups in the pattern are also returned as part of the resulting
list. If maxsplit is nonzero, at most maxsplit splits occur,
and the remainder of the string is returned as the final element
of the list."""
return _compile(pattern, flags).split(string, maxsplit)
def findall(pattern, string, flags=0):
"""Return a list of all non-overlapping matches in the string.
If one or more capturing groups are present in the pattern, return
a list of groups; this will be a list of tuples if the pattern
has more than one group.
Empty matches are included in the result."""
return _compile(pattern, flags).findall(string)
def finditer(pattern, string, flags=0):
"""Return an iterator over all non-overlapping matches in the
string. For each match, the iterator returns a match object.
Empty matches are included in the result."""
return _compile(pattern, flags).finditer(string)
def compile(pattern, flags=0):
"Compile a regular expression pattern, returning a pattern object."
#print("_re.py:214")
return _compile(pattern, flags)
def purge():
"Clear the regular expression caches"
_cache.clear()
_cache_repl.clear()
def template(pattern, flags=0):
"Compile a template pattern, returning a pattern object"
return _compile(pattern, flags|T)
_alphanum_str = frozenset(
"_abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ01234567890")
_alphanum_bytes = frozenset(
b"_abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ01234567890")
def escape(pattern):
"""
Escape all the characters in pattern except ASCII letters, numbers and '_'.
"""
if isinstance(pattern, str):
alphanum = _alphanum_str
s = list(pattern)
for i, c in enumerate(pattern):
if c not in alphanum:
if c == "\000":
s[i] = "\\000"
else:
s[i] = "\\" + c
return "".join(s)
else:
alphanum = _alphanum_bytes
s = []
esc = ord(b"\\")
for c in pattern:
if c in alphanum:
s.append(c)
else:
if c == 0:
s.extend(b"\\000")
else:
s.append(esc)
s.append(c)
return bytes(s)
# --------------------------------------------------------------------
# internals
_cache = {}
_cache_repl = {}
_pattern_type = type(sre_compile.compile("", 0))
_MAXCACHE = 512
def _compile(pattern, flags):
# internal: compile pattern
try:
#fixme brython
#return _cache[type(pattern), pattern, flags]
return _cache["%s:%s:%s" % (type(pattern), pattern, flags)]
except KeyError:
pass
#print(pattern)
if isinstance(pattern, _pattern_type):
if flags:
raise ValueError(
"Cannot process flags argument with a compiled pattern")
return pattern
if not sre_compile.isstring(pattern):
raise TypeError("first argument must be string or compiled pattern")
p = sre_compile.compile(pattern, flags)
#print('_compile', p)
if len(_cache) >= _MAXCACHE:
_cache.clear()
#fix me brython
#_cache[type(pattern), pattern, flags] = p
_cache["%s:%s:%s" % (type(pattern), pattern, flags)]= p
return p
def _compile_repl(repl, pattern):
# internal: compile replacement pattern
try:
#fix me brython
#return _cache_repl[repl, pattern]
return _cache_repl["%s:%s" % (repl, pattern)]
except KeyError:
pass
p = sre_parse.parse_template(repl, pattern)
if len(_cache_repl) >= _MAXCACHE:
_cache_repl.clear()
_cache_repl["%s:%s" % (repl, pattern)] = p
#fix me brython
#_cache_repl[repl, pattern] = p
return p
def _expand(pattern, match, template):
# internal: match.expand implementation hook
template = sre_parse.parse_template(template, pattern)
return sre_parse.expand_template(template, match)
def _subx(pattern, template):
# internal: pattern.sub/subn implementation helper
template = _compile_repl(template, pattern)
if not template[0] and len(template[1]) == 1:
# literal replacement
return template[1][0]
def filter(match, template=template):
return sre_parse.expand_template(template, match)
return filter
# register myself for pickling
import copyreg
def _pickle(p):
return _compile, (p.pattern, p.flags)
copyreg.pickle(_pattern_type, _pickle, _compile)
# --------------------------------------------------------------------
# experimental stuff (see python-dev discussions for details)
class Scanner:
def __init__(self, lexicon, flags=0):
from sre_constants import BRANCH, SUBPATTERN
self.lexicon = lexicon
# combine phrases into a compound pattern
p = []
s = sre_parse.Pattern()
s.flags = flags
for phrase, action in lexicon:
p.append(sre_parse.SubPattern(s, [
(SUBPATTERN, (len(p)+1, sre_parse.parse(phrase, flags))),
]))
s.groups = len(p)+1
p = sre_parse.SubPattern(s, [(BRANCH, (None, p))])
self.scanner = sre_compile.compile(p)
def scan(self, string):
result = []
append = result.append
match = self.scanner.scanner(string).match
i = 0
while 1:
m = match()
if not m:
break
j = m.end()
if i == j:
break
action = self.lexicon[m.lastindex-1][1]
if callable(action):
self.match = m
action = action(self, m.group())
if action is not None:
append(action)
i = j
return result, string[i:]
| agpl-3.0 |
mozilla/make.mozilla.org | make_mozilla/news/migrations/0001_initial.py | 1 | 1976 | # -*- coding: utf-8 -*-
import datetime
from south.db import db
from south.v2 import SchemaMigration
from django.db import models
class Migration(SchemaMigration):
def forwards(self, orm):
# Adding model 'Article'
db.create_table('news_article', (
('id', self.gf('django.db.models.fields.AutoField')(primary_key=True)),
('title', self.gf('django.db.models.fields.CharField')(max_length=255)),
('link', self.gf('django.db.models.fields.URLField')(max_length=200)),
('summary', self.gf('django.db.models.fields.TextField')(null=True, blank=True)),
('page', self.gf('django.db.models.fields.CharField')(max_length=50)),
('checksum', self.gf('django.db.models.fields.CharField')(unique=True, max_length=32)),
('updated', self.gf('django.db.models.fields.DateTimeField')()),
('autor', self.gf('django.db.models.fields.CharField')(max_length=255)),
))
db.send_create_signal('news', ['Article'])
def backwards(self, orm):
# Deleting model 'Article'
db.delete_table('news_article')
models = {
'news.article': {
'Meta': {'object_name': 'Article'},
'autor': ('django.db.models.fields.CharField', [], {'max_length': '255'}),
'checksum': ('django.db.models.fields.CharField', [], {'unique': 'True', 'max_length': '32'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'link': ('django.db.models.fields.URLField', [], {'max_length': '200'}),
'page': ('django.db.models.fields.CharField', [], {'max_length': '50'}),
'summary': ('django.db.models.fields.TextField', [], {'null': 'True', 'blank': 'True'}),
'title': ('django.db.models.fields.CharField', [], {'max_length': '255'}),
'updated': ('django.db.models.fields.DateTimeField', [], {})
}
}
complete_apps = ['news'] | bsd-3-clause |
Plexxi/st2 | st2client/tests/unit/test_util_strutil.py | 3 | 1624 | # -*- coding: utf-8 -*-
# Copyright 2020 The StackStorm Authors.
# Copyright 2019 Extreme Networks, Inc.
#
# 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.
from __future__ import absolute_import
import unittest2
from st2client.utils import strutil
class StrUtilTestCase(unittest2.TestCase):
# See https://mail.python.org/pipermail/python-list/2006-January/411909.html
def test_unescape(self):
in_str = 'Action execution result double escape \\"stuffs\\".\\r\\n'
expected = 'Action execution result double escape "stuffs".\r\n'
out_str = strutil.unescape(in_str)
self.assertEqual(out_str, expected)
def test_unicode_string(self):
in_str = "\u8c03\u7528CMS\u63a5\u53e3\u5220\u9664\u865a\u62df\u76ee\u5f55"
out_str = strutil.unescape(in_str)
self.assertEqual(out_str, in_str)
def test_strip_carriage_returns(self):
in_str = "Windows editors introduce\r\nlike a noob in 2017."
out_str = strutil.strip_carriage_returns(in_str)
exp_str = "Windows editors introduce\nlike a noob in 2017."
self.assertEqual(out_str, exp_str)
| apache-2.0 |
joecole889/spam-filter | WordListSelectGUI.py | 1 | 2837 | # -*- coding: utf-8 -*-
"""
Created on Fri Mar 11 12:21:00 2016
@author: Joseph R. Cole
"""
#import pdb
import Tkinter as tki
import tkSimpleDialog
import logging
import os
from EmailSamplesDB import *
class WordListSelectGUI(tkSimpleDialog.Dialog) :
def __init__(self, parent, DBobj, title=None) :
self.DBobj = DBobj
tkSimpleDialog.Dialog.__init__(self, parent, title)
def body(self, parent) :
tki.Label(parent,text="Select a word list:").grid(row=0,column=0,sticky=tki.W,padx=5)
self.AvailWordListsVar = tki.StringVar(parent)
self.AvailWordListsMenu = tki.OptionMenu(parent,self.AvailWordListsVar,None)
self.DBobj.ConnectDB()
WordLists = self.DBobj.GetAvailableWordLists()
self.UpdateWordListDropDown(WordLists)
self.AvailWordListsMenu.grid(row=1,column=0,sticky=tki.W,padx=5)
return self.AvailWordListsMenu
def apply(self) :
"""
Return the database id of the new word list
"""
try :
ListRef = self.AvailWordListsVar.get()
ListName,list_id,DictRef,DictName = self.DBobj.ResolveListRef(ListRef)
except Exception as detail :
logging.error(detail)
list_id = None
self.result = list_id
def UpdateWordListDropDown(self,NewList) :
"""
Updates the values available in the word list drop down menu.
The user should select the word list to use for an operation.
NewList - a list of tuples to define entrys for the word list drop down menu. Each tuple is:
("table name in the database for the word list","a human readable name for the word list")
"""
self.AvailWordListsMenu['menu'].delete(0,'end')
if (NewList is not None) and (len(NewList) > 0) :
self.AvailWordListsVar.set(str(NewList[0][0]))
for choice,readable in NewList :
choicestr = '%s: %s'%(choice,readable)
self.AvailWordListsMenu['menu'].add_command(label=choicestr, command=tki._setit(self.AvailWordListsVar, str(choice)))
else :
self.AvailWordListsVar.set('')
return
def cancel(self,_=None) :
logging.debug("Shutting down the dialog")
self.DBobj.DisconnectDB()
self.parent.focus_set()
self.destroy()
###################################### Main Program ######################################
if __name__ == "__main__" :
logging.basicConfig(level=logging.DEBUG)
#pdb.set_trace()
aa = EmailSamplesDB(os.path.abspath(r".\EmailSamplesDB_SQL.json"),
os.path.abspath(r".\DBSetup_SQL.json"),
os.path.abspath(r".\TempDB_SQL.json"))
aa.DBpath = os.path.abspath(r"C:\Users\jcole119213\Documents\Python Scripts\LearningCurveApp\tester2.sqlite3")
root = tki.Tk()
root.wm_title("Test the word list selection dialog")
EndConnection = WordListRemoveGUI(root,aa,"Select a word list")
if EndConnection.result is not None :
logging.debug("Word list id selected: %s"%str(EndConnection.result))
else :
logging.debug("No word list id returned")
| mit |
zhenzhai/edx-platform | lms/djangoapps/commerce/api/v0/views.py | 18 | 8122 | """ API v0 views. """
import logging
from edx_rest_api_client import exceptions
from opaque_keys import InvalidKeyError
from opaque_keys.edx.keys import CourseKey
from rest_framework.authentication import SessionAuthentication
from rest_framework.permissions import IsAuthenticated
from rest_framework.status import HTTP_406_NOT_ACCEPTABLE, HTTP_409_CONFLICT
from rest_framework.views import APIView
from commerce.constants import Messages
from commerce.exceptions import InvalidResponseError
from commerce.http import DetailResponse, InternalRequestErrorResponse
from commerce.utils import audit_log
from course_modes.models import CourseMode
from courseware import courses
from embargo import api as embargo_api
from enrollment.api import add_enrollment
from enrollment.views import EnrollmentCrossDomainSessionAuth
from openedx.core.djangoapps.commerce.utils import ecommerce_api_client
from openedx.core.djangoapps.user_api.preferences.api import update_email_opt_in
from openedx.core.lib.api.authentication import OAuth2AuthenticationAllowInactiveUser
from student.models import CourseEnrollment
from util.json_request import JsonResponse
log = logging.getLogger(__name__)
class BasketsView(APIView):
""" Creates a basket with a course seat and enrolls users. """
# LMS utilizes User.user_is_active to indicate email verification, not whether an account is active. Sigh!
authentication_classes = (EnrollmentCrossDomainSessionAuth, OAuth2AuthenticationAllowInactiveUser)
permission_classes = (IsAuthenticated,)
def _is_data_valid(self, request):
"""
Validates the data posted to the view.
Arguments
request -- HTTP request
Returns
Tuple (data_is_valid, course_key, error_msg)
"""
course_id = request.data.get('course_id')
if not course_id:
return False, None, u'Field course_id is missing.'
try:
course_key = CourseKey.from_string(course_id)
courses.get_course(course_key)
except (InvalidKeyError, ValueError)as ex:
log.exception(u'Unable to locate course matching %s.', course_id)
return False, None, ex.message
return True, course_key, None
def _enroll(self, course_key, user, mode=CourseMode.DEFAULT_MODE_SLUG):
""" Enroll the user in the course. """
add_enrollment(user.username, unicode(course_key), mode)
def _handle_marketing_opt_in(self, request, course_key, user):
"""
Handle the marketing email opt-in flag, if it was set.
Errors here aren't expected, but should not break the outer enrollment transaction.
"""
email_opt_in = request.data.get('email_opt_in', None)
if email_opt_in is not None:
try:
update_email_opt_in(user, course_key.org, email_opt_in)
except Exception: # pylint: disable=broad-except
# log the error, return silently
log.exception(
'Failed to handle marketing opt-in flag: user="%s", course="%s"', user.username, course_key
)
def post(self, request, *args, **kwargs):
"""
Attempt to create the basket and enroll the user.
"""
user = request.user
valid, course_key, error = self._is_data_valid(request)
if not valid:
return DetailResponse(error, status=HTTP_406_NOT_ACCEPTABLE)
embargo_response = embargo_api.get_embargo_response(request, course_key, user)
if embargo_response:
return embargo_response
# Don't do anything if an enrollment already exists
course_id = unicode(course_key)
enrollment = CourseEnrollment.get_enrollment(user, course_key)
if enrollment and enrollment.is_active:
msg = Messages.ENROLLMENT_EXISTS.format(course_id=course_id, username=user.username)
return DetailResponse(msg, status=HTTP_409_CONFLICT)
# Check to see if enrollment for this course is closed.
course = courses.get_course(course_key)
if CourseEnrollment.is_enrollment_closed(user, course):
msg = Messages.ENROLLMENT_CLOSED.format(course_id=course_id)
log.info(u'Unable to enroll user %s in closed course %s.', user.id, course_id)
return DetailResponse(msg, status=HTTP_406_NOT_ACCEPTABLE)
# If there is no audit or honor course mode, this most likely
# a Prof-Ed course. Return an error so that the JS redirects
# to track selection.
honor_mode = CourseMode.mode_for_course(course_key, CourseMode.HONOR)
audit_mode = CourseMode.mode_for_course(course_key, CourseMode.AUDIT)
# Accept either honor or audit as an enrollment mode to
# maintain backwards compatibility with existing courses
default_enrollment_mode = audit_mode or honor_mode
if not default_enrollment_mode:
msg = Messages.NO_DEFAULT_ENROLLMENT_MODE.format(course_id=course_id)
return DetailResponse(msg, status=HTTP_406_NOT_ACCEPTABLE)
elif default_enrollment_mode and not default_enrollment_mode.sku:
# If there are no course modes with SKUs, enroll the user without contacting the external API.
msg = Messages.NO_SKU_ENROLLED.format(
enrollment_mode=default_enrollment_mode.slug,
course_id=course_id,
username=user.username
)
log.info(msg)
self._enroll(course_key, user, default_enrollment_mode.slug)
self._handle_marketing_opt_in(request, course_key, user)
return DetailResponse(msg)
# Setup the API
try:
api = ecommerce_api_client(user)
except ValueError:
self._enroll(course_key, user)
msg = Messages.NO_ECOM_API.format(username=user.username, course_id=unicode(course_key))
log.debug(msg)
return DetailResponse(msg)
response = None
# Make the API call
try:
response_data = api.baskets.post({
'products': [{'sku': default_enrollment_mode.sku}],
'checkout': True,
})
payment_data = response_data["payment_data"]
if payment_data:
# Pass data to the client to begin the payment flow.
response = JsonResponse(payment_data)
elif response_data['order']:
# The order was completed immediately because there is no charge.
msg = Messages.ORDER_COMPLETED.format(order_number=response_data['order']['number'])
log.debug(msg)
response = DetailResponse(msg)
else:
msg = u'Unexpected response from basket endpoint.'
log.error(
msg + u' Could not enroll user %(username)s in course %(course_id)s.',
{'username': user.id, 'course_id': course_id},
)
raise InvalidResponseError(msg)
except (exceptions.SlumberBaseException, exceptions.Timeout) as ex:
log.exception(ex.message)
return InternalRequestErrorResponse(ex.message)
finally:
audit_log(
'checkout_requested',
course_id=course_id,
mode=default_enrollment_mode.slug,
processor_name=None,
user_id=user.id
)
self._handle_marketing_opt_in(request, course_key, user)
return response
class BasketOrderView(APIView):
""" Retrieve the order associated with a basket. """
authentication_classes = (SessionAuthentication,)
permission_classes = (IsAuthenticated,)
def get(self, request, *_args, **kwargs):
""" HTTP handler. """
try:
order = ecommerce_api_client(request.user).baskets(kwargs['basket_id']).order.get()
return JsonResponse(order)
except exceptions.HttpNotFoundError:
return JsonResponse(status=404)
| agpl-3.0 |
jrbl/invenio | modules/bibharvest/lib/oai_harvest_getter.py | 2 | 13875 | ## -*- mode: python; coding: utf-8; -*-
##
## This file is part of Invenio.
## Copyright (C) 2009, 2010, 2011 CERN.
##
## Invenio 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.
##
## Invenio 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 Invenio; if not, write to the Free Software Foundation, Inc.,
## 59 Temple Place, Suite 330, Boston, MA 02111-1307, USA.
"""OAI harvestor - 'wget' records from an OAI repository.
This 'getter' simply retrieve the records from an OAI repository.
"""
__revision__ = "$Id$"
try:
import sys
import httplib
import urllib
import getpass
import socket
import re
import time
import base64
import tempfile
import os
except ImportError, e:
print "Error: %s" % e
sys.exit(1)
try:
from invenio.config import CFG_SITE_ADMIN_EMAIL, CFG_VERSION
except ImportError, e:
print "Error: %s" % e
sys.exit(1)
class InvenioOAIRequestError(Exception):
pass
http_response_status_code = {
"000" : "Unknown",
"100" : "Continue",
"200" : "OK",
"302" : "Redirect",
"401" : "Authentication Required",
"403" : "Forbidden",
"404" : "Not Found",
"500" : "Error",
"503" : "Service Unavailable"
}
def http_param_resume(http_param_dict, resumptionToken):
"Change parameter dictionary for harvest resumption"
http_param = {
'verb' : http_param_dict['verb'],
'resumptionToken' : resumptionToken
}
return http_param
def http_request_parameters(http_param_dict, method="POST"):
"Assembly http request parameters for http method used"
return urllib.urlencode(http_param_dict)
def OAI_Session(server, script, http_param_dict , method="POST", output="",
resume_request_nbr=0, secure=False, user=None, password=None,
cert_file=None, key_file=None):
"""Handle one OAI session (1 request, which might lead
to multiple answers because of resumption tokens)
If output filepath is given, each answer of the oai repository is saved
in corresponding filepath, with a unique number appended at the end.
This number starts at 'resume_request_nbr'.
Returns a tuple containing an int corresponding to the last created 'resume_request_nbr' and
a list of harvested files.
"""
sys.stderr.write("Starting the harvesting session at %s" %
time.strftime("%Y-%m-%d %H:%M:%S --> ", time.localtime()))
sys.stderr.write("%s - %s\n" % (server,
http_request_parameters(http_param_dict)))
output_path, output_name = os.path.split(output)
harvested_files = []
i = resume_request_nbr
while True:
harvested_data = OAI_Request(server, script,
http_request_parameters(http_param_dict, method), method,
secure, user, password, cert_file, key_file)
if output:
# Write results to a file specified by 'output'
if harvested_data.lower().find('<'+http_param_dict['verb'].lower()) > -1:
output_fd, output_filename = tempfile.mkstemp(suffix="_%07d.harvested" % (i,), \
prefix=output_name, dir=output_path)
os.write(output_fd, harvested_data)
os.close(output_fd)
harvested_files.append(output_filename)
else:
# No records in output? Do not create a file. Warn the user.
sys.stderr.write("\n<!--\n*** WARNING: NO RECORDS IN THE HARVESTED DATA: "
+ "\n" + repr(harvested_data) + "\n***\n-->\n")
else:
sys.stdout.write(harvested_data)
rt_obj = re.search('<resumptionToken.*>(.+)</resumptionToken>',
harvested_data, re.DOTALL)
if rt_obj is not None and rt_obj != "":
http_param_dict = http_param_resume(http_param_dict, rt_obj.group(1))
i = i + 1
else:
break
return i, harvested_files
def harvest(server, script, http_param_dict , method="POST", output="",
sets=None, secure=False, user=None, password=None,
cert_file=None, key_file=None):
"""
Handle multiple OAI sessions (multiple requests, which might lead to
multiple answers).
Needed for harvesting multiple sets in one row.
Returns a list of filepaths for harvested files.
Parameters:
server - *str* the server URL to harvest
eg: cdsweb.cern.ch
script - *str* path to the OAI script on the server to harvest
eg: /oai2d
http_param_dict - *dict* the URL parameters to send to the OAI script
eg: {'verb':'ListRecords', 'from'='2004-04-01'}
EXCLUDING the setSpec parameters. See 'sets'
parameter below.
method - *str* if we harvest using POST or GET
eg: POST
output - *str* the path (and base name) where results are
saved. To handle multiple answers (for eg. triggered
by multiple sets harvesting or OAI resumption
tokens), this base name is suffixed with a sequence
number. Eg output='/tmp/z.xml' ->
'/tmp/z.xml.0000000', '/tmp/z.xml.0000001', etc.
If file at given path already exists, it is
overwritten.
When this parameter is left empty, the results are
returned on the standard output.
sets - *list* the sets to harvest. Since this function
offers multiple sets harvesting in one row, the OAI
'setSpec' cannot be defined in the 'http_param_dict'
dict where other OAI parameters are.
secure - *bool* of we should use HTTPS (True) or HTTP (false)
user - *str* username to use to login to the server to
harvest in case it requires Basic authentication.
password - *str* a password (in clear) of the server to harvest
in case it requires Basic authentication.
key_file - *str* a path to a PEM file that contain your private
key to connect to the server in case it requires
certificate-based authentication
(If provided, 'cert_file' must also be provided)
cert_file - *str* a path to a PEM file that contain your public
key in case the server to harvest requires
certificate-based authentication
(If provided, 'key_file' must also be provided)
"""
if sets:
resume_request_nbr = 0
all_harvested_files = []
for set in sets:
http_param_dict['set'] = set
resume_request_nbr, harvested_files = OAI_Session(server, script, http_param_dict, method,
output, resume_request_nbr, secure, user, password,
cert_file, key_file)
resume_request_nbr += 1
all_harvested_files.extend(harvested_files)
return all_harvested_files
else:
dummy, harvested_files = OAI_Session(server, script, http_param_dict, method,
output, secure=secure, user=user,
password=password, cert_file=cert_file,
key_file=key_file)
return harvested_files
def OAI_Request(server, script, params, method="POST", secure=False,
user=None, password=None,
key_file=None, cert_file=None, attempts=10):
"""Handle OAI request. Returns harvested data.
Parameters:
server - *str* the server URL to harvest
eg: cdsweb.cern.ch
script - *str* path to the OAI script on the server to harvest
eg: /oai2d
params - *str* the URL parameters to send to the OAI script
eg: verb=ListRecords&from=2004-04-01
method - *str* if we harvest using POST or GET
eg: POST
secure - *bool* of we should use HTTPS (True) or HTTP (false)
user - *str* username to use to login to the server to
harvest in case it requires Basic authentication.
password - *str* a password (in clear) of the server to harvest
in case it requires Basic authentication.
key_file - *str* a path to a PEM file that contain your private
key to connect to the server in case it requires
certificate-based authentication
(If provided, 'cert_file' must also be provided)
cert_file - *str* a path to a PEM file that contain your public
key in case the server to harvest requires
certificate-based authentication
(If provided, 'key_file' must also be provided)
attempts - *int* maximum number of attempts
Return:
Returns harvested data if harvest is successful.
"""
headers = {"Content-type":"application/x-www-form-urlencoded",
"Accept":"text/xml",
"From": CFG_SITE_ADMIN_EMAIL,
"User-Agent":"Invenio %s" % CFG_VERSION}
if password:
# We use basic authentication
headers["Authorization"] = "Basic " + base64.encodestring(user + ":" + password).strip()
i = 0
while i < attempts:
i = i + 1
# Try to establish a connection
try:
if secure and not (key_file and cert_file):
# Basic authentication over HTTPS
conn = httplib.HTTPSConnection(server)
elif secure and key_file and cert_file:
# Certificate-based authentication
conn = httplib.HTTPSConnection(server,
key_file=key_file,
cert_file=cert_file)
else:
# Unsecured connection
conn = httplib.HTTPConnection(server)
except (httplib.HTTPException, socket.error), e:
raise InvenioOAIRequestError("An error occured when trying to connect to %s: %s" % (server, e))
# Connection established, perform a request
try:
if method == "GET":
conn.request("GET", script + "?" + params, headers=headers)
elif method == "POST":
conn.request("POST", script, params, headers)
except socket.gaierror, (err, str_e):
# We'll retry in a few seconds
nb_seconds_retry = 30
sys.stderr.write("An error occured when trying to request %s: %s\nWill retry in %i seconds\n" % (server, e, nb_seconds_retry))
time.sleep(nb_seconds_retry)
continue
# Request sent, get results
try:
response = conn.getresponse()
except (httplib.HTTPException, socket.error), e:
# We'll retry in a few seconds
nb_seconds_retry = 30
sys.stderr.write("An error occured when trying to read response from %s: %s\nWill retry in %i seconds\n" % (server, e, nb_seconds_retry))
time.sleep(nb_seconds_retry)
continue
status = "%d" % response.status
if http_response_status_code.has_key(status):
sys.stderr.write("%s(%s) : %s : %s\n" % (status,
http_response_status_code[status],
response.reason,
params))
else:
sys.stderr.write("%s(%s) : %s : %s\n" % (status,
http_response_status_code['000'],
response.reason, params))
if response.status == 200:
data = response.read()
conn.close()
return data
elif response.status == 503:
try:
nb_seconds_to_wait = \
int(response.getheader("Retry-After", "%d" % (i*i)))
except ValueError:
nb_seconds_to_wait = 10
sys.stderr.write("Retry in %d seconds...\n" % nb_seconds_to_wait)
time.sleep(nb_seconds_to_wait)
elif response.status == 302:
sys.stderr.write("Redirecting...\n")
server = response.getheader("Location").split("/")[2]
script = "/" + \
"/".join(response.getheader("Location").split("/")[3:])
elif response.status == 401:
if user is not None:
sys.stderr.write("Try again\n")
if not secure:
sys.stderr.write("*WARNING* Your password will be sent in clear!\n")
# getting input from user
sys.stderr.write('User:')
try:
user = raw_input()
password = getpass.getpass()
except EOFError, e:
sys.stderr.write("\n")
sys.exit(1)
except KeyboardInterrupt, e:
sys.stderr.write("\n")
sys.exit(1)
headers["Authorization"] = "Basic " + base64.encodestring(user + ":" + password).strip()
else:
sys.stderr.write("Retry in 10 seconds...\n")
time.sleep(10)
raise InvenioOAIRequestError("Harvesting interrupted (after 10 attempts) at %s: %s\n"
% (time.strftime("%Y-%m-%d %H:%M:%S --> ", time.localtime()), params))
| gpl-2.0 |
qsnake/mpir | yasm/modules/arch/x86/gen_x86_insn.py | 8 | 292208 | #! /usr/bin/env python
# x86 instructions and prefixes data and code generation
#
# Copyright (C) 2002-2007 Peter Johnson
#
# 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.
#
# THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND OTHER 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 AUTHOR OR OTHER 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.
#
# NOTE: operands are arranged in NASM / Intel order (e.g. dest, src)
from sys import stdout, version_info
scriptname = "gen_x86_insn.py"
scriptrev = "HEAD"
ordered_cpus = [
"086", "186", "286", "386", "486", "586", "686", "K6", "Athlon", "P3",
"P4", "IA64", "Hammer"]
ordered_cpu_features = [
"FPU", "Cyrix", "AMD", "MMX", "3DNow", "SMM", "SSE", "SSE2",
"SSE3", "SVM", "PadLock", "SSSE3", "SSE41", "SSE42", "SSE4a", "SSE5",
"AVX", "FMA", "AES", "CLMUL", "MOVBE", "XOP", "FMA4", "F16C",
"FSGSBASE", "RDRAND", "XSAVEOPT", "EPTVPID", "SMX", "AVX2", "BMI1",
"BMI2", "INVPCID", "LZCNT"]
unordered_cpu_features = ["Priv", "Prot", "Undoc", "Obs"]
# Predefined VEX prefix field values
VEXW0 = 0xC0
VEXW1 = 0xC8
VEXL0 = 0xC0
VEXL1 = 0xC4
VEXpp = 0xC0 # OR with value
# Predefined XOP prefix field values
XOPW0 = 0x80
XOPW1 = 0x88
XOPL0 = 0x80
XOPL1 = 0x84
XOPpp = 0x80 # OR with value
def lprint(s, f = stdout, e = '\n') :
f.write(s + e)
def cpu_lcd(cpu1, cpu2):
"""Find the lowest common denominator of two CPU sets."""
retval = set()
# CPU
cpu1cpus = set(ordered_cpus) & set(cpu1)
if not cpu1cpus:
cpu1cpus.add("086")
cpu1mincpu = min(ordered_cpus.index(x) for x in cpu1cpus)
cpu2cpus = set(ordered_cpus) & set(cpu2)
if not cpu2cpus:
cpu2cpus.add("086")
cpu2mincpu = min(ordered_cpus.index(x) for x in cpu1cpus)
cpumin = ordered_cpus[min(cpu1mincpu, cpu2mincpu)]
if cpumin == "086":
cpumin = "Any"
if cpumin != "Any":
retval.add(cpumin)
# Feature
cpu1features = set(ordered_cpu_features) & set(cpu1)
if not cpu1features:
cpu1minfeature = -1
else:
cpu1minfeature = min(ordered_cpu_features.index(x)
for x in cpu1features)
cpu2features = set(ordered_cpu_features) & set(cpu2)
if not cpu2features:
cpu2minfeature = -1
else:
cpu2minfeature = min(ordered_cpu_features.index(x)
for x in cpu2features)
if cpu1minfeature != -1 and cpu2minfeature != -1:
featuremin = ordered_cpu_features[min(cpu1minfeature, cpu2minfeature)]
retval.add(featuremin)
# Unordered features
for feature in set(unordered_cpu_features) & set(cpu1) & set(cpu2):
retval.add(feature)
return retval
class Operand(object):
def __init__(self, **kwargs):
self.type = kwargs.pop("type")
self.size = kwargs.pop("size", "Any")
self.relaxed = kwargs.pop("relaxed", False)
self.dest = kwargs.pop("dest", None)
self.tmod = kwargs.pop("tmod", None)
self.opt = kwargs.pop("opt", None)
if kwargs:
for arg in kwargs:
lprint("Warning: unrecognized arg %s" % arg)
def __str__(self):
return "{"+ ", ".join(["OPT_%s" % self.type,
"OPS_%s" % self.size,
"%d" % self.relaxed,
self.dest == "EA64" and "1" or "0",
"OPTM_%s" % self.tmod,
"OPA_%s" % (self.dest == "EA64"
and "EA" or self.dest),
"OPAP_%s" % self.opt]) + "}"
def __eq__(self, other):
return (self.type == other.type and
self.size == other.size and
self.relaxed == other.relaxed and
self.dest == other.dest and
self.tmod == other.tmod and
self.opt == other.opt)
def __ne__(self, other):
return (self.type != other.type or
self.size != other.size or
self.relaxed != other.relaxed or
self.dest != other.dest or
self.tmod != other.tmod or
self.opt != other.opt)
class GroupForm(object):
def __init__(self, **kwargs):
# Parsers
self.parsers = set(kwargs.pop("parsers", ["gas", "nasm"]))
# CPU feature flags initialization
self.cpu = set(kwargs.pop("cpu", []))
# Misc flags
self.misc_flags = set(kwargs.pop("misc_flags", []))
if kwargs.pop("only64", False):
self.misc_flags.add("ONLY_64")
if kwargs.pop("not64", False):
self.misc_flags.add("NOT_64")
if kwargs.pop("onlyavx", False):
self.misc_flags.add("ONLY_AVX")
if kwargs.pop("notavx", False):
self.misc_flags.add("NOT_AVX")
# Operation size
self.opersize = kwargs.pop("opersize", 0)
if self.opersize == 8:
self.opersize = 0
if self.opersize == 64:
self.misc_flags.add("ONLY_64")
elif self.opersize == 32 and "ONLY_64" not in self.misc_flags:
self.cpu.add("386")
# Default operation size in 64-bit mode
self.def_opersize_64 = kwargs.pop("def_opersize_64", 0)
# GAS suffix
self.gen_suffix = kwargs.pop("gen_suffix", True)
self.suffixes = kwargs.pop("suffixes", None)
suffix = kwargs.pop("suffix", None)
if suffix is not None:
self.suffixes = [suffix]
req_suffix = kwargs.pop("req_suffix", False)
if not req_suffix:
if self.suffixes is None:
self.suffixes = ["Z"]
else:
self.suffixes.append("Z")
if self.suffixes is not None:
self.suffixes = set(x.upper() for x in self.suffixes)
# Special instruction prefix
self.special_prefix = "0"
if "prefix" in kwargs:
self.special_prefix = "0x%02X" % kwargs.pop("prefix")
# VEX prefix
if "vex" in kwargs:
self.misc_flags.add("ONLY_AVX")
vexW = kwargs.pop("vexw", 0)
if vexW not in [0, 1]:
raise ValueError("VEX.W must be 0 or 1")
vexL = kwargs.pop("vex")
if vexL == 128 or vexL == 0:
vexL = 0
elif vexL == 256:
vexL = 1
else:
raise ValueError("VEX.L must be 128 or 256")
if self.special_prefix in ["0", "0x00"]:
vexpp = 0
elif self.special_prefix == "0x66":
vexpp = 1
elif self.special_prefix == "0xF3":
vexpp = 2
elif self.special_prefix == "0xF2":
vexpp = 3
else:
raise ValueError("Cannot combine VEX and special prefix %s"
% self.special_prefix)
self.special_prefix = "0x%02X" % (0xC0 + vexW*8 + vexL*4 + vexpp)
# XOP prefix
if "xop" in kwargs:
xopW = kwargs.pop("xopw", 0)
if xopW not in [0, 1]:
raise ValueError("XOP.W must be 0 or 1")
xopL = kwargs.pop("xop")
if xopL == 128 or xopL == 0:
xopL = 0
elif xopL == 256:
xopL = 1
else:
raise ValueError("XOP.L must be 128 or 256")
# XOPpp is currently reserved (0)
xoppp = 0
if self.special_prefix not in ["0", "0x00"]:
raise ValueError("Cannot combine XOP and special prefix %s"
% self.special_prefix)
self.special_prefix = "0x%02X" % (0x80 + xopW*8 + xopL*4 + xoppp)
# Spare value
self.spare = kwargs.pop("spare", 0)
# Build opcodes string (C array initializer)
if "opcode" in kwargs:
# Usual case, just a single opcode
self.opcode = kwargs.pop("opcode")
self.opcode_len = len(self.opcode)
elif "opcode1" in kwargs and "opcode2" in kwargs:
# Two opcode case; the first opcode is the "optimized" opcode,
# the second is the "relaxed" opcode. For this to work, an
# opt="foo" must be set for one of the operands.
self.opcode1 = kwargs.pop("opcode1")
self.opcode2 = kwargs.pop("opcode2")
self.opcode_len = len(self.opcode1)
else:
raise KeyError("missing opcode")
# Build operands string (C array initializer)
self.operands = kwargs.pop("operands")
for op in self.operands:
if op.type in ["Reg", "RM", "Areg", "Creg", "Dreg"]:
if op.size == 64:
self.misc_flags.add("ONLY_64")
elif op.size == 32 and "ONLY_64" not in self.misc_flags:
self.cpu.add("386")
if op.type in ["Imm", "ImmNotSegOff"]:
if op.size == 64:
self.misc_flags.add("ONLY_64")
elif op.size == 32 and "ONLY_64" not in self.misc_flags:
self.cpu.add("386")
if op.type in ["FS", "GS"] and "ONLY_64" not in self.misc_flags:
self.cpu.add("386")
if op.type in ["CR4"] and "ONLY_64" not in self.misc_flags:
self.cpu.add("586")
if op.dest == "EA64":
self.misc_flags.add("ONLY_64")
# Modifiers
self.modifiers = kwargs.pop("modifiers", [])
# GAS flags
self.gas_only = ("nasm" not in self.parsers)
self.gas_illegal = ("gas" not in self.parsers)
self.gas_no_rev = (kwargs.pop("gas_no_reverse", False) or
kwargs.pop("gas_no_rev", False))
# CPU feature flags finalization
# Remove redundancies
maxcpu = -1
maxcpu_set = self.cpu & set(ordered_cpus)
if maxcpu_set:
maxcpu = max(ordered_cpus.index(x) for x in maxcpu_set)
if maxcpu != -1:
for cpu in ordered_cpus[0:maxcpu]:
self.cpu.discard(cpu)
if kwargs:
for arg in kwargs:
lprint("Warning: unrecognized arg %s" % arg)
def __str__(self):
if hasattr(self, "opcode"):
opcodes_str = ["0x%02X" % x for x in self.opcode]
elif hasattr(self, "opcode1") and hasattr(self, "opcode2"):
opcodes_str = ["0x%02X" % x for x in self.opcode1]
opcodes_str.extend("0x%02X" % x for x in self.opcode2)
# Ensure opcodes initializer string is 3 long
opcodes_str.extend(["0", "0", "0"])
opcodes_str = "{" + ', '.join(opcodes_str[0:3]) + "}"
cpus_str = "|".join("CPU_%s" % x for x in sorted(self.cpu))
if len(self.modifiers) > 3:
raise ValueError("too many modifiers: %s" % (self.modifiers,))
cpus_str = []
if self.cpu is not None:
if len(self.cpu) > 3:
raise ValueError("too many CPUs: %s" % (self.cpu,))
# Ensure CPUs initializer string is at least 3 long
cpus_str.extend("CPU_%s" % x for x in sorted(self.cpu))
# Ensure cpus initializer string is 3 long; 0=CPU_Any
cpus_str.extend(["0", "0", "0"])
mods = ["MOD_%s" % x for x in self.modifiers]
# Ensure mods initializer string is 3 long
mods.extend(["0", "0", "0"])
mod_str = "{" + ', '.join(mods[0:3]) + "}"
gas_flags = []
if self.gas_only:
gas_flags.append("GAS_ONLY")
if self.gas_illegal:
gas_flags.append("GAS_ILLEGAL")
if self.gas_no_rev:
gas_flags.append("GAS_NO_REV")
if self.suffixes:
gas_flags.extend("SUF_%s" % x for x in sorted(self.suffixes))
gas_flags = "|".join(gas_flags)
# Build instruction info structure initializer
return "{ "+ ", ".join([gas_flags or "0",
"|".join(self.misc_flags) or "0",
cpus_str[0],
cpus_str[1],
cpus_str[2],
mod_str,
"%d" % (self.opersize or 0),
"%d" % (self.def_opersize_64 or 0),
self.special_prefix or "0",
"%d" % self.opcode_len,
opcodes_str,
"%d" % (self.spare or 0),
"%d" % len(self.operands),
"%d" % self.all_operands_index]) + " }"
groups = {}
groupnames_ordered = []
def add_group(name, **kwargs):
forms = groups.setdefault(name, [])
forms.append(GroupForm(**kwargs))
groupnames_ordered.append(name)
class Insn(object):
def __init__(self, groupname, suffix=None, parser=None, modifiers=None,
cpu=None, misc_flags=None, only64=False, not64=False,
avx=False):
self.groupname = groupname
if suffix is None:
self.suffix = None
else:
self.suffix = suffix.upper()
self.parsers = None
if suffix is not None:
self.parsers = set(["gas"])
if parser is not None:
self.parsers = set([parser])
if modifiers is None:
self.modifiers = []
else:
self.modifiers = modifiers
if cpu is None:
self.cpu = None
else:
self.cpu = set(cpu)
if misc_flags is None:
self.misc_flags = None
else:
self.misc_flags = set([x for x in misc_flags])
if only64:
if self.misc_flags is None:
self.misc_flags = set()
self.misc_flags.add("ONLY_64")
if not64:
if self.misc_flags is None:
self.misc_flags = set()
self.misc_flags.add("NOT_64")
if avx:
if self.misc_flags is None:
self.misc_flags = set()
self.misc_flags.add("ONLY_AVX")
if self.cpu is None:
self.cpu = set(["AVX"])
def auto_cpu(self, parser):
"""Determine lowest common denominator CPU from group and suffix.
Does nothing if CPU is already set."""
if self.cpu is not None:
return
# Scan through group, matching parser and suffix
for form in groups[self.groupname]:
if parser not in form.parsers:
continue
if (self.suffix is not None and len(self.suffix) == 1 and
(form.suffixes is None or self.suffix not in form.suffixes)):
continue
if self.cpu is None:
self.cpu = set(form.cpu)
else:
self.cpu = cpu_lcd(self.cpu, form.cpu)
def auto_misc_flags(self, parser):
"""Determine lowest common denominator flags from group and suffix.
Does nothing if flags is already set."""
if self.misc_flags is not None:
return
# Scan through group, matching parser and suffix
for form in groups[self.groupname]:
if parser not in form.parsers:
continue
if (self.suffix is not None and len(self.suffix) == 1 and
(form.suffixes is None or self.suffix not in form.suffixes)):
continue
if self.misc_flags is None:
self.misc_flags = set(form.misc_flags)
else:
self.misc_flags &= form.misc_flags
def copy(self):
"""Return a shallow copy."""
return Insn(self.groupname,
suffix=self.suffix,
modifiers=self.modifiers,
cpu=self.cpu,
misc_flags=self.misc_flags)
def __str__(self):
if self.suffix is None:
suffix_str = "SUF_Z"
elif len(self.suffix) == 1:
suffix_str = "SUF_" + self.suffix
else:
suffix_str = self.suffix
cpus_str = []
if self.cpu is not None:
if len(self.cpu) > 3:
raise ValueError("too many CPUs: %s" % (self.cpu,))
cpus_str.extend("CPU_%s" % x for x in sorted(self.cpu))
# Ensure cpus initializer string is 3 long
cpus_str.extend(["0", "0", "0"])
if len(self.modifiers) > 3:
raise ValueError("too many modifiers")
mods_str = ["0x%02X" % x for x in self.modifiers]
# Ensure modifiers is at least 3 long
mods_str.extend(["0", "0", "0"])
return ",\t".join(["%s_insn" % self.groupname,
"%d" % len(groups[self.groupname]),
suffix_str,
mods_str[0],
mods_str[1],
mods_str[2],
"|".join(self.misc_flags or []) or "0",
cpus_str[0],
cpus_str[1],
cpus_str[2]])
insns = {}
def add_insn(name, groupname, **kwargs):
opts = insns.setdefault(name, [])
opts.append(Insn(groupname, **kwargs))
class Prefix(object):
def __init__(self, groupname, value, only64=False):
self.groupname = groupname
self.value = value
self.only64 = only64
def __str__(self):
return ",\t".join(["NULL",
"X86_%s>>8" % self.groupname,
"0x%02X" % self.value,
"0",
"0",
"0",
self.only64 and "ONLY_64" or "0",
"0",
"0",
"0"])
gas_insns = {}
nasm_insns = {}
def add_prefix(name, groupname, value, parser=None, **kwargs):
prefix = Prefix(groupname, value, **kwargs)
if parser is None or parser == "gas":
gas_insns[name] = prefix
if parser is None or parser == "nasm":
nasm_insns[name] = prefix
def finalize_insns():
unused_groups = set(groups.keys())
for name in insns:
for insn in insns[name]:
group = groups[insn.groupname]
unused_groups.discard(insn.groupname)
parsers = set()
for form in group:
parsers |= form.parsers
if insn.parsers is not None:
parsers &= insn.parsers
if "gas" in parsers:
suffixes = set()
if insn.suffix is None:
for form in group:
if form.gen_suffix and form.suffixes is not None:
suffixes |= form.suffixes
if not suffixes:
suffixes.add("Z")
for suffix in suffixes:
if suffix == "Z":
keyword = name
else:
keyword = name+suffix
keyword = keyword.lower()
if keyword in gas_insns:
raise ValueError("duplicate gas instruction %s" %
keyword)
newinsn = insn.copy()
if insn.suffix is None:
newinsn.suffix = suffix
newinsn.auto_cpu("gas")
newinsn.auto_misc_flags("gas")
gas_insns[keyword] = newinsn
if "nasm" in parsers:
keyword = name
if keyword in nasm_insns:
raise ValueError("duplicate nasm instruction %s" % keyword)
newinsn = insn.copy()
newinsn.auto_cpu("nasm")
newinsn.auto_misc_flags("nasm")
nasm_insns[keyword] = newinsn
unused_groups.discard("empty")
unused_groups.discard("not64")
if unused_groups:
lprint("warning: unused groups: %s" % ", ".join(unused_groups))
def output_insns(f, parser, insns):
lprint("/* Generated by %s r%s, do not edit */" % \
(scriptname, scriptrev), f)
lprint("""%%ignore-case
%%language=ANSI-C
%%compare-strncmp
%%readonly-tables
%%enum
%%struct-type
%%define hash-function-name insnprefix_%s_hash
%%define lookup-function-name insnprefix_%s_find
struct insnprefix_parse_data;
%%%%""" % (parser, parser), f)
for keyword in sorted(insns):
lprint("%s,\t%s" % (keyword.lower(), insns[keyword]), f)
def output_gas_insns(f):
output_insns(f, "gas", gas_insns)
def output_nasm_insns(f):
output_insns(f, "nasm", nasm_insns)
def output_groups(f):
# Merge all operand lists into single list
# Sort by number of operands to shorten output
all_operands = []
if version_info[0] == 2:
gi = groups.itervalues()
else:
gi = groups.values()
for form in sorted((form for g in gi for form in g),
key=lambda x:len(x.operands), reverse=True):
num_operands = len(form.operands)
for i in range(len(all_operands)):
if all_operands[i:i+num_operands] == form.operands:
form.all_operands_index = i
break
else:
form.all_operands_index = len(all_operands)
all_operands.extend(form.operands)
# Output operands list
lprint("/* Generated by %s r%s, do not edit */" % \
(scriptname, scriptrev), f)
lprint("static const x86_info_operand insn_operands[] = {", f)
lprint(" ", f, '')
lprint(",\n ".join(str(x) for x in all_operands), f)
lprint("};\n", f)
# Output groups
seen = set()
for name in groupnames_ordered:
if name in seen:
continue
seen.add(name)
lprint("static const x86_insn_info %s_insn[] = {" % name, f)
lprint(" ", f, '')
lprint(",\n ".join(str(x) for x in groups[name]), f)
lprint("};\n", f)
#####################################################################
# General instruction groupings
#####################################################################
#
# Empty instruction
#
add_group("empty", opcode=[], operands=[])
#
# Placeholder for instructions invalid in 64-bit mode
#
add_group("not64", opcode=[], operands=[], not64=True)
#
# One byte opcode instructions with no operands
#
add_group("onebyte",
modifiers=["Op0Add", "OpSizeR", "DOpS64R"],
opcode=[0x00],
operands=[])
#
# One byte opcode instructions with "special" prefix with no operands
#
add_group("onebyte_prefix",
modifiers=["PreAdd", "Op0Add"],
prefix=0x00,
opcode=[0x00],
operands=[])
#
# Two byte opcode instructions with no operands
#
add_group("twobyte",
gen_suffix=False,
suffixes=["l", "q"],
modifiers=["Op0Add", "Op1Add"],
opcode=[0x00, 0x00],
operands=[])
#
# Three byte opcode instructions with no operands
#
add_group("threebyte",
modifiers=["Op0Add", "Op1Add", "Op2Add"],
opcode=[0x00, 0x00, 0x00],
operands=[])
#
# One byte opcode instructions with general memory operand
#
add_group("onebytemem",
gen_suffix=False,
suffixes=["l", "q", "s"],
modifiers=["SpAdd", "Op0Add"],
opcode=[0x00],
spare=0,
operands=[Operand(type="Mem", dest="EA")])
#
# Two byte opcode instructions with general memory operand
#
add_group("twobytemem",
gen_suffix=False,
suffixes=["w", "l", "q", "s"],
modifiers=["SpAdd", "Op0Add", "Op1Add"],
opcode=[0x00, 0x00],
spare=0,
operands=[Operand(type="Mem", relaxed=True, dest="EA")])
#
# mov
#
# Absolute forms for non-64-bit mode
for sfx, sz in zip("bwl", [8, 16, 32]):
add_group("mov",
suffix=sfx,
not64=True,
opersize=sz,
opcode=[0xA0+(sz!=8)],
operands=[Operand(type="Areg", size=sz, dest=None),
Operand(type="MemOffs", size=sz, relaxed=True, dest="EA")])
for sfx, sz in zip("bwl", [8, 16, 32]):
add_group("mov",
suffix=sfx,
not64=True,
opersize=sz,
opcode=[0xA2+(sz!=8)],
operands=[Operand(type="MemOffs", size=sz, relaxed=True, dest="EA"),
Operand(type="Areg", size=sz, dest=None)])
# 64-bit absolute forms for 64-bit mode. Disabled for GAS, see movabs
for sz in (8, 16, 32, 64):
add_group("mov",
opersize=sz,
opcode=[0xA0+(sz!=8)],
only64=True,
operands=[Operand(type="Areg", size=sz, dest=None),
Operand(type="MemOffs", size=sz, relaxed=True, dest="EA64")])
for sz in (8, 16, 32, 64):
add_group("mov",
only64=True,
opersize=sz,
opcode=[0xA2+(sz!=8)],
operands=[Operand(type="MemOffs", size=sz, relaxed=True, dest="EA64"),
Operand(type="Areg", size=sz, dest=None)])
# General 32-bit forms using Areg / short absolute option
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("mov",
suffix=sfx,
opersize=sz,
opcode1=[0x88+(sz!=8)],
opcode2=[0xA2+(sz!=8)],
operands=[
Operand(type="RM", size=sz, relaxed=True, dest="EA", opt="ShortMov"),
Operand(type="Areg", size=sz, dest="Spare")])
# General 32-bit forms
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("mov",
suffix=sfx,
opersize=sz,
opcode=[0x88+(sz!=8)],
operands=[Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Reg", size=sz, dest="Spare")])
# General 32-bit forms using Areg / short absolute option
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("mov",
suffix=sfx,
opersize=sz,
opcode1=[0x8A+(sz!=8)],
opcode2=[0xA0+(sz!=8)],
operands=[Operand(type="Areg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA",
opt="ShortMov")])
# General 32-bit forms
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("mov",
suffix=sfx,
opersize=sz,
opcode=[0x8A+(sz!=8)],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA")])
# Segment register forms
add_group("mov",
suffix="w",
opcode=[0x8C],
operands=[Operand(type="Mem", size=16, relaxed=True, dest="EA"),
Operand(type="SegReg", size=16, relaxed=True, dest="Spare")])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("mov",
suffix=sfx,
opersize=sz,
opcode=[0x8C],
operands=[
Operand(type="Reg", size=sz, dest="EA"),
Operand(type="SegReg", size=16, relaxed=True, dest="Spare")])
add_group("mov",
suffix="w",
opcode=[0x8E],
operands=[Operand(type="SegReg", size=16, relaxed=True, dest="Spare"),
Operand(type="RM", size=16, relaxed=True, dest="EA")])
for sfx, sz in zip("lq", [32, 64]):
add_group("mov",
suffix=sfx,
opcode=[0x8E],
operands=[
Operand(type="SegReg", size=16, relaxed=True, dest="Spare"),
Operand(type="Reg", size=sz, dest="EA")])
# Immediate forms
add_group("mov",
suffix="b",
opcode=[0xB0],
operands=[Operand(type="Reg", size=8, dest="Op0Add"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
for sfx, sz in zip("wl", [16, 32]):
add_group("mov",
suffix=sfx,
opersize=sz,
opcode=[0xB8],
operands=[Operand(type="Reg", size=sz, dest="Op0Add"),
Operand(type="Imm", size=sz, relaxed=True, dest="Imm")])
# 64-bit forced size form
add_group("mov",
parsers=["nasm"],
opersize=64,
opcode=[0xB8],
operands=[Operand(type="Reg", size=64, dest="Op0Add"),
Operand(type="Imm", size=64, dest="Imm")])
add_group("mov",
suffix="q",
opersize=64,
opcode1=[0xB8],
opcode2=[0xC7],
operands=[Operand(type="Reg", size=64, dest="Op0Add"),
Operand(type="Imm", size=64, relaxed=True, dest="Imm",
opt="SImm32Avail")])
# Need two sets here, one for strictness on left side, one for right.
for sfx, sz, immsz in zip("bwlq", [8, 16, 32, 64], [8, 16, 32, 32]):
add_group("mov",
suffix=sfx,
opersize=sz,
opcode=[0xC6+(sz!=8)],
operands=[Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Imm", size=immsz, dest="Imm")])
for sfx, sz, immsz in zip("bwlq", [8, 16, 32, 64], [8, 16, 32, 32]):
add_group("mov",
suffix=sfx,
opersize=sz,
opcode=[0xC6+(sz!=8)],
operands=[Operand(type="RM", size=sz, dest="EA"),
Operand(type="Imm", size=immsz, relaxed=True, dest="Imm")])
# CR forms
add_group("mov",
suffix="l",
not64=True,
cpu=["Priv"],
opcode=[0x0F, 0x22],
operands=[Operand(type="CR4", size=32, dest="Spare"),
Operand(type="Reg", size=32, dest="EA")])
add_group("mov",
suffix="l",
not64=True,
cpu=["Priv"],
opcode=[0x0F, 0x22],
operands=[Operand(type="CRReg", size=32, dest="Spare"),
Operand(type="Reg", size=32, dest="EA")])
add_group("mov",
suffix="q",
cpu=["Priv"],
opcode=[0x0F, 0x22],
operands=[Operand(type="CRReg", size=32, dest="Spare"),
Operand(type="Reg", size=64, dest="EA")])
add_group("mov",
suffix="l",
not64=True,
cpu=["Priv"],
opcode=[0x0F, 0x20],
operands=[Operand(type="Reg", size=32, dest="EA"),
Operand(type="CR4", size=32, dest="Spare")])
add_group("mov",
suffix="l",
cpu=["Priv"],
not64=True,
opcode=[0x0F, 0x20],
operands=[Operand(type="Reg", size=32, dest="EA"),
Operand(type="CRReg", size=32, dest="Spare")])
add_group("mov",
suffix="q",
cpu=["Priv"],
opcode=[0x0F, 0x20],
operands=[Operand(type="Reg", size=64, dest="EA"),
Operand(type="CRReg", size=32, dest="Spare")])
# DR forms
add_group("mov",
suffix="l",
not64=True,
cpu=["Priv"],
opcode=[0x0F, 0x23],
operands=[Operand(type="DRReg", size=32, dest="Spare"),
Operand(type="Reg", size=32, dest="EA")])
add_group("mov",
suffix="q",
cpu=["Priv"],
opcode=[0x0F, 0x23],
operands=[Operand(type="DRReg", size=32, dest="Spare"),
Operand(type="Reg", size=64, dest="EA")])
add_group("mov",
suffix="l",
not64=True,
cpu=["Priv"],
opcode=[0x0F, 0x21],
operands=[Operand(type="Reg", size=32, dest="EA"),
Operand(type="DRReg", size=32, dest="Spare")])
add_group("mov",
suffix="q",
cpu=["Priv"],
opcode=[0x0F, 0x21],
operands=[Operand(type="Reg", size=64, dest="EA"),
Operand(type="DRReg", size=32, dest="Spare")])
# MMX forms for GAS parser (copied from movq)
add_group("mov",
suffix="q",
cpu=["MMX"],
parsers=["gas"],
opcode=[0x0F, 0x6F],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_group("mov",
suffix="q",
cpu=["MMX"],
parsers=["gas"],
opersize=64,
opcode=[0x0F, 0x6E],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="RM", size=64, relaxed=True, dest="EA")])
add_group("mov",
suffix="q",
cpu=["MMX"],
parsers=["gas"],
opcode=[0x0F, 0x7F],
operands=[Operand(type="SIMDRM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=64, dest="Spare")])
add_group("mov",
suffix="q",
cpu=["MMX"],
parsers=["gas"],
opersize=64,
opcode=[0x0F, 0x7E],
operands=[Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=64, dest="Spare")])
# SSE2 forms for GAS parser (copied from movq)
add_group("mov",
suffix="q",
cpu=["SSE2"],
parsers=["gas"],
prefix=0xF3,
opcode=[0x0F, 0x7E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("mov",
suffix="q",
cpu=["SSE2"],
parsers=["gas"],
prefix=0xF3,
opcode=[0x0F, 0x7E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_group("mov",
suffix="q",
cpu=["SSE2"],
parsers=["gas"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x6E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="RM", size=64, relaxed=True, dest="EA")])
add_group("mov",
suffix="q",
cpu=["SSE2"],
parsers=["gas"],
prefix=0x66,
opcode=[0x0F, 0xD6],
operands=[Operand(type="SIMDRM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("mov",
suffix="q",
cpu=["SSE2"],
parsers=["gas"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x7E],
operands=[Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_insn("mov", "mov")
#
# 64-bit absolute move (for GAS).
# These are disabled for GAS for normal mov above.
#
add_group("movabs",
suffix="b",
only64=True,
opcode=[0xA0],
operands=[Operand(type="Areg", size=8, dest=None),
Operand(type="MemOffs", size=8, relaxed=True, dest="EA64")])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("movabs",
only64=True,
suffix=sfx,
opersize=sz,
opcode=[0xA1],
operands=[Operand(type="Areg", size=sz, dest=None),
Operand(type="MemOffs", size=sz, relaxed=True,
dest="EA64")])
add_group("movabs",
suffix="b",
only64=True,
opcode=[0xA2],
operands=[Operand(type="MemOffs", size=8, relaxed=True, dest="EA64"),
Operand(type="Areg", size=8, dest=None)])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("movabs",
suffix=sfx,
only64=True,
opersize=sz,
opcode=[0xA3],
operands=[Operand(type="MemOffs", size=sz, relaxed=True,
dest="EA64"),
Operand(type="Areg", size=sz, dest=None)])
# 64-bit immediate form
add_group("movabs",
suffix="q",
opersize=64,
opcode=[0xB8],
operands=[Operand(type="Reg", size=64, dest="Op0Add"),
Operand(type="Imm", size=64, relaxed=True, dest="Imm")])
add_insn("movabs", "movabs", parser="gas")
#
# Move with sign/zero extend
#
add_group("movszx",
suffix="b",
cpu=["386"],
modifiers=["Op1Add"],
opersize=16,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=16, dest="Spare"),
Operand(type="RM", size=8, relaxed=True, dest="EA")])
add_group("movszx",
suffix="b",
cpu=["386"],
modifiers=["Op1Add"],
opersize=32,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="RM", size=8, dest="EA")])
add_group("movszx",
suffix="b",
modifiers=["Op1Add"],
opersize=64,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="RM", size=8, dest="EA")])
add_group("movszx",
suffix="w",
cpu=["386"],
modifiers=["Op1Add"],
opersize=32,
opcode=[0x0F, 0x01],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="RM", size=16, dest="EA")])
add_group("movszx",
suffix="w",
modifiers=["Op1Add"],
opersize=64,
opcode=[0x0F, 0x01],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="RM", size=16, dest="EA")])
add_insn("movsbw", "movszx", suffix="b", modifiers=[0xBE])
add_insn("movsbl", "movszx", suffix="b", modifiers=[0xBE])
add_insn("movswl", "movszx", suffix="w", modifiers=[0xBE])
add_insn("movsbq", "movszx", suffix="b", modifiers=[0xBE], only64=True)
add_insn("movswq", "movszx", suffix="w", modifiers=[0xBE], only64=True)
add_insn("movsx", "movszx", modifiers=[0xBE])
add_insn("movzbw", "movszx", suffix="b", modifiers=[0xB6])
add_insn("movzbl", "movszx", suffix="b", modifiers=[0xB6])
add_insn("movzwl", "movszx", suffix="w", modifiers=[0xB6])
add_insn("movzbq", "movszx", suffix="b", modifiers=[0xB6], only64=True)
add_insn("movzwq", "movszx", suffix="w", modifiers=[0xB6], only64=True)
add_insn("movzx", "movszx", modifiers=[0xB6])
#
# Move with sign-extend doubleword (64-bit mode only)
#
add_group("movsxd",
suffix="l",
opersize=64,
opcode=[0x63],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="RM", size=32, dest="EA")])
add_insn("movslq", "movsxd", suffix="l")
add_insn("movsxd", "movsxd", parser="nasm")
#
# Push instructions
#
add_group("push",
def_opersize_64=64,
opcode=[0x50],
operands=[Operand(type="Reg", size="BITS", dest="Op0Add")])
add_group("push",
suffix="w",
opersize=16,
def_opersize_64=64,
opcode=[0x50],
operands=[Operand(type="Reg", size=16, dest="Op0Add")])
add_group("push",
suffix="l",
not64=True,
opersize=32,
opcode=[0x50],
operands=[Operand(type="Reg", size=32, dest="Op0Add")])
add_group("push",
suffix="q",
only64=True,
def_opersize_64=64,
opcode=[0x50],
operands=[Operand(type="Reg", size=64, dest="Op0Add")])
add_group("push",
def_opersize_64=64,
opcode=[0xFF],
spare=6,
operands=[Operand(type="RM", size="BITS", dest="EA")])
add_group("push",
suffix="w",
opersize=16,
def_opersize_64=64,
opcode=[0xFF],
spare=6,
operands=[Operand(type="RM", size=16, dest="EA")])
add_group("push",
suffix="l",
not64=True,
opersize=32,
opcode=[0xFF],
spare=6,
operands=[Operand(type="RM", size=32, dest="EA")])
add_group("push",
suffix="q",
only64=True,
def_opersize_64=64,
opcode=[0xFF],
spare=6,
operands=[Operand(type="RM", size=64, dest="EA")])
add_group("push",
cpu=["186"],
parsers=["nasm"],
def_opersize_64=64,
opcode=[0x6A],
operands=[Operand(type="Imm", size=8, dest="SImm")])
add_group("push",
cpu=["186"],
parsers=["gas"],
def_opersize_64=64,
opcode=[0x6A],
operands=[Operand(type="Imm", size=8, relaxed=True, dest="SImm")])
add_group("push",
suffix="q",
only64=True,
opersize=64,
def_opersize_64=64,
opcode1=[0x6A],
opcode2=[0x68],
operands=[Operand(type="Imm", size=32, relaxed=True, dest="SImm",
opt="SImm8")])
add_group("push",
not64=True,
cpu=["186"],
parsers=["nasm"],
opcode1=[0x6A],
opcode2=[0x68],
operands=[Operand(type="Imm", size="BITS", relaxed=True, dest="Imm",
opt="SImm8")])
add_group("push",
suffix="w",
cpu=["186"],
opersize=16,
def_opersize_64=64,
opcode1=[0x6A],
opcode2=[0x68],
operands=[Operand(type="Imm", size=16, relaxed=True, dest="Imm",
opt="SImm8")])
add_group("push",
suffix="l",
not64=True,
opersize=32,
opcode1=[0x6A],
opcode2=[0x68],
operands=[Operand(type="Imm", size=32, relaxed=True, dest="Imm",
opt="SImm8")])
# Need these when we don't match the BITS size, but they need to be
# below the above line so the optimizer can kick in by default.
add_group("push",
cpu=["186"],
parsers=["nasm"],
opersize=16,
def_opersize_64=64,
opcode=[0x68],
operands=[Operand(type="Imm", size=16, dest="Imm")])
add_group("push",
not64=True,
parsers=["nasm"],
opersize=32,
opcode=[0x68],
operands=[Operand(type="Imm", size=32, dest="Imm")])
add_group("push",
only64=True,
parsers=["nasm"],
opersize=64,
def_opersize_64=64,
opcode=[0x68],
operands=[Operand(type="Imm", size=32, dest="SImm")])
add_group("push",
not64=True,
opcode=[0x0E],
operands=[Operand(type="CS", dest=None)])
add_group("push",
suffix="w",
not64=True,
opersize=16,
opcode=[0x0E],
operands=[Operand(type="CS", size=16, dest=None)])
add_group("push",
suffix="l",
not64=True,
opersize=32,
opcode=[0x0E],
operands=[Operand(type="CS", size=32, dest=None)])
add_group("push",
not64=True,
opcode=[0x16],
operands=[Operand(type="SS", dest=None)])
add_group("push",
suffix="w",
not64=True,
opersize=16,
opcode=[0x16],
operands=[Operand(type="SS", size=16, dest=None)])
add_group("push",
suffix="l",
not64=True,
opersize=32,
opcode=[0x16],
operands=[Operand(type="SS", size=32, dest=None)])
add_group("push",
not64=True,
opcode=[0x1E],
operands=[Operand(type="DS", dest=None)])
add_group("push",
suffix="w",
not64=True,
opersize=16,
opcode=[0x1E],
operands=[Operand(type="DS", size=16, dest=None)])
add_group("push",
suffix="l",
not64=True,
opersize=32,
opcode=[0x1E],
operands=[Operand(type="DS", size=32, dest=None)])
add_group("push",
not64=True,
opcode=[0x06],
operands=[Operand(type="ES", dest=None)])
add_group("push",
suffix="w",
not64=True,
opersize=16,
opcode=[0x06],
operands=[Operand(type="ES", size=16, dest=None)])
add_group("push",
suffix="l",
not64=True,
opersize=32,
opcode=[0x06],
operands=[Operand(type="ES", size=32, dest=None)])
add_group("push",
opcode=[0x0F, 0xA0],
operands=[Operand(type="FS", dest=None)])
add_group("push",
suffix="w",
opersize=16,
opcode=[0x0F, 0xA0],
operands=[Operand(type="FS", size=16, dest=None)])
add_group("push",
suffix="l",
opersize=32,
opcode=[0x0F, 0xA0],
operands=[Operand(type="FS", size=32, dest=None)])
add_group("push",
opcode=[0x0F, 0xA8],
operands=[Operand(type="GS", dest=None)])
add_group("push",
suffix="w",
opersize=16,
opcode=[0x0F, 0xA8],
operands=[Operand(type="GS", size=16, dest=None)])
add_group("push",
suffix="l",
opersize=32,
opcode=[0x0F, 0xA8],
operands=[Operand(type="GS", size=32, dest=None)])
add_insn("push", "push")
add_insn("pusha", "onebyte", modifiers=[0x60, 0], cpu=["186"], not64=True)
add_insn("pushad", "onebyte", parser="nasm", modifiers=[0x60, 32],
cpu=["386"], not64=True)
add_insn("pushal", "onebyte", parser="gas", modifiers=[0x60, 32],
cpu=["386"], not64=True)
add_insn("pushaw", "onebyte", modifiers=[0x60, 16], cpu=["186"], not64=True)
#
# Pop instructions
#
add_group("pop",
def_opersize_64=64,
opcode=[0x58],
operands=[Operand(type="Reg", size="BITS", dest="Op0Add")])
add_group("pop",
suffix="w",
opersize=16,
def_opersize_64=64,
opcode=[0x58],
operands=[Operand(type="Reg", size=16, dest="Op0Add")])
add_group("pop",
suffix="l",
not64=True,
opersize=32,
opcode=[0x58],
operands=[Operand(type="Reg", size=32, dest="Op0Add")])
add_group("pop",
suffix="q",
only64=True,
def_opersize_64=64,
opcode=[0x58],
operands=[Operand(type="Reg", size=64, dest="Op0Add")])
add_group("pop",
def_opersize_64=64,
opcode=[0x8F],
operands=[Operand(type="RM", size="BITS", dest="EA")])
add_group("pop",
suffix="w",
opersize=16,
def_opersize_64=64,
opcode=[0x8F],
operands=[Operand(type="RM", size=16, dest="EA")])
add_group("pop",
suffix="l",
not64=True,
opersize=32,
opcode=[0x8F],
operands=[Operand(type="RM", size=32, dest="EA")])
add_group("pop",
suffix="q",
only64=True,
def_opersize_64=64,
opcode=[0x8F],
operands=[Operand(type="RM", size=64, dest="EA")])
# POP CS is debateably valid on the 8086, if obsolete and undocumented.
# We don't include it because it's VERY unlikely it will ever be used
# anywhere. If someone really wants it they can db 0x0F it.
#add_group("pop",
# cpu=["Undoc", "Obs"],
# opcode=[0x0F],
# operands=[Operand(type="CS", dest=None)])
add_group("pop",
not64=True,
opcode=[0x17],
operands=[Operand(type="SS", dest=None)])
add_group("pop",
not64=True,
opersize=16,
opcode=[0x17],
operands=[Operand(type="SS", size=16, dest=None)])
add_group("pop",
not64=True,
opersize=32,
opcode=[0x17],
operands=[Operand(type="SS", size=32, dest=None)])
add_group("pop",
not64=True,
opcode=[0x1F],
operands=[Operand(type="DS", dest=None)])
add_group("pop",
not64=True,
opersize=16,
opcode=[0x1F],
operands=[Operand(type="DS", size=16, dest=None)])
add_group("pop",
not64=True,
opersize=32,
opcode=[0x1F],
operands=[Operand(type="DS", size=32, dest=None)])
add_group("pop",
not64=True,
opcode=[0x07],
operands=[Operand(type="ES", dest=None)])
add_group("pop",
not64=True,
opersize=16,
opcode=[0x07],
operands=[Operand(type="ES", size=16, dest=None)])
add_group("pop",
not64=True,
opersize=32,
opcode=[0x07],
operands=[Operand(type="ES", size=32, dest=None)])
add_group("pop",
opcode=[0x0F, 0xA1],
operands=[Operand(type="FS", dest=None)])
add_group("pop",
opersize=16,
opcode=[0x0F, 0xA1],
operands=[Operand(type="FS", size=16, dest=None)])
add_group("pop",
opersize=32,
opcode=[0x0F, 0xA1],
operands=[Operand(type="FS", size=32, dest=None)])
add_group("pop",
opcode=[0x0F, 0xA9],
operands=[Operand(type="GS", dest=None)])
add_group("pop",
opersize=16,
opcode=[0x0F, 0xA9],
operands=[Operand(type="GS", size=16, dest=None)])
add_group("pop",
opersize=32,
opcode=[0x0F, 0xA9],
operands=[Operand(type="GS", size=32, dest=None)])
add_insn("pop", "pop")
add_insn("popa", "onebyte", modifiers=[0x61, 0], cpu=["186"], not64=True)
add_insn("popad", "onebyte", parser="nasm", modifiers=[0x61, 32],
cpu=["386"], not64=True)
add_insn("popal", "onebyte", parser="gas", modifiers=[0x61, 32],
cpu=["386"], not64=True)
add_insn("popaw", "onebyte", modifiers=[0x61, 16], cpu=["186"], not64=True)
#
# Exchange instructions
#
add_group("xchg",
suffix="b",
opcode=[0x86],
operands=[Operand(type="RM", size=8, relaxed=True, dest="EA"),
Operand(type="Reg", size=8, dest="Spare")])
add_group("xchg",
suffix="b",
opcode=[0x86],
operands=[Operand(type="Reg", size=8, dest="Spare"),
Operand(type="RM", size=8, relaxed=True, dest="EA")])
# We could be extra-efficient in the 64-bit mode case here.
# XCHG AX, AX in 64-bit mode is a NOP, as it doesn't clear the
# high 48 bits of RAX. Thus we don't need the operand-size prefix.
# But this feels too clever, and probably not what the user really
# expects in the generated code, so we don't do it.
#add_group("xchg",
# suffix="w",
# only64=True,
# opcode=[0x90],
# operands=[Operand(type="Areg", size=16, dest=None),
# Operand(type="AReg", size=16, dest="Op0Add")])
add_group("xchg",
suffix="w",
opersize=16,
opcode=[0x90],
operands=[Operand(type="Areg", size=16, dest=None),
Operand(type="Reg", size=16, dest="Op0Add")])
add_group("xchg",
suffix="w",
opersize=16,
opcode=[0x90],
operands=[Operand(type="Reg", size=16, dest="Op0Add"),
Operand(type="Areg", size=16, dest=None)])
add_group("xchg",
suffix="w",
opersize=16,
opcode=[0x87],
operands=[Operand(type="RM", size=16, relaxed=True, dest="EA"),
Operand(type="Reg", size=16, dest="Spare")])
add_group("xchg",
suffix="w",
opersize=16,
opcode=[0x87],
operands=[Operand(type="Reg", size=16, dest="Spare"),
Operand(type="RM", size=16, relaxed=True, dest="EA")])
# Be careful with XCHG EAX, EAX in 64-bit mode. This needs to use
# the long form rather than the NOP form, as the long form clears
# the high 32 bits of RAX. This makes all 32-bit forms in 64-bit
# mode have consistent operation.
#
# FIXME: due to a hard-to-fix bug in how we handle generating gas suffix CPU
# rules, this causes xchgl to be CPU_Any instead of CPU_386. A hacky patch
# could fix it, but it's doubtful anyone will ever notice, so leave it.
add_group("xchg",
suffix="l",
only64=True,
opersize=32,
opcode=[0x87],
operands=[Operand(type="Areg", size=32, dest="EA"),
Operand(type="Areg", size=32, dest="Spare")])
add_group("xchg",
suffix="l",
opersize=32,
opcode=[0x90],
operands=[Operand(type="Areg", size=32, dest=None),
Operand(type="Reg", size=32, dest="Op0Add")])
add_group("xchg",
suffix="l",
opersize=32,
opcode=[0x90],
operands=[Operand(type="Reg", size=32, dest="Op0Add"),
Operand(type="Areg", size=32, dest=None)])
add_group("xchg",
suffix="l",
opersize=32,
opcode=[0x87],
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="Reg", size=32, dest="Spare")])
add_group("xchg",
suffix="l",
opersize=32,
opcode=[0x87],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="RM", size=32, relaxed=True, dest="EA")])
# Be efficient with XCHG RAX, RAX.
# This is a NOP and thus doesn't need the REX prefix.
add_group("xchg",
suffix="q",
only64=True,
opcode=[0x90],
operands=[Operand(type="Areg", size=64, dest=None),
Operand(type="Areg", size=64, dest="Op0Add")])
add_group("xchg",
suffix="q",
opersize=64,
opcode=[0x90],
operands=[Operand(type="Areg", size=64, dest=None),
Operand(type="Reg", size=64, dest="Op0Add")])
add_group("xchg",
suffix="q",
opersize=64,
opcode=[0x90],
operands=[Operand(type="Reg", size=64, dest="Op0Add"),
Operand(type="Areg", size=64, dest=None)])
add_group("xchg",
suffix="q",
opersize=64,
opcode=[0x87],
operands=[Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="Reg", size=64, dest="Spare")])
add_group("xchg",
suffix="q",
opersize=64,
opcode=[0x87],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="RM", size=64, relaxed=True, dest="EA")])
add_insn("xchg", "xchg")
#####################################################################
# In/out from ports
#####################################################################
add_group("in",
suffix="b",
opcode=[0xE4],
operands=[Operand(type="Areg", size=8, dest=None),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
for sfx, sz in zip("wl", [16, 32]):
add_group("in",
suffix=sfx,
opersize=sz,
opcode=[0xE5],
operands=[Operand(type="Areg", size=sz, dest=None),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("in",
suffix="b",
opcode=[0xEC],
operands=[Operand(type="Areg", size=8, dest=None),
Operand(type="Dreg", size=16, dest=None)])
for sfx, sz in zip("wl", [16, 32]):
add_group("in",
suffix=sfx,
opersize=sz,
opcode=[0xED],
operands=[Operand(type="Areg", size=sz, dest=None),
Operand(type="Dreg", size=16, dest=None)])
# GAS-only variants (implicit accumulator register)
add_group("in",
suffix="b",
parsers=["gas"],
opcode=[0xE4],
operands=[Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
for sfx, sz in zip("wl", [16, 32]):
add_group("in",
suffix=sfx,
parsers=["gas"],
opersize=sz,
opcode=[0xE5],
operands=[Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("in",
suffix="b",
parsers=["gas"],
opcode=[0xEC],
operands=[Operand(type="Dreg", size=16, dest=None)])
add_group("in",
suffix="w",
parsers=["gas"],
opersize=16,
opcode=[0xED],
operands=[Operand(type="Dreg", size=16, dest=None)])
add_group("in",
suffix="l",
cpu=["386"],
parsers=["gas"],
opersize=32,
opcode=[0xED],
operands=[Operand(type="Dreg", size=16, dest=None)])
add_insn("in", "in")
add_group("out",
suffix="b",
opcode=[0xE6],
operands=[Operand(type="Imm", size=8, relaxed=True, dest="Imm"),
Operand(type="Areg", size=8, dest=None)])
for sfx, sz in zip("wl", [16, 32]):
add_group("out",
suffix=sfx,
opersize=sz,
opcode=[0xE7],
operands=[Operand(type="Imm", size=8, relaxed=True, dest="Imm"),
Operand(type="Areg", size=sz, dest=None)])
add_group("out",
suffix="b",
opcode=[0xEE],
operands=[Operand(type="Dreg", size=16, dest=None),
Operand(type="Areg", size=8, dest=None)])
for sfx, sz in zip("wl", [16, 32]):
add_group("out",
suffix=sfx,
opersize=sz,
opcode=[0xEF],
operands=[Operand(type="Dreg", size=16, dest=None),
Operand(type="Areg", size=sz, dest=None)])
# GAS-only variants (implicit accumulator register)
add_group("out",
suffix="b",
parsers=["gas"],
opcode=[0xE6],
operands=[Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("out",
suffix="w",
parsers=["gas"],
opersize=16,
opcode=[0xE7],
operands=[Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("out",
suffix="l",
cpu=["386"],
parsers=["gas"],
opersize=32,
opcode=[0xE7],
operands=[Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("out",
suffix="b",
parsers=["gas"],
opcode=[0xEE],
operands=[Operand(type="Dreg", size=16, dest=None)])
add_group("out",
suffix="w",
parsers=["gas"],
opersize=16,
opcode=[0xEF],
operands=[Operand(type="Dreg", size=16, dest=None)])
add_group("out",
suffix="l",
cpu=["386"],
parsers=["gas"],
opersize=32,
opcode=[0xEF],
operands=[Operand(type="Dreg", size=16, dest=None)])
add_insn("out", "out")
#
# Load effective address
#
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("lea",
suffix=sfx,
opersize=sz,
opcode=[0x8D],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="Mem", relaxed=True, dest="EA")])
add_insn("lea", "lea")
#
# Load segment registers from memory
#
for sfx, sz in zip("wl", [16, 32]):
add_group("ldes",
suffix=sfx,
not64=True,
modifiers=["Op0Add"],
opersize=sz,
opcode=[0x00],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="Mem", relaxed=True, dest="EA")])
add_insn("lds", "ldes", modifiers=[0xC5])
add_insn("les", "ldes", modifiers=[0xC4])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("lfgss",
suffix=sfx,
cpu=["386"],
modifiers=["Op1Add"],
opersize=sz,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="Mem", relaxed=True, dest="EA")])
add_insn("lfs", "lfgss", modifiers=[0xB4])
add_insn("lgs", "lfgss", modifiers=[0xB5])
add_insn("lss", "lfgss", modifiers=[0xB2])
#
# Flags registers instructions
#
add_insn("clc", "onebyte", modifiers=[0xF8])
add_insn("cld", "onebyte", modifiers=[0xFC])
add_insn("cli", "onebyte", modifiers=[0xFA])
add_insn("clts", "twobyte", modifiers=[0x0F, 0x06], cpu=["286", "Priv"])
add_insn("cmc", "onebyte", modifiers=[0xF5])
add_insn("lahf", "onebyte", modifiers=[0x9F])
add_insn("sahf", "onebyte", modifiers=[0x9E])
add_insn("pushf", "onebyte", modifiers=[0x9C, 0, 64])
add_insn("pushfd", "onebyte", parser="nasm", modifiers=[0x9C, 32],
cpu=["386"], not64=True)
add_insn("pushfl", "onebyte", parser="gas", modifiers=[0x9C, 32],
cpu=["386"], not64=True)
add_insn("pushfw", "onebyte", modifiers=[0x9C, 16, 64])
add_insn("pushfq", "onebyte", modifiers=[0x9C, 64, 64], only64=True)
add_insn("popf", "onebyte", modifiers=[0x9D, 0, 64])
add_insn("popfd", "onebyte", parser="nasm", modifiers=[0x9D, 32],
cpu=["386"], not64=True)
add_insn("popfl", "onebyte", parser="gas", modifiers=[0x9D, 32],
cpu=["386"], not64=True)
add_insn("popfw", "onebyte", modifiers=[0x9D, 16, 64])
add_insn("popfq", "onebyte", modifiers=[0x9D, 64, 64], only64=True)
add_insn("stc", "onebyte", modifiers=[0xF9])
add_insn("std", "onebyte", modifiers=[0xFD])
add_insn("sti", "onebyte", modifiers=[0xFB])
#
# Arithmetic - general
#
add_group("arith",
suffix="b",
modifiers=["Op0Add"],
opcode=[0x04],
operands=[Operand(type="Areg", size=8, dest=None),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
for sfx, sz, immsz in zip("wlq", [16, 32, 64], [16, 32, 32]):
add_group("arith",
suffix=sfx,
modifiers=["Op2Add", "Op1AddSp"],
opersize=sz,
opcode1=[0x83, 0xC0],
opcode2=[0x05],
operands=[Operand(type="Areg", size=sz, dest=None),
Operand(type="Imm", size=immsz, relaxed=True, dest="Imm",
opt="SImm8")])
add_group("arith",
suffix="b",
modifiers=["Gap", "SpAdd"],
opcode=[0x80],
spare=0,
operands=[Operand(type="RM", size=8, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("arith",
suffix="b",
modifiers=["Gap", "SpAdd"],
opcode=[0x80],
spare=0,
operands=[Operand(type="RM", size=8, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, dest="Imm")])
add_group("arith",
suffix="w",
modifiers=["Gap", "SpAdd"],
opersize=16,
opcode=[0x83],
spare=0,
operands=[Operand(type="RM", size=16, dest="EA"),
Operand(type="Imm", size=8, dest="SImm")])
add_group("arith",
parsers=["nasm"],
modifiers=["Gap", "SpAdd"],
opersize=16,
opcode1=[0x83],
opcode2=[0x81],
spare=0,
operands=[Operand(type="RM", size=16, relaxed=True, dest="EA"),
Operand(type="Imm", size=16, dest="Imm", opt="SImm8")])
add_group("arith",
suffix="w",
modifiers=["Gap", "SpAdd"],
opersize=16,
opcode1=[0x83],
opcode2=[0x81],
spare=0,
operands=[
Operand(type="RM", size=16, dest="EA"),
Operand(type="Imm", size=16, relaxed=True, dest="Imm", opt="SImm8")])
add_group("arith",
suffix="l",
modifiers=["Gap", "SpAdd"],
opersize=32,
opcode=[0x83],
spare=0,
operands=[Operand(type="RM", size=32, dest="EA"),
Operand(type="Imm", size=8, dest="SImm")])
# Not64 because we can't tell if add [], dword in 64-bit mode is supposed
# to be a qword destination or a dword destination.
add_group("arith",
not64=True,
parsers=["nasm"],
modifiers=["Gap", "SpAdd"],
opersize=32,
opcode1=[0x83],
opcode2=[0x81],
spare=0,
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="Imm", size=32, dest="Imm", opt="SImm8")])
add_group("arith",
suffix="l",
modifiers=["Gap", "SpAdd"],
opersize=32,
opcode1=[0x83],
opcode2=[0x81],
spare=0,
operands=[
Operand(type="RM", size=32, dest="EA"),
Operand(type="Imm", size=32, relaxed=True, dest="Imm", opt="SImm8")])
# No relaxed-RM mode for 64-bit destinations; see above Not64 comment.
add_group("arith",
suffix="q",
modifiers=["Gap", "SpAdd"],
opersize=64,
opcode=[0x83],
spare=0,
operands=[Operand(type="RM", size=64, dest="EA"),
Operand(type="Imm", size=8, dest="SImm")])
add_group("arith",
suffix="q",
modifiers=["Gap", "SpAdd"],
opersize=64,
opcode1=[0x83],
opcode2=[0x81],
spare=0,
operands=[
Operand(type="RM", size=64, dest="EA"),
Operand(type="Imm", size=32, relaxed=True, dest="Imm", opt="SImm8")])
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("arith",
suffix=sfx,
modifiers=["Op0Add"],
opersize=sz,
opcode=[0x00+(sz!=8)],
operands=[Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Reg", size=sz, dest="Spare")])
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("arith",
suffix=sfx,
modifiers=["Op0Add"],
opersize=sz,
opcode=[0x02+(sz!=8)],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA")])
add_insn("add", "arith", modifiers=[0x00, 0])
add_insn("or", "arith", modifiers=[0x08, 1])
add_insn("adc", "arith", modifiers=[0x10, 2])
add_insn("sbb", "arith", modifiers=[0x18, 3])
add_insn("and", "arith", modifiers=[0x20, 4])
add_insn("sub", "arith", modifiers=[0x28, 5])
add_insn("xor", "arith", modifiers=[0x30, 6])
add_insn("cmp", "arith", modifiers=[0x38, 7])
#
# Arithmetic - inc/dec
#
add_group("incdec",
suffix="b",
modifiers=["Gap", "SpAdd"],
opcode=[0xFE],
spare=0,
operands=[Operand(type="RM", size=8, dest="EA")])
for sfx, sz in zip("wl", [16, 32]):
add_group("incdec",
suffix=sfx,
not64=True,
modifiers=["Op0Add"],
opersize=sz,
opcode=[0x00],
operands=[Operand(type="Reg", size=sz, dest="Op0Add")])
add_group("incdec",
suffix=sfx,
modifiers=["Gap", "SpAdd"],
opersize=sz,
opcode=[0xFF],
spare=0,
operands=[Operand(type="RM", size=sz, dest="EA")])
add_group("incdec",
suffix="q",
modifiers=["Gap", "SpAdd"],
opersize=64,
opcode=[0xFF],
spare=0,
operands=[Operand(type="RM", size=64, dest="EA")])
add_insn("inc", "incdec", modifiers=[0x40, 0])
add_insn("dec", "incdec", modifiers=[0x48, 1])
#
# Arithmetic - mul/neg/not F6 opcodes
#
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("f6",
suffix=sfx,
modifiers=["SpAdd"],
opersize=sz,
opcode=[0xF6+(sz!=8)],
spare=0,
operands=[Operand(type="RM", size=sz, dest="EA")])
add_insn("not", "f6", modifiers=[2])
add_insn("neg", "f6", modifiers=[3])
add_insn("mul", "f6", modifiers=[4])
#
# Arithmetic - div/idiv F6 opcodes
# These allow explicit accumulator in GAS mode.
#
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("div",
suffix=sfx,
modifiers=["SpAdd"],
opersize=sz,
opcode=[0xF6+(sz!=8)],
spare=0,
operands=[Operand(type="RM", size=sz, dest="EA")])
# Versions with explicit accumulator
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("div",
suffix=sfx,
modifiers=["SpAdd"],
opersize=sz,
opcode=[0xF6+(sz!=8)],
spare=0,
operands=[Operand(type="Areg", size=sz, dest=None),
Operand(type="RM", size=sz, dest="EA")])
add_insn("div", "div", modifiers=[6])
add_insn("idiv", "div", modifiers=[7])
#
# Arithmetic - test instruction
#
for sfx, sz, immsz in zip("bwlq", [8, 16, 32, 64], [8, 16, 32, 32]):
add_group("test",
suffix=sfx,
opersize=sz,
opcode=[0xA8+(sz!=8)],
operands=[Operand(type="Areg", size=sz, dest=None),
Operand(type="Imm", size=immsz, relaxed=True, dest="Imm")])
for sfx, sz, immsz in zip("bwlq", [8, 16, 32, 64], [8, 16, 32, 32]):
add_group("test",
suffix=sfx,
opersize=sz,
opcode=[0xF6+(sz!=8)],
operands=[Operand(type="RM", size=sz, dest="EA"),
Operand(type="Imm", size=immsz, relaxed=True, dest="Imm")])
add_group("test",
suffix=sfx,
opersize=sz,
opcode=[0xF6+(sz!=8)],
operands=[Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Imm", size=immsz, dest="Imm")])
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("test",
suffix=sfx,
opersize=sz,
opcode=[0x84+(sz!=8)],
operands=[Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Reg", size=sz, dest="Spare")])
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("test",
suffix=sfx,
opersize=sz,
opcode=[0x84+(sz!=8)],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA")])
add_insn("test", "test")
#
# Arithmetic - aad/aam
#
add_group("aadm",
modifiers=["Op0Add"],
opcode=[0xD4, 0x0A],
operands=[])
add_group("aadm",
modifiers=["Op0Add"],
opcode=[0xD4],
operands=[Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("aaa", "onebyte", modifiers=[0x37], not64=True)
add_insn("aas", "onebyte", modifiers=[0x3F], not64=True)
add_insn("daa", "onebyte", modifiers=[0x27], not64=True)
add_insn("das", "onebyte", modifiers=[0x2F], not64=True)
add_insn("aad", "aadm", modifiers=[0x01], not64=True)
add_insn("aam", "aadm", modifiers=[0x00], not64=True)
#
# Conversion instructions
#
add_insn("cbw", "onebyte", modifiers=[0x98, 16])
add_insn("cwde", "onebyte", modifiers=[0x98, 32], cpu=["386"])
add_insn("cdqe", "onebyte", modifiers=[0x98, 64], only64=True)
add_insn("cwd", "onebyte", modifiers=[0x99, 16])
add_insn("cdq", "onebyte", modifiers=[0x99, 32], cpu=["386"])
add_insn("cqo", "onebyte", modifiers=[0x99, 64], only64=True)
#
# Conversion instructions - GAS / AT&T naming
#
add_insn("cbtw", "onebyte", parser="gas", modifiers=[0x98, 16])
add_insn("cwtl", "onebyte", parser="gas", modifiers=[0x98, 32], cpu=["386"])
add_insn("cltq", "onebyte", parser="gas", modifiers=[0x98, 64], only64=True)
add_insn("cwtd", "onebyte", parser="gas", modifiers=[0x99, 16])
add_insn("cltd", "onebyte", parser="gas", modifiers=[0x99, 32], cpu=["386"])
add_insn("cqto", "onebyte", parser="gas", modifiers=[0x99, 64], only64=True)
#
# Arithmetic - imul
#
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("imul",
suffix=sfx,
opersize=sz,
opcode=[0xF6+(sz!=8)],
spare=5,
operands=[Operand(type="RM", size=sz, dest="EA")])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("imul",
suffix=sfx,
cpu=["386"],
opersize=sz,
opcode=[0x0F, 0xAF],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA")])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("imul",
suffix=sfx,
cpu=["186"],
opersize=sz,
opcode=[0x6B],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, dest="SImm")])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("imul",
suffix=sfx,
cpu=["186"],
opersize=sz,
opcode=[0x6B],
operands=[Operand(type="Reg", size=sz, dest="SpareEA"),
Operand(type="Imm", size=8, dest="SImm")])
for sfx, sz, immsz in zip("wlq", [16, 32, 64], [16, 32, 32]):
add_group("imul",
suffix=sfx,
cpu=["186"],
opersize=sz,
opcode1=[0x6B],
opcode2=[0x69],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Imm", size=immsz, relaxed=True, dest="SImm",
opt="SImm8")])
for sfx, sz, immsz in zip("wlq", [16, 32, 64], [16, 32, 32]):
add_group("imul",
suffix=sfx,
cpu=["186"],
opersize=sz,
opcode1=[0x6B],
opcode2=[0x69],
operands=[Operand(type="Reg", size=sz, dest="SpareEA"),
Operand(type="Imm", size=immsz, relaxed=True, dest="SImm",
opt="SImm8")])
add_insn("imul", "imul")
#
# Shifts - standard
#
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("shift",
suffix=sfx,
modifiers=["SpAdd"],
opersize=sz,
opcode=[0xD2+(sz!=8)],
spare=0,
operands=[Operand(type="RM", size=sz, dest="EA"),
Operand(type="Creg", size=8, dest=None)])
add_group("shift",
suffix=sfx,
modifiers=["SpAdd"],
opersize=sz,
opcode=[0xD0+(sz!=8)],
spare=0,
operands=[Operand(type="RM", size=sz, dest="EA"),
Operand(type="Imm1", size=8, relaxed=True, dest=None)])
add_group("shift",
suffix=sfx,
cpu=["186"],
modifiers=["SpAdd"],
opersize=sz,
opcode=[0xC0+(sz!=8)],
spare=0,
operands=[Operand(type="RM", size=sz, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
# In GAS mode, single operands are equivalent to shifting by 1 forms
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("shift",
suffix=sfx,
parsers=["gas"],
modifiers=["SpAdd"],
opersize=sz,
opcode=[0xD0+(sz!=8)],
spare=0,
operands=[Operand(type="RM", size=sz, dest="EA")])
add_insn("rol", "shift", modifiers=[0])
add_insn("ror", "shift", modifiers=[1])
add_insn("rcl", "shift", modifiers=[2])
add_insn("rcr", "shift", modifiers=[3])
add_insn("sal", "shift", modifiers=[4])
add_insn("shl", "shift", modifiers=[4])
add_insn("shr", "shift", modifiers=[5])
add_insn("sar", "shift", modifiers=[7])
#
# Shifts - doubleword
#
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("shlrd",
suffix=sfx,
cpu=["386"],
modifiers=["Op1Add"],
opersize=sz,
opcode=[0x0F, 0x00],
operands=[Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("shlrd",
suffix=sfx,
cpu=["386"],
modifiers=["Op1Add"],
opersize=sz,
opcode=[0x0F, 0x01],
operands=[Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="Creg", size=8, dest=None)])
# GAS parser supports two-operand form for shift with CL count
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("shlrd",
suffix=sfx,
cpu=["386"],
parsers=["gas"],
modifiers=["Op1Add"],
opersize=sz,
opcode=[0x0F, 0x01],
operands=[Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Reg", size=sz, dest="Spare")])
add_insn("shld", "shlrd", modifiers=[0xA4])
add_insn("shrd", "shlrd", modifiers=[0xAC])
#####################################################################
# Control transfer instructions (unconditional)
#####################################################################
#
# call
#
add_group("call",
opcode=[],
operands=[Operand(type="ImmNotSegOff", dest="JmpRel")])
add_group("call",
suffix="w",
opersize=16,
opcode=[],
operands=[Operand(type="ImmNotSegOff", size=16, dest="JmpRel")])
add_group("call",
suffix="l",
not64=True,
opersize=32,
opcode=[],
operands=[Operand(type="ImmNotSegOff", size=32, dest="JmpRel")])
add_group("call",
suffixes=["l", "q"],
only64=True,
opersize=64,
opcode=[],
operands=[Operand(type="ImmNotSegOff", size=32, dest="JmpRel")])
add_group("call",
opersize=16,
def_opersize_64=64,
opcode=[0xE8],
operands=[Operand(type="Imm", size=16, tmod="Near", dest="JmpRel")])
add_group("call",
not64=True,
opersize=32,
opcode=[0xE8],
operands=[Operand(type="Imm", size=32, tmod="Near", dest="JmpRel")])
add_group("call",
only64=True,
opersize=64,
def_opersize_64=64,
opcode=[0xE8],
operands=[Operand(type="Imm", size=32, tmod="Near", dest="JmpRel")])
add_group("call",
def_opersize_64=64,
opcode=[0xE8],
operands=[Operand(type="Imm", tmod="Near", dest="JmpRel")])
add_group("call",
suffix="w",
req_suffix=True,
opersize=16,
opcode=[0xFF],
spare=2,
operands=[Operand(type="RM", size=16, dest="EA")])
add_group("call",
suffix="l",
req_suffix=True,
not64=True,
opersize=32,
opcode=[0xFF],
spare=2,
operands=[Operand(type="RM", size=32, dest="EA")])
add_group("call",
suffix="q",
req_suffix=True,
opersize=64,
def_opersize_64=64,
opcode=[0xFF],
spare=2,
operands=[Operand(type="RM", size=64, dest="EA")])
add_group("call",
parsers=["gas"],
def_opersize_64=64,
opcode=[0xFF],
spare=2,
operands=[Operand(type="Reg", size="BITS", dest="EA")])
add_group("call",
def_opersize_64=64,
opcode=[0xFF],
spare=2,
operands=[Operand(type="Mem", dest="EA")])
add_group("call",
parsers=["nasm"],
opersize=16,
def_opersize_64=64,
opcode=[0xFF],
spare=2,
operands=[Operand(type="RM", size=16, tmod="Near", dest="EA")])
add_group("call",
parsers=["nasm"],
not64=True,
opersize=32,
opcode=[0xFF],
spare=2,
operands=[Operand(type="RM", size=32, tmod="Near", dest="EA")])
add_group("call",
parsers=["nasm"],
opersize=64,
def_opersize_64=64,
opcode=[0xFF],
spare=2,
operands=[Operand(type="RM", size=64, tmod="Near", dest="EA")])
add_group("call",
parsers=["nasm"],
def_opersize_64=64,
opcode=[0xFF],
spare=2,
operands=[Operand(type="Mem", tmod="Near", dest="EA")])
# Far indirect (through memory). Needs explicit FAR override (NASM only)
for sz in [16, 32, 64]:
add_group("call",
parsers=["nasm"],
opersize=sz,
opcode=[0xFF],
spare=3,
operands=[Operand(type="Mem", size=sz, tmod="Far", dest="EA")])
add_group("call",
parsers=["nasm"],
opcode=[0xFF],
spare=3,
operands=[Operand(type="Mem", tmod="Far", dest="EA")])
# With explicit FAR override
for sz in [16, 32]:
add_group("call",
parsers=["nasm"],
not64=True,
opersize=sz,
opcode=[0x9A],
operands=[Operand(type="Imm", size=sz, tmod="Far", dest="JmpFar")])
add_group("call",
parsers=["nasm"],
not64=True,
opcode=[0x9A],
operands=[Operand(type="Imm", tmod="Far", dest="JmpFar")])
# Since not caught by first ImmNotSegOff group, implicitly FAR (in NASM).
for sz in [16, 32]:
add_group("call",
parsers=["nasm"],
not64=True,
opersize=sz,
opcode=[0x9A],
operands=[Operand(type="Imm", size=sz, dest="JmpFar")])
add_group("call",
parsers=["nasm"],
not64=True,
opcode=[0x9A],
operands=[Operand(type="Imm", dest="JmpFar")])
# Two-operand FAR (GAS only)
for sfx, sz in zip("wl", [16, 32]):
add_group("call",
suffix=sfx,
req_suffix=True,
parsers=["gas"],
not64=True,
gas_no_reverse=True,
opersize=sz,
opcode=[0x9A],
operands=[Operand(type="Imm", size=16, relaxed=True, dest="JmpFar"),
Operand(type="Imm", size=sz, relaxed=True, dest="JmpFar")])
add_group("call",
parsers=["gas"],
not64=True,
gas_no_reverse=True,
opcode=[0x9A],
operands=[Operand(type="Imm", size=16, relaxed=True, dest="JmpFar"),
Operand(type="Imm", size="BITS", relaxed=True, dest="JmpFar")])
add_insn("call", "call")
#
# jmp
#
add_group("jmp",
opcode=[],
operands=[Operand(type="ImmNotSegOff", dest="JmpRel")])
add_group("jmp",
suffix="w",
opersize=16,
opcode=[],
operands=[Operand(type="ImmNotSegOff", size=16, dest="JmpRel")])
add_group("jmp",
suffix="l",
not64=True,
opersize=32,
opcode=[0x00],
operands=[Operand(type="ImmNotSegOff", size=32, dest="JmpRel")])
add_group("jmp",
suffixes=["l", "q"],
only64=True,
opersize=64,
opcode=[0x00],
operands=[Operand(type="ImmNotSegOff", size=32, dest="JmpRel")])
add_group("jmp",
def_opersize_64=64,
opcode=[0xEB],
operands=[Operand(type="Imm", tmod="Short", dest="JmpRel")])
add_group("jmp",
opersize=16,
def_opersize_64=64,
opcode=[0xE9],
operands=[Operand(type="Imm", size=16, tmod="Near", dest="JmpRel")])
add_group("jmp",
not64=True,
cpu=["386"],
opersize=32,
opcode=[0xE9],
operands=[Operand(type="Imm", size=32, tmod="Near", dest="JmpRel")])
add_group("jmp",
only64=True,
opersize=64,
def_opersize_64=64,
opcode=[0xE9],
operands=[Operand(type="Imm", size=32, tmod="Near", dest="JmpRel")])
add_group("jmp",
def_opersize_64=64,
opcode=[0xE9],
operands=[Operand(type="Imm", tmod="Near", dest="JmpRel")])
add_group("jmp",
suffix="w",
req_suffix=True,
opersize=16,
def_opersize_64=64,
opcode=[0xFF],
spare=4,
operands=[Operand(type="RM", size=16, dest="EA")])
add_group("jmp",
suffix="l",
req_suffix=True,
not64=True,
opersize=32,
opcode=[0xFF],
spare=4,
operands=[Operand(type="RM", size=32, dest="EA")])
add_group("jmp",
suffix="q",
req_suffix=True,
opersize=64,
def_opersize_64=64,
opcode=[0xFF],
spare=4,
operands=[Operand(type="RM", size=64, dest="EA")])
add_group("jmp",
parsers=["gas"],
def_opersize_64=64,
opcode=[0xFF],
spare=4,
operands=[Operand(type="Reg", size="BITS", dest="EA")])
add_group("jmp",
def_opersize_64=64,
opcode=[0xFF],
spare=4,
operands=[Operand(type="Mem", dest="EA")])
add_group("jmp",
parsers=["nasm"],
opersize=16,
def_opersize_64=64,
opcode=[0xFF],
spare=4,
operands=[Operand(type="RM", size=16, tmod="Near", dest="EA")])
add_group("jmp",
parsers=["nasm"],
not64=True,
cpu=["386"],
opersize=32,
opcode=[0xFF],
spare=4,
operands=[Operand(type="RM", size=32, tmod="Near", dest="EA")])
add_group("jmp",
parsers=["nasm"],
opersize=64,
def_opersize_64=64,
opcode=[0xFF],
spare=4,
operands=[Operand(type="RM", size=64, tmod="Near", dest="EA")])
add_group("jmp",
parsers=["nasm"],
def_opersize_64=64,
opcode=[0xFF],
spare=4,
operands=[Operand(type="Mem", tmod="Near", dest="EA")])
# Far indirect (through memory). Needs explicit FAR override.
for sz in [16, 32, 64]:
add_group("jmp",
opersize=sz,
opcode=[0xFF],
spare=5,
operands=[Operand(type="Mem", size=sz, tmod="Far", dest="EA")])
add_group("jmp",
opcode=[0xFF],
spare=5,
operands=[Operand(type="Mem", tmod="Far", dest="EA")])
# With explicit FAR override
for sz in [16, 32]:
add_group("jmp",
not64=True,
opersize=sz,
opcode=[0xEA],
operands=[Operand(type="Imm", size=sz, tmod="Far", dest="JmpFar")])
add_group("jmp",
not64=True,
opcode=[0xEA],
operands=[Operand(type="Imm", tmod="Far", dest="JmpFar")])
# Since not caught by first ImmNotSegOff group, implicitly FAR (in NASM).
for sz in [16, 32]:
add_group("jmp",
parsers=["nasm"],
not64=True,
opersize=sz,
opcode=[0xEA],
operands=[Operand(type="Imm", size=sz, dest="JmpFar")])
add_group("jmp",
parsers=["nasm"],
not64=True,
opcode=[0xEA],
operands=[Operand(type="Imm", dest="JmpFar")])
# Two-operand FAR (GAS only)
for sfx, sz in zip("wl", [16, 32]):
add_group("jmp",
parsers=["gas"],
suffix=sfx,
req_suffix=True,
not64=True,
gas_no_reverse=True,
opersize=sz,
opcode=[0xEA],
operands=[Operand(type="Imm", size=16, relaxed=True, dest="JmpFar"),
Operand(type="Imm", size=sz, relaxed=True, dest="JmpFar")])
add_group("jmp",
parsers=["gas"],
not64=True,
gas_no_reverse=True,
opcode=[0xEA],
operands=[Operand(type="Imm", size=16, relaxed=True, dest="JmpFar"),
Operand(type="Imm", size="BITS", relaxed=True, dest="JmpFar")])
add_insn("jmp", "jmp")
#
# GAS far calls/jumps
#
# Far indirect (through memory)
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("ljmpcall",
suffix=sfx,
req_suffix=True,
opersize=sz,
modifiers=["SpAdd"],
opcode=[0xFF],
spare=0,
operands=[Operand(type="Mem", size=sz, relaxed=True, dest="EA")])
add_group("ljmpcall",
modifiers=["SpAdd"],
opcode=[0xFF],
spare=0,
operands=[Operand(type="Mem", size="BITS", relaxed=True, dest="EA")])
# Two-operand far
for sfx, sz in zip("wl", [16, 32]):
add_group("ljmpcall",
not64=True,
gas_no_reverse=True,
suffix=sfx,
req_suffix=True,
opersize=sz,
modifiers=["Gap", "Op0Add"],
opcode=[0x00],
operands=[Operand(type="Imm", size=16, relaxed=True, dest="JmpFar"),
Operand(type="Imm", size=sz, relaxed=True, dest="JmpFar")])
add_group("ljmpcall",
not64=True,
gas_no_reverse=True,
modifiers=["Gap", "Op0Add"],
opcode=[0x00],
operands=[Operand(type="Imm", size=16, relaxed=True, dest="JmpFar"),
Operand(type="Imm", size="BITS", relaxed=True, dest="JmpFar")])
add_insn("ljmp", "ljmpcall", parser="gas", modifiers=[5, 0xEA])
add_insn("lcall", "ljmpcall", parser="gas", modifiers=[3, 0x9A])
#
# ret
#
add_group("retnf",
not64=True,
modifiers=["Op0Add"],
opcode=[0x01],
operands=[])
add_group("retnf",
not64=True,
modifiers=["Op0Add"],
opcode=[0x00],
operands=[Operand(type="Imm", size=16, relaxed=True, dest="Imm")])
add_group("retnf",
only64=True,
modifiers=["Op0Add", "OpSizeR"],
opcode=[0x01],
operands=[])
add_group("retnf",
only64=True,
modifiers=["Op0Add", "OpSizeR"],
opcode=[0x00],
operands=[Operand(type="Imm", size=16, relaxed=True, dest="Imm")])
add_group("retnf",
gen_suffix=False,
suffixes=["w", "l", "q"],
modifiers=["Op0Add", "OpSizeR"],
opcode=[0x01],
operands=[])
# GAS suffix versions
add_group("retnf",
gen_suffix=False,
suffixes=["w", "l", "q"],
modifiers=["Op0Add", "OpSizeR"],
opcode=[0x00],
operands=[Operand(type="Imm", size=16, relaxed=True, dest="Imm")])
add_insn("ret", "retnf", modifiers=[0xC2])
add_insn("retw", "retnf", parser="gas", modifiers=[0xC2, 16])
add_insn("retl", "retnf", parser="gas", modifiers=[0xC2], not64=True)
add_insn("retq", "retnf", parser="gas", modifiers=[0xC2], only64=True)
add_insn("retn", "retnf", parser="nasm", modifiers=[0xC2])
add_insn("retf", "retnf", parser="nasm", modifiers=[0xCA, 64])
add_insn("lret", "retnf", parser="gas", modifiers=[0xCA], suffix="z")
add_insn("lretw", "retnf", parser="gas", modifiers=[0xCA, 16], suffix="w")
add_insn("lretl", "retnf", parser="gas", modifiers=[0xCA], suffix="l")
add_insn("lretq", "retnf", parser="gas", modifiers=[0xCA, 64], only64=True,
suffix="q")
#
# enter
#
add_group("enter",
suffix="l",
not64=True,
cpu=["186"],
gas_no_reverse=True,
opcode=[0xC8],
operands=[
Operand(type="Imm", size=16, relaxed=True, dest="EA", opt="A16"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("enter",
suffix="q",
only64=True,
cpu=["186"],
gas_no_reverse=True,
opersize=64,
def_opersize_64=64,
opcode=[0xC8],
operands=[
Operand(type="Imm", size=16, relaxed=True, dest="EA", opt="A16"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
# GAS suffix version
add_group("enter",
suffix="w",
cpu=["186"],
parsers=["gas"],
gas_no_reverse=True,
opersize=16,
opcode=[0xC8],
operands=[
Operand(type="Imm", size=16, relaxed=True, dest="EA", opt="A16"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("enter", "enter")
#
# leave
#
add_insn("leave", "onebyte", modifiers=[0xC9, 0, 64], cpu=["186"])
add_insn("leavew", "onebyte", parser="gas", modifiers=[0xC9, 16, 0],
cpu=["186"])
add_insn("leavel", "onebyte", parser="gas", modifiers=[0xC9, 0, 64],
cpu=["186"])
add_insn("leaveq", "onebyte", parser="gas", modifiers=[0xC9, 0, 64],
only64=True)
#####################################################################
# Conditional jumps
#####################################################################
add_group("jcc",
opcode=[],
operands=[Operand(type="Imm", dest="JmpRel")])
add_group("jcc",
opersize=16,
opcode=[],
operands=[Operand(type="Imm", size=16, dest="JmpRel")])
add_group("jcc",
not64=True,
opersize=32,
opcode=[],
operands=[Operand(type="Imm", size=32, dest="JmpRel")])
add_group("jcc",
only64=True,
opersize=64,
opcode=[],
operands=[Operand(type="Imm", size=32, dest="JmpRel")])
add_group("jcc",
modifiers=["Op0Add"],
def_opersize_64=64,
opcode=[0x70],
operands=[Operand(type="Imm", tmod="Short", dest="JmpRel")])
add_group("jcc",
cpu=["186"],
modifiers=["Op1Add"],
opersize=16,
def_opersize_64=64,
opcode=[0x0F, 0x80],
operands=[Operand(type="Imm", size=16, tmod="Near", dest="JmpRel")])
add_group("jcc",
not64=True,
cpu=["386"],
modifiers=["Op1Add"],
opersize=32,
opcode=[0x0F, 0x80],
operands=[Operand(type="Imm", size=32, tmod="Near", dest="JmpRel")])
add_group("jcc",
only64=True,
modifiers=["Op1Add"],
opersize=64,
def_opersize_64=64,
opcode=[0x0F, 0x80],
operands=[Operand(type="Imm", size=32, tmod="Near", dest="JmpRel")])
add_group("jcc",
cpu=["186"],
modifiers=["Op1Add"],
def_opersize_64=64,
opcode=[0x0F, 0x80],
operands=[Operand(type="Imm", tmod="Near", dest="JmpRel")])
add_insn("jo", "jcc", modifiers=[0x00])
add_insn("jno", "jcc", modifiers=[0x01])
add_insn("jb", "jcc", modifiers=[0x02])
add_insn("jc", "jcc", modifiers=[0x02])
add_insn("jnae", "jcc", modifiers=[0x02])
add_insn("jnb", "jcc", modifiers=[0x03])
add_insn("jnc", "jcc", modifiers=[0x03])
add_insn("jae", "jcc", modifiers=[0x03])
add_insn("je", "jcc", modifiers=[0x04])
add_insn("jz", "jcc", modifiers=[0x04])
add_insn("jne", "jcc", modifiers=[0x05])
add_insn("jnz", "jcc", modifiers=[0x05])
add_insn("jbe", "jcc", modifiers=[0x06])
add_insn("jna", "jcc", modifiers=[0x06])
add_insn("jnbe", "jcc", modifiers=[0x07])
add_insn("ja", "jcc", modifiers=[0x07])
add_insn("js", "jcc", modifiers=[0x08])
add_insn("jns", "jcc", modifiers=[0x09])
add_insn("jp", "jcc", modifiers=[0x0A])
add_insn("jpe", "jcc", modifiers=[0x0A])
add_insn("jnp", "jcc", modifiers=[0x0B])
add_insn("jpo", "jcc", modifiers=[0x0B])
add_insn("jl", "jcc", modifiers=[0x0C])
add_insn("jnge", "jcc", modifiers=[0x0C])
add_insn("jnl", "jcc", modifiers=[0x0D])
add_insn("jge", "jcc", modifiers=[0x0D])
add_insn("jle", "jcc", modifiers=[0x0E])
add_insn("jng", "jcc", modifiers=[0x0E])
add_insn("jnle", "jcc", modifiers=[0x0F])
add_insn("jg", "jcc", modifiers=[0x0F])
#
# jcxz
#
add_group("jcxz",
modifiers=["AdSizeR"],
opcode=[],
operands=[Operand(type="Imm", dest="JmpRel")])
add_group("jcxz",
modifiers=["AdSizeR"],
def_opersize_64=64,
opcode=[0xE3],
operands=[Operand(type="Imm", tmod="Short", dest="JmpRel")])
add_insn("jcxz", "jcxz", modifiers=[16])
add_insn("jecxz", "jcxz", modifiers=[32], cpu=["386"])
add_insn("jrcxz", "jcxz", modifiers=[64], only64=True)
#####################################################################
# Loop instructions
#####################################################################
add_group("loop",
opcode=[],
operands=[Operand(type="Imm", dest="JmpRel")])
add_group("loop",
not64=True,
opcode=[],
operands=[Operand(type="Imm", dest="JmpRel"),
Operand(type="Creg", size=16, dest="AdSizeR")])
add_group("loop",
def_opersize_64=64,
opcode=[],
operands=[Operand(type="Imm", dest="JmpRel"),
Operand(type="Creg", size=32, dest="AdSizeR")])
add_group("loop",
def_opersize_64=64,
opcode=[],
operands=[Operand(type="Imm", dest="JmpRel"),
Operand(type="Creg", size=64, dest="AdSizeR")])
add_group("loop",
not64=True,
modifiers=["Op0Add"],
opcode=[0xE0],
operands=[Operand(type="Imm", tmod="Short", dest="JmpRel")])
for sz in [16, 32, 64]:
add_group("loop",
modifiers=["Op0Add"],
def_opersize_64=64,
opcode=[0xE0],
operands=[Operand(type="Imm", tmod="Short", dest="JmpRel"),
Operand(type="Creg", size=sz, dest="AdSizeR")])
add_insn("loop", "loop", modifiers=[2])
add_insn("loopz", "loop", modifiers=[1])
add_insn("loope", "loop", modifiers=[1])
add_insn("loopnz", "loop", modifiers=[0])
add_insn("loopne", "loop", modifiers=[0])
# GAS w/l/q suffixes have to set addrsize via modifiers
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("loop"+sfx,
not64=(sz == 16),
only64=(sz == 64),
modifiers=["Gap", "AdSizeR"],
def_opersize_64=64,
opcode=[],
operands=[Operand(type="Imm", dest="JmpRel")])
add_group("loop"+sfx,
not64=(sz == 16),
only64=(sz == 64),
modifiers=["Op0Add", "AdSizeR"],
def_opersize_64=64,
opcode=[0xE0],
operands=[Operand(type="Imm", tmod="Short", dest="JmpRel")])
add_group("loop"+sfx,
not64=(sz == 16),
only64=(sz == 64),
def_opersize_64=64,
opcode=[],
operands=[Operand(type="Imm", dest="JmpRel"),
Operand(type="Creg", size=sz, dest="AdSizeR")])
add_group("loop"+sfx,
not64=(sz == 16),
only64=(sz == 64),
modifiers=["Op0Add"],
def_opersize_64=64,
opcode=[0xE0],
operands=[Operand(type="Imm", tmod="Short", dest="JmpRel"),
Operand(type="Creg", size=sz, dest="AdSizeR")])
add_insn("loop"+sfx, "loop"+sfx, parser="gas", modifiers=[2, sz])
add_insn("loopz"+sfx, "loop"+sfx, parser="gas", modifiers=[1, sz])
add_insn("loope"+sfx, "loop"+sfx, parser="gas", modifiers=[1, sz])
add_insn("loopnz"+sfx, "loop"+sfx, parser="gas", modifiers=[0, sz])
add_insn("loopne"+sfx, "loop"+sfx, parser="gas", modifiers=[0, sz])
#####################################################################
# Set byte on flag instructions
#####################################################################
add_group("setcc",
suffix="b",
cpu=["386"],
modifiers=["Op1Add"],
opcode=[0x0F, 0x90],
spare=2,
operands=[Operand(type="RM", size=8, relaxed=True, dest="EA")])
add_insn("seto", "setcc", modifiers=[0x00])
add_insn("setno", "setcc", modifiers=[0x01])
add_insn("setb", "setcc", modifiers=[0x02])
add_insn("setc", "setcc", modifiers=[0x02])
add_insn("setnae", "setcc", modifiers=[0x02])
add_insn("setnb", "setcc", modifiers=[0x03])
add_insn("setnc", "setcc", modifiers=[0x03])
add_insn("setae", "setcc", modifiers=[0x03])
add_insn("sete", "setcc", modifiers=[0x04])
add_insn("setz", "setcc", modifiers=[0x04])
add_insn("setne", "setcc", modifiers=[0x05])
add_insn("setnz", "setcc", modifiers=[0x05])
add_insn("setbe", "setcc", modifiers=[0x06])
add_insn("setna", "setcc", modifiers=[0x06])
add_insn("setnbe", "setcc", modifiers=[0x07])
add_insn("seta", "setcc", modifiers=[0x07])
add_insn("sets", "setcc", modifiers=[0x08])
add_insn("setns", "setcc", modifiers=[0x09])
add_insn("setp", "setcc", modifiers=[0x0A])
add_insn("setpe", "setcc", modifiers=[0x0A])
add_insn("setnp", "setcc", modifiers=[0x0B])
add_insn("setpo", "setcc", modifiers=[0x0B])
add_insn("setl", "setcc", modifiers=[0x0C])
add_insn("setnge", "setcc", modifiers=[0x0C])
add_insn("setnl", "setcc", modifiers=[0x0D])
add_insn("setge", "setcc", modifiers=[0x0D])
add_insn("setle", "setcc", modifiers=[0x0E])
add_insn("setng", "setcc", modifiers=[0x0E])
add_insn("setnle", "setcc", modifiers=[0x0F])
add_insn("setg", "setcc", modifiers=[0x0F])
#####################################################################
# String instructions
#####################################################################
add_insn("cmpsb", "onebyte", modifiers=[0xA6, 0])
add_insn("cmpsw", "onebyte", modifiers=[0xA7, 16])
# cmpsd has to be non-onebyte for SSE2 forms below
add_group("cmpsd",
parsers=["nasm"],
notavx=True,
opersize=32,
opcode=[0xA7],
operands=[])
add_insn("cmpsd", "cmpsd", cpu=[])
add_insn("cmpsl", "onebyte", parser="gas", modifiers=[0xA7, 32], cpu=["386"])
add_insn("cmpsq", "onebyte", modifiers=[0xA7, 64], only64=True)
add_insn("insb", "onebyte", modifiers=[0x6C, 0])
add_insn("insw", "onebyte", modifiers=[0x6D, 16])
add_insn("insd", "onebyte", parser="nasm", modifiers=[0x6D, 32], cpu=["386"])
add_insn("insl", "onebyte", parser="gas", modifiers=[0x6D, 32], cpu=["386"])
add_insn("outsb", "onebyte", modifiers=[0x6E, 0])
add_insn("outsw", "onebyte", modifiers=[0x6F, 16])
add_insn("outsd", "onebyte", parser="nasm", modifiers=[0x6F, 32],
cpu=["386"])
add_insn("outsl", "onebyte", parser="gas", modifiers=[0x6F, 32], cpu=["386"])
add_insn("lodsb", "onebyte", modifiers=[0xAC, 0])
add_insn("lodsw", "onebyte", modifiers=[0xAD, 16])
add_insn("lodsd", "onebyte", parser="nasm", modifiers=[0xAD, 32],
cpu=["386"])
add_insn("lodsl", "onebyte", parser="gas", modifiers=[0xAD, 32], cpu=["386"])
add_insn("lodsq", "onebyte", modifiers=[0xAD, 64], only64=True)
add_insn("movsb", "onebyte", modifiers=[0xA4, 0])
add_insn("movsw", "onebyte", modifiers=[0xA5, 16])
# movsd has to be non-onebyte for SSE2 forms below
add_group("movsd",
parsers=["nasm", "gas"],
notavx=True,
opersize=32,
opcode=[0xA5],
operands=[])
add_insn("movsd", "movsd", cpu=["386"])
add_insn("movsl", "onebyte", parser="gas", modifiers=[0xA5, 32], cpu=["386"])
add_insn("movsq", "onebyte", modifiers=[0xA5, 64], only64=True)
# smov alias for movs in GAS mode
add_insn("smovb", "onebyte", parser="gas", modifiers=[0xA4, 0])
add_insn("smovw", "onebyte", parser="gas", modifiers=[0xA5, 16])
add_insn("smovl", "onebyte", parser="gas", modifiers=[0xA5, 32], cpu=["386"])
add_insn("smovq", "onebyte", parser="gas", modifiers=[0xA5, 64], only64=True)
add_insn("scasb", "onebyte", modifiers=[0xAE, 0])
add_insn("scasw", "onebyte", modifiers=[0xAF, 16])
add_insn("scasd", "onebyte", parser="nasm", modifiers=[0xAF, 32],
cpu=["386"])
add_insn("scasl", "onebyte", parser="gas", modifiers=[0xAF, 32], cpu=["386"])
add_insn("scasq", "onebyte", modifiers=[0xAF, 64], only64=True)
# ssca alias for scas in GAS mode
add_insn("sscab", "onebyte", parser="gas", modifiers=[0xAE, 0])
add_insn("sscaw", "onebyte", parser="gas", modifiers=[0xAF, 16])
add_insn("sscal", "onebyte", parser="gas", modifiers=[0xAF, 32], cpu=["386"])
add_insn("sscaq", "onebyte", parser="gas", modifiers=[0xAF, 64], only64=True)
add_insn("stosb", "onebyte", modifiers=[0xAA, 0])
add_insn("stosw", "onebyte", modifiers=[0xAB, 16])
add_insn("stosd", "onebyte", parser="nasm", modifiers=[0xAB, 32],
cpu=["386"])
add_insn("stosl", "onebyte", parser="gas", modifiers=[0xAB, 32], cpu=["386"])
add_insn("stosq", "onebyte", modifiers=[0xAB, 64], only64=True)
add_insn("xlatb", "onebyte", modifiers=[0xD7, 0])
#####################################################################
# Bit manipulation
#####################################################################
#
# bit tests
#
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("bittest",
suffix=sfx,
cpu=["386"],
modifiers=["Op1Add"],
opersize=sz,
opcode=[0x0F, 0x00],
operands=[Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Reg", size=sz, dest="Spare")])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("bittest",
suffix=sfx,
cpu=["386"],
modifiers=["Gap", "SpAdd"],
opersize=sz,
opcode=[0x0F, 0xBA],
spare=0,
operands=[Operand(type="RM", size=sz, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("bt", "bittest", modifiers=[0xA3, 4])
add_insn("bts", "bittest", modifiers=[0xAB, 5])
add_insn("btr", "bittest", modifiers=[0xB3, 6])
add_insn("btc", "bittest", modifiers=[0xBB, 7])
#
# bit scans - also used for lar/lsl
#
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("bsfr",
suffix=sfx,
modifiers=["Op1Add"],
opersize=sz,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA")])
add_insn("bsf", "bsfr", modifiers=[0xBC], cpu=["386"])
add_insn("bsr", "bsfr", modifiers=[0xBD], cpu=["386"])
#####################################################################
# Interrupts and operating system instructions
#####################################################################
add_group("int",
opcode=[0xCD],
operands=[Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("int", "int")
add_insn("int3", "onebyte", modifiers=[0xCC])
add_insn("int03", "onebyte", parser="nasm", modifiers=[0xCC])
add_insn("into", "onebyte", modifiers=[0xCE], not64=True)
add_insn("iret", "onebyte", modifiers=[0xCF])
add_insn("iretw", "onebyte", modifiers=[0xCF, 16])
add_insn("iretd", "onebyte", parser="nasm", modifiers=[0xCF, 32],
cpu=["386"])
add_insn("iretl", "onebyte", parser="gas", modifiers=[0xCF, 32], cpu=["386"])
add_insn("iretq", "onebyte", modifiers=[0xCF, 64], only64=True)
add_insn("rsm", "twobyte", modifiers=[0x0F, 0xAA], cpu=["586", "SMM"])
for sfx, sz in zip("wl", [16, 32]):
add_group("bound",
suffix=sfx,
cpu=["186"],
not64=True,
opersize=sz,
opcode=[0x62],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="Mem", size=sz, relaxed=True, dest="EA")])
add_insn("bound", "bound")
add_insn("hlt", "onebyte", modifiers=[0xF4], cpu=["Priv"])
add_insn("nop", "onebyte", modifiers=[0x90])
#
# Protection control
#
for sfx, sz, sz2 in zip("wlq", [16, 32, 64], [16, 32, 32]):
add_group("larlsl",
suffix=sfx,
modifiers=["Op1Add"],
opersize=sz,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="Reg", size=sz2, dest="EA")])
add_group("larlsl",
suffix=sfx,
modifiers=["Op1Add"],
opersize=sz,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=16, relaxed=True, dest="EA")])
add_insn("lar", "larlsl", modifiers=[0x02], cpu=["286", "Prot"])
add_insn("lsl", "larlsl", modifiers=[0x03], cpu=["286", "Prot"])
add_group("arpl",
suffix="w",
cpu=["Prot", "286"],
not64=True,
opcode=[0x63],
operands=[Operand(type="RM", size=16, relaxed=True, dest="EA"),
Operand(type="Reg", size=16, dest="Spare")])
add_insn("arpl", "arpl")
for sfx in [None, "w", "l", "q"]:
add_insn("lgdt"+(sfx or ""), "twobytemem", suffix=sfx,
modifiers=[2, 0x0F, 0x01], cpu=["286", "Priv"])
add_insn("lidt"+(sfx or ""), "twobytemem", suffix=sfx,
modifiers=[3, 0x0F, 0x01], cpu=["286", "Priv"])
add_insn("sgdt"+(sfx or ""), "twobytemem", suffix=sfx,
modifiers=[0, 0x0F, 0x01], cpu=["286", "Priv"])
add_insn("sidt"+(sfx or ""), "twobytemem", suffix=sfx,
modifiers=[1, 0x0F, 0x01], cpu=["286", "Priv"])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("str",
suffix=sfx,
cpu=["Prot", "286"],
opersize=sz,
opcode=[0x0F, 0x00],
spare=1,
operands=[Operand(type="Reg", size=sz, dest="EA")])
add_group("str",
suffixes=["w", "l"],
cpu=["Prot", "286"],
opcode=[0x0F, 0x00],
spare=1,
operands=[Operand(type="RM", size=16, relaxed=True, dest="EA")])
add_insn("str", "str")
add_group("prot286",
suffix="w",
cpu=["286"],
modifiers=["SpAdd", "Op1Add"],
opcode=[0x0F, 0x00],
spare=0,
operands=[Operand(type="RM", size=16, relaxed=True, dest="EA")])
add_insn("lldt", "prot286", modifiers=[2, 0], cpu=["286", "Prot", "Priv"])
add_insn("ltr", "prot286", modifiers=[3, 0], cpu=["286", "Prot", "Priv"])
add_insn("verr", "prot286", modifiers=[4, 0], cpu=["286", "Prot"])
add_insn("verw", "prot286", modifiers=[5, 0], cpu=["286", "Prot"])
add_insn("lmsw", "prot286", modifiers=[6, 1], cpu=["286", "Priv"])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("sldtmsw",
suffix=sfx,
only64=(sz==64),
cpu=[(sz==32) and "386" or "286"],
modifiers=["SpAdd", "Op1Add"],
opcode=[0x0F, 0x00],
spare=0,
operands=[Operand(type="Mem", size=sz, relaxed=True, dest="EA")])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("sldtmsw",
suffix=sfx,
cpu=["286"],
modifiers=["SpAdd", "Op1Add"],
opersize=sz,
opcode=[0x0F, 0x00],
spare=0,
operands=[Operand(type="Reg", size=sz, dest="EA")])
add_insn("sldt", "sldtmsw", modifiers=[0, 0])
add_insn("smsw", "sldtmsw", modifiers=[4, 1])
#####################################################################
# Floating point instructions
#####################################################################
add_insn("fcompp", "twobyte", modifiers=[0xDE, 0xD9], cpu=["FPU"])
add_insn("fucompp", "twobyte", modifiers=[0xDA, 0xE9], cpu=["286", "FPU"])
add_insn("ftst", "twobyte", modifiers=[0xD9, 0xE4], cpu=["FPU"])
add_insn("fxam", "twobyte", modifiers=[0xD9, 0xE5], cpu=["FPU"])
add_insn("fld1", "twobyte", modifiers=[0xD9, 0xE8], cpu=["FPU"])
add_insn("fldl2t", "twobyte", modifiers=[0xD9, 0xE9], cpu=["FPU"])
add_insn("fldl2e", "twobyte", modifiers=[0xD9, 0xEA], cpu=["FPU"])
add_insn("fldpi", "twobyte", modifiers=[0xD9, 0xEB], cpu=["FPU"])
add_insn("fldlg2", "twobyte", modifiers=[0xD9, 0xEC], cpu=["FPU"])
add_insn("fldln2", "twobyte", modifiers=[0xD9, 0xED], cpu=["FPU"])
add_insn("fldz", "twobyte", modifiers=[0xD9, 0xEE], cpu=["FPU"])
add_insn("f2xm1", "twobyte", modifiers=[0xD9, 0xF0], cpu=["FPU"])
add_insn("fyl2x", "twobyte", modifiers=[0xD9, 0xF1], cpu=["FPU"])
add_insn("fptan", "twobyte", modifiers=[0xD9, 0xF2], cpu=["FPU"])
add_insn("fpatan", "twobyte", modifiers=[0xD9, 0xF3], cpu=["FPU"])
add_insn("fxtract", "twobyte", modifiers=[0xD9, 0xF4], cpu=["FPU"])
add_insn("fprem1", "twobyte", modifiers=[0xD9, 0xF5], cpu=["286", "FPU"])
add_insn("fdecstp", "twobyte", modifiers=[0xD9, 0xF6], cpu=["FPU"])
add_insn("fincstp", "twobyte", modifiers=[0xD9, 0xF7], cpu=["FPU"])
add_insn("fprem", "twobyte", modifiers=[0xD9, 0xF8], cpu=["FPU"])
add_insn("fyl2xp1", "twobyte", modifiers=[0xD9, 0xF9], cpu=["FPU"])
add_insn("fsqrt", "twobyte", modifiers=[0xD9, 0xFA], cpu=["FPU"])
add_insn("fsincos", "twobyte", modifiers=[0xD9, 0xFB], cpu=["286", "FPU"])
add_insn("frndint", "twobyte", modifiers=[0xD9, 0xFC], cpu=["FPU"])
add_insn("fscale", "twobyte", modifiers=[0xD9, 0xFD], cpu=["FPU"])
add_insn("fsin", "twobyte", modifiers=[0xD9, 0xFE], cpu=["286", "FPU"])
add_insn("fcos", "twobyte", modifiers=[0xD9, 0xFF], cpu=["286", "FPU"])
add_insn("fchs", "twobyte", modifiers=[0xD9, 0xE0], cpu=["FPU"])
add_insn("fabs", "twobyte", modifiers=[0xD9, 0xE1], cpu=["FPU"])
add_insn("fninit", "twobyte", modifiers=[0xDB, 0xE3], cpu=["FPU"])
add_insn("finit", "threebyte", modifiers=[0x9B, 0xDB, 0xE3], cpu=["FPU"])
add_insn("fnclex", "twobyte", modifiers=[0xDB, 0xE2], cpu=["FPU"])
add_insn("fclex", "threebyte", modifiers=[0x9B, 0xDB, 0xE2], cpu=["FPU"])
for sfx in [None, "l", "s"]:
add_insn("fnstenv"+(sfx or ""), "onebytemem", suffix=sfx,
modifiers=[6, 0xD9], cpu=["FPU"])
add_insn("fstenv"+(sfx or ""), "twobytemem", suffix=sfx,
modifiers=[6, 0x9B, 0xD9], cpu=["FPU"])
add_insn("fldenv"+(sfx or ""), "onebytemem", suffix=sfx,
modifiers=[4, 0xD9], cpu=["FPU"])
add_insn("fnsave"+(sfx or ""), "onebytemem", suffix=sfx,
modifiers=[6, 0xDD], cpu=["FPU"])
add_insn("fsave"+(sfx or ""), "twobytemem", suffix=sfx,
modifiers=[6, 0x9B, 0xDD], cpu=["FPU"])
add_insn("frstor"+(sfx or ""), "onebytemem", suffix=sfx,
modifiers=[4, 0xDD], cpu=["FPU"])
add_insn("fnop", "twobyte", modifiers=[0xD9, 0xD0], cpu=["FPU"])
add_insn("fwait", "onebyte", modifiers=[0x9B], cpu=["FPU"])
# Prefixes; should the others be here too? should wait be a prefix?
add_insn("wait", "onebyte", modifiers=[0x9B])
#
# load/store with pop (integer and normal)
#
add_group("fld",
suffix="s",
cpu=["FPU"],
opcode=[0xD9],
operands=[Operand(type="Mem", size=32, dest="EA")])
add_group("fld",
suffix="l",
cpu=["FPU"],
opcode=[0xDD],
operands=[Operand(type="Mem", size=64, dest="EA")])
add_group("fld",
cpu=["FPU"],
opcode=[0xDB],
spare=5,
operands=[Operand(type="Mem", size=80, dest="EA")])
add_group("fld",
cpu=["FPU"],
opcode=[0xD9, 0xC0],
operands=[Operand(type="Reg", size=80, dest="Op1Add")])
add_insn("fld", "fld")
add_group("fstp",
suffix="s",
cpu=["FPU"],
opcode=[0xD9],
spare=3,
operands=[Operand(type="Mem", size=32, dest="EA")])
add_group("fstp",
suffix="l",
cpu=["FPU"],
opcode=[0xDD],
spare=3,
operands=[Operand(type="Mem", size=64, dest="EA")])
add_group("fstp",
cpu=["FPU"],
opcode=[0xDB],
spare=7,
operands=[Operand(type="Mem", size=80, dest="EA")])
add_group("fstp",
cpu=["FPU"],
opcode=[0xDD, 0xD8],
operands=[Operand(type="Reg", size=80, dest="Op1Add")])
add_insn("fstp", "fstp")
#
# Long memory version of floating point load/store for GAS
#
add_group("fldstpt",
cpu=["FPU"],
modifiers=["SpAdd"],
opcode=[0xDB],
spare=0,
operands=[Operand(type="Mem", size=80, relaxed=True, dest="EA")])
add_insn("fldt", "fldstpt", modifiers=[5])
add_insn("fstpt", "fldstpt", modifiers=[7])
add_group("fildstp",
suffix="s",
cpu=["FPU"],
modifiers=["SpAdd"],
opcode=[0xDF],
spare=0,
operands=[Operand(type="Mem", size=16, dest="EA")])
add_group("fildstp",
suffix="l",
cpu=["FPU"],
modifiers=["SpAdd"],
opcode=[0xDB],
spare=0,
operands=[Operand(type="Mem", size=32, dest="EA")])
add_group("fildstp",
suffix="q",
cpu=["FPU"],
modifiers=["Gap", "Op0Add", "SpAdd"],
opcode=[0xDD],
spare=0,
operands=[Operand(type="Mem", size=64, dest="EA")])
# No-suffix alias for memory for GAS compat -> "s" version generated
add_group("fildstp",
cpu=["FPU"],
parsers=["gas"],
modifiers=["SpAdd"],
opcode=[0xDF],
spare=0,
operands=[Operand(type="Mem", size=16, relaxed=True, dest="EA")])
add_insn("fild", "fildstp", modifiers=[0, 2, 5])
add_insn("fistp", "fildstp", modifiers=[3, 2, 7])
add_group("fbldstp",
cpu=["FPU"],
modifiers=["SpAdd"],
opcode=[0xDF],
spare=0,
operands=[Operand(type="Mem", size=80, relaxed=True, dest="EA")])
add_insn("fbld", "fbldstp", modifiers=[4])
add_insn("fildll", "fbldstp", parser="gas", modifiers=[5])
add_insn("fbstp", "fbldstp", modifiers=[6])
add_insn("fistpll", "fbldstp", parser="gas", modifiers=[7])
#
# store (normal)
#
add_group("fst",
suffix="s",
cpu=["FPU"],
opcode=[0xD9],
spare=2,
operands=[Operand(type="Mem", size=32, dest="EA")])
add_group("fst",
suffix="l",
cpu=["FPU"],
opcode=[0xDD],
spare=2,
operands=[Operand(type="Mem", size=64, dest="EA")])
add_group("fst",
cpu=["FPU"],
opcode=[0xDD, 0xD0],
operands=[Operand(type="Reg", size=80, dest="Op1Add")])
add_insn("fst", "fst")
#
# exchange (with ST0)
#
add_group("fxch",
cpu=["FPU"],
opcode=[0xD9, 0xC8],
operands=[Operand(type="Reg", size=80, dest="Op1Add")])
add_group("fxch",
cpu=["FPU"],
opcode=[0xD9, 0xC8],
operands=[Operand(type="ST0", size=80, dest=None),
Operand(type="Reg", size=80, dest="Op1Add")])
add_group("fxch",
cpu=["FPU"],
opcode=[0xD9, 0xC8],
operands=[Operand(type="Reg", size=80, dest="Op1Add"),
Operand(type="ST0", size=80, dest=None)])
add_group("fxch",
cpu=["FPU"],
opcode=[0xD9, 0xC9],
operands=[])
add_insn("fxch", "fxch")
#
# comparisons
#
add_group("fcom",
suffix="s",
cpu=["FPU"],
modifiers=["Gap", "SpAdd"],
opcode=[0xD8],
spare=0,
operands=[Operand(type="Mem", size=32, dest="EA")])
add_group("fcom",
suffix="l",
cpu=["FPU"],
modifiers=["Gap", "SpAdd"],
opcode=[0xDC],
spare=0,
operands=[Operand(type="Mem", size=64, dest="EA")])
add_group("fcom",
cpu=["FPU"],
modifiers=["Op1Add"],
opcode=[0xD8, 0x00],
operands=[Operand(type="Reg", size=80, dest="Op1Add")])
# No-suffix alias for memory for GAS compat -> "s" version generated
add_group("fcom",
cpu=["FPU"],
parsers=["gas"],
modifiers=["Gap", "SpAdd"],
opcode=[0xD8],
spare=0,
operands=[Operand(type="Mem", size=32, relaxed=True, dest="EA")])
# Alias for fcom %st(1) for GAS compat
add_group("fcom",
cpu=["FPU"],
parsers=["gas"],
modifiers=["Op1Add"],
opcode=[0xD8, 0x01],
operands=[])
add_group("fcom",
cpu=["FPU"],
parsers=["nasm"],
modifiers=["Op1Add"],
opcode=[0xD8, 0x00],
operands=[Operand(type="ST0", size=80, dest=None),
Operand(type="Reg", size=80, dest="Op1Add")])
add_insn("fcom", "fcom", modifiers=[0xD0, 2])
add_insn("fcomp", "fcom", modifiers=[0xD8, 3])
#
# extended comparisons
#
add_group("fcom2",
cpu=["FPU", "286"],
modifiers=["Op0Add", "Op1Add"],
opcode=[0x00, 0x00],
operands=[Operand(type="Reg", size=80, dest="Op1Add")])
add_group("fcom2",
cpu=["FPU", "286"],
modifiers=["Op0Add", "Op1Add"],
opcode=[0x00, 0x00],
operands=[Operand(type="ST0", size=80, dest=None),
Operand(type="Reg", size=80, dest="Op1Add")])
add_insn("fucom", "fcom2", modifiers=[0xDD, 0xE0])
add_insn("fucomp", "fcom2", modifiers=[0xDD, 0xE8])
#
# arithmetic
#
add_group("farith",
suffix="s",
cpu=["FPU"],
modifiers=["Gap", "Gap", "SpAdd"],
opcode=[0xD8],
spare=0,
operands=[Operand(type="Mem", size=32, dest="EA")])
add_group("farith",
suffix="l",
cpu=["FPU"],
modifiers=["Gap", "Gap", "SpAdd"],
opcode=[0xDC],
spare=0,
operands=[Operand(type="Mem", size=64, dest="EA")])
add_group("farith",
cpu=["FPU"],
modifiers=["Gap", "Op1Add"],
opcode=[0xD8, 0x00],
operands=[Operand(type="Reg", size=80, dest="Op1Add")])
add_group("farith",
cpu=["FPU"],
modifiers=["Gap", "Op1Add"],
opcode=[0xD8, 0x00],
operands=[Operand(type="ST0", size=80, dest=None),
Operand(type="Reg", size=80, dest="Op1Add")])
add_group("farith",
cpu=["FPU"],
modifiers=["Op1Add"],
opcode=[0xDC, 0x00],
operands=[Operand(type="Reg", size=80, tmod="To", dest="Op1Add")])
add_group("farith",
cpu=["FPU"],
parsers=["nasm"],
modifiers=["Op1Add"],
opcode=[0xDC, 0x00],
operands=[Operand(type="Reg", size=80, dest="Op1Add"),
Operand(type="ST0", size=80, dest=None)])
add_group("farith",
cpu=["FPU"],
parsers=["gas"],
modifiers=["Gap", "Op1Add"],
opcode=[0xDC, 0x00],
operands=[Operand(type="Reg", size=80, dest="Op1Add"),
Operand(type="ST0", size=80, dest=None)])
add_insn("fadd", "farith", modifiers=[0xC0, 0xC0, 0])
add_insn("fsub", "farith", modifiers=[0xE8, 0xE0, 4])
add_insn("fsubr", "farith", modifiers=[0xE0, 0xE8, 5])
add_insn("fmul", "farith", modifiers=[0xC8, 0xC8, 1])
add_insn("fdiv", "farith", modifiers=[0xF8, 0xF0, 6])
add_insn("fdivr", "farith", modifiers=[0xF0, 0xF8, 7])
add_group("farithp",
cpu=["FPU"],
modifiers=["Op1Add"],
opcode=[0xDE, 0x01],
operands=[])
add_group("farithp",
cpu=["FPU"],
modifiers=["Op1Add"],
opcode=[0xDE, 0x00],
operands=[Operand(type="Reg", size=80, dest="Op1Add")])
add_group("farithp",
cpu=["FPU"],
modifiers=["Op1Add"],
opcode=[0xDE, 0x00],
operands=[Operand(type="Reg", size=80, dest="Op1Add"),
Operand(type="ST0", size=80, dest=None)])
add_insn("faddp", "farithp", modifiers=[0xC0])
add_insn("fsubp", "farithp", parser="nasm", modifiers=[0xE8])
add_insn("fsubp", "farithp", parser="gas", modifiers=[0xE0])
add_insn("fsubrp", "farithp", parser="nasm", modifiers=[0xE0])
add_insn("fsubrp", "farithp", parser="gas", modifiers=[0xE8])
add_insn("fmulp", "farithp", modifiers=[0xC8])
add_insn("fdivp", "farithp", parser="nasm", modifiers=[0xF8])
add_insn("fdivp", "farithp", parser="gas", modifiers=[0xF0])
add_insn("fdivrp", "farithp", parser="nasm", modifiers=[0xF0])
add_insn("fdivrp", "farithp", parser="gas", modifiers=[0xF8])
#
# integer arith/store wo pop/compare
#
add_group("fiarith",
suffix="s",
cpu=["FPU"],
modifiers=["SpAdd", "Op0Add"],
opcode=[0x04],
spare=0,
operands=[Operand(type="Mem", size=16, dest="EA")])
add_group("fiarith",
suffix="l",
cpu=["FPU"],
modifiers=["SpAdd", "Op0Add"],
opcode=[0x00],
spare=0,
operands=[Operand(type="Mem", size=32, dest="EA")])
add_insn("fist", "fiarith", modifiers=[2, 0xDB])
add_insn("ficom", "fiarith", modifiers=[2, 0xDA])
add_insn("ficomp", "fiarith", modifiers=[3, 0xDA])
add_insn("fiadd", "fiarith", modifiers=[0, 0xDA])
add_insn("fisub", "fiarith", modifiers=[4, 0xDA])
add_insn("fisubr", "fiarith", modifiers=[5, 0xDA])
add_insn("fimul", "fiarith", modifiers=[1, 0xDA])
add_insn("fidiv", "fiarith", modifiers=[6, 0xDA])
add_insn("fidivr", "fiarith", modifiers=[7, 0xDA])
#
# processor control
#
add_group("fldnstcw",
suffix="w",
cpu=["FPU"],
modifiers=["SpAdd"],
opcode=[0xD9],
spare=0,
operands=[Operand(type="Mem", size=16, relaxed=True, dest="EA")])
add_insn("fldcw", "fldnstcw", modifiers=[5])
add_insn("fnstcw", "fldnstcw", modifiers=[7])
add_group("fstcw",
suffix="w",
cpu=["FPU"],
opcode=[0x9B, 0xD9],
spare=7,
operands=[Operand(type="Mem", size=16, relaxed=True, dest="EA")])
add_insn("fstcw", "fstcw")
add_group("fnstsw",
suffix="w",
cpu=["FPU"],
opcode=[0xDD],
spare=7,
operands=[Operand(type="Mem", size=16, relaxed=True, dest="EA")])
add_group("fnstsw",
suffix="w",
cpu=["FPU"],
opcode=[0xDF, 0xE0],
operands=[Operand(type="Areg", size=16, dest=None)])
add_insn("fnstsw", "fnstsw")
add_group("fstsw",
suffix="w",
cpu=["FPU"],
opcode=[0x9B, 0xDD],
spare=7,
operands=[Operand(type="Mem", size=16, relaxed=True, dest="EA")])
add_group("fstsw",
suffix="w",
cpu=["FPU"],
opcode=[0x9B, 0xDF, 0xE0],
operands=[Operand(type="Areg", size=16, dest=None)])
add_insn("fstsw", "fstsw")
add_group("ffree",
cpu=["FPU"],
modifiers=["Op0Add"],
opcode=[0x00, 0xC0],
operands=[Operand(type="Reg", size=80, dest="Op1Add")])
add_insn("ffree", "ffree", modifiers=[0xDD])
add_insn("ffreep", "ffree", modifiers=[0xDF], cpu=["686", "FPU", "Undoc"])
#####################################################################
# 486 extensions
#####################################################################
add_group("bswap",
suffix="l",
cpu=["486"],
opersize=32,
opcode=[0x0F, 0xC8],
operands=[Operand(type="Reg", size=32, dest="Op1Add")])
add_group("bswap",
suffix="q",
opersize=64,
opcode=[0x0F, 0xC8],
operands=[Operand(type="Reg", size=64, dest="Op1Add")])
add_insn("bswap", "bswap")
for sfx, sz in zip("bwlq", [8, 16, 32, 64]):
add_group("cmpxchgxadd",
suffix=sfx,
cpu=["486"],
modifiers=["Op1Add"],
opersize=sz,
opcode=[0x0F, 0x00+(sz!=8)],
operands=[Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Reg", size=sz, dest="Spare")])
add_insn("xadd", "cmpxchgxadd", modifiers=[0xC0])
add_insn("cmpxchg", "cmpxchgxadd", modifiers=[0xB0])
add_insn("cmpxchg486", "cmpxchgxadd", parser="nasm", modifiers=[0xA6],
cpu=["486", "Undoc"])
add_insn("invd", "twobyte", modifiers=[0x0F, 0x08], cpu=["486", "Priv"])
add_insn("wbinvd", "twobyte", modifiers=[0x0F, 0x09], cpu=["486", "Priv"])
add_insn("invlpg", "twobytemem", modifiers=[7, 0x0F, 0x01],
cpu=["486", "Priv"])
#####################################################################
# 586+ and late 486 extensions
#####################################################################
add_insn("cpuid", "twobyte", modifiers=[0x0F, 0xA2], cpu=["486"])
#####################################################################
# Pentium extensions
#####################################################################
add_insn("wrmsr", "twobyte", modifiers=[0x0F, 0x30], cpu=["586", "Priv"])
add_insn("rdtsc", "twobyte", modifiers=[0x0F, 0x31], cpu=["586"])
add_insn("rdmsr", "twobyte", modifiers=[0x0F, 0x32], cpu=["586", "Priv"])
add_group("cmpxchg8b",
suffix="q",
cpu=["586"],
opcode=[0x0F, 0xC7],
spare=1,
operands=[Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_insn("cmpxchg8b", "cmpxchg8b")
#####################################################################
# Pentium II/Pentium Pro extensions
#####################################################################
add_insn("sysenter", "twobyte", modifiers=[0x0F, 0x34], cpu=["686"],
not64=True)
add_insn("sysexit", "twobyte", modifiers=[0x0F, 0x35], cpu=["686", "Priv"],
not64=True)
for sfx in [None, "q"]:
add_insn("fxsave"+(sfx or ""), "twobytemem", suffix=sfx,
modifiers=[0, 0x0F, 0xAE], cpu=["686", "FPU"])
add_insn("fxrstor"+(sfx or ""), "twobytemem", suffix=sfx,
modifiers=[1, 0x0F, 0xAE], cpu=["686", "FPU"])
add_insn("rdpmc", "twobyte", modifiers=[0x0F, 0x33], cpu=["686"])
add_insn("ud2", "twobyte", modifiers=[0x0F, 0x0B], cpu=["286"])
add_insn("ud1", "twobyte", modifiers=[0x0F, 0xB9], cpu=["286", "Undoc"])
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("cmovcc",
suffix=sfx,
cpu=["686"],
modifiers=["Op1Add"],
opersize=sz,
opcode=[0x0F, 0x40],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA")])
add_insn("cmovo", "cmovcc", modifiers=[0x00])
add_insn("cmovno", "cmovcc", modifiers=[0x01])
add_insn("cmovb", "cmovcc", modifiers=[0x02])
add_insn("cmovc", "cmovcc", modifiers=[0x02])
add_insn("cmovnae", "cmovcc", modifiers=[0x02])
add_insn("cmovnb", "cmovcc", modifiers=[0x03])
add_insn("cmovnc", "cmovcc", modifiers=[0x03])
add_insn("cmovae", "cmovcc", modifiers=[0x03])
add_insn("cmove", "cmovcc", modifiers=[0x04])
add_insn("cmovz", "cmovcc", modifiers=[0x04])
add_insn("cmovne", "cmovcc", modifiers=[0x05])
add_insn("cmovnz", "cmovcc", modifiers=[0x05])
add_insn("cmovbe", "cmovcc", modifiers=[0x06])
add_insn("cmovna", "cmovcc", modifiers=[0x06])
add_insn("cmovnbe", "cmovcc", modifiers=[0x07])
add_insn("cmova", "cmovcc", modifiers=[0x07])
add_insn("cmovs", "cmovcc", modifiers=[0x08])
add_insn("cmovns", "cmovcc", modifiers=[0x09])
add_insn("cmovp", "cmovcc", modifiers=[0x0A])
add_insn("cmovpe", "cmovcc", modifiers=[0x0A])
add_insn("cmovnp", "cmovcc", modifiers=[0x0B])
add_insn("cmovpo", "cmovcc", modifiers=[0x0B])
add_insn("cmovl", "cmovcc", modifiers=[0x0C])
add_insn("cmovnge", "cmovcc", modifiers=[0x0C])
add_insn("cmovnl", "cmovcc", modifiers=[0x0D])
add_insn("cmovge", "cmovcc", modifiers=[0x0D])
add_insn("cmovle", "cmovcc", modifiers=[0x0E])
add_insn("cmovng", "cmovcc", modifiers=[0x0E])
add_insn("cmovnle", "cmovcc", modifiers=[0x0F])
add_insn("cmovg", "cmovcc", modifiers=[0x0F])
add_group("fcmovcc",
cpu=["FPU", "686"],
modifiers=["Op0Add", "Op1Add"],
opcode=[0x00, 0x00],
operands=[Operand(type="ST0", size=80, dest=None),
Operand(type="Reg", size=80, dest="Op1Add")])
add_insn("fcmovb", "fcmovcc", modifiers=[0xDA, 0xC0])
add_insn("fcmove", "fcmovcc", modifiers=[0xDA, 0xC8])
add_insn("fcmovbe", "fcmovcc", modifiers=[0xDA, 0xD0])
add_insn("fcmovu", "fcmovcc", modifiers=[0xDA, 0xD8])
add_insn("fcmovnb", "fcmovcc", modifiers=[0xDB, 0xC0])
add_insn("fcmovne", "fcmovcc", modifiers=[0xDB, 0xC8])
add_insn("fcmovnbe", "fcmovcc", modifiers=[0xDB, 0xD0])
add_insn("fcmovnu", "fcmovcc", modifiers=[0xDB, 0xD8])
add_insn("fcomi", "fcom2", modifiers=[0xDB, 0xF0], cpu=["686", "FPU"])
add_insn("fucomi", "fcom2", modifiers=[0xDB, 0xE8], cpu=["686", "FPU"])
add_insn("fcomip", "fcom2", modifiers=[0xDF, 0xF0], cpu=["686", "FPU"])
add_insn("fucomip", "fcom2", modifiers=[0xDF, 0xE8], cpu=["686", "FPU"])
#####################################################################
# Pentium4 extensions
#####################################################################
add_group("movnti",
suffix="l",
cpu=["P4"],
opcode=[0x0F, 0xC3],
operands=[Operand(type="Mem", size=32, relaxed=True, dest="EA"),
Operand(type="Reg", size=32, dest="Spare")])
add_group("movnti",
suffix="q",
cpu=["P4"],
opersize=64,
opcode=[0x0F, 0xC3],
operands=[Operand(type="Mem", size=64, relaxed=True, dest="EA"),
Operand(type="Reg", size=64, dest="Spare")])
add_insn("movnti", "movnti")
add_group("clflush",
cpu=["P3"],
opcode=[0x0F, 0xAE],
spare=7,
operands=[Operand(type="Mem", size=8, relaxed=True, dest="EA")])
add_insn("clflush", "clflush")
add_insn("lfence", "threebyte", modifiers=[0x0F, 0xAE, 0xE8], cpu=["P3"])
add_insn("mfence", "threebyte", modifiers=[0x0F, 0xAE, 0xF0], cpu=["P3"])
add_insn("pause", "onebyte_prefix", modifiers=[0xF3, 0x90], cpu=["P4"])
#####################################################################
# MMX/SSE2 instructions
#####################################################################
add_insn("emms", "twobyte", modifiers=[0x0F, 0x77], cpu=["MMX"])
#
# movd
#
add_group("movd",
cpu=["MMX"],
opcode=[0x0F, 0x6E],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="RM", size=32, relaxed=True, dest="EA")])
add_group("movd",
cpu=["MMX"],
opersize=64,
opcode=[0x0F, 0x6E],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="RM", size=64, relaxed=True, dest="EA")])
add_group("movd",
cpu=["MMX"],
opcode=[0x0F, 0x7E],
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=64, dest="Spare")])
add_group("movd",
cpu=["MMX"],
opersize=64,
opcode=[0x0F, 0x7E],
operands=[Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=64, dest="Spare")])
add_group("movd",
cpu=["SSE2"],
prefix=0x66,
opcode=[0x0F, 0x6E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="RM", size=32, relaxed=True, dest="EA")])
add_group("movd",
cpu=["SSE2"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x6E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="RM", size=64, relaxed=True, dest="EA")])
add_group("movd",
cpu=["SSE2"],
prefix=0x66,
opcode=[0x0F, 0x7E],
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("movd",
cpu=["SSE2"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x7E],
operands=[Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_insn("movd", "movd")
#
# movq
#
# MMX forms
add_group("movq",
cpu=["MMX"],
parsers=["nasm"],
opcode=[0x0F, 0x6F],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_group("movq",
cpu=["MMX"],
parsers=["nasm"],
opersize=64,
opcode=[0x0F, 0x6E],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="RM", size=64, relaxed=True, dest="EA")])
add_group("movq",
cpu=["MMX"],
parsers=["nasm"],
opcode=[0x0F, 0x7F],
operands=[Operand(type="SIMDRM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=64, dest="Spare")])
add_group("movq",
cpu=["MMX"],
parsers=["nasm"],
opersize=64,
opcode=[0x0F, 0x7E],
operands=[Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=64, dest="Spare")])
# SSE2 forms
add_group("movq",
cpu=["SSE2"],
parsers=["nasm"],
prefix=0xF3,
opcode=[0x0F, 0x7E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("movq",
cpu=["SSE2"],
parsers=["nasm"],
prefix=0xF3,
opcode=[0x0F, 0x7E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_group("movq",
cpu=["SSE2"],
parsers=["nasm"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x6E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="RM", size=64, relaxed=True, dest="EA")])
add_group("movq",
cpu=["SSE2"],
parsers=["nasm"],
prefix=0x66,
opcode=[0x0F, 0xD6],
operands=[Operand(type="SIMDRM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("movq",
cpu=["SSE2"],
parsers=["nasm"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x7E],
operands=[Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_insn("movq", "movq")
add_group("mmxsse2",
cpu=["MMX"],
modifiers=["Op1Add"],
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_group("mmxsse2",
cpu=["SSE2"],
modifiers=["Op1Add"],
prefix=0x66,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_insn("packssdw", "mmxsse2", modifiers=[0x6B])
add_insn("packsswb", "mmxsse2", modifiers=[0x63])
add_insn("packuswb", "mmxsse2", modifiers=[0x67])
add_insn("paddb", "mmxsse2", modifiers=[0xFC])
add_insn("paddw", "mmxsse2", modifiers=[0xFD])
add_insn("paddd", "mmxsse2", modifiers=[0xFE])
add_insn("paddq", "mmxsse2", modifiers=[0xD4])
add_insn("paddsb", "mmxsse2", modifiers=[0xEC])
add_insn("paddsw", "mmxsse2", modifiers=[0xED])
add_insn("paddusb", "mmxsse2", modifiers=[0xDC])
add_insn("paddusw", "mmxsse2", modifiers=[0xDD])
add_insn("pand", "mmxsse2", modifiers=[0xDB])
add_insn("pandn", "mmxsse2", modifiers=[0xDF])
add_insn("pcmpeqb", "mmxsse2", modifiers=[0x74])
add_insn("pcmpeqw", "mmxsse2", modifiers=[0x75])
add_insn("pcmpeqd", "mmxsse2", modifiers=[0x76])
add_insn("pcmpgtb", "mmxsse2", modifiers=[0x64])
add_insn("pcmpgtw", "mmxsse2", modifiers=[0x65])
add_insn("pcmpgtd", "mmxsse2", modifiers=[0x66])
add_insn("pmaddwd", "mmxsse2", modifiers=[0xF5])
add_insn("pmulhw", "mmxsse2", modifiers=[0xE5])
add_insn("pmullw", "mmxsse2", modifiers=[0xD5])
add_insn("por", "mmxsse2", modifiers=[0xEB])
add_insn("psubb", "mmxsse2", modifiers=[0xF8])
add_insn("psubw", "mmxsse2", modifiers=[0xF9])
add_insn("psubd", "mmxsse2", modifiers=[0xFA])
add_insn("psubq", "mmxsse2", modifiers=[0xFB])
add_insn("psubsb", "mmxsse2", modifiers=[0xE8])
add_insn("psubsw", "mmxsse2", modifiers=[0xE9])
add_insn("psubusb", "mmxsse2", modifiers=[0xD8])
add_insn("psubusw", "mmxsse2", modifiers=[0xD9])
add_insn("punpckhbw", "mmxsse2", modifiers=[0x68])
add_insn("punpckhwd", "mmxsse2", modifiers=[0x69])
add_insn("punpckhdq", "mmxsse2", modifiers=[0x6A])
add_insn("punpcklbw", "mmxsse2", modifiers=[0x60])
add_insn("punpcklwd", "mmxsse2", modifiers=[0x61])
add_insn("punpckldq", "mmxsse2", modifiers=[0x62])
add_insn("pxor", "mmxsse2", modifiers=[0xEF])
# AVX versions don't support the MMX registers
add_insn("vpackssdw", "xmm_xmm128_256avx2", modifiers=[0x66, 0x6B, VEXL0], avx=True)
add_insn("vpacksswb", "xmm_xmm128_256avx2", modifiers=[0x66, 0x63, VEXL0], avx=True)
add_insn("vpackuswb", "xmm_xmm128_256avx2", modifiers=[0x66, 0x67, VEXL0], avx=True)
add_insn("vpaddb", "xmm_xmm128_256avx2", modifiers=[0x66, 0xFC, VEXL0], avx=True)
add_insn("vpaddw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xFD, VEXL0], avx=True)
add_insn("vpaddd", "xmm_xmm128_256avx2", modifiers=[0x66, 0xFE, VEXL0], avx=True)
add_insn("vpaddq", "xmm_xmm128_256avx2", modifiers=[0x66, 0xD4, VEXL0], avx=True)
add_insn("vpaddsb", "xmm_xmm128_256avx2", modifiers=[0x66, 0xEC, VEXL0], avx=True)
add_insn("vpaddsw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xED, VEXL0], avx=True)
add_insn("vpaddusb", "xmm_xmm128_256avx2", modifiers=[0x66, 0xDC, VEXL0], avx=True)
add_insn("vpaddusw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xDD, VEXL0], avx=True)
add_insn("vpand", "xmm_xmm128_256avx2", modifiers=[0x66, 0xDB, VEXL0], avx=True)
add_insn("vpandn", "xmm_xmm128_256avx2", modifiers=[0x66, 0xDF, VEXL0], avx=True)
add_insn("vpcmpeqb", "xmm_xmm128_256avx2", modifiers=[0x66, 0x74, VEXL0], avx=True)
add_insn("vpcmpeqw", "xmm_xmm128_256avx2", modifiers=[0x66, 0x75, VEXL0], avx=True)
add_insn("vpcmpeqd", "xmm_xmm128_256avx2", modifiers=[0x66, 0x76, VEXL0], avx=True)
add_insn("vpcmpgtb", "xmm_xmm128_256avx2", modifiers=[0x66, 0x64, VEXL0], avx=True)
add_insn("vpcmpgtw", "xmm_xmm128_256avx2", modifiers=[0x66, 0x65, VEXL0], avx=True)
add_insn("vpcmpgtd", "xmm_xmm128_256avx2", modifiers=[0x66, 0x66, VEXL0], avx=True)
add_insn("vpmaddwd", "xmm_xmm128_256avx2", modifiers=[0x66, 0xF5, VEXL0], avx=True)
add_insn("vpmulhw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xE5, VEXL0], avx=True)
add_insn("vpmullw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xD5, VEXL0], avx=True)
add_insn("vpor", "xmm_xmm128_256avx2", modifiers=[0x66, 0xEB, VEXL0], avx=True)
add_insn("vpsubb", "xmm_xmm128_256avx2", modifiers=[0x66, 0xF8, VEXL0], avx=True)
add_insn("vpsubw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xF9, VEXL0], avx=True)
add_insn("vpsubd", "xmm_xmm128_256avx2", modifiers=[0x66, 0xFA, VEXL0], avx=True)
add_insn("vpsubq", "xmm_xmm128_256avx2", modifiers=[0x66, 0xFB, VEXL0], avx=True)
add_insn("vpsubsb", "xmm_xmm128_256avx2", modifiers=[0x66, 0xE8, VEXL0], avx=True)
add_insn("vpsubsw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xE9, VEXL0], avx=True)
add_insn("vpsubusb", "xmm_xmm128_256avx2", modifiers=[0x66, 0xD8, VEXL0], avx=True)
add_insn("vpsubusw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xD9, VEXL0], avx=True)
add_insn("vpunpckhbw", "xmm_xmm128_256avx2", modifiers=[0x66, 0x68, VEXL0], avx=True)
add_insn("vpunpckhwd", "xmm_xmm128_256avx2", modifiers=[0x66, 0x69, VEXL0], avx=True)
add_insn("vpunpckhdq", "xmm_xmm128_256avx2", modifiers=[0x66, 0x6A, VEXL0], avx=True)
add_insn("vpunpcklbw", "xmm_xmm128_256avx2", modifiers=[0x66, 0x60, VEXL0], avx=True)
add_insn("vpunpcklwd", "xmm_xmm128_256avx2", modifiers=[0x66, 0x61, VEXL0], avx=True)
add_insn("vpunpckldq", "xmm_xmm128_256avx2", modifiers=[0x66, 0x62, VEXL0], avx=True)
add_insn("vpxor", "xmm_xmm128_256avx2", modifiers=[0x66, 0xEF, VEXL0], avx=True)
add_group("pshift",
cpu=["MMX"],
modifiers=["Op1Add"],
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_group("pshift",
cpu=["MMX"],
modifiers=["Gap", "Op1Add", "SpAdd"],
opcode=[0x0F, 0x00],
spare=0,
operands=[Operand(type="SIMDReg", size=64, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pshift",
cpu=["SSE2"],
modifiers=["Op1Add"],
prefix=0x66,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("pshift",
cpu=["SSE2"],
modifiers=["Gap", "Op1Add", "SpAdd"],
prefix=0x66,
opcode=[0x0F, 0x00],
spare=0,
operands=[Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("psllw", "pshift", modifiers=[0xF1, 0x71, 6])
add_insn("pslld", "pshift", modifiers=[0xF2, 0x72, 6])
add_insn("psllq", "pshift", modifiers=[0xF3, 0x73, 6])
add_insn("psraw", "pshift", modifiers=[0xE1, 0x71, 4])
add_insn("psrad", "pshift", modifiers=[0xE2, 0x72, 4])
add_insn("psrlw", "pshift", modifiers=[0xD1, 0x71, 2])
add_insn("psrld", "pshift", modifiers=[0xD2, 0x72, 2])
add_insn("psrlq", "pshift", modifiers=[0xD3, 0x73, 2])
# Ran out of modifiers, so AVX has to be separate
for cpu, sz in zip(["AVX", "AVX2"], [128, 256]):
add_group("vpshift",
cpu=[cpu],
modifiers=["Op1Add"],
vex=sz,
prefix=0x66,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=sz, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("vpshift",
cpu=[cpu],
modifiers=["Gap", "Op1Add", "SpAdd"],
vex=sz,
prefix=0x66,
opcode=[0x0F, 0x00],
spare=0,
operands=[Operand(type="SIMDReg", size=sz, dest="EAVEX"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("vpshift",
cpu=[cpu],
modifiers=["Op1Add"],
vex=sz,
prefix=0x66,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="SIMDReg", size=sz, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("vpshift",
cpu=[cpu],
modifiers=["Gap", "Op1Add", "SpAdd"],
vex=sz,
prefix=0x66,
opcode=[0x0F, 0x00],
spare=0,
operands=[Operand(type="SIMDReg", size=sz, dest="VEX"),
Operand(type="SIMDReg", size=sz, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("vpsllw", "vpshift", modifiers=[0xF1, 0x71, 6])
add_insn("vpslld", "vpshift", modifiers=[0xF2, 0x72, 6])
add_insn("vpsllq", "vpshift", modifiers=[0xF3, 0x73, 6])
add_insn("vpsraw", "vpshift", modifiers=[0xE1, 0x71, 4])
add_insn("vpsrad", "vpshift", modifiers=[0xE2, 0x72, 4])
add_insn("vpsrlw", "vpshift", modifiers=[0xD1, 0x71, 2])
add_insn("vpsrld", "vpshift", modifiers=[0xD2, 0x72, 2])
add_insn("vpsrlq", "vpshift", modifiers=[0xD3, 0x73, 2])
#
# PIII (Katmai) new instructions / SIMD instructions
#
add_insn("pavgb", "mmxsse2", modifiers=[0xE0], cpu=["P3", "MMX"])
add_insn("pavgw", "mmxsse2", modifiers=[0xE3], cpu=["P3", "MMX"])
add_insn("pmaxsw", "mmxsse2", modifiers=[0xEE], cpu=["P3", "MMX"])
add_insn("pmaxub", "mmxsse2", modifiers=[0xDE], cpu=["P3", "MMX"])
add_insn("pminsw", "mmxsse2", modifiers=[0xEA], cpu=["P3", "MMX"])
add_insn("pminub", "mmxsse2", modifiers=[0xDA], cpu=["P3", "MMX"])
add_insn("pmulhuw", "mmxsse2", modifiers=[0xE4], cpu=["P3", "MMX"])
add_insn("psadbw", "mmxsse2", modifiers=[0xF6], cpu=["P3", "MMX"])
# AVX versions don't support MMX register
add_insn("vpavgb", "xmm_xmm128_256avx2", modifiers=[0x66, 0xE0, VEXL0], avx=True)
add_insn("vpavgw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xE3, VEXL0], avx=True)
add_insn("vpmaxsw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xEE, VEXL0], avx=True)
add_insn("vpmaxub", "xmm_xmm128_256avx2", modifiers=[0x66, 0xDE, VEXL0], avx=True)
add_insn("vpminsw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xEA, VEXL0], avx=True)
add_insn("vpminub", "xmm_xmm128_256avx2", modifiers=[0x66, 0xDA, VEXL0], avx=True)
add_insn("vpmulhuw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xE4, VEXL0], avx=True)
add_insn("vpsadbw", "xmm_xmm128_256avx2", modifiers=[0x66, 0xF6, VEXL0], avx=True)
add_insn("prefetchnta", "twobytemem", modifiers=[0, 0x0F, 0x18], cpu=["P3"])
add_insn("prefetcht0", "twobytemem", modifiers=[1, 0x0F, 0x18], cpu=["P3"])
add_insn("prefetcht1", "twobytemem", modifiers=[2, 0x0F, 0x18], cpu=["P3"])
add_insn("prefetcht2", "twobytemem", modifiers=[3, 0x0F, 0x18], cpu=["P3"])
add_insn("sfence", "threebyte", modifiers=[0x0F, 0xAE, 0xF8], cpu=["P3"])
add_group("xmm_xmm128_256",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("xmm_xmm128_256",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("xmm_xmm128_256",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="SpareVEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_group("xmm_xmm128_256",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
# Same as above, except 256-bit version only available in AVX2
add_group("xmm_xmm128_256avx2",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("xmm_xmm128_256avx2",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("xmm_xmm128_256avx2",
cpu=["AVX2"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="SpareVEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_group("xmm_xmm128_256avx2",
cpu=["AVX2"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
# Version that does not allow YMM registers
add_group("xmm_xmm128",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("xmm_xmm128",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_insn("addps", "xmm_xmm128", modifiers=[0, 0x58])
add_insn("andnps", "xmm_xmm128", modifiers=[0, 0x55])
add_insn("andps", "xmm_xmm128", modifiers=[0, 0x54])
add_insn("divps", "xmm_xmm128", modifiers=[0, 0x5E])
add_insn("maxps", "xmm_xmm128", modifiers=[0, 0x5F])
add_insn("minps", "xmm_xmm128", modifiers=[0, 0x5D])
add_insn("mulps", "xmm_xmm128", modifiers=[0, 0x59])
add_insn("orps", "xmm_xmm128", modifiers=[0, 0x56])
add_insn("rcpps", "xmm_xmm128", modifiers=[0, 0x53])
add_insn("rsqrtps", "xmm_xmm128", modifiers=[0, 0x52])
add_insn("sqrtps", "xmm_xmm128", modifiers=[0, 0x51])
add_insn("subps", "xmm_xmm128", modifiers=[0, 0x5C])
add_insn("unpckhps", "xmm_xmm128", modifiers=[0, 0x15])
add_insn("unpcklps", "xmm_xmm128", modifiers=[0, 0x14])
add_insn("xorps", "xmm_xmm128", modifiers=[0, 0x57])
add_insn("vaddps", "xmm_xmm128_256", modifiers=[0, 0x58, VEXL0], avx=True)
add_insn("vandnps", "xmm_xmm128_256", modifiers=[0, 0x55, VEXL0], avx=True)
add_insn("vandps", "xmm_xmm128_256", modifiers=[0, 0x54, VEXL0], avx=True)
add_insn("vdivps", "xmm_xmm128_256", modifiers=[0, 0x5E, VEXL0], avx=True)
add_insn("vmaxps", "xmm_xmm128_256", modifiers=[0, 0x5F, VEXL0], avx=True)
add_insn("vminps", "xmm_xmm128_256", modifiers=[0, 0x5D, VEXL0], avx=True)
add_insn("vmulps", "xmm_xmm128_256", modifiers=[0, 0x59, VEXL0], avx=True)
add_insn("vorps", "xmm_xmm128_256", modifiers=[0, 0x56, VEXL0], avx=True)
# vrcpps, vrsqrtps, and vsqrtps don't add third operand
add_insn("vsubps", "xmm_xmm128_256", modifiers=[0, 0x5C, VEXL0], avx=True)
add_insn("vunpckhps", "xmm_xmm128_256", modifiers=[0, 0x15, VEXL0], avx=True)
add_insn("vunpcklps", "xmm_xmm128_256", modifiers=[0, 0x14, VEXL0], avx=True)
add_insn("vxorps", "xmm_xmm128_256", modifiers=[0, 0x57, VEXL0], avx=True)
add_group("cvt_rx_xmm32",
suffix="l",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("cvt_rx_xmm32",
suffix="l",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
# REX
add_group("cvt_rx_xmm32",
suffix="q",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
opersize=64,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("cvt_rx_xmm32",
suffix="q",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
opersize=64,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_insn("cvtss2si", "cvt_rx_xmm32", modifiers=[0xF3, 0x2D])
add_insn("cvttss2si", "cvt_rx_xmm32", modifiers=[0xF3, 0x2C])
add_insn("vcvtss2si", "cvt_rx_xmm32", modifiers=[0xF3, 0x2D, VEXL0], avx=True)
add_insn("vcvttss2si", "cvt_rx_xmm32", modifiers=[0xF3, 0x2C, VEXL0], avx=True)
add_group("cvt_mm_xmm64",
cpu=["SSE"],
modifiers=["Op1Add"],
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("cvt_mm_xmm64",
cpu=["SSE"],
modifiers=["Op1Add"],
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_insn("cvtps2pi", "cvt_mm_xmm64", modifiers=[0x2D])
add_insn("cvttps2pi", "cvt_mm_xmm64", modifiers=[0x2C])
add_group("cvt_xmm_mm_ps",
cpu=["SSE"],
modifiers=["Op1Add"],
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_insn("cvtpi2ps", "cvt_xmm_mm_ps", modifiers=[0x2A])
# Memory size can be relaxed only in BITS=32 case, where there's no
# ambiguity.
add_group("cvt_xmm_rmx",
suffix="l",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="RM", size=32, dest="EA")])
add_group("cvt_xmm_rmx",
suffix="l",
cpu=["SSE"],
not64=True,
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="RM", size=32, relaxed=True, dest="EA")])
# REX
add_group("cvt_xmm_rmx",
suffix="q",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
opersize=64,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="RM", size=64, dest="EA")])
add_group("cvt_xmm_rmx",
suffix="l",
cpu=["AVX"],
not64=True,
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="RM", size=32, relaxed=True, dest="EA")])
add_group("cvt_xmm_rmx",
suffix="l",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="RM", size=32, dest="EA")])
add_group("cvt_xmm_rmx",
suffix="q",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
opersize=64,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="RM", size=64, dest="EA")])
add_insn("cvtsi2ss", "cvt_xmm_rmx", modifiers=[0xF3, 0x2A])
add_insn("vcvtsi2ss", "cvt_xmm_rmx", modifiers=[0xF3, 0x2A, VEXL0], avx=True)
add_group("xmm_xmm32",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("xmm_xmm32",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_group("xmm_xmm32",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("xmm_xmm32",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_insn("addss", "xmm_xmm32", modifiers=[0xF3, 0x58])
add_insn("comiss", "xmm_xmm32", modifiers=[0, 0x2F])
add_insn("divss", "xmm_xmm32", modifiers=[0xF3, 0x5E])
add_insn("maxss", "xmm_xmm32", modifiers=[0xF3, 0x5F])
add_insn("minss", "xmm_xmm32", modifiers=[0xF3, 0x5D])
add_insn("mulss", "xmm_xmm32", modifiers=[0xF3, 0x59])
add_insn("rcpss", "xmm_xmm32", modifiers=[0xF3, 0x53])
add_insn("rsqrtss", "xmm_xmm32", modifiers=[0xF3, 0x52])
add_insn("sqrtss", "xmm_xmm32", modifiers=[0xF3, 0x51])
add_insn("subss", "xmm_xmm32", modifiers=[0xF3, 0x5C])
add_insn("ucomiss", "xmm_xmm32", modifiers=[0, 0x2E])
add_insn("vaddss", "xmm_xmm32", modifiers=[0xF3, 0x58, VEXL0], avx=True)
# vcomiss and vucomiss are only two operand
add_insn("vdivss", "xmm_xmm32", modifiers=[0xF3, 0x5E, VEXL0], avx=True)
add_insn("vmaxss", "xmm_xmm32", modifiers=[0xF3, 0x5F, VEXL0], avx=True)
add_insn("vminss", "xmm_xmm32", modifiers=[0xF3, 0x5D, VEXL0], avx=True)
add_insn("vmulss", "xmm_xmm32", modifiers=[0xF3, 0x59, VEXL0], avx=True)
add_insn("vrcpss", "xmm_xmm32", modifiers=[0xF3, 0x53, VEXL0], avx=True)
add_insn("vrsqrtss", "xmm_xmm32", modifiers=[0xF3, 0x52, VEXL0], avx=True)
add_insn("vsqrtss", "xmm_xmm32", modifiers=[0xF3, 0x51, VEXL0], avx=True)
add_insn("vsubss", "xmm_xmm32", modifiers=[0xF3, 0x5C, VEXL0], avx=True)
add_group("ssecmp_128",
cpu=["SSE"],
modifiers=["Imm8", "PreAdd", "SetVEX"],
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("ssecmp_128",
cpu=["AVX"],
modifiers=["Imm8", "PreAdd"],
vex=128,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("ssecmp_128",
cpu=["AVX"],
modifiers=["Imm8", "PreAdd"],
vex=256,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_group("ssecmp_32",
cpu=["SSE"],
modifiers=["Imm8", "PreAdd", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("ssecmp_32",
cpu=["SSE"],
modifiers=["Imm8", "PreAdd", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_group("ssecmp_32",
cpu=["AVX"],
modifiers=["Imm8", "PreAdd"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("ssecmp_32",
cpu=["AVX"],
modifiers=["Imm8", "PreAdd"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
ssecoms = [(0x0, "eq"),
(0x1, "lt"),
(0x2, "le"),
(0x3, "unord"),
(0x4, "neq"),
(0x5, "nlt"),
(0x6, "nle"),
(0x7, "ord")]
for ib, cc in ssecoms:
add_insn("cmp"+cc+"ps", "ssecmp_128", modifiers=[ib])
add_insn("cmp"+cc+"ss", "ssecmp_32", modifiers=[ib, 0xF3])
avxcoms = [(0x00, "eq"),
(0x01, "lt"),
(0x02, "le"),
(0x03, "unord"),
(0x04, "neq"),
(0x05, "nlt"),
(0x06, "nle"),
(0x07, "ord"),
(0x08, "eq_uq"),
(0x09, "nge"),
(0x0a, "ngt"),
(0x0b, "false"),
(0x0c, "neq_oq"),
(0x0d, "ge"),
(0x0e, "gt"),
(0x0f, "true"),
(0x10, "eq_os"),
(0x11, "lt_oq"),
(0x12, "le_oq"),
(0x13, "unord_s"),
(0x14, "neq_us"),
(0x15, "nlt_uq"),
(0x16, "nle_uq"),
(0x17, "ord_s"),
(0x18, "eq_us"),
(0x19, "nge_uq"),
(0x1a, "ngt_uq"),
(0x1b, "false_os"),
(0x1c, "neq_os"),
(0x1d, "ge_oq"),
(0x1e, "gt_oq"),
(0x1f, "true_us")]
for ib, cc in avxcoms:
add_insn("vcmp"+cc+"ps", "ssecmp_128", modifiers=[ib, 0, VEXL0], avx=True)
add_insn("vcmp"+cc+"ss", "ssecmp_32", modifiers=[ib, 0xF3, VEXL0], avx=True)
add_group("xmm_xmm128_imm",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("cmpps", "xmm_xmm128_imm", modifiers=[0, 0xC2])
add_insn("shufps", "xmm_xmm128_imm", modifiers=[0, 0xC6])
# YMM register AVX2 version of above
add_group("xmm_xmm128_imm_256avx2",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("xmm_xmm128_imm_256avx2",
cpu=["AVX2"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
# YMM register and 4-operand version of above
add_group("xmm_xmm128_imm_256",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("xmm_xmm128_imm_256",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("xmm_xmm128_imm_256",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("vcmpps", "xmm_xmm128_imm_256", modifiers=[0, 0xC2, VEXL0], avx=True)
add_insn("vshufps", "xmm_xmm128_imm_256", modifiers=[0, 0xC6, VEXL0], avx=True)
add_group("xmm_xmm32_imm",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("xmm_xmm32_imm",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=32, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("xmm_xmm32_imm",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("xmm_xmm32_imm",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=32, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("cmpss", "xmm_xmm32_imm", modifiers=[0xF3, 0xC2])
add_insn("vcmpss", "xmm_xmm32_imm", modifiers=[0xF3, 0xC2, VEXL0], avx=True)
add_group("ldstmxcsr",
cpu=["SSE"],
modifiers=["SpAdd", "SetVEX"],
opcode=[0x0F, 0xAE],
spare=0,
operands=[Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_insn("ldmxcsr", "ldstmxcsr", modifiers=[2])
add_insn("stmxcsr", "ldstmxcsr", modifiers=[3])
add_insn("vldmxcsr", "ldstmxcsr", modifiers=[2, VEXL0], avx=True)
add_insn("vstmxcsr", "ldstmxcsr", modifiers=[3, VEXL0], avx=True)
add_group("maskmovq",
cpu=["MMX", "P3"],
opcode=[0x0F, 0xF7],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=64, dest="EA")])
add_insn("maskmovq", "maskmovq")
# Too many modifiers, so can't reuse first two cases for AVX version
# Just repeat and disable first two with noavx.
add_group("movau",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add"],
notavx=True,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("movau",
cpu=["SSE"],
notavx=True,
modifiers=["PreAdd", "Op1Add", "Op1Add"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("movau",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("movau",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add", "Op1Add"],
vex=128,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("movau",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_group("movau",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add", "Op1Add"],
vex=256,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="Spare")])
add_insn("movaps", "movau", modifiers=[0, 0x28, 0x01])
add_insn("movups", "movau", modifiers=[0, 0x10, 0x01])
add_insn("vmovaps", "movau", modifiers=[0, 0x28, 0x01], avx=True)
add_insn("vmovups", "movau", modifiers=[0, 0x10, 0x01], avx=True)
add_group("movhllhps",
cpu=["SSE"],
modifiers=["Op1Add", "SetVEX"],
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("movhllhps",
cpu=["AVX"],
modifiers=["Op1Add"],
vex=128,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_insn("movhlps", "movhllhps", modifiers=[0x12])
add_insn("movlhps", "movhllhps", modifiers=[0x16])
add_insn("vmovhlps", "movhllhps", modifiers=[0x12, VEXL0], avx=True)
add_insn("vmovlhps", "movhllhps", modifiers=[0x16, VEXL0], avx=True)
add_group("movhlp",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_group("movhlp",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x01],
operands=[Operand(type="Mem", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("movhlp",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_insn("movhps", "movhlp", modifiers=[0, 0x16])
add_insn("movlps", "movhlp", modifiers=[0, 0x12])
add_insn("vmovhps", "movhlp", modifiers=[0, 0x16, VEXL0], avx=True)
add_insn("vmovlps", "movhlp", modifiers=[0, 0x12, VEXL0], avx=True)
add_group("movmsk",
suffix="l",
cpu=["SSE"],
modifiers=["PreAdd", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x50],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("movmsk",
suffix="q",
cpu=["SSE"],
modifiers=["PreAdd", "SetVEX"],
prefix=0x00,
opersize=64,
opcode=[0x0F, 0x50],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("movmsk",
suffix="l",
cpu=["AVX"],
modifiers=["PreAdd"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x50],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="EA")])
add_group("movmsk",
suffix="q",
cpu=["SSE"],
modifiers=["PreAdd"],
vex=256,
prefix=0x00,
opersize=64,
opcode=[0x0F, 0x50],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="EA")])
add_insn("movmskps", "movmsk")
add_insn("vmovmskps", "movmsk", modifiers=[0, VEXL0], avx=True)
add_group("movnt",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="Mem", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("movnt",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="Mem", size=256, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="Spare")])
add_insn("movntps", "movnt", modifiers=[0, 0x2B])
add_insn("vmovntps", "movnt", modifiers=[0, 0x2B, VEXL0], avx=True)
add_group("movntq",
cpu=["SSE"],
opcode=[0x0F, 0xE7],
operands=[Operand(type="Mem", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=64, dest="Spare")])
add_insn("movntq", "movntq")
add_group("movss",
cpu=["SSE"],
modifiers=["SetVEX"],
prefix=0xF3,
opcode=[0x0F, 0x10],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("movss",
cpu=["SSE"],
modifiers=["SetVEX"],
prefix=0xF3,
opcode=[0x0F, 0x10],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_group("movss",
cpu=["SSE"],
modifiers=["SetVEX"],
prefix=0xF3,
opcode=[0x0F, 0x11],
operands=[Operand(type="Mem", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("movss",
cpu=["AVX"],
vex=128,
prefix=0xF3,
opcode=[0x0F, 0x10],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_insn("movss", "movss")
add_insn("vmovss", "movss", modifiers=[VEXL0], avx=True)
add_group("pextrw",
suffix="l",
cpu=["MMX", "P3"],
notavx=True,
opcode=[0x0F, 0xC5],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="SIMDReg", size=64, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pextrw",
suffix="l",
cpu=["SSE2"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0xC5],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pextrw",
suffix="q",
cpu=["MMX", "P3"],
notavx=True,
opersize=64,
opcode=[0x0F, 0xC5],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=64, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pextrw",
suffix="q",
cpu=["SSE2"],
modifiers=["SetVEX"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0xC5],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
# SSE41 instructions
add_group("pextrw",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x15],
operands=[Operand(type="Mem", size=16, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pextrw",
cpu=["SSE41"],
modifiers=["SetVEX"],
opersize=32,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x15],
operands=[Operand(type="Reg", size=32, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pextrw",
cpu=["SSE41"],
modifiers=["SetVEX"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x15],
operands=[Operand(type="Reg", size=64, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pextrw", "pextrw")
add_insn("vpextrw", "pextrw", modifiers=[VEXL0], avx=True)
add_group("pinsrw",
suffix="l",
cpu=["MMX", "P3"],
notavx=True,
opcode=[0x0F, 0xC4],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="Reg", size=32, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrw",
suffix="q",
cpu=["MMX", "P3"],
notavx=True,
def_opersize_64=64,
opersize=64,
opcode=[0x0F, 0xC4],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="Reg", size=64, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrw",
suffix="l",
cpu=["MMX", "P3"],
notavx=True,
opcode=[0x0F, 0xC4],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="Mem", size=16, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrw",
suffix="l",
cpu=["SSE2"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0xC4],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Reg", size=32, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrw",
suffix="q",
cpu=["SSE2"],
modifiers=["SetVEX"],
def_opersize_64=64,
opersize=64,
prefix=0x66,
opcode=[0x0F, 0xC4],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Reg", size=64, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrw",
suffix="l",
cpu=["SSE2"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0xC4],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=16, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrw",
suffix="l",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0xC4],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Reg", size=32, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrw",
suffix="q",
cpu=["AVX"],
vex=128,
def_opersize_64=64,
opersize=64,
prefix=0x66,
opcode=[0x0F, 0xC4],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Reg", size=64, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrw",
suffix="l",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0xC4],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=16, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pinsrw", "pinsrw")
add_insn("vpinsrw", "pinsrw", modifiers=[VEXL0], avx=True)
add_group("pmovmskb",
suffix="l",
cpu=["MMX", "P3"],
notavx=True,
opcode=[0x0F, 0xD7],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="SIMDReg", size=64, dest="EA")])
add_group("pmovmskb",
suffix="l",
cpu=["SSE2"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0xD7],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("pmovmskb",
suffix="l",
cpu=["AVX2"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0xD7],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="EA")])
add_group("pmovmskb",
suffix="q",
cpu=["MMX", "P3"],
notavx=True,
opersize=64,
def_opersize_64=64,
opcode=[0x0F, 0xD7],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=64, dest="EA")])
add_group("pmovmskb",
suffix="q",
cpu=["SSE2"],
modifiers=["SetVEX"],
opersize=64,
def_opersize_64=64,
prefix=0x66,
opcode=[0x0F, 0xD7],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("pmovmskb",
suffix="q",
cpu=["SSE2"],
vex=256,
opersize=64,
def_opersize_64=64,
prefix=0x66,
opcode=[0x0F, 0xD7],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="EA")])
add_insn("pmovmskb", "pmovmskb")
add_insn("vpmovmskb", "pmovmskb", modifiers=[VEXL0], avx=True)
add_group("pshufw",
cpu=["MMX", "P3"],
opcode=[0x0F, 0x70],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pshufw", "pshufw")
#####################################################################
# SSE2 instructions
#####################################################################
add_group("xmm_xmm64",
cpu=["SSE2"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("xmm_xmm64",
cpu=["SSE2"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_group("xmm_xmm64",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("xmm_xmm64",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_insn("addsd", "xmm_xmm64", modifiers=[0xF2, 0x58])
add_insn("comisd", "xmm_xmm64", modifiers=[0x66, 0x2F])
add_insn("cvtdq2pd", "xmm_xmm64", modifiers=[0xF3, 0xE6])
add_insn("cvtps2pd", "xmm_xmm64", modifiers=[0, 0x5A])
add_insn("cvtsd2ss", "xmm_xmm64", modifiers=[0xF2, 0x5A])
add_insn("divsd", "xmm_xmm64", modifiers=[0xF2, 0x5E])
add_insn("maxsd", "xmm_xmm64", modifiers=[0xF2, 0x5F])
add_insn("minsd", "xmm_xmm64", modifiers=[0xF2, 0x5D])
add_insn("mulsd", "xmm_xmm64", modifiers=[0xF2, 0x59])
add_insn("subsd", "xmm_xmm64", modifiers=[0xF2, 0x5C])
add_insn("sqrtsd", "xmm_xmm64", modifiers=[0xF2, 0x51])
add_insn("ucomisd", "xmm_xmm64", modifiers=[0x66, 0x2E])
add_insn("vaddsd", "xmm_xmm64", modifiers=[0xF2, 0x58, VEXL0], avx=True)
# vcomisd and vucomisd are only two operand
# vcvtdq2pd and vcvtps2pd can take ymm, xmm version
add_insn("vcvtsd2ss", "xmm_xmm64", modifiers=[0xF2, 0x5A, VEXL0], avx=True)
add_insn("vdivsd", "xmm_xmm64", modifiers=[0xF2, 0x5E, VEXL0], avx=True)
add_insn("vmaxsd", "xmm_xmm64", modifiers=[0xF2, 0x5F, VEXL0], avx=True)
add_insn("vminsd", "xmm_xmm64", modifiers=[0xF2, 0x5D, VEXL0], avx=True)
add_insn("vmulsd", "xmm_xmm64", modifiers=[0xF2, 0x59, VEXL0], avx=True)
add_insn("vsubsd", "xmm_xmm64", modifiers=[0xF2, 0x5C, VEXL0], avx=True)
add_insn("vsqrtsd", "xmm_xmm64", modifiers=[0xF2, 0x51, VEXL0], avx=True)
add_insn("addpd", "xmm_xmm128", modifiers=[0x66, 0x58], cpu=["SSE2"])
add_insn("andnpd", "xmm_xmm128", modifiers=[0x66, 0x55], cpu=["SSE2"])
add_insn("andpd", "xmm_xmm128", modifiers=[0x66, 0x54], cpu=["SSE2"])
add_insn("cvtdq2ps", "xmm_xmm128", modifiers=[0, 0x5B], cpu=["SSE2"])
add_insn("cvtpd2dq", "xmm_xmm128", modifiers=[0xF2, 0xE6], cpu=["SSE2"])
add_insn("cvtpd2ps", "xmm_xmm128", modifiers=[0x66, 0x5A], cpu=["SSE2"])
add_insn("cvtps2dq", "xmm_xmm128", modifiers=[0x66, 0x5B], cpu=["SSE2"])
add_insn("divpd", "xmm_xmm128", modifiers=[0x66, 0x5E], cpu=["SSE2"])
add_insn("maxpd", "xmm_xmm128", modifiers=[0x66, 0x5F], cpu=["SSE2"])
add_insn("minpd", "xmm_xmm128", modifiers=[0x66, 0x5D], cpu=["SSE2"])
add_insn("mulpd", "xmm_xmm128", modifiers=[0x66, 0x59], cpu=["SSE2"])
add_insn("orpd", "xmm_xmm128", modifiers=[0x66, 0x56], cpu=["SSE2"])
add_insn("sqrtpd", "xmm_xmm128", modifiers=[0x66, 0x51], cpu=["SSE2"])
add_insn("subpd", "xmm_xmm128", modifiers=[0x66, 0x5C], cpu=["SSE2"])
add_insn("unpckhpd", "xmm_xmm128", modifiers=[0x66, 0x15], cpu=["SSE2"])
add_insn("unpcklpd", "xmm_xmm128", modifiers=[0x66, 0x14], cpu=["SSE2"])
add_insn("xorpd", "xmm_xmm128", modifiers=[0x66, 0x57], cpu=["SSE2"])
add_insn("vaddpd", "xmm_xmm128_256", modifiers=[0x66, 0x58, VEXL0], avx=True)
add_insn("vandnpd", "xmm_xmm128_256", modifiers=[0x66, 0x55, VEXL0], avx=True)
add_insn("vandpd", "xmm_xmm128_256", modifiers=[0x66, 0x54, VEXL0], avx=True)
# vcvtdq2ps and vcvtps2dq are 2-operand, YMM capable
# vcvtpd2dq and vcvtpd2ps take xmm, ymm combination
add_insn("vdivpd", "xmm_xmm128_256", modifiers=[0x66, 0x5E, VEXL0], avx=True)
add_insn("vmaxpd", "xmm_xmm128_256", modifiers=[0x66, 0x5F, VEXL0], avx=True)
add_insn("vminpd", "xmm_xmm128_256", modifiers=[0x66, 0x5D, VEXL0], avx=True)
add_insn("vmulpd", "xmm_xmm128_256", modifiers=[0x66, 0x59, VEXL0], avx=True)
add_insn("vorpd", "xmm_xmm128_256", modifiers=[0x66, 0x56, VEXL0], avx=True)
# vsqrtpd doesn't add third operand
add_insn("vsubpd", "xmm_xmm128_256", modifiers=[0x66, 0x5C, VEXL0], avx=True)
add_insn("vunpckhpd", "xmm_xmm128_256", modifiers=[0x66, 0x15, VEXL0], avx=True)
add_insn("vunpcklpd", "xmm_xmm128_256", modifiers=[0x66, 0x14, VEXL0], avx=True)
add_insn("vxorpd", "xmm_xmm128_256", modifiers=[0x66, 0x57, VEXL0], avx=True)
add_group("ssecmp_64",
cpu=["SSE2"],
modifiers=["Imm8", "PreAdd", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("ssecmp_64",
cpu=["SSE2"],
modifiers=["Imm8", "PreAdd", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_group("ssecmp_64",
cpu=["AVX"],
modifiers=["Imm8", "PreAdd"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("ssecmp_64",
cpu=["AVX"],
modifiers=["Imm8", "PreAdd"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
for ib, cc in ssecoms:
add_insn("cmp"+cc+"sd", "ssecmp_64", modifiers=[ib, 0xF2])
add_insn("cmp"+cc+"pd", "ssecmp_128", modifiers=[ib, 0x66])
for ib, cc in avxcoms:
add_insn("vcmp"+cc+"sd", "ssecmp_64", modifiers=[ib, 0xF2, VEXL0], avx=True)
add_insn("vcmp"+cc+"pd", "ssecmp_128", modifiers=[ib, 0x66, VEXL0], avx=True)
add_insn("cmppd", "xmm_xmm128_imm", modifiers=[0x66, 0xC2], cpu=["SSE2"])
add_insn("shufpd", "xmm_xmm128_imm", modifiers=[0x66, 0xC6], cpu=["SSE2"])
add_insn("vcmppd", "xmm_xmm128_imm_256", modifiers=[0x66, 0xC2, VEXL0], avx=True)
add_insn("vshufpd", "xmm_xmm128_imm_256", modifiers=[0x66, 0xC6, VEXL0], avx=True)
add_insn("cvtsi2sd", "cvt_xmm_rmx", modifiers=[0xF2, 0x2A], cpu=["SSE2"])
add_insn("vcvtsi2sd", "cvt_xmm_rmx", modifiers=[0xF2, 0x2A, VEXL0], avx=True)
add_group("cvt_rx_xmm64",
suffix="l",
cpu=["SSE2"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("cvt_rx_xmm64",
suffix="l",
cpu=["SSE2"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
# REX
add_group("cvt_rx_xmm64",
suffix="q",
cpu=["SSE2"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
opersize=64,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("cvt_rx_xmm64",
suffix="q",
cpu=["SSE2"],
modifiers=["PreAdd", "Op1Add", "SetVEX"],
opersize=64,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_insn("cvtsd2si", "cvt_rx_xmm64", modifiers=[0xF2, 0x2D])
add_insn("vcvtsd2si", "cvt_rx_xmm64", modifiers=[0xF2, 0x2D, VEXL0], avx=True)
add_group("cvt_mm_xmm",
cpu=["SSE2"],
modifiers=["PreAdd", "Op1Add"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_insn("cvtpd2pi", "cvt_mm_xmm", modifiers=[0x66, 0x2D], cpu=["SSE2"])
add_group("cvt_xmm_mm_ss",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_insn("cvtpi2pd", "cvt_xmm_mm_ss", modifiers=[0x66, 0x2A], cpu=["SSE2"])
# cmpsd SSE2 form
add_group("cmpsd",
cpu=["SSE2"],
modifiers=["SetVEX"],
prefix=0xF2,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("cmpsd",
cpu=["SSE2"],
modifiers=["SetVEX"],
prefix=0xF2,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=64, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("cmpsd",
cpu=["AVX"],
vex=128,
prefix=0xF2,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("cmpsd",
cpu=["AVX"],
vex=128,
prefix=0xF2,
opcode=[0x0F, 0xC2],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=64, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
# cmpsd is added in string instructions above, so don't re-add_insn()
add_insn("vcmpsd", "cmpsd", modifiers=[VEXL0], avx=True)
add_insn("movapd", "movau", modifiers=[0x66, 0x28, 0x01], cpu=["SSE2"])
add_insn("movupd", "movau", modifiers=[0x66, 0x10, 0x01], cpu=["SSE2"])
add_insn("vmovapd", "movau", modifiers=[0x66, 0x28, 0x01], avx=True)
add_insn("vmovupd", "movau", modifiers=[0x66, 0x10, 0x01], avx=True)
add_insn("movhpd", "movhlp", modifiers=[0x66, 0x16], cpu=["SSE2"])
add_insn("movlpd", "movhlp", modifiers=[0x66, 0x12], cpu=["SSE2"])
add_insn("vmovhpd", "movhlp", modifiers=[0x66, 0x16, VEXL0], avx=True)
add_insn("vmovlpd", "movhlp", modifiers=[0x66, 0x12, VEXL0], avx=True)
add_insn("movmskpd", "movmsk", modifiers=[0x66], cpu=["SSE2"])
add_insn("vmovmskpd", "movmsk", modifiers=[0x66, VEXL0], avx=True)
add_insn("movntpd", "movnt", modifiers=[0x66, 0x2B], cpu=["SSE2"])
add_insn("movntdq", "movnt", modifiers=[0x66, 0xE7], cpu=["SSE2"])
add_insn("vmovntpd", "movnt", modifiers=[0x66, 0x2B, VEXL0], avx=True)
add_insn("vmovntdq", "movnt", modifiers=[0x66, 0xE7, VEXL0], avx=True)
# movsd SSE2 forms
add_group("movsd",
cpu=["SSE2"],
modifiers=["SetVEX"],
prefix=0xF2,
opcode=[0x0F, 0x10],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("movsd",
cpu=["SSE2"],
modifiers=["SetVEX"],
prefix=0xF2,
opcode=[0x0F, 0x10],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_group("movsd",
cpu=["SSE2"],
modifiers=["SetVEX"],
prefix=0xF2,
opcode=[0x0F, 0x11],
operands=[Operand(type="Mem", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("movsd",
cpu=["AVX"],
vex=128,
prefix=0xF2,
opcode=[0x0F, 0x10],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
# movsd is added in string instructions above, so don't re-add_insn()
add_insn("vmovsd", "movsd", modifiers=[VEXL0], avx=True)
#####################################################################
# P4 VMX Instructions
#####################################################################
add_group("eptvpid",
modifiers=["Op2Add"],
suffix="l",
not64=True,
cpu=["EPTVPID"],
opersize=32,
prefix=0x66,
opcode=[0x0F, 0x38, 0x80],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="Mem", size=128, relaxed=True, dest="EA")])
add_group("eptvpid",
modifiers=["Op2Add"],
suffix="q",
cpu=["EPTVPID"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x38, 0x80],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="Mem", size=128, relaxed=True, dest="EA")])
add_insn("invept", "eptvpid", modifiers=[0])
add_insn("invvpid", "eptvpid", modifiers=[1])
add_insn("vmcall", "threebyte", modifiers=[0x0F, 0x01, 0xC1], cpu=["P4"])
add_insn("vmlaunch", "threebyte", modifiers=[0x0F, 0x01, 0xC2], cpu=["P4"])
add_insn("vmresume", "threebyte", modifiers=[0x0F, 0x01, 0xC3], cpu=["P4"])
add_insn("vmxoff", "threebyte", modifiers=[0x0F, 0x01, 0xC4], cpu=["P4"])
add_group("vmxmemrd",
suffix="l",
not64=True,
cpu=["P4"],
opersize=32,
opcode=[0x0F, 0x78],
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="Reg", size=32, dest="Spare")])
add_group("vmxmemrd",
suffix="q",
cpu=["P4"],
opersize=64,
def_opersize_64=64,
opcode=[0x0F, 0x78],
operands=[Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="Reg", size=64, dest="Spare")])
add_insn("vmread", "vmxmemrd")
add_group("vmxmemwr",
suffix="l",
not64=True,
cpu=["P4"],
opersize=32,
opcode=[0x0F, 0x79],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="RM", size=32, relaxed=True, dest="EA")])
add_group("vmxmemwr",
suffix="q",
cpu=["P4"],
opersize=64,
def_opersize_64=64,
opcode=[0x0F, 0x79],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="RM", size=64, relaxed=True, dest="EA")])
add_insn("vmwrite", "vmxmemwr")
add_group("vmxtwobytemem",
modifiers=["SpAdd"],
cpu=["P4"],
opcode=[0x0F, 0xC7],
spare=0,
operands=[Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_insn("vmptrld", "vmxtwobytemem", modifiers=[6])
add_insn("vmptrst", "vmxtwobytemem", modifiers=[7])
add_group("vmxthreebytemem",
modifiers=["PreAdd"],
cpu=["P4"],
prefix=0x00,
opcode=[0x0F, 0xC7],
spare=6,
operands=[Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_insn("vmclear", "vmxthreebytemem", modifiers=[0x66])
add_insn("vmxon", "vmxthreebytemem", modifiers=[0xF3])
#####################################################################
# Intel SMX Instructions
#####################################################################
add_insn("getsec", "twobyte", modifiers=[0x0F, 0x37], cpu=["SMX"])
add_insn("cvttpd2pi", "cvt_mm_xmm", modifiers=[0x66, 0x2C], cpu=["SSE2"])
add_insn("cvttsd2si", "cvt_rx_xmm64", modifiers=[0xF2, 0x2C], cpu=["SSE2"])
add_insn("cvttpd2dq", "xmm_xmm128", modifiers=[0x66, 0xE6], cpu=["SSE2"])
add_insn("cvttps2dq", "xmm_xmm128", modifiers=[0xF3, 0x5B], cpu=["SSE2"])
add_insn("pmuludq", "mmxsse2", modifiers=[0xF4], cpu=["SSE2"])
add_insn("pshufd", "xmm_xmm128_imm", modifiers=[0x66, 0x70], cpu=["SSE2"])
add_insn("pshufhw", "xmm_xmm128_imm", modifiers=[0xF3, 0x70], cpu=["SSE2"])
add_insn("pshuflw", "xmm_xmm128_imm", modifiers=[0xF2, 0x70], cpu=["SSE2"])
add_insn("punpckhqdq", "xmm_xmm128", modifiers=[0x66, 0x6D], cpu=["SSE2"])
add_insn("punpcklqdq", "xmm_xmm128", modifiers=[0x66, 0x6C], cpu=["SSE2"])
add_insn("vcvttsd2si", "cvt_rx_xmm64", modifiers=[0xF2, 0x2C, VEXL0], avx=True)
# vcvttpd2dq takes xmm, ymm combination
# vcvttps2dq is two-operand
add_insn("vpmuludq", "xmm_xmm128_256avx2", modifiers=[0x66, 0xF4, VEXL0], avx=True)
add_insn("vpshufd", "xmm_xmm128_imm_256avx2", modifiers=[0x66, 0x70, VEXL0], avx=True)
add_insn("vpshufhw", "xmm_xmm128_imm_256avx2", modifiers=[0xF3, 0x70, VEXL0], avx=True)
add_insn("vpshuflw", "xmm_xmm128_imm_256avx2", modifiers=[0xF2, 0x70, VEXL0], avx=True)
add_insn("vpunpckhqdq", "xmm_xmm128_256avx2", modifiers=[0x66, 0x6D, VEXL0], avx=True)
add_insn("vpunpcklqdq", "xmm_xmm128_256avx2", modifiers=[0x66, 0x6C, VEXL0], avx=True)
add_insn("cvtss2sd", "xmm_xmm32", modifiers=[0xF3, 0x5A], cpu=["SSE2"])
add_insn("vcvtss2sd", "xmm_xmm32", modifiers=[0xF3, 0x5A, VEXL0], avx=True)
add_group("maskmovdqu",
cpu=["SSE2"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0xF7],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_insn("maskmovdqu", "maskmovdqu")
add_insn("vmaskmovdqu", "maskmovdqu", modifiers=[VEXL0], avx=True)
add_insn("movdqa", "movau", modifiers=[0x66, 0x6F, 0x10], cpu=["SSE2"])
add_insn("movdqu", "movau", modifiers=[0xF3, 0x6F, 0x10], cpu=["SSE2"])
add_insn("vmovdqa", "movau", modifiers=[0x66, 0x6F, 0x10], avx=True)
add_insn("vmovdqu", "movau", modifiers=[0xF3, 0x6F, 0x10], avx=True)
add_group("movdq2q",
cpu=["SSE2"],
prefix=0xF2,
opcode=[0x0F, 0xD6],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_insn("movdq2q", "movdq2q")
add_group("movq2dq",
cpu=["SSE2"],
prefix=0xF3,
opcode=[0x0F, 0xD6],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=64, dest="EA")])
add_insn("movq2dq", "movq2dq")
add_group("pslrldq",
cpu=["SSE2"],
modifiers=["SpAdd", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x73],
spare=0,
operands=[Operand(type="SIMDReg", size=128, dest="EAVEX"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pslrldq",
cpu=["SSE2"],
modifiers=["SpAdd", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x73],
spare=0,
operands=[Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pslrldq",
cpu=["AVX2"],
modifiers=["SpAdd"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x73],
spare=0,
operands=[Operand(type="SIMDReg", size=256, dest="EAVEX"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pslrldq",
cpu=["AVX2"],
modifiers=["SpAdd"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x73],
spare=0,
operands=[Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDReg", size=256, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pslldq", "pslrldq", modifiers=[7])
add_insn("psrldq", "pslrldq", modifiers=[3])
add_insn("vpslldq", "pslrldq", modifiers=[7, VEXL0], avx=True)
add_insn("vpsrldq", "pslrldq", modifiers=[3, VEXL0], avx=True)
#####################################################################
# SSE3 / PNI Prescott New Instructions instructions
#####################################################################
add_insn("addsubpd", "xmm_xmm128", modifiers=[0x66, 0xD0], cpu=["SSE3"])
add_insn("addsubps", "xmm_xmm128", modifiers=[0xF2, 0xD0], cpu=["SSE3"])
add_insn("haddpd", "xmm_xmm128", modifiers=[0x66, 0x7C], cpu=["SSE3"])
add_insn("haddps", "xmm_xmm128", modifiers=[0xF2, 0x7C], cpu=["SSE3"])
add_insn("hsubpd", "xmm_xmm128", modifiers=[0x66, 0x7D], cpu=["SSE3"])
add_insn("hsubps", "xmm_xmm128", modifiers=[0xF2, 0x7D], cpu=["SSE3"])
add_insn("vaddsubpd", "xmm_xmm128_256", modifiers=[0x66, 0xD0, VEXL0], avx=True)
add_insn("vaddsubps", "xmm_xmm128_256", modifiers=[0xF2, 0xD0, VEXL0], avx=True)
add_insn("vhaddpd", "xmm_xmm128_256", modifiers=[0x66, 0x7C, VEXL0], avx=True)
add_insn("vhaddps", "xmm_xmm128_256", modifiers=[0xF2, 0x7C, VEXL0], avx=True)
add_insn("vhsubpd", "xmm_xmm128_256", modifiers=[0x66, 0x7D, VEXL0], avx=True)
add_insn("vhsubps", "xmm_xmm128_256", modifiers=[0xF2, 0x7D, VEXL0], avx=True)
add_insn("movshdup", "xmm_xmm128", modifiers=[0xF3, 0x16], cpu=["SSE3"])
add_insn("movsldup", "xmm_xmm128", modifiers=[0xF3, 0x12], cpu=["SSE3"])
add_insn("fisttp", "fildstp", modifiers=[1, 0, 1], cpu=["SSE3"])
add_insn("fisttpll", "fildstp", suffix="q", modifiers=[7], cpu=["SSE3"])
add_insn("movddup", "xmm_xmm64", modifiers=[0xF2, 0x12], cpu=["SSE3"])
add_insn("monitor", "threebyte", modifiers=[0x0F, 0x01, 0xC8], cpu=["SSE3"])
add_insn("mwait", "threebyte", modifiers=[0x0F, 0x01, 0xC9], cpu=["SSE3"])
add_group("lddqu",
cpu=["SSE3"],
modifiers=["SetVEX"],
prefix=0xF2,
opcode=[0x0F, 0xF0],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=128, relaxed=True, dest="EA")])
add_group("lddqu",
cpu=["AVX"],
vex=256,
prefix=0xF2,
opcode=[0x0F, 0xF0],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="Mem", size=256, relaxed=True, dest="EA")])
add_insn("lddqu", "lddqu")
add_insn("vlddqu", "lddqu", modifiers=[VEXL0], avx=True)
#####################################################################
# SSSE3 / TNI Tejas New Intructions instructions
#####################################################################
add_group("ssse3",
cpu=["SSSE3"],
notavx=True,
modifiers=["Op2Add"],
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_group("ssse3",
cpu=["SSSE3"],
modifiers=["Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("ssse3",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("ssse3",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="SpareVEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_group("ssse3",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_insn("pshufb", "ssse3", modifiers=[0x00])
add_insn("phaddw", "ssse3", modifiers=[0x01])
add_insn("phaddd", "ssse3", modifiers=[0x02])
add_insn("phaddsw", "ssse3", modifiers=[0x03])
add_insn("pmaddubsw", "ssse3", modifiers=[0x04])
add_insn("phsubw", "ssse3", modifiers=[0x05])
add_insn("phsubd", "ssse3", modifiers=[0x06])
add_insn("phsubsw", "ssse3", modifiers=[0x07])
add_insn("psignb", "ssse3", modifiers=[0x08])
add_insn("psignw", "ssse3", modifiers=[0x09])
add_insn("psignd", "ssse3", modifiers=[0x0A])
add_insn("pmulhrsw", "ssse3", modifiers=[0x0B])
add_insn("pabsb", "ssse3", modifiers=[0x1C])
add_insn("pabsw", "ssse3", modifiers=[0x1D])
add_insn("pabsd", "ssse3", modifiers=[0x1E])
add_insn("vpshufb", "ssse3", modifiers=[0x00, VEXL0], avx=True)
add_insn("vphaddw", "ssse3", modifiers=[0x01, VEXL0], avx=True)
add_insn("vphaddd", "ssse3", modifiers=[0x02, VEXL0], avx=True)
add_insn("vphaddsw", "ssse3", modifiers=[0x03, VEXL0], avx=True)
add_insn("vpmaddubsw", "ssse3", modifiers=[0x04, VEXL0], avx=True)
add_insn("vphsubw", "ssse3", modifiers=[0x05, VEXL0], avx=True)
add_insn("vphsubd", "ssse3", modifiers=[0x06, VEXL0], avx=True)
add_insn("vphsubsw", "ssse3", modifiers=[0x07, VEXL0], avx=True)
add_insn("vpsignb", "ssse3", modifiers=[0x08, VEXL0], avx=True)
add_insn("vpsignw", "ssse3", modifiers=[0x09, VEXL0], avx=True)
add_insn("vpsignd", "ssse3", modifiers=[0x0A, VEXL0], avx=True)
add_insn("vpmulhrsw", "ssse3", modifiers=[0x0B, VEXL0], avx=True)
# vpabsb/vpabsw/vpabsd are 2 operand only
add_group("ssse3imm",
cpu=["SSSE3"],
modifiers=["Op2Add"],
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("ssse3imm",
cpu=["SSSE3"],
modifiers=["Op2Add"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("palignr", "ssse3imm", modifiers=[0x0F])
add_insn("vpalignr", "sse4imm_256avx2", modifiers=[0x0F, VEXL0], avx=True)
#####################################################################
# SSE4.1 / SSE4.2 instructions
#####################################################################
add_group("sse4",
cpu=["SSE41"],
modifiers=["Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("sse4",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_insn("packusdw", "sse4", modifiers=[0x2B])
add_insn("pcmpeqq", "sse4", modifiers=[0x29])
add_insn("pcmpgtq", "sse4", modifiers=[0x37])
add_insn("phminposuw", "sse4", modifiers=[0x41])
add_insn("pmaxsb", "sse4", modifiers=[0x3C])
add_insn("pmaxsd", "sse4", modifiers=[0x3D])
add_insn("pmaxud", "sse4", modifiers=[0x3F])
add_insn("pmaxuw", "sse4", modifiers=[0x3E])
add_insn("pminsb", "sse4", modifiers=[0x38])
add_insn("pminsd", "sse4", modifiers=[0x39])
add_insn("pminud", "sse4", modifiers=[0x3B])
add_insn("pminuw", "sse4", modifiers=[0x3A])
add_insn("pmuldq", "sse4", modifiers=[0x28])
add_insn("pmulld", "sse4", modifiers=[0x40])
add_insn("ptest", "sse4", modifiers=[0x17])
# AVX versions use ssse3, and disable MMX version, as they're 3-operand
add_insn("vpackusdw", "ssse3", modifiers=[0x2B, VEXL0], avx=True)
add_insn("vpcmpeqq", "ssse3", modifiers=[0x29, VEXL0], avx=True)
add_insn("vpcmpgtq", "ssse3", modifiers=[0x37, VEXL0], avx=True)
# vphminposuw is 2 operand only
add_insn("vpmaxsb", "ssse3", modifiers=[0x3C, VEXL0], avx=True)
add_insn("vpmaxsd", "ssse3", modifiers=[0x3D, VEXL0], avx=True)
add_insn("vpmaxud", "ssse3", modifiers=[0x3F, VEXL0], avx=True)
add_insn("vpmaxuw", "ssse3", modifiers=[0x3E, VEXL0], avx=True)
add_insn("vpminsb", "ssse3", modifiers=[0x38, VEXL0], avx=True)
add_insn("vpminsd", "ssse3", modifiers=[0x39, VEXL0], avx=True)
add_insn("vpminud", "ssse3", modifiers=[0x3B, VEXL0], avx=True)
add_insn("vpminuw", "ssse3", modifiers=[0x3A, VEXL0], avx=True)
add_insn("vpmuldq", "ssse3", modifiers=[0x28, VEXL0], avx=True)
add_insn("vpmulld", "ssse3", modifiers=[0x40, VEXL0], avx=True)
# vptest uses SSE4 style (2 operand only), and takes 256-bit operands
add_insn("vptest", "sse4", modifiers=[0x17, VEXL0], avx=True)
add_group("sse4imm_256",
cpu=["SSE41"],
modifiers=["Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("sse4imm_256",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("sse4imm_256",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="SpareVEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("sse4imm_256",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
# Same as above except AVX2 required for 256-bit.
add_group("sse4imm_256avx2",
cpu=["SSE41"],
modifiers=["Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("sse4imm_256avx2",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("sse4imm_256avx2",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="SpareVEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("sse4imm_256avx2",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
# Version that does not allow YMM registers
add_group("sse4imm",
cpu=["SSE41"],
modifiers=["Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("sse4imm",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
for sz in [32, 64]:
add_group("sse4m%dimm" % sz,
cpu=["SSE41"],
modifiers=["Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("sse4m%dimm" % sz,
cpu=["SSE41"],
modifiers=["Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=sz, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("sse4m%dimm" % sz,
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("sse4m%dimm" % sz,
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=sz, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("blendpd", "sse4imm", modifiers=[0x0D])
add_insn("blendps", "sse4imm", modifiers=[0x0C])
add_insn("dppd", "sse4imm", modifiers=[0x41])
add_insn("dpps", "sse4imm", modifiers=[0x40])
add_insn("mpsadbw", "sse4imm", modifiers=[0x42])
add_insn("pblendw", "sse4imm", modifiers=[0x0E])
add_insn("roundpd", "sse4imm", modifiers=[0x09])
add_insn("roundps", "sse4imm", modifiers=[0x08])
add_insn("roundsd", "sse4m64imm", modifiers=[0x0B])
add_insn("roundss", "sse4m32imm", modifiers=[0x0A])
# vdppd does not allow YMM registers
# vmpsadbw and vpblendw do not allow YMM registers unless AVX2
add_insn("vblendpd", "sse4imm_256", modifiers=[0x0D, VEXL0], avx=True)
add_insn("vblendps", "sse4imm_256", modifiers=[0x0C, VEXL0], avx=True)
add_insn("vdppd", "sse4imm", modifiers=[0x41, VEXL0], avx=True)
add_insn("vdpps", "sse4imm_256", modifiers=[0x40, VEXL0], avx=True)
add_insn("vmpsadbw", "sse4imm_256avx2", modifiers=[0x42, VEXL0], avx=True)
add_insn("vpblendw", "sse4imm_256avx2", modifiers=[0x0E, VEXL0], avx=True)
# vroundpd and vroundps don't add another register operand
add_insn("vroundsd", "sse4m64imm", modifiers=[0x0B, VEXL0], avx=True)
add_insn("vroundss", "sse4m32imm", modifiers=[0x0A, VEXL0], avx=True)
add_group("sse4xmm0",
cpu=["SSE41"],
modifiers=["Op2Add"],
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("sse4xmm0",
cpu=["SSE41"],
modifiers=["Op2Add"],
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="XMM0", size=128, dest=None)])
add_insn("blendvpd", "sse4xmm0", modifiers=[0x15])
add_insn("blendvps", "sse4xmm0", modifiers=[0x14])
add_insn("pblendvb", "sse4xmm0", modifiers=[0x10])
# implicit XMM0 can't be VEX-encoded
add_group("avx_sse4xmm0",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc")])
add_group("avx_sse4xmm0",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="VEXImmSrc")])
add_insn("vblendvpd", "avx_sse4xmm0", modifiers=[0x4B])
add_insn("vblendvps", "avx_sse4xmm0", modifiers=[0x4A])
# vpblendvb didn't have a 256-bit form until AVX2
add_group("avx2_sse4xmm0",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc")])
add_group("avx2_sse4xmm0",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="VEXImmSrc")])
add_insn("vpblendvb", "avx2_sse4xmm0", modifiers=[0x4C])
for sfx, sz in zip("bwl", [8, 16, 32]):
add_group("crc32",
suffix=sfx,
cpu=["SSE42"],
opersize=sz,
prefix=0xF2,
opcode=[0x0F, 0x38, 0xF0+(sz!=8)],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="RM", size=sz, relaxed=(sz==32), dest="EA")])
for sfx, sz in zip("bq", [8, 64]):
add_group("crc32",
suffix=sfx,
cpu=["SSE42"],
opersize=64,
prefix=0xF2,
opcode=[0x0F, 0x38, 0xF0+(sz!=8)],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="RM", size=sz, relaxed=(sz==64), dest="EA")])
add_insn("crc32", "crc32")
add_group("extractps",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x17],
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("extractps",
cpu=["SSE41"],
modifiers=["SetVEX"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x17],
operands=[Operand(type="Reg", size=64, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("extractps", "extractps")
add_insn("vextractps", "extractps", modifiers=[VEXL0], avx=True)
add_group("insertps",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x21],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=32, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("insertps",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x21],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("insertps",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x21],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=32, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("insertps",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x21],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("insertps", "insertps")
add_insn("vinsertps", "insertps", modifiers=[VEXL0], avx=True)
add_group("movntdqa",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x38, 0x2A],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=128, relaxed=True, dest="EA")])
add_group("movntdqa",
cpu=["AVX2"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x2A],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="Mem", size=256, relaxed=True, dest="EA")])
add_insn("movntdqa", "movntdqa")
add_insn("vmovntdqa", "movntdqa", modifiers=[VEXL0], avx=True)
add_group("sse4pcmpstr",
cpu=["SSE42"],
modifiers=["Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pcmpestri", "sse4pcmpstr", modifiers=[0x61])
add_insn("pcmpestrm", "sse4pcmpstr", modifiers=[0x60])
add_insn("pcmpistri", "sse4pcmpstr", modifiers=[0x63])
add_insn("pcmpistrm", "sse4pcmpstr", modifiers=[0x62])
add_insn("vpcmpestri", "sse4pcmpstr", modifiers=[0x61, VEXL0], avx=True)
add_insn("vpcmpestrm", "sse4pcmpstr", modifiers=[0x60, VEXL0], avx=True)
add_insn("vpcmpistri", "sse4pcmpstr", modifiers=[0x63, VEXL0], avx=True)
add_insn("vpcmpistrm", "sse4pcmpstr", modifiers=[0x62, VEXL0], avx=True)
add_group("pextrb",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x14],
operands=[Operand(type="Mem", size=8, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pextrb",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x14],
operands=[Operand(type="Reg", size=32, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pextrb",
cpu=["SSE41"],
modifiers=["SetVEX"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x14],
operands=[Operand(type="Reg", size=64, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pextrb", "pextrb")
add_insn("vpextrb", "pextrb", modifiers=[VEXL0], avx=True)
add_group("pextrd",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x16],
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pextrd", "pextrd")
add_insn("vpextrd", "pextrd", modifiers=[VEXL0], avx=True)
add_group("pextrq",
cpu=["SSE41"],
modifiers=["SetVEX"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x16],
operands=[Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pextrq", "pextrq")
add_insn("vpextrq", "pextrq", modifiers=[VEXL0], avx=True)
add_group("pinsrb",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x20],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Mem", size=8, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrb",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x20],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="Reg", size=32, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrb",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x20],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=8, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrb",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x20],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Reg", size=32, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pinsrb", "pinsrb")
add_insn("vpinsrb", "pinsrb", modifiers=[VEXL0], avx=True)
add_group("pinsrd",
cpu=["SSE41"],
modifiers=["SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x22],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrd",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x22],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pinsrd", "pinsrd")
add_insn("vpinsrd", "pinsrd", modifiers=[VEXL0], avx=True)
add_group("pinsrq",
cpu=["SSE41"],
modifiers=["SetVEX"],
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x22],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pinsrq",
cpu=["AVX"],
vex=128,
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x22],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pinsrq", "pinsrq")
add_insn("vpinsrq", "pinsrq", modifiers=[VEXL0], avx=True)
for sz in [16, 32, 64]:
add_group("sse4m%d" % sz,
cpu=["SSE41"],
modifiers=["Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=sz, relaxed=True, dest="EA")])
add_group("sse4m%d" % sz,
cpu=["SSE41"],
modifiers=["Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("sse4m%d" % sz,
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="Mem", size=sz*2, relaxed=True, dest="EA")])
add_group("sse4m%d" % sz,
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_insn("pmovsxbw", "sse4m64", modifiers=[0x20])
add_insn("pmovsxwd", "sse4m64", modifiers=[0x23])
add_insn("pmovsxdq", "sse4m64", modifiers=[0x25])
add_insn("pmovzxbw", "sse4m64", modifiers=[0x30])
add_insn("pmovzxwd", "sse4m64", modifiers=[0x33])
add_insn("pmovzxdq", "sse4m64", modifiers=[0x35])
add_insn("vpmovsxbw", "sse4m64", modifiers=[0x20, VEXL0], avx=True)
add_insn("vpmovsxwd", "sse4m64", modifiers=[0x23, VEXL0], avx=True)
add_insn("vpmovsxdq", "sse4m64", modifiers=[0x25, VEXL0], avx=True)
add_insn("vpmovzxbw", "sse4m64", modifiers=[0x30, VEXL0], avx=True)
add_insn("vpmovzxwd", "sse4m64", modifiers=[0x33, VEXL0], avx=True)
add_insn("vpmovzxdq", "sse4m64", modifiers=[0x35, VEXL0], avx=True)
add_insn("pmovsxbd", "sse4m32", modifiers=[0x21])
add_insn("pmovsxwq", "sse4m32", modifiers=[0x24])
add_insn("pmovzxbd", "sse4m32", modifiers=[0x31])
add_insn("pmovzxwq", "sse4m32", modifiers=[0x34])
add_insn("vpmovsxbd", "sse4m32", modifiers=[0x21, VEXL0], avx=True)
add_insn("vpmovsxwq", "sse4m32", modifiers=[0x24, VEXL0], avx=True)
add_insn("vpmovzxbd", "sse4m32", modifiers=[0x31, VEXL0], avx=True)
add_insn("vpmovzxwq", "sse4m32", modifiers=[0x34, VEXL0], avx=True)
add_insn("pmovsxbq", "sse4m16", modifiers=[0x22])
add_insn("pmovzxbq", "sse4m16", modifiers=[0x32])
add_insn("vpmovsxbq", "sse4m16", modifiers=[0x22, VEXL0], avx=True)
add_insn("vpmovzxbq", "sse4m16", modifiers=[0x32, VEXL0], avx=True)
for sfx, sz in zip("wlq", [16, 32, 64]):
add_group("cnt",
suffix=sfx,
modifiers=["Op1Add"],
opersize=sz,
prefix=0xF3,
opcode=[0x0F, 0x00],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA")])
add_insn("popcnt", "cnt", modifiers=[0xB8], cpu=["SSE42"])
#####################################################################
# Intel AVX instructions
#####################################################################
# Most AVX instructions are mixed in with above SSEx groups.
# Some make more sense to have separate groups due to naming conflicts
# that the v-named versions don't have to deal with.
add_group("vmovd",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x6E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="RM", size=32, relaxed=True, dest="EA")])
add_group("vmovd",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x7E],
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_insn("vmovd", "vmovd")
add_group("vmovq",
cpu=["AVX"],
vex=128,
prefix=0xF3,
opcode=[0x0F, 0x7E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("vmovq",
cpu=["AVX"],
vex=128,
prefix=0xF3,
opcode=[0x0F, 0x7E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_group("vmovq",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0xD6],
operands=[Operand(type="Mem", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("vmovq",
cpu=["AVX"],
vex=128,
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x6E],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="RM", size=64, relaxed=True, dest="EA")])
add_group("vmovq",
cpu=["AVX"],
vex=128,
opersize=64,
prefix=0x66,
opcode=[0x0F, 0x7E],
operands=[Operand(type="RM", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_insn("vmovq", "vmovq")
# Some AVX variants don't add third operand
add_group("avx_xmm_xmm128",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("avx_xmm_xmm128",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_insn("vmovshdup", "avx_xmm_xmm128", modifiers=[0xF3, 0x16])
add_insn("vmovsldup", "avx_xmm_xmm128", modifiers=[0xF3, 0x12])
add_insn("vrcpps", "avx_xmm_xmm128", modifiers=[0, 0x53])
add_insn("vrsqrtps", "avx_xmm_xmm128", modifiers=[0, 0x52])
add_insn("vsqrtps", "avx_xmm_xmm128", modifiers=[0, 0x51])
add_insn("vsqrtpd", "avx_xmm_xmm128", modifiers=[0x66, 0x51])
add_insn("vcvtdq2ps", "avx_xmm_xmm128", modifiers=[0, 0x5B])
add_insn("vcvtps2dq", "avx_xmm_xmm128", modifiers=[0x66, 0x5B])
add_insn("vcvttps2dq", "avx_xmm_xmm128", modifiers=[0xF3, 0x5B])
add_group("avx_sse4imm",
cpu=["SSE41"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("avx_sse4imm",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("avx_sse4imm",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("vroundpd", "avx_sse4imm", modifiers=[0x09])
add_insn("vroundps", "avx_sse4imm", modifiers=[0x08])
add_group("vmovddup",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("vmovddup",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_group("vmovddup",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_insn("vmovddup", "vmovddup", modifiers=[0xF2, 0x12])
# Some xmm_xmm64 combinations only take two operands in AVX
# (VEX.vvvv must be 1111b)
add_group("avx_xmm_xmm64",
cpu=["SSE2"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("avx_xmm_xmm64",
cpu=["SSE2"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_insn("vcomisd", "avx_xmm_xmm64", modifiers=[0x66, 0x2F], avx=True)
add_insn("vucomisd", "avx_xmm_xmm64", modifiers=[0x66, 0x2E], avx=True)
# Some xmm_xmm64 combinations only take two operands in AVX
# (VEX.vvvv must be 1111b)
add_group("avx_xmm_xmm32",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("avx_xmm_xmm32",
cpu=["SSE"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_insn("vcomiss", "avx_xmm_xmm32", modifiers=[0, 0x2F], avx=True)
add_insn("vucomiss", "avx_xmm_xmm32", modifiers=[0, 0x2E], avx=True)
# Some conversion functions take ymm, xmm combination
add_group("avx_cvt_xmm64",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("avx_cvt_xmm64",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_group("avx_cvt_xmm64",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_insn("vcvtdq2pd", "avx_cvt_xmm64", modifiers=[0xF3, 0xE6])
add_insn("vcvtps2pd", "avx_cvt_xmm64", modifiers=[0, 0x5A])
# Some SSE3 opcodes are only two operand in AVX
# (VEX.vvvv must be 1111b)
add_group("avx_ssse3_2op",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_insn("vphminposuw", "avx_ssse3_2op", modifiers=[0x41], avx=True)
# VPABS* are extended to 256-bit in AVX2
for cpu, sz in zip(["AVX", "AVX2"], [128, 256]):
add_group("avx2_ssse3_2op",
cpu=[cpu],
modifiers=["Op2Add"],
vex=sz,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="SIMDRM", size=sz, relaxed=True, dest="EA")])
add_insn("vpabsb", "avx2_ssse3_2op", modifiers=[0x1C], avx=True)
add_insn("vpabsw", "avx2_ssse3_2op", modifiers=[0x1D], avx=True)
add_insn("vpabsd", "avx2_ssse3_2op", modifiers=[0x1E], avx=True)
# Some conversion functions take xmm, ymm combination
# Need separate x and y versions for gas mode
add_group("avx_cvt_xmm128_x",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("avx_cvt_xmm128_y",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_group("avx_cvt_xmm128",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, dest="EA")])
add_group("avx_cvt_xmm128",
cpu=["AVX"],
modifiers=["PreAdd", "Op1Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=256, dest="EA")])
add_insn("vcvtpd2dqx", "avx_cvt_xmm128_x", modifiers=[0xF2, 0xE6], parser="gas")
add_insn("vcvtpd2dqy", "avx_cvt_xmm128_y", modifiers=[0xF2, 0xE6], parser="gas")
add_insn("vcvtpd2dq", "avx_cvt_xmm128", modifiers=[0xF2, 0xE6])
add_insn("vcvtpd2psx", "avx_cvt_xmm128_x", modifiers=[0x66, 0x5A], parser="gas")
add_insn("vcvtpd2psy", "avx_cvt_xmm128_y", modifiers=[0x66, 0x5A], parser="gas")
add_insn("vcvtpd2ps", "avx_cvt_xmm128", modifiers=[0x66, 0x5A])
add_insn("vcvttpd2dqx", "avx_cvt_xmm128_x", modifiers=[0x66, 0xE6], parser="gas")
add_insn("vcvttpd2dqy", "avx_cvt_xmm128_y", modifiers=[0x66, 0xE6], parser="gas")
add_insn("vcvttpd2dq", "avx_cvt_xmm128", modifiers=[0x66, 0xE6])
# Instructions new to AVX
add_insn("vtestps", "sse4", modifiers=[0x0E, VEXL0], avx=True)
add_insn("vtestpd", "sse4", modifiers=[0x0F, VEXL0], avx=True)
add_group("vbroadcastss",
cpu=["AVX"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x38, 0x18],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_group("vbroadcastss",
cpu=["AVX"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x18],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_group("vbroadcastss",
cpu=["AVX2"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x38, 0x18],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("vbroadcastss",
cpu=["AVX2"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x18],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_insn("vbroadcastss", "vbroadcastss")
add_group("vbroadcastsd",
cpu=["AVX"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x19],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_group("vbroadcastsd",
cpu=["AVX2"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x19],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_insn("vbroadcastsd", "vbroadcastsd")
add_group("vbroadcastif128",
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="Mem", size=128, relaxed=True, dest="EA")])
add_insn("vbroadcastf128", "vbroadcastif128", modifiers=[0x1A], cpu=["AVX"])
add_insn("vbroadcasti128", "vbroadcastif128", modifiers=[0x5A], cpu=["AVX2"])
add_group("vextractif128",
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("vextractf128", "vextractif128", modifiers=[0x19], cpu=["AVX"])
add_insn("vextracti128", "vextractif128", modifiers=[0x39], cpu=["AVX2"])
add_group("vinsertif128",
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("vinsertf128", "vinsertif128", modifiers=[0x18], cpu=["AVX"])
add_insn("vinserti128", "vinsertif128", modifiers=[0x38], cpu=["AVX2"])
add_group("vzero",
cpu=["AVX"],
modifiers=["SetVEX"],
opcode=[0x0F, 0x77],
operands=[])
add_insn("vzeroall", "vzero", modifiers=[VEXL1])
add_insn("vzeroupper", "vzero", modifiers=[VEXL0])
add_group("vmaskmov",
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("vmaskmov",
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_group("vmaskmov",
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x38, 0x02],
operands=[Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_group("vmaskmov",
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x02],
operands=[Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDReg", size=256, dest="Spare")])
add_insn("vmaskmovps", "vmaskmov", modifiers=[0x2C], cpu=["AVX"])
add_insn("vmaskmovpd", "vmaskmov", modifiers=[0x2D], cpu=["AVX"])
add_group("vpermil",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x38, 0x08],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("vpermil",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x38, 0x08],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_group("vpermil",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("vpermil",
cpu=["AVX"],
modifiers=["Op2Add"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("vpermilpd", "vpermil", modifiers=[0x05])
add_insn("vpermilps", "vpermil", modifiers=[0x04])
add_group("vperm2f128",
cpu=["AVX"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x06],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("vperm2f128", "vperm2f128")
#####################################################################
# Intel AVX2 instructions
#####################################################################
# Most AVX2 instructions are mixed in with above SSEx/AVX groups.
# Some make more sense to have separate groups.
# vex.vvvv=1111b
add_group("vperm_var_avx2",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_insn("vpermd", "vperm_var_avx2", modifiers=[0x36])
add_insn("vpermps", "vperm_var_avx2", modifiers=[0x16])
# vex.vvvv=1111b
add_group("vperm_imm_avx2",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("vpermq", "vperm_imm_avx2", modifiers=[0x00])
add_insn("vpermpd", "vperm_imm_avx2", modifiers=[0x01])
add_group("vperm2i128_avx2",
cpu=["AVX2"],
vex=256,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x46],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("vperm2i128", "vperm2i128_avx2")
# vex.vvvv=1111b
for sz in [128, 256]:
add_group("vpbroadcastb_avx2",
cpu=["AVX2"],
vex=sz,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x78],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="SIMDReg", size=128, relaxed=True, dest="EA")])
# vex.vvvv=1111b
for sz in [128, 256]:
add_group("vpbroadcastb_avx2",
cpu=["AVX2"],
vex=sz,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x78],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="RM", size=8, relaxed=True, dest="EA")])
add_insn("vpbroadcastb", "vpbroadcastb_avx2")
# vex.vvvv=1111b
for sz in [128, 256]:
add_group("vpbroadcastw_avx2",
cpu=["AVX2"],
vex=sz,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x79],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="SIMDReg", size=128, relaxed=True, dest="EA")])
# vex.vvvv=1111b
for sz in [128, 256]:
add_group("vpbroadcastw_avx2",
cpu=["AVX2"],
vex=sz,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x79],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="RM", size=16, relaxed=True, dest="EA")])
add_insn("vpbroadcastw", "vpbroadcastw_avx2")
# vex.vvvv=1111b
for sz in [128, 256]:
add_group("vpbroadcastd_avx2",
cpu=["AVX2"],
vex=sz,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x58],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="SIMDReg", size=128, relaxed=True, dest="EA")])
# vex.vvvv=1111b
for sz in [128, 256]:
add_group("vpbroadcastd_avx2",
cpu=["AVX2"],
vex=sz,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x58],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="RM", size=32, relaxed=True, dest="EA")])
add_insn("vpbroadcastd", "vpbroadcastd_avx2")
# vex.vvvv=1111b
for sz in [128, 256]:
add_group("vpbroadcastq_avx2",
cpu=["AVX2"],
vex=sz,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x59],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="SIMDReg", size=128, relaxed=True, dest="EA")])
# vex.vvvv=1111b
for sz in [128, 256]:
add_group("vpbroadcastq_avx2",
cpu=["AVX2"],
vex=sz,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x59],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="RM", size=64, relaxed=True, dest="EA")])
add_insn("vpbroadcastq", "vpbroadcastq_avx2")
for sz in [128, 256]:
add_group("vpshiftv_vexw0_avx2",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=sz,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="SIMDReg", size=sz, dest="VEX"),
Operand(type="SIMDRM", size=sz, relaxed=True, dest="EA")])
for sz in [128, 256]:
add_group("vpshiftv_vexw1_avx2",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=sz,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="SIMDReg", size=sz, dest="VEX"),
Operand(type="SIMDRM", size=sz, relaxed=True, dest="EA")])
add_insn("vpsrlvd", "vpshiftv_vexw0_avx2", modifiers=[0x45])
add_insn("vpsrlvq", "vpshiftv_vexw1_avx2", modifiers=[0x45])
add_insn("vpsravd", "vpshiftv_vexw0_avx2", modifiers=[0x46])
add_insn("vpsllvd", "vpshiftv_vexw0_avx2", modifiers=[0x47])
add_insn("vpsllvq", "vpshiftv_vexw1_avx2", modifiers=[0x47])
add_insn("vpmaskmovd", "vmaskmov", modifiers=[0x8C], cpu=["AVX2"])
# vex.vvvv=1111b
for sz in [128, 256]:
add_group("vmaskmov_vexw1_avx2",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=sz,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="SIMDReg", size=sz, dest="VEX"),
Operand(type="SIMDRM", size=sz, relaxed=True, dest="EA")])
for sz in [128, 256]:
add_group("vmaskmov_vexw1_avx2",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=sz,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x38, 0x02],
operands=[Operand(type="SIMDRM", size=sz, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=sz, dest="VEX"),
Operand(type="SIMDReg", size=sz, dest="Spare")])
add_insn("vpmaskmovq", "vmaskmov_vexw1_avx2", modifiers=[0x8C])
for sz in [128, 256]:
add_group("vex_66_0F3A_imm8_avx2",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=sz,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=sz, dest="Spare"),
Operand(type="SIMDReg", size=sz, dest="VEX"),
Operand(type="SIMDRM", size=sz, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("vpblendd", "vex_66_0F3A_imm8_avx2", modifiers=[0x02])
# Vector register in EA.
add_group("gather_64x_64x",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=128,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="MemXMMIndex", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEX")])
add_group("gather_64x_64x",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="MemXMMIndex", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="VEX")])
add_insn("vgatherdpd", "gather_64x_64x", modifiers=[0x92])
add_insn("vpgatherdq", "gather_64x_64x", modifiers=[0x90])
add_group("gather_64x_64y",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=128,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="MemXMMIndex", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEX")])
add_group("gather_64x_64y",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="MemYMMIndex", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="VEX")])
add_insn("vgatherqpd", "gather_64x_64y", modifiers=[0x93])
add_insn("vpgatherqq", "gather_64x_64y", modifiers=[0x91])
add_group("gather_32x_32y",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=128,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="MemXMMIndex", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEX")])
add_group("gather_32x_32y",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="MemYMMIndex", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="VEX")])
add_insn("vgatherdps", "gather_32x_32y", modifiers=[0x92])
add_insn("vpgatherdd", "gather_32x_32y", modifiers=[0x90])
add_group("gather_32x_32y_128",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=128,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="MemXMMIndex", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEX")])
add_group("gather_32x_32y_128",
cpu=["AVX2"],
modifiers=["Op2Add"],
vex=256,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="MemYMMIndex", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEX")])
add_insn("vgatherqps", "gather_32x_32y_128", modifiers=[0x93])
add_insn("vpgatherqd", "gather_32x_32y_128", modifiers=[0x91])
#####################################################################
# Intel FMA instructions
#####################################################################
### 128/256b FMA PS
add_group("vfma_ps",
cpu=["FMA"],
modifiers=["Op2Add"],
vex=128,
vexw=0, # single precision
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("vfma_ps",
cpu=["FMA"],
modifiers=["Op2Add"],
vex=256,
vexw=0, # single precision
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
### 128/256b FMA PD(W=1)
add_group("vfma_pd",
cpu=["FMA"],
modifiers=["Op2Add"],
vex=128,
vexw=1, # double precision
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("vfma_pd",
cpu=["FMA"],
modifiers=["Op2Add"],
vex=256,
vexw=1, # double precision
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_group("vfma_ss",
cpu=["FMA"],
modifiers=["Op2Add"],
vex=128,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("vfma_ss",
cpu=["FMA"],
modifiers=["Op2Add"],
vex=128,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_group("vfma_sd",
cpu=["FMA"],
modifiers=["Op2Add"],
vex=128,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("vfma_sd",
cpu=["FMA"],
modifiers=["Op2Add"],
vex=128,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x38, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
for orderval, order in enumerate(["132", "213", "231"]):
ov = orderval << 4
for combval, comb in enumerate(["ps", "pd", "ss", "sd"]):
cv = combval >> 1
add_insn("vfmadd"+order+comb, "vfma_"+comb, modifiers=[0x98+ov+cv])
add_insn("vfmsub"+order+comb, "vfma_"+comb, modifiers=[0x9A+ov+cv])
add_insn("vfnmsub"+order+comb, "vfma_"+comb, modifiers=[0x9E+ov+cv])
add_insn("vfnmadd"+order+comb, "vfma_"+comb, modifiers=[0x9C+ov+cv])
# no ss/sd for these
for comb in ["ps", "pd"]:
add_insn("vfmaddsub"+order+comb, "vfma_"+comb, modifiers=[0x96+ov])
add_insn("vfmsubadd"+order+comb, "vfma_"+comb, modifiers=[0x97+ov])
#####################################################################
# Intel AES instructions
#####################################################################
add_group("aes",
cpu=["AES"],
modifiers=["Op1Add", "Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x00, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("aes",
cpu=["AES", "AVX"],
modifiers=["Op1Add", "Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x00, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_insn("aesenc", "aes", modifiers=[0x38, 0xDC])
add_insn("aesenclast", "aes", modifiers=[0x38, 0xDD])
add_insn("aesdec", "aes", modifiers=[0x38, 0xDE])
add_insn("aesdeclast", "aes", modifiers=[0x38, 0xDF])
add_insn("vaesenc", "aes", modifiers=[0x38, 0xDC, VEXL0], avx=True)
add_insn("vaesenclast", "aes", modifiers=[0x38, 0xDD, VEXL0], avx=True)
add_insn("vaesdec", "aes", modifiers=[0x38, 0xDE, VEXL0], avx=True)
add_insn("vaesdeclast", "aes", modifiers=[0x38, 0xDF, VEXL0], avx=True)
add_group("aesimc",
cpu=["AES"],
modifiers=["Op1Add", "Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x00, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_insn("aesimc", "aesimc", modifiers=[0x38, 0xDB])
add_insn("vaesimc", "aesimc", modifiers=[0x38, 0xDB, VEXL0], avx=True)
add_group("aes_imm",
cpu=["AES"],
modifiers=["Op1Add", "Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x00, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("aeskeygenassist", "aes_imm", modifiers=[0x3A, 0xDF])
add_insn("vaeskeygenassist", "aes_imm", modifiers=[0x3A, 0xDF, VEXL0],
avx=True)
#####################################################################
# Intel PCLMULQDQ instruction
#####################################################################
add_group("pclmulqdq",
cpu=["CLMUL"],
modifiers=["Op1Add", "Op2Add", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x00, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("pclmulqdq",
cpu=["CLMUL", "AVX"],
modifiers=["Op1Add", "Op2Add"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x00, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("pclmulqdq", "pclmulqdq", modifiers=[0x3A, 0x44])
add_insn("vpclmulqdq", "pclmulqdq", modifiers=[0x3A, 0x44, VEXL0], avx=True)
add_group("pclmulqdq_fixed",
cpu=["CLMUL"],
modifiers=["Imm8", "SetVEX"],
prefix=0x66,
opcode=[0x0F, 0x3A, 0x44],
operands=[Operand(type="SIMDReg", size=128, dest="SpareVEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("pclmulqdq_fixed",
cpu=["CLMUL", "AVX"],
modifiers=["Imm8"],
vex=128,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x44],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
for comb, combval in zip(["lql","hql","lqh","hqh"], [0x00,0x01,0x10,0x11]):
add_insn("pclmul"+comb+"qdq", "pclmulqdq_fixed", modifiers=[combval])
add_insn("vpclmul"+comb+"qdq", "pclmulqdq_fixed",
modifiers=[combval, VEXL0], avx=True)
#####################################################################
# AVX Post-32nm instructions
#####################################################################
# RDRAND
add_group("rdrand",
cpu=["RDRAND"],
opersize=16,
opcode=[0x0F, 0xC7],
spare=6,
operands=[Operand(type="Reg", size=16, dest="EA")])
add_group("rdrand",
#suffix="l",
cpu=["RDRAND"],
opersize=32,
opcode=[0x0F, 0xC7],
spare=6,
operands=[Operand(type="Reg", size=32, dest="EA")])
add_group("rdrand",
cpu=["RDRAND"],
opersize=64,
opcode=[0x0F, 0xC7],
spare=6,
operands=[Operand(type="Reg", size=64, dest="EA")])
add_insn("rdrand", "rdrand")
# FSGSBASE instructions
add_group("fs_gs_base",
only64=True,
cpu=["FSGSBASE"],
modifiers=['SpAdd'],
opersize=32,
prefix=0xF3,
opcode=[0x0F, 0xAE],
operands=[Operand(type="Reg", size=32, dest="EA")])
add_group("fs_gs_base",
only64=True,
cpu=["FSGSBASE"],
opersize=64,
modifiers=['SpAdd'],
prefix=0xF3,
opcode=[0x0F, 0xAE],
operands=[Operand(type="Reg", size=64, dest="EA")])
add_insn("rdfsbase", "fs_gs_base", modifiers=[0], only64=True)
add_insn("rdgsbase", "fs_gs_base", modifiers=[1], only64=True)
add_insn("wrfsbase", "fs_gs_base", modifiers=[2], only64=True)
add_insn("wrgsbase", "fs_gs_base", modifiers=[3], only64=True)
# Float-16 conversion instructions
for g in ['ps2ph', 'ph2ps']:
operands1=[]
operands1.append(Operand(type="SIMDReg", size=128, dest="EA"))
operands1.append(Operand(type="SIMDReg", size=128, dest="Spare"))
operands2=[]
operands2.append(Operand(type="Mem", size=64, dest="EA"))
operands2.append(Operand(type="SIMDReg", size=128, dest="Spare"))
operands3=[]
operands3.append(Operand(type="SIMDReg", size=128, dest="EA"))
operands3.append(Operand(type="SIMDReg", size=256, dest="Spare"))
operands4=[]
operands4.append(Operand(type="Mem", size=128, dest="EA"))
operands4.append(Operand(type="SIMDReg", size=256, dest="Spare"))
if g == 'ph2ps':
operands1.reverse()
operands2.reverse()
operands3.reverse()
operands4.reverse()
map = 0x38
elif g == 'ps2ph':
immop = Operand(type="Imm", size=8, relaxed=True, dest="Imm")
operands1.append(immop)
operands2.append(immop)
operands3.append(immop)
operands4.append(immop)
map = 0x3A
add_group("avx_cvt" + g,
cpu=["F16C", "AVX"],
modifiers=["PreAdd", "Op2Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, map, 0x00],
operands=operands1)
add_group("avx_cvt" + g,
cpu=["F16C", "AVX"],
modifiers=["PreAdd", "Op2Add"],
vex=128,
prefix=0x00,
opcode=[0x0F, map, 0x00],
operands=operands2)
add_group("avx_cvt" + g,
cpu=["F16C", "AVX"],
modifiers=["PreAdd", "Op2Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, map, 0x00],
operands=operands3)
add_group("avx_cvt" + g,
cpu=["F16C", "AVX"],
modifiers=["PreAdd", "Op2Add"],
vex=256,
prefix=0x00,
opcode=[0x0F, map, 0x00],
operands=operands4)
add_insn("vcvtps2ph", "avx_cvtps2ph", modifiers=[0x66, 0x1D], avx=True)
add_insn("vcvtph2ps", "avx_cvtph2ps", modifiers=[0x66, 0x13], avx=True)
#####################################################################
# AMD SSE4a instructions
#####################################################################
add_group("extrq",
cpu=["SSE4a"],
prefix=0x66,
opcode=[0x0F, 0x78],
operands=[Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("extrq",
cpu=["SSE4a"],
prefix=0x66,
opcode=[0x0F, 0x79],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_insn("extrq", "extrq")
add_group("insertq",
cpu=["SSE4a"],
prefix=0xF2,
opcode=[0x0F, 0x78],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_group("insertq",
cpu=["SSE4a"],
prefix=0xF2,
opcode=[0x0F, 0x79],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_insn("insertq", "insertq")
add_group("movntsd",
cpu=["SSE4a"],
prefix=0xF2,
opcode=[0x0F, 0x2B],
operands=[Operand(type="Mem", size=64, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_insn("movntsd", "movntsd")
add_group("movntss",
cpu=["SSE4a"],
prefix=0xF3,
opcode=[0x0F, 0x2B],
operands=[Operand(type="Mem", size=32, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="Spare")])
add_insn("movntss", "movntss")
#####################################################################
# AMD XOP instructions
#####################################################################
add_group("vfrc_pdps",
cpu=["XOP"],
modifiers=["Op1Add"],
xop=128,
opcode=[0x09, 0x80],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("vfrc_pdps",
cpu=["XOP"],
modifiers=["Op1Add"],
xop=256,
opcode=[0x09, 0x80],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_insn("vfrczpd", "vfrc_pdps", modifiers=[0x01])
add_insn("vfrczps", "vfrc_pdps", modifiers=[0x00])
add_group("vfrczsd",
cpu=["XOP"],
xop=128,
opcode=[0x09, 0x83],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("vfrczsd",
cpu=["XOP"],
xop=128,
opcode=[0x09, 0x83],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_insn("vfrczsd", "vfrczsd")
add_group("vfrczss",
cpu=["XOP"],
xop=128,
opcode=[0x09, 0x82],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="EA")])
add_group("vfrczss",
cpu=["XOP"],
xop=128,
opcode=[0x09, 0x82],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_insn("vfrczss", "vfrczss")
add_group("vpcmov",
cpu=["XOP"],
xop=128,
xopw=0,
opcode=[0x08, 0xA2],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc")])
add_group("vpcmov",
cpu=["XOP"],
xop=128,
xopw=1,
opcode=[0x08, 0xA2],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("vpcmov",
cpu=["XOP"],
xop=256,
xopw=0,
opcode=[0x08, 0xA2],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="VEXImmSrc")])
add_group("vpcmov",
cpu=["XOP"],
xop=256,
xopw=1,
opcode=[0x08, 0xA2],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDReg", size=256, dest="VEXImmSrc"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_insn("vpcmov", "vpcmov")
add_group("vpcom",
cpu=["XOP"],
modifiers=["Op1Add", "Imm8"],
xop=128,
opcode=[0x08, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("vpcom_imm",
cpu=["XOP"],
modifiers=["Op1Add"],
xop=128,
opcode=[0x08, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
for opc, sfx in [(0xCC, "b"),
(0xCE, "d"),
(0xCD, "w"),
(0xCF, "q"),
(0xEC, "ub"),
(0xEE, "ud"),
(0xEF, "uq"),
(0xED, "uw")]:
add_insn("vpcom"+sfx, "vpcom_imm", modifiers=[opc])
for ib, cc in enumerate(["lt", "le", "gt", "ge",
"eq", "neq", "false", "true"]):
add_insn("vpcom"+cc+sfx, "vpcom", modifiers=[opc, ib])
# ne alias for neq
add_insn("vpcomne"+sfx, "vpcom", modifiers=[opc, 5])
add_group("vphaddsub",
cpu=["XOP"],
modifiers=["Op1Add"],
xop=128,
opcode=[0x09, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_insn("vphaddbw", "vphaddsub", modifiers=[0xC1])
add_insn("vphaddbd", "vphaddsub", modifiers=[0xC2])
add_insn("vphaddbq", "vphaddsub", modifiers=[0xC3])
add_insn("vphaddwd", "vphaddsub", modifiers=[0xC6])
add_insn("vphaddwq", "vphaddsub", modifiers=[0xC7])
add_insn("vphadddq", "vphaddsub", modifiers=[0xCB])
add_insn("vphaddubw", "vphaddsub", modifiers=[0xD1])
add_insn("vphaddubd", "vphaddsub", modifiers=[0xD2])
add_insn("vphaddubq", "vphaddsub", modifiers=[0xD3])
add_insn("vphadduwd", "vphaddsub", modifiers=[0xD6])
add_insn("vphadduwq", "vphaddsub", modifiers=[0xD7])
add_insn("vphaddudq", "vphaddsub", modifiers=[0xD8])
add_insn("vphsubbw", "vphaddsub", modifiers=[0xE1])
add_insn("vphsubwd", "vphaddsub", modifiers=[0xE2])
add_insn("vphsubdq", "vphaddsub", modifiers=[0xE3])
add_group("vpma",
cpu=["XOP"],
modifiers=["Op1Add"],
xop=128,
opcode=[0x08, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc")])
add_insn("vpmacsdd", "vpma", modifiers=[0x9E])
add_insn("vpmacsdqh", "vpma", modifiers=[0x9F])
add_insn("vpmacsdql", "vpma", modifiers=[0x97])
add_insn("vpmacssdd", "vpma", modifiers=[0x8E])
add_insn("vpmacssdqh", "vpma", modifiers=[0x8F])
add_insn("vpmacssdql", "vpma", modifiers=[0x87])
add_insn("vpmacsswd", "vpma", modifiers=[0x86])
add_insn("vpmacssww", "vpma", modifiers=[0x85])
add_insn("vpmacswd", "vpma", modifiers=[0x96])
add_insn("vpmacsww", "vpma", modifiers=[0x95])
add_insn("vpmadcsswd", "vpma", modifiers=[0xA6])
add_insn("vpmadcswd", "vpma", modifiers=[0xB6])
add_group("vpperm",
cpu=["XOP"],
xop=128,
xopw=0,
opcode=[0x08, 0xA3],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc")])
add_group("vpperm",
cpu=["XOP"],
xop=128,
xopw=1,
opcode=[0x08, 0xA3],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_insn("vpperm", "vpperm")
add_group("vprot",
cpu=["XOP"],
modifiers=["Op1Add"],
xop=128,
xopw=0,
opcode=[0x09, 0x90],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEX")])
add_group("vprot",
cpu=["XOP"],
modifiers=["Op1Add"],
xop=128,
xopw=1,
opcode=[0x09, 0x90],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("vprot",
cpu=["XOP"],
modifiers=["Op1Add"],
xop=128,
opcode=[0x08, 0xC0],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
for opc, sfx in enumerate(["b", "w", "d", "q"]):
add_insn("vprot"+sfx, "vprot", modifiers=[opc])
add_group("amd_vpshift",
cpu=["XOP"],
modifiers=["Op1Add"],
xop=128,
xopw=0,
opcode=[0x09, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEX")])
add_group("amd_vpshift",
cpu=["XOP"],
modifiers=["Op1Add"],
xop=128,
xopw=1,
opcode=[0x09, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
for opc, sfx in enumerate(["b", "w", "d", "q"]):
add_insn("vpsha"+sfx, "amd_vpshift", modifiers=[0x98+opc])
add_insn("vpshl"+sfx, "amd_vpshift", modifiers=[0x94+opc])
#####################################################################
# AMD FMA4 instructions (same as original Intel FMA instructions)
#####################################################################
add_group("fma_128_256",
cpu=["FMA4"],
modifiers=["Op2Add"],
vex=128,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc")])
add_group("fma_128_256",
cpu=["FMA4"],
modifiers=["Op2Add"],
vex=128,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc"),
Operand(type="SIMDRM", size=128, relaxed=True, dest="EA")])
add_group("fma_128_256",
cpu=["FMA4"],
modifiers=["Op2Add"],
vex=256,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=256, dest="VEXImmSrc")])
add_group("fma_128_256",
cpu=["FMA4"],
modifiers=["Op2Add"],
vex=256,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=256, dest="Spare"),
Operand(type="SIMDReg", size=256, dest="VEX"),
Operand(type="SIMDReg", size=256, dest="VEXImmSrc"),
Operand(type="SIMDRM", size=256, relaxed=True, dest="EA")])
add_insn("vfmaddpd", "fma_128_256", modifiers=[0x69])
add_insn("vfmaddps", "fma_128_256", modifiers=[0x68])
add_insn("vfmaddsubpd", "fma_128_256", modifiers=[0x5D])
add_insn("vfmaddsubps", "fma_128_256", modifiers=[0x5C])
add_insn("vfmsubaddpd", "fma_128_256", modifiers=[0x5F])
add_insn("vfmsubaddps", "fma_128_256", modifiers=[0x5E])
add_insn("vfmsubpd", "fma_128_256", modifiers=[0x6D])
add_insn("vfmsubps", "fma_128_256", modifiers=[0x6C])
add_insn("vfnmaddpd", "fma_128_256", modifiers=[0x79])
add_insn("vfnmaddps", "fma_128_256", modifiers=[0x78])
add_insn("vfnmsubpd", "fma_128_256", modifiers=[0x7D])
add_insn("vfnmsubps", "fma_128_256", modifiers=[0x7C])
for sz in [32, 64]:
add_group("fma_128_m%d" % sz,
cpu=["FMA4"],
modifiers=["Op2Add"],
vex=128,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc")])
add_group("fma_128_m%d" % sz,
cpu=["FMA4"],
modifiers=["Op2Add"],
vex=128,
vexw=0,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="Mem", size=sz, relaxed=True, dest="EA"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc")])
add_group("fma_128_m%d" % sz,
cpu=["FMA4"],
modifiers=["Op2Add"],
vex=128,
vexw=1,
prefix=0x66,
opcode=[0x0F, 0x3A, 0x00],
operands=[Operand(type="SIMDReg", size=128, dest="Spare"),
Operand(type="SIMDReg", size=128, dest="VEX"),
Operand(type="SIMDReg", size=128, dest="VEXImmSrc"),
Operand(type="Mem", size=sz, relaxed=True, dest="EA")])
add_insn("vfmaddsd", "fma_128_m64", modifiers=[0x6B])
add_insn("vfmaddss", "fma_128_m32", modifiers=[0x6A])
add_insn("vfmsubsd", "fma_128_m64", modifiers=[0x6F])
add_insn("vfmsubss", "fma_128_m32", modifiers=[0x6E])
add_insn("vfnmaddsd", "fma_128_m64", modifiers=[0x7B])
add_insn("vfnmaddss", "fma_128_m32", modifiers=[0x7A])
add_insn("vfnmsubsd", "fma_128_m64", modifiers=[0x7F])
add_insn("vfnmsubss", "fma_128_m32", modifiers=[0x7E])
#####################################################################
# Intel XSAVE and XSAVEOPT instructions
#####################################################################
add_insn("xgetbv", "threebyte", modifiers=[0x0F, 0x01, 0xD0],
cpu=["XSAVE", "386"])
add_insn("xsetbv", "threebyte", modifiers=[0x0F, 0x01, 0xD1],
cpu=["XSAVE", "386", "Priv"])
add_insn("xsave", "twobytemem", modifiers=[4, 0x0F, 0xAE],
cpu=["XSAVE", "386"])
add_insn("xrstor", "twobytemem", modifiers=[5, 0x0F, 0xAE],
cpu=["XSAVE", "386"])
add_insn("xsaveopt", "twobytemem", modifiers=[6, 0x0F, 0xAE],
cpu=["XSAVEOPT"])
add_group("xsaveopt64",
modifiers=["SpAdd", "Op0Add", "Op1Add"],
opcode=[0x00, 0x00],
spare=0,
opersize=64,
operands=[Operand(type="Mem", relaxed=True, dest="EA")])
add_insn("xsaveopt64", "xsaveopt64", modifiers=[6, 0x0F, 0xAE],
cpu=["XSAVEOPT"], only64=True)
#####################################################################
# Intel MOVBE instruction
#####################################################################
for sz in (16, 32, 64):
add_group("movbe",
cpu=["MOVBE"],
opersize=sz,
opcode=[0x0F, 0x38, 0xF0],
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="Mem", size=sz, relaxed=True, dest="EA")])
add_group("movbe",
cpu=["MOVBE"],
opersize=sz,
opcode=[0x0F, 0x38, 0xF1],
operands=[Operand(type="Mem", size=sz, relaxed=True, dest="EA"),
Operand(type="Reg", size=sz, dest="Spare")])
add_insn("movbe", "movbe")
#####################################################################
# Intel advanced bit manipulations (BMI1/2)
#####################################################################
add_insn("tzcnt", "cnt", modifiers=[0xBC], cpu=["BMI1"])
# LZCNT is present as AMD ext
for sfx, sz in zip("wlq", [32, 64]):
add_group("vex_gpr_ndd_rm_0F38_regext",
suffix=sfx,
modifiers=["PreAdd", "Op2Add", "SpAdd" ],
opersize=sz,
prefix=0x00,
opcode=[0x0F, 0x38, 0x00],
vex=0, ## VEX.L=0
operands=[Operand(type="Reg", size=sz, dest="VEX"),
Operand(type="RM", size=sz, relaxed=True, dest="EA")])
add_insn("blsr", "vex_gpr_ndd_rm_0F38_regext", modifiers=[0x00, 0xF3, 1],
cpu=["BMI1"])
add_insn("blsmsk", "vex_gpr_ndd_rm_0F38_regext", modifiers=[0x00, 0xF3, 2],
cpu=["BMI1"])
add_insn("blsi", "vex_gpr_ndd_rm_0F38_regext", modifiers=[0x00, 0xF3, 3],
cpu=["BMI1"])
for sfx, sz in zip("wlq", [32, 64]):
add_group("vex_gpr_reg_rm_0F_imm8",
suffix=sfx,
modifiers=["PreAdd", "Op1Add", "Op2Add"],
opersize=sz,
prefix=0x00,
opcode=[0x0F, 0x00, 0x00],
vex=0, ## VEX.L=0
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Imm", size=8, relaxed=True, dest="Imm")])
add_insn("rorx", "vex_gpr_reg_rm_0F_imm8", modifiers=[0xF2, 0x3A, 0xF0],
cpu=["BMI2"])
for sfx, sz in zip("lq", [32, 64]): # no 16-bit forms
add_group("vex_gpr_reg_nds_rm_0F",
suffix=sfx,
modifiers=["PreAdd", "Op1Add", "Op2Add"],
opersize=sz,
prefix=0x00,
opcode=[0x0F, 0x00, 0x00],
vex=0,
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="Reg", size=sz, dest="VEX"),
Operand(type="RM", size=sz, relaxed=True, dest="EA")])
add_insn("andn", "vex_gpr_reg_nds_rm_0F", modifiers=[0x00, 0x38, 0xF2],
cpu=["BMI1"])
add_insn("pdep", "vex_gpr_reg_nds_rm_0F", modifiers=[0xF2, 0x38, 0xF5],
cpu=["BMI2"])
add_insn("pext", "vex_gpr_reg_nds_rm_0F", modifiers=[0xF3, 0x38, 0xF5],
cpu=["BMI2"])
for sfx, sz in zip("lq", [32, 64]): # no 16-bit forms
add_group("vex_gpr_reg_rm_nds_0F",
suffix=sfx,
modifiers=["PreAdd", "Op1Add", "Op2Add"],
opersize=sz,
prefix=0x00,
opcode=[0x0F, 0x00, 0x00],
vex=0,
operands=[Operand(type="Reg", size=sz, dest="Spare"),
Operand(type="RM", size=sz, relaxed=True, dest="EA"),
Operand(type="Reg", size=sz, dest="VEX")])
add_insn("bzhi", "vex_gpr_reg_rm_nds_0F", modifiers=[0x00, 0x38, 0xF5],
cpu=["BMI2"])
add_insn("bextr","vex_gpr_reg_rm_nds_0F", modifiers=[0x00, 0x38, 0xF7],
cpu=["BMI1"])
add_insn("shlx", "vex_gpr_reg_rm_nds_0F", modifiers=[0x66, 0x38, 0xF7],
cpu=["BMI2"])
add_insn("shrx", "vex_gpr_reg_rm_nds_0F", modifiers=[0xF2, 0x38, 0xF7],
cpu=["BMI2"])
add_insn("sarx", "vex_gpr_reg_rm_nds_0F", modifiers=[0xF3, 0x38, 0xF7],
cpu=["BMI2"])
add_insn("mulx", "vex_gpr_reg_nds_rm_0F", modifiers=[0xF2, 0x38, 0xF6],
cpu=["BMI2"])
#####################################################################
# Intel INVPCID instruction
#####################################################################
add_group("invpcid",
cpu=["INVPCID", "Priv"],
not64=True,
prefix=0x66,
opcode=[0x0F, 0x38, 0x82],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="Mem", size=128, relaxed=True, dest="EA")])
add_group("invpcid",
cpu=["INVPCID", "Priv"],
only64=True,
def_opersize_64=64,
prefix=0x66,
opcode=[0x0F, 0x38, 0x82],
operands=[Operand(type="Reg", size=64, dest="Spare"),
Operand(type="Mem", size=128, relaxed=True, dest="EA")])
add_insn("invpcid", "invpcid")
#####################################################################
# AMD 3DNow! instructions
#####################################################################
add_insn("prefetch", "twobytemem", modifiers=[0x00, 0x0F, 0x0D], cpu=["3DNow"])
add_insn("prefetchw", "twobytemem", modifiers=[0x01, 0x0F, 0x0D], cpu=["3DNow"])
add_insn("femms", "twobyte", modifiers=[0x0F, 0x0E], cpu=["3DNow"])
add_group("now3d",
cpu=["3DNow"],
modifiers=["Imm8"],
opcode=[0x0F, 0x0F],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_insn("pavgusb", "now3d", modifiers=[0xBF])
add_insn("pf2id", "now3d", modifiers=[0x1D])
add_insn("pf2iw", "now3d", modifiers=[0x1C], cpu=["Athlon", "3DNow"])
add_insn("pfacc", "now3d", modifiers=[0xAE])
add_insn("pfadd", "now3d", modifiers=[0x9E])
add_insn("pfcmpeq", "now3d", modifiers=[0xB0])
add_insn("pfcmpge", "now3d", modifiers=[0x90])
add_insn("pfcmpgt", "now3d", modifiers=[0xA0])
add_insn("pfmax", "now3d", modifiers=[0xA4])
add_insn("pfmin", "now3d", modifiers=[0x94])
add_insn("pfmul", "now3d", modifiers=[0xB4])
add_insn("pfnacc", "now3d", modifiers=[0x8A], cpu=["Athlon", "3DNow"])
add_insn("pfpnacc", "now3d", modifiers=[0x8E], cpu=["Athlon", "3DNow"])
add_insn("pfrcp", "now3d", modifiers=[0x96])
add_insn("pfrcpit1", "now3d", modifiers=[0xA6])
add_insn("pfrcpit2", "now3d", modifiers=[0xB6])
add_insn("pfrsqit1", "now3d", modifiers=[0xA7])
add_insn("pfrsqrt", "now3d", modifiers=[0x97])
add_insn("pfsub", "now3d", modifiers=[0x9A])
add_insn("pfsubr", "now3d", modifiers=[0xAA])
add_insn("pi2fd", "now3d", modifiers=[0x0D])
add_insn("pi2fw", "now3d", modifiers=[0x0C], cpu=["Athlon", "3DNow"])
add_insn("pmulhrwa", "now3d", modifiers=[0xB7])
add_insn("pswapd", "now3d", modifiers=[0xBB], cpu=["Athlon", "3DNow"])
#####################################################################
# AMD extensions
#####################################################################
add_insn("syscall", "twobyte", modifiers=[0x0F, 0x05], cpu=["686", "AMD"])
for sfx in [None, "l", "q"]:
add_insn("sysret"+(sfx or ""), "twobyte", suffix=sfx, modifiers=[0x0F, 0x07],
cpu=["686", "AMD", "Priv"])
add_insn("lzcnt", "cnt", modifiers=[0xBD], cpu=["LZCNT"])
#####################################################################
# AMD x86-64 extensions
#####################################################################
add_insn("swapgs", "threebyte", modifiers=[0x0F, 0x01, 0xF8], only64=True)
add_insn("rdtscp", "threebyte", modifiers=[0x0F, 0x01, 0xF9],
cpu=["686", "AMD", "Priv"])
add_group("cmpxchg16b",
only64=True,
opersize=64,
opcode=[0x0F, 0xC7],
spare=1,
operands=[Operand(type="Mem", size=128, relaxed=True, dest="EA")])
add_insn("cmpxchg16b", "cmpxchg16b")
#####################################################################
# AMD Pacifica SVM instructions
#####################################################################
add_insn("clgi", "threebyte", modifiers=[0x0F, 0x01, 0xDD], cpu=["SVM"])
add_insn("stgi", "threebyte", modifiers=[0x0F, 0x01, 0xDC], cpu=["SVM"])
add_insn("vmmcall", "threebyte", modifiers=[0x0F, 0x01, 0xD9], cpu=["SVM"])
add_group("invlpga",
cpu=["SVM"],
opcode=[0x0F, 0x01, 0xDF],
operands=[])
add_group("invlpga",
cpu=["SVM"],
opcode=[0x0F, 0x01, 0xDF],
operands=[Operand(type="MemrAX", dest="AdSizeEA"),
Operand(type="Creg", size=32, dest=None)])
add_insn("invlpga", "invlpga")
add_group("skinit",
cpu=["SVM"],
opcode=[0x0F, 0x01, 0xDE],
operands=[])
add_group("skinit",
cpu=["SVM"],
opcode=[0x0F, 0x01, 0xDE],
operands=[Operand(type="MemEAX", dest=None)])
add_insn("skinit", "skinit")
add_group("svm_rax",
cpu=["SVM"],
modifiers=["Op2Add"],
opcode=[0x0F, 0x01, 0x00],
operands=[])
add_group("svm_rax",
cpu=["SVM"],
modifiers=["Op2Add"],
opcode=[0x0F, 0x01, 0x00],
operands=[Operand(type="MemrAX", dest="AdSizeEA")])
add_insn("vmload", "svm_rax", modifiers=[0xDA])
add_insn("vmrun", "svm_rax", modifiers=[0xD8])
add_insn("vmsave", "svm_rax", modifiers=[0xDB])
#####################################################################
# VIA PadLock instructions
#####################################################################
add_group("padlock",
cpu=["PadLock"],
modifiers=["Imm8", "PreAdd", "Op1Add"],
prefix=0x00,
opcode=[0x0F, 0x00],
operands=[])
add_insn("xstore", "padlock", modifiers=[0xC0, 0x00, 0xA7])
add_insn("xstorerng", "padlock", modifiers=[0xC0, 0x00, 0xA7])
add_insn("xcryptecb", "padlock", modifiers=[0xC8, 0xF3, 0xA7])
add_insn("xcryptcbc", "padlock", modifiers=[0xD0, 0xF3, 0xA7])
add_insn("xcryptctr", "padlock", modifiers=[0xD8, 0xF3, 0xA7])
add_insn("xcryptcfb", "padlock", modifiers=[0xE0, 0xF3, 0xA7])
add_insn("xcryptofb", "padlock", modifiers=[0xE8, 0xF3, 0xA7])
add_insn("montmul", "padlock", modifiers=[0xC0, 0xF3, 0xA6])
add_insn("xsha1", "padlock", modifiers=[0xC8, 0xF3, 0xA6])
add_insn("xsha256", "padlock", modifiers=[0xD0, 0xF3, 0xA6])
#####################################################################
# Cyrix MMX instructions
#####################################################################
add_group("cyrixmmx",
cpu=["MMX", "Cyrix"],
modifiers=["Op1Add"],
opcode=[0x0F, 0x00],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="SIMDRM", size=64, relaxed=True, dest="EA")])
add_insn("paddsiw", "cyrixmmx", modifiers=[0x51])
add_insn("paveb", "cyrixmmx", modifiers=[0x50])
add_insn("pdistib", "cyrixmmx", modifiers=[0x54])
add_insn("pmagw", "cyrixmmx", modifiers=[0x52])
add_insn("pmulhriw", "cyrixmmx", modifiers=[0x5D])
add_insn("pmulhrwc", "cyrixmmx", modifiers=[0x59])
add_insn("pmvgezb", "cyrixmmx", modifiers=[0x5C])
add_insn("pmvlzb", "cyrixmmx", modifiers=[0x5B])
add_insn("pmvnzb", "cyrixmmx", modifiers=[0x5A])
add_insn("pmvzb", "cyrixmmx", modifiers=[0x58])
add_insn("psubsiw", "cyrixmmx", modifiers=[0x55])
add_group("pmachriw",
cpu=["MMX", "Cyrix"],
opcode=[0x0F, 0x5E],
operands=[Operand(type="SIMDReg", size=64, dest="Spare"),
Operand(type="Mem", size=64, relaxed=True, dest="EA")])
add_insn("pmachriw", "pmachriw")
#####################################################################
# Cyrix extensions
#####################################################################
add_insn("smint", "twobyte", modifiers=[0x0F, 0x38], cpu=["686", "Cyrix"])
add_insn("smintold", "twobyte", modifiers=[0x0F, 0x7E], cpu=["486", "Cyrix", "Obs"])
add_group("rdwrshr",
cpu=["Cyrix", "SMM", "686"],
modifiers=["Op1Add"],
opcode=[0x0F, 0x36],
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA")])
add_insn("rdshr", "rdwrshr", modifiers=[0x00])
add_insn("wrshr", "rdwrshr", modifiers=[0x01])
add_group("rsdc",
cpu=["Cyrix", "SMM", "486"],
opcode=[0x0F, 0x79],
operands=[Operand(type="SegReg", size=16, relaxed=True, dest="Spare"),
Operand(type="Mem", size=80, relaxed=True, dest="EA")])
add_insn("rsdc", "rsdc")
add_group("cyrixsmm",
cpu=["Cyrix", "SMM", "486"],
modifiers=["Op1Add"],
opcode=[0x0F, 0x00],
operands=[Operand(type="Mem", size=80, relaxed=True, dest="EA")])
add_insn("rsldt", "cyrixsmm", modifiers=[0x7B])
add_insn("rsts", "cyrixsmm", modifiers=[0x7D])
add_insn("svldt", "cyrixsmm", modifiers=[0x7A])
add_insn("svts", "cyrixsmm", modifiers=[0x7C])
add_group("svdc",
cpu=["Cyrix", "SMM", "486"],
opcode=[0x0F, 0x78],
operands=[Operand(type="Mem", size=80, relaxed=True, dest="EA"),
Operand(type="SegReg", size=16, relaxed=True, dest="Spare")])
add_insn("svdc", "svdc")
#####################################################################
# Obsolete/undocumented instructions
#####################################################################
add_insn("fsetpm", "twobyte", modifiers=[0xDB, 0xE4], cpu=["286", "FPU", "Obs"])
add_insn("loadall", "twobyte", modifiers=[0x0F, 0x07], cpu=["386", "Undoc"])
add_insn("loadall286", "twobyte", modifiers=[0x0F, 0x05], cpu=["286", "Undoc"])
add_insn("salc", "onebyte", modifiers=[0xD6], cpu=["Undoc"], not64=True)
add_insn("smi", "onebyte", modifiers=[0xF1], cpu=["386", "Undoc"])
add_group("ibts",
cpu=["Undoc", "Obs", "386"],
opersize=16,
opcode=[0x0F, 0xA7],
operands=[Operand(type="RM", size=16, relaxed=True, dest="EA"),
Operand(type="Reg", size=16, dest="Spare")])
add_group("ibts",
cpu=["Undoc", "Obs", "386"],
opersize=32,
opcode=[0x0F, 0xA7],
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="Reg", size=32, dest="Spare")])
add_insn("ibts", "ibts")
add_group("umov",
cpu=["Undoc", "386"],
opcode=[0x0F, 0x10],
operands=[Operand(type="RM", size=8, relaxed=True, dest="EA"),
Operand(type="Reg", size=8, dest="Spare")])
add_group("umov",
cpu=["Undoc", "386"],
opersize=16,
opcode=[0x0F, 0x11],
operands=[Operand(type="RM", size=16, relaxed=True, dest="EA"),
Operand(type="Reg", size=16, dest="Spare")])
add_group("umov",
cpu=["Undoc", "386"],
opersize=32,
opcode=[0x0F, 0x11],
operands=[Operand(type="RM", size=32, relaxed=True, dest="EA"),
Operand(type="Reg", size=32, dest="Spare")])
add_group("umov",
cpu=["Undoc", "386"],
opcode=[0x0F, 0x12],
operands=[Operand(type="Reg", size=8, dest="Spare"),
Operand(type="RM", size=8, relaxed=True, dest="EA")])
add_group("umov",
cpu=["Undoc", "386"],
opersize=16,
opcode=[0x0F, 0x13],
operands=[Operand(type="Reg", size=16, dest="Spare"),
Operand(type="RM", size=16, relaxed=True, dest="EA")])
add_group("umov",
cpu=["Undoc", "386"],
opersize=32,
opcode=[0x0F, 0x13],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="RM", size=32, relaxed=True, dest="EA")])
add_insn("umov", "umov")
add_group("xbts",
cpu=["Undoc", "Obs", "386"],
opersize=16,
opcode=[0x0F, 0xA6],
operands=[Operand(type="Reg", size=16, dest="Spare"),
Operand(type="Mem", size=16, relaxed=True, dest="EA")])
add_group("xbts",
cpu=["Undoc", "Obs", "386"],
opersize=32,
opcode=[0x0F, 0xA6],
operands=[Operand(type="Reg", size=32, dest="Spare"),
Operand(type="Mem", size=32, relaxed=True, dest="EA")])
add_insn("xbts", "xbts")
finalize_insns()
#####################################################################
# Prefixes
#####################################################################
# operand size overrides
for sz in [16, 32, 64]:
add_prefix("o%d" % sz, "OPERSIZE", sz, parser="nasm", only64=(sz==64))
add_prefix("data%d" % sz, "OPERSIZE", sz, parser="gas", only64=(sz==64))
add_prefix("word", "OPERSIZE", 16, parser="gas")
add_prefix("dword", "OPERSIZE", 32, parser="gas")
add_prefix("qword", "OPERSIZE", 64, parser="gas", only64=True)
# address size overrides
for sz in [16, 32, 64]:
add_prefix("a%d" % sz, "ADDRSIZE", sz, parser="nasm", only64=(sz==64))
add_prefix("addr%d" % sz, "ADDRSIZE", sz, parser="gas", only64=(sz==64))
add_prefix("aword", "ADDRSIZE", 16, parser="gas")
add_prefix("adword", "ADDRSIZE", 32, parser="gas")
add_prefix("aqword", "ADDRSIZE", 64, parser="gas", only64=True)
# instruction prefixes
add_prefix("lock", "LOCKREP", 0xF0)
add_prefix("repne", "LOCKREP", 0xF2)
add_prefix("repnz", "LOCKREP", 0xF2)
add_prefix("rep", "LOCKREP", 0xF3)
add_prefix("repe", "LOCKREP", 0xF3)
add_prefix("repz", "LOCKREP", 0xF3)
# other prefixes, limited to GAS-only at the moment
# Hint taken/not taken for jumps
add_prefix("ht", "SEGREG", 0x3E, parser="gas")
add_prefix("hnt", "SEGREG", 0x2E, parser="gas")
# REX byte explicit prefixes
for val, suf in enumerate(["", "z", "y", "yz", "x", "xz", "xy", "xyz"]):
add_prefix("rex" + suf, "REX", 0x40+val, parser="gas", only64=True)
add_prefix("rex64" + suf, "REX", 0x48+val, parser="gas", only64=True)
#####################################################################
# Output generation
#####################################################################
output_groups(open("x86insns.c", "wt"))
output_gas_insns(open("x86insn_gas.gperf", "wt"))
output_nasm_insns(open("x86insn_nasm.gperf", "wt"))
| gpl-3.0 |
dictoon/blenderseed | translators/cameras/interactive.py | 2 | 10241 | #
# This source file is part of appleseed.
# Visit http://appleseedhq.net/ for additional information and resources.
#
# This software is released under the MIT license.
#
# Copyright (c) 2019 Jonathan Dent, The appleseedhq Organization
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
#
import math
from mathutils import Matrix
import appleseed as asr
from ..translator import Translator
from ...logger import get_logger
from ...utils import util
logger = get_logger()
class InteractiveCameraTranslator(Translator):
"""
This translator is responsible for translating the Blender camera into an appleseed
camera object for final rendering. This includes support for stereoscopic rendering.
"""
def __init__(self, cam, asset_handler):
logger.debug(f"appleseed: Creating interactive camera translator for {cam.name_full}")
super().__init__(cam, asset_handler)
self.__as_camera = None
self.__model = None
self.__cam_model = None
self.__view_cam_type = None
self.__cam_params = None
self.__xform_matrix = None
self._bl_obj.appleseed.obj_name = self._bl_obj.name_full
@property
def bl_camera(self):
return self._bl_obj
def create_entities(self, depsgraph, context, engine=None):
logger.debug(f"appleseed: Creating interactive camera entity for {self.bl_camera.name_full}")
self.__view_cam_type = context.region_data.view_perspective
self.__model = self.__get_model()
self.__cam_params = self.__get_cam_params(depsgraph.scene_eval, context)
self.__as_camera = asr.Camera(self.__model, "Camera", self.__cam_params)
def flush_entities(self, as_scene, as_main_assembly, as_project):
logger.debug(f"appleseed: Flushing interactive camera entity for {self.bl_camera.name_full} into project")
self.__as_camera.transform_sequence().optimize()
as_scene.cameras().insert(self.__as_camera)
self.__as_camera = as_scene.cameras().get_by_name("Camera")
def add_cam_xform(self, time, engine=None):
self.__as_camera.transform_sequence().set_transform(time, self._convert_matrix(self.__xform_matrix))
def check_for_updates(self, context, bl_scene):
updates = dict()
updates['cam_xform'] = self.__is_matrix_updated(context)
updates['cam_params'] = self.__are_cam_params_updated(context, bl_scene)
updates['cam_model'] = self.__is_camera_model_updated(context)
return updates
def update_cam_params(self):
self.__as_camera.set_parameters(self.__cam_params)
def update_cam_model(self, as_scene):
as_scene.cameras().remove(self.__as_camera)
self.__as_camera = asr.Camera(self.__model, "Camera", self.__cam_params)
as_scene.cameras().insert(self.__as_camera)
self.__as_camera = as_scene.cameras().get_by_name("Camera")
# Internal methods.
def __is_matrix_updated(self, context):
current_matrix = self.__xform_matrix
self.__set_matrix(context)
if current_matrix != self.__xform_matrix:
return True
return False
def __is_camera_model_updated(self, context):
current_view_cam = self.__view_cam_type
current_model = self.__model
self.__view_cam_type = context.region_data.view_perspective
self.__model = self.__get_model()
if current_view_cam != self.__view_cam_type or current_model != self.__model:
return True
return False
def __are_cam_params_updated(self, context, bl_scene):
current_params = self.__cam_params
self.__cam_params = self.__get_cam_params(bl_scene, context)
if current_params != self.__cam_params:
return True
return False
def __get_model(self):
cam_mapping = {'PERSP': 'pinhole_camera',
'ORTHO': 'orthographic_camera',
'PANO': 'spherical_camera'}
if self.__view_cam_type == "CAMERA":
model = cam_mapping[self.bl_camera.data.type]
if model == 'spherical_camera' and not self.bl_camera.data.appleseed.fisheye_projection_type == 'none':
model = 'fisheyelens_camera'
if model == 'pinhole_camera' and self.bl_camera.data.appleseed.enable_dof:
model = 'thinlens_camera'
else:
model = cam_mapping[self.__view_cam_type]
return model
def __get_cam_params(self, bl_scene, context=None):
params = dict()
view_cam_type = self.__view_cam_type
width = context.region.width
height = context.region.height
aspect_ratio = width / height
self.__lens = context.space_data.lens
self.__zoom = None
self.__extent_base = None
self.__shift_x = None
self.__shift_y = None
if view_cam_type == "ORTHO":
self.__zoom = 2.25
self.__extent_base = context.space_data.region_3d.view_distance * 32.0 / self.__lens
params = self.__set_ortho_camera_params(context, aspect_ratio)
elif view_cam_type == "PERSP":
self.__zoom = 2.25
params = self.__set_persp_camera_params(context, aspect_ratio)
elif view_cam_type == "CAMERA":
# Borrowed from Cycles source code, since for something this nutty there's no reason to reinvent the wheel
self.__zoom = 4 / ((math.sqrt(2) + context.region_data.view_camera_zoom / 50) ** 2)
params = self.__set_view_camera_params(context, aspect_ratio)
return params
def __set_ortho_camera_params(self, context, aspect_ratio):
self.__set_matrix(context)
sensor_width = self.__zoom * self.__extent_base * 1
params = {'film_width': sensor_width, 'aspect_ratio': aspect_ratio}
if aspect_ratio < 1:
params['film_height'] = params.pop('film_width')
return params
def __set_persp_camera_params(self, context, aspect_ratio):
self.__set_matrix(context)
sensor_size = 32 * self.__zoom
params = {'focal_length': context.space_data.lens,
'aspect_ratio': aspect_ratio,
'film_width': sensor_size}
if aspect_ratio < 1:
params['film_height'] = params.pop('film_width')
return params
def __set_matrix(self, context):
if self.__view_cam_type in ("ORTHO", "PERSP"):
self.__xform_matrix = Matrix(context.region_data.view_matrix).inverted()
else:
self.__xform_matrix = self.bl_camera.matrix_world
def __set_view_camera_params(self, context, aspect_ratio):
film_width, film_height = util.calc_film_dimensions(aspect_ratio, self.bl_camera.data, self.__zoom)
offset = tuple(context.region_data.view_camera_offset)
x_aspect_comp = 1 if aspect_ratio > 1 else 1 / aspect_ratio
y_aspect_comp = aspect_ratio if aspect_ratio > 1 else 1
self.__shift_x = ((offset[0] * 2 + (self.bl_camera.data.shift_x * x_aspect_comp)) / self.__zoom) * film_width
self.__shift_y = ((offset[1] * 2 + (self.bl_camera.data.shift_y * y_aspect_comp)) / self.__zoom) * film_height
self.__set_matrix(context)
if self.__model == 'orthographic_camera':
sensor_width = self.bl_camera.data.ortho_scale * self.__zoom
params = {'film_width': sensor_width,
'aspect_ratio': aspect_ratio}
if self.bl_camera.data.sensor_fit == 'VERTICAL' or (self.bl_camera.data.sensor_fit == 'AUTO' and aspect_ratio < 1):
params['film_height'] = params.pop('film_width')
else:
aspect_ratio = util.calc_film_aspect_ratio(context.scene)
params = {'focal_length': self.bl_camera.data.lens / 1000,
'aspect_ratio': aspect_ratio,
'shift_x': self.__shift_x,
'shift_y': self.__shift_y,
'film_dimensions': asr.Vector2f(film_width, film_height)}
if self.__model == 'fisheyelens_camera':
if self.bl_camera.data.appleseed.fisheye_projection_type is not 'none':
params['projection_type'] = self.bl_camera.data.appleseed.fisheye_projection_type
if self.__model == 'thinlens_camera':
params.update({'f_stop': self.bl_camera.data.appleseed.f_number,
'autofocus_enabled': False,
'diaphragm_blades': self.bl_camera.data.appleseed.diaphragm_blades,
'diaphragm_tilt_angle': self.bl_camera.data.appleseed.diaphragm_angle,
'focal_distance': util.get_focal_distance(self.bl_camera)})
if self.bl_camera.data.appleseed.diaphragm_map is not None:
tex_name = f"{self.bl_camera.data.appleseed.diaphragm_map.name_full}_inst"
params.update({'diaphragm_map': tex_name})
del params['diaphragm_blades']
return params
def _convert_matrix(self, m):
matrix = asr.Matrix4d(super()._convert_matrix(m))
return asr.Transformd(matrix)
| mit |
aileisun/bubbleimg | bubbleimg/batch/hsc/test/fixture_built_batch.py | 1 | 1467 | # fixture_built_batch.py
import os
import pytest
import shutil
from ..hscbatch import hscBatch
from .setpaths import *
@pytest.fixture
def batch_good():
if os.path.isdir(dir_batch):
shutil.rmtree(dir_batch)
shutil.copytree(dir_verif, dir_batch)
return hscBatch(dir_batch=dir_batch)
@pytest.fixture
def batch_wexcept():
if os.path.isdir(dir_batch_wexcept):
shutil.rmtree(dir_batch_wexcept)
shutil.copytree(dir_verif_wexcept, dir_batch_wexcept)
return hscBatch(dir_batch=dir_batch_wexcept)
@pytest.fixture
def batch_onlyexcept():
if os.path.isdir(dir_batch_onlyexcept):
shutil.rmtree(dir_batch_onlyexcept)
shutil.copytree(dir_verif_onlyexcept, dir_batch_onlyexcept)
return hscBatch(dir_batch=dir_batch_onlyexcept)
@pytest.fixture
def batch_confus():
if os.path.isdir(dir_batch_confus):
shutil.rmtree(dir_batch_confus)
shutil.copytree(dir_verif_confus, dir_batch_confus)
return hscBatch(dir_batch=dir_batch_confus)
@pytest.fixture
def batch_hscphotoobj_incomplete():
if os.path.isdir(dir_batch_hscphoto):
shutil.rmtree(dir_batch_hscphoto)
shutil.copytree(dir_verif_hscphoto, dir_batch_hscphoto)
return hscBatch(dir_batch=dir_batch_hscphoto, survey=survey)
@pytest.fixture
def batch_multiline():
if os.path.isdir(dir_batch_multiline):
shutil.rmtree(dir_batch_multiline)
shutil.copytree(dir_verif_multiline, dir_batch_multiline)
return hscBatch(dir_batch=dir_batch_multiline, survey=survey, obj_naming_sys='sdss_precise')
| mit |
gtrdotmcs/python-withings | tests/test_withings_auth.py | 1 | 3074 | import unittest
from withings import WithingsAuth, WithingsCredentials
from requests_oauthlib import OAuth1Session
try:
from unittest.mock import MagicMock
except ImportError:
from mock import MagicMock
class TestWithingsAuth(unittest.TestCase):
def setUp(self):
self.consumer_key = 'fake_consumer_key'
self.consumer_secret = 'fake_consumer_secret'
self.request_token = {
'oauth_token': 'fake_oauth_token',
'oauth_token_secret': 'fake_oauth_token_secret'
}
self.access_token = self.request_token
self.access_token.update({'userid': 'FAKEID'})
OAuth1Session.fetch_request_token = MagicMock(
return_value=self.request_token)
OAuth1Session.authorization_url = MagicMock(return_value='URL')
OAuth1Session.fetch_access_token = MagicMock(
return_value=self.access_token)
def test_attributes(self):
""" Make sure the WithingsAuth objects have the right attributes """
assert hasattr(WithingsAuth, 'URL')
auth = WithingsAuth(self.consumer_key, self.consumer_secret)
assert hasattr(auth, 'consumer_key')
self.assertEqual(auth.consumer_key, self.consumer_key)
assert hasattr(auth, 'consumer_secret')
self.assertEqual(auth.consumer_secret, self.consumer_secret)
def test_attribute_defaults(self):
""" Make sure WithingsAuth attributes have the proper defaults """
self.assertEqual(WithingsAuth.URL,
'https://oauth.withings.com/account')
auth = WithingsAuth(self.consumer_key, self.consumer_secret)
self.assertEqual(auth.oauth_token, None)
self.assertEqual(auth.oauth_secret, None)
def test_get_authorize_url(self):
""" Make sure the get_authorize_url function works as expected """
auth = WithingsAuth(self.consumer_key, self.consumer_secret)
# Returns the OAuth1Session.authorization_url results
self.assertEqual(auth.get_authorize_url(), 'URL')
# oauth_token and oauth_secret have now been set to the values
# returned by OAuth1Session.fetch_request_token
self.assertEqual(auth.oauth_token, 'fake_oauth_token')
self.assertEqual(auth.oauth_secret, 'fake_oauth_token_secret')
def test_get_credentials(self):
""" Make sure the get_credentials function works as expected """
auth = WithingsAuth(self.consumer_key, self.consumer_secret)
# Returns an authorized WithingsCredentials object
creds = auth.get_credentials('FAKE_OAUTH_VERIFIER')
assert isinstance(creds, WithingsCredentials)
# Check that the attributes of the WithingsCredentials object are
# correct.
self.assertEqual(creds.access_token, 'fake_oauth_token')
self.assertEqual(creds.access_token_secret, 'fake_oauth_token_secret')
self.assertEqual(creds.consumer_key, self.consumer_key)
self.assertEqual(creds.consumer_secret, self.consumer_secret)
self.assertEqual(creds.user_id, 'FAKEID')
| mit |
podhmo/boto | boto/sdb/db/key.py | 153 | 2036 | # Copyright (c) 2006,2007,2008 Mitch Garnaat http://garnaat.org/
#
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the
# "Software"), to deal in the Software without restriction, including
# without limitation the rights to use, copy, modify, merge, publish, dis-
# tribute, sublicense, and/or sell copies of the Software, and to permit
# persons to whom the Software is furnished to do so, subject to the fol-
# lowing conditions:
#
# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABIL-
# ITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT
# SHALL THE AUTHOR BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
# WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
# IN THE SOFTWARE.
class Key(object):
@classmethod
def from_path(cls, *args, **kwds):
raise NotImplementedError("Paths are not currently supported")
def __init__(self, encoded=None, obj=None):
self.name = None
if obj:
self.id = obj.id
self.kind = obj.kind()
else:
self.id = None
self.kind = None
def app(self):
raise NotImplementedError("Applications are not currently supported")
def kind(self):
return self.kind
def id(self):
return self.id
def name(self):
raise NotImplementedError("Key Names are not currently supported")
def id_or_name(self):
return self.id
def has_id_or_name(self):
return self.id is not None
def parent(self):
raise NotImplementedError("Key parents are not currently supported")
def __str__(self):
return self.id_or_name()
| mit |
chdb/DhammaMap | app/Libs/passlib/tests/test_handlers_bcrypt.py | 6 | 21759 | """passlib.tests.test_handlers_bcrypt - tests for passlib hash algorithms"""
#=============================================================================
# imports
#=============================================================================
from __future__ import with_statement
# core
import hashlib
import logging; log = logging.getLogger(__name__)
import os
import sys
import warnings
# site
# pkg
from passlib import hash
from passlib.utils import repeat_string
from passlib.utils.compat import irange, PY3, u, get_method_function
from passlib.tests.utils import TestCase, HandlerCase, skipUnless, \
TEST_MODE, b, catch_warnings, UserHandlerMixin, randintgauss, EncodingHandlerMixin
from passlib.tests.test_handlers import UPASS_WAV, UPASS_USD, UPASS_TABLE
# module
#=============================================================================
# bcrypt
#=============================================================================
class _bcrypt_test(HandlerCase):
"base for BCrypt test cases"
handler = hash.bcrypt
secret_size = 72
reduce_default_rounds = True
fuzz_salts_need_bcrypt_repair = True
known_correct_hashes = [
#
# from JTR 1.7.9
#
('U*U*U*U*', '$2a$05$c92SVSfjeiCD6F2nAD6y0uBpJDjdRkt0EgeC4/31Rf2LUZbDRDE.O'),
('U*U***U', '$2a$05$WY62Xk2TXZ7EvVDQ5fmjNu7b0GEzSzUXUh2cllxJwhtOeMtWV3Ujq'),
('U*U***U*', '$2a$05$Fa0iKV3E2SYVUlMknirWU.CFYGvJ67UwVKI1E2FP6XeLiZGcH3MJi'),
('*U*U*U*U', '$2a$05$.WRrXibc1zPgIdRXYfv.4uu6TD1KWf0VnHzq/0imhUhuxSxCyeBs2'),
('', '$2a$05$Otz9agnajgrAe0.kFVF9V.tzaStZ2s1s4ZWi/LY4sw2k/MTVFj/IO'),
#
# test vectors from http://www.openwall.com/crypt v1.2
# note that this omits any hashes that depend on crypt_blowfish's
# various CVE-2011-2483 workarounds (hash 2a and \xff\xff in password,
# and any 2x hashes); and only contain hashes which are correct
# under both crypt_blowfish 1.2 AND OpenBSD.
#
('U*U', '$2a$05$CCCCCCCCCCCCCCCCCCCCC.E5YPO9kmyuRGyh0XouQYb4YMJKvyOeW'),
('U*U*', '$2a$05$CCCCCCCCCCCCCCCCCCCCC.VGOzA784oUp/Z0DY336zx7pLYAy0lwK'),
('U*U*U', '$2a$05$XXXXXXXXXXXXXXXXXXXXXOAcXxm9kjPGEMsLznoKqmqw7tc8WCx4a'),
('', '$2a$05$CCCCCCCCCCCCCCCCCCCCC.7uG0VCzI2bS7j6ymqJi9CdcdxiRTWNy'),
('0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'
'0123456789chars after 72 are ignored',
'$2a$05$abcdefghijklmnopqrstuu5s2v8.iXieOjg/.AySBTTZIIVFJeBui'),
(b('\xa3'),
'$2a$05$/OK.fbVrR/bpIqNJ5ianF.Sa7shbm4.OzKpvFnX1pQLmQW96oUlCq'),
(b('\xff\xa3345'),
'$2a$05$/OK.fbVrR/bpIqNJ5ianF.nRht2l/HRhr6zmCp9vYUvvsqynflf9e'),
(b('\xa3ab'),
'$2a$05$/OK.fbVrR/bpIqNJ5ianF.6IflQkJytoRVc1yuaNtHfiuq.FRlSIS'),
(b('\xaa')*72 + b('chars after 72 are ignored as usual'),
'$2a$05$/OK.fbVrR/bpIqNJ5ianF.swQOIzjOiJ9GHEPuhEkvqrUyvWhEMx6'),
(b('\xaa\x55'*36),
'$2a$05$/OK.fbVrR/bpIqNJ5ianF.R9xrDjiycxMbQE2bp.vgqlYpW5wx2yy'),
(b('\x55\xaa\xff'*24),
'$2a$05$/OK.fbVrR/bpIqNJ5ianF.9tQZzcJfm3uj2NvJ/n5xkhpqLrMpWCe'),
# keeping one of their 2y tests, because we are supporting that.
(b('\xa3'),
'$2y$05$/OK.fbVrR/bpIqNJ5ianF.Sa7shbm4.OzKpvFnX1pQLmQW96oUlCq'),
#
# bsd wraparound bug (fixed in 2b)
#
# NOTE: if backend is vulnerable, password will hash the same as '0'*72
# ("$2a$04$R1lJ2gkNaoPGdafE.H.16.nVyh2niHsGJhayOHLMiXlI45o8/DU.6"),
# rather than same as ("0123456789"*8)[:72]
# 255 should be sufficient, but checking
(("0123456789"*26)[:254], '$2a$04$R1lJ2gkNaoPGdafE.H.16.1MKHPvmKwryeulRe225LKProWYwt9Oi'),
(("0123456789"*26)[:255], '$2a$04$R1lJ2gkNaoPGdafE.H.16.1MKHPvmKwryeulRe225LKProWYwt9Oi'),
(("0123456789"*26)[:256], '$2a$04$R1lJ2gkNaoPGdafE.H.16.1MKHPvmKwryeulRe225LKProWYwt9Oi'),
(("0123456789"*26)[:257], '$2a$04$R1lJ2gkNaoPGdafE.H.16.1MKHPvmKwryeulRe225LKProWYwt9Oi'),
#
# from py-bcrypt tests
#
('', '$2a$06$DCq7YPn5Rq63x1Lad4cll.TV4S6ytwfsfvkgY8jIucDrjc8deX1s.'),
('a', '$2a$10$k87L/MF28Q673VKh8/cPi.SUl7MU/rWuSiIDDFayrKk/1tBsSQu4u'),
('abc', '$2a$10$WvvTPHKwdBJ3uk0Z37EMR.hLA2W6N9AEBhEgrAOljy2Ae5MtaSIUi'),
('abcdefghijklmnopqrstuvwxyz',
'$2a$10$fVH8e28OQRj9tqiDXs1e1uxpsjN0c7II7YPKXua2NAKYvM6iQk7dq'),
('~!@#$%^&*() ~!@#$%^&*()PNBFRD',
'$2a$10$LgfYWkbzEvQ4JakH7rOvHe0y8pHKF9OaFgwUZ2q7W2FFZmZzJYlfS'),
#
# custom test vectors
#
# ensures utf-8 used for unicode
(UPASS_TABLE,
'$2a$05$Z17AXnnlpzddNUvnC6cZNOSwMA/8oNiKnHTHTwLlBijfucQQlHjaG'),
# ensure 2b support
(UPASS_TABLE,
'$2b$05$Z17AXnnlpzddNUvnC6cZNOSwMA/8oNiKnHTHTwLlBijfucQQlHjaG'),
]
if TEST_MODE("full"):
#
# add some extra tests related to 2/2a
#
CONFIG_2 = '$2$05$' + '.'*22
CONFIG_A = '$2a$05$' + '.'*22
known_correct_hashes.extend([
("", CONFIG_2 + 'J2ihDv8vVf7QZ9BsaRrKyqs2tkn55Yq'),
("", CONFIG_A + 'J2ihDv8vVf7QZ9BsaRrKyqs2tkn55Yq'),
("abc", CONFIG_2 + 'XuQjdH.wPVNUZ/bOfstdW/FqB8QSjte'),
("abc", CONFIG_A + 'ev6gDwpVye3oMCUpLY85aTpfBNHD0Ga'),
("abc"*23, CONFIG_2 + 'XuQjdH.wPVNUZ/bOfstdW/FqB8QSjte'),
("abc"*23, CONFIG_A + '2kIdfSj/4/R/Q6n847VTvc68BXiRYZC'),
("abc"*24, CONFIG_2 + 'XuQjdH.wPVNUZ/bOfstdW/FqB8QSjte'),
("abc"*24, CONFIG_A + 'XuQjdH.wPVNUZ/bOfstdW/FqB8QSjte'),
("abc"*24+'x', CONFIG_2 + 'XuQjdH.wPVNUZ/bOfstdW/FqB8QSjte'),
("abc"*24+'x', CONFIG_A + 'XuQjdH.wPVNUZ/bOfstdW/FqB8QSjte'),
])
known_correct_configs = [
('$2a$04$uM6csdM8R9SXTex/gbTaye', UPASS_TABLE,
'$2a$04$uM6csdM8R9SXTex/gbTayezuvzFEufYGd2uB6of7qScLjQ4GwcD4G'),
]
known_unidentified_hashes = [
# invalid minor version
"$2f$12$EXRkfkdmXnagzds2SSitu.MW9.gAVqa9eLS1//RYtYCmB1eLHg.9q",
"$2`$12$EXRkfkdmXnagzds2SSitu.MW9.gAVqa9eLS1//RYtYCmB1eLHg.9q",
]
known_malformed_hashes = [
# bad char in otherwise correct hash
# \/
"$2a$12$EXRkfkdmXn!gzds2SSitu.MW9.gAVqa9eLS1//RYtYCmB1eLHg.9q",
# unsupported (but recognized) minor version
"$2x$12$EXRkfkdmXnagzds2SSitu.MW9.gAVqa9eLS1//RYtYCmB1eLHg.9q",
# rounds not zero-padded (py-bcrypt rejects this, therefore so do we)
'$2a$6$DCq7YPn5Rq63x1Lad4cll.TV4S6ytwfsfvkgY8jIucDrjc8deX1s.'
# NOTE: salts with padding bits set are technically malformed,
# but we can reliably correct & issue a warning for that.
]
platform_crypt_support = [
("freedbsd|openbsd|netbsd", True),
("darwin", False),
# linux - may be present via addon, e.g. debian's libpam-unix2
# solaris - depends on policy
]
#===================================================================
# override some methods
#===================================================================
def setUp(self):
# ensure builtin is enabled for duration of test.
if TEST_MODE("full") and self.backend == "builtin":
key = "PASSLIB_BUILTIN_BCRYPT"
orig = os.environ.get(key)
if orig:
self.addCleanup(os.environ.__setitem__, key, orig)
else:
self.addCleanup(os.environ.__delitem__, key)
os.environ[key] = "enabled"
super(_bcrypt_test, self).setUp()
warnings.filterwarnings("ignore", ".*backend is vulnerable to the bsd wraparound bug.*")
def populate_settings(self, kwds):
# builtin is still just way too slow.
if self.backend == "builtin":
kwds.setdefault("rounds", 4)
super(_bcrypt_test, self).populate_settings(kwds)
#===================================================================
# fuzz testing
#===================================================================
def os_supports_ident(self, hash):
"""check if OS crypt is expected to support given ident"""
if hash is None:
return True
# most OSes won't support 2x/2y
# XXX: definitely not the BSDs, but what about the linux variants?
# XXX: replace this all with 'handler._lacks_2{x}_support' feature detection?
# could even just do call to safe_crypt(ident + salt) and see what we get
from passlib.handlers.bcrypt import IDENT_2X, IDENT_2Y
if hash.startswith(IDENT_2X) or hash.startswith(IDENT_2Y):
return False
return True
def fuzz_verifier_bcrypt(self):
# test against bcrypt, if available
from passlib.handlers.bcrypt import IDENT_2, IDENT_2A, IDENT_2B, IDENT_2X, IDENT_2Y, _detect_pybcrypt
from passlib.utils import to_native_str, to_bytes
try:
import bcrypt
except ImportError:
return
if _detect_pybcrypt():
return
def check_bcrypt(secret, hash):
"""bcrypt"""
secret = to_bytes(secret, self.fuzz_password_encoding)
if hash.startswith(IDENT_2B):
# bcrypt <1.1 lacks 2b support
hash = IDENT_2A + hash[4:]
elif hash.startswith(IDENT_2):
# bcrypt doesn't support $2$ hashes; but we can fake it
# using the $2a$ algorithm, by repeating the password until
# it's 72 chars in length.
hash = IDENT_2A + hash[3:]
if secret:
secret = repeat_string(secret, 72)
hash = to_bytes(hash)
try:
return bcrypt.hashpw(secret, hash) == hash
except ValueError:
raise ValueError("bcrypt rejected hash: %r (secret=%r)" % (hash, secret))
return check_bcrypt
def fuzz_verifier_pybcrypt(self):
# test against py-bcrypt, if available
from passlib.handlers.bcrypt import IDENT_2, IDENT_2A, IDENT_2B, IDENT_2X, IDENT_2Y, _detect_pybcrypt
from passlib.utils import to_native_str
try:
import bcrypt
except ImportError:
return
if not _detect_pybcrypt():
return
def check_pybcrypt(secret, hash):
"""pybcrypt"""
secret = to_native_str(secret, self.fuzz_password_encoding)
if len(secret) > 200: # vulnerable to wraparound bug
secret = secret[:200]
if hash.startswith((IDENT_2B, IDENT_2Y)):
hash = IDENT_2A + hash[4:]
try:
return bcrypt.hashpw(secret, hash) == hash
except ValueError:
raise ValueError("py-bcrypt rejected hash: %r" % (hash,))
return check_pybcrypt
def fuzz_verifier_bcryptor(self):
# test against bcryptor, if available
from passlib.handlers.bcrypt import IDENT_2, IDENT_2A, IDENT_2Y, IDENT_2B
from passlib.utils import to_native_str
try:
from bcryptor.engine import Engine
except ImportError:
return
def check_bcryptor(secret, hash):
"""bcryptor"""
secret = to_native_str(secret, self.fuzz_password_encoding)
if hash.startswith((IDENT_2B, IDENT_2Y)):
hash = IDENT_2A + hash[4:]
elif hash.startswith(IDENT_2):
# bcryptor doesn't support $2$ hashes; but we can fake it
# using the $2a$ algorithm, by repeating the password until
# it's 72 chars in length.
hash = IDENT_2A + hash[3:]
if secret:
secret = repeat_string(secret, 72)
return Engine(False).hash_key(secret, hash) == hash
return check_bcryptor
def get_fuzz_settings(self):
secret, other, kwds = super(_bcrypt_test,self).get_fuzz_settings()
from passlib.handlers.bcrypt import IDENT_2, IDENT_2X
from passlib.utils import to_bytes
ident = kwds.get('ident')
if ident == IDENT_2X:
# 2x is just recognized, not supported. don't test with it.
del kwds['ident']
elif ident == IDENT_2 and other and repeat_string(to_bytes(other), len(to_bytes(secret))) == to_bytes(secret):
# avoid false failure due to flaw in 0-revision bcrypt:
# repeated strings like 'abc' and 'abcabc' hash identically.
other = self.get_fuzz_password()
return secret, other, kwds
def fuzz_setting_rounds(self):
# decrease default rounds for fuzz testing to speed up volume.
return randintgauss(5, 8, 6, 1)
#===================================================================
# custom tests
#===================================================================
known_incorrect_padding = [
# password, bad hash, good hash
# 2 bits of salt padding set
# ("loppux", # \/
# "$2a$12$oaQbBqq8JnSM1NHRPQGXORm4GCUMqp7meTnkft4zgSnrbhoKdDV0C",
# "$2a$12$oaQbBqq8JnSM1NHRPQGXOOm4GCUMqp7meTnkft4zgSnrbhoKdDV0C"),
("test", # \/
'$2a$04$oaQbBqq8JnSM1NHRPQGXORY4Vw3bdHKLIXTecPDRAcJ98cz1ilveO',
'$2a$04$oaQbBqq8JnSM1NHRPQGXOOY4Vw3bdHKLIXTecPDRAcJ98cz1ilveO'),
# all 4 bits of salt padding set
# ("Passlib11", # \/
# "$2a$12$M8mKpW9a2vZ7PYhq/8eJVcUtKxpo6j0zAezu0G/HAMYgMkhPu4fLK",
# "$2a$12$M8mKpW9a2vZ7PYhq/8eJVOUtKxpo6j0zAezu0G/HAMYgMkhPu4fLK"),
("test", # \/
"$2a$04$yjDgE74RJkeqC0/1NheSScrvKeu9IbKDpcQf/Ox3qsrRS/Kw42qIS",
"$2a$04$yjDgE74RJkeqC0/1NheSSOrvKeu9IbKDpcQf/Ox3qsrRS/Kw42qIS"),
# bad checksum padding
("test", # \/
"$2a$04$yjDgE74RJkeqC0/1NheSSOrvKeu9IbKDpcQf/Ox3qsrRS/Kw42qIV",
"$2a$04$yjDgE74RJkeqC0/1NheSSOrvKeu9IbKDpcQf/Ox3qsrRS/Kw42qIS"),
]
def test_90_bcrypt_padding(self):
"""test passlib correctly handles bcrypt padding bits"""
self.require_TEST_MODE("full")
#
# prevents reccurrence of issue 25 (https://code.google.com/p/passlib/issues/detail?id=25)
# were some unused bits were incorrectly set in bcrypt salt strings.
# (fixed since 1.5.3)
#
bcrypt = self.handler
corr_desc = ".*incorrectly set padding bits"
#
# test encrypt() / genconfig() don't generate invalid salts anymore
#
def check_padding(hash):
assert hash.startswith("$2a$") and len(hash) >= 28
self.assertTrue(hash[28] in '.Oeu',
"unused bits incorrectly set in hash: %r" % (hash,))
for i in irange(6):
check_padding(bcrypt.genconfig())
for i in irange(3):
check_padding(bcrypt.encrypt("bob", rounds=bcrypt.min_rounds))
#
# test genconfig() corrects invalid salts & issues warning.
#
with self.assertWarningList(["salt too large", corr_desc]):
hash = bcrypt.genconfig(salt="."*21 + "A.", rounds=5, relaxed=True)
self.assertEqual(hash, "$2a$05$" + "." * 22)
#
# test public methods against good & bad hashes
#
samples = self.known_incorrect_padding
for pwd, bad, good in samples:
# make sure genhash() corrects bad configs, leaves good unchanged
with self.assertWarningList([corr_desc]):
self.assertEqual(bcrypt.genhash(pwd, bad), good)
with self.assertWarningList([]):
self.assertEqual(bcrypt.genhash(pwd, good), good)
#
# and that verify() works good & bad
#
with self.assertWarningList([corr_desc]):
self.assertTrue(bcrypt.verify(pwd, bad))
with self.assertWarningList([]):
self.assertTrue(bcrypt.verify(pwd, good))
#
# test normhash cleans things up correctly
#
for pwd, bad, good in samples:
with self.assertWarningList([corr_desc]):
self.assertEqual(bcrypt.normhash(bad), good)
with self.assertWarningList([]):
self.assertEqual(bcrypt.normhash(good), good)
self.assertEqual(bcrypt.normhash("$md5$abc"), "$md5$abc")
hash.bcrypt._no_backends_msg() # call this for coverage purposes
# create test cases for specific backends
bcrypt_bcrypt_test, bcrypt_pybcrypt_test, bcrypt_bcryptor_test, bcrypt_os_crypt_test, bcrypt_builtin_test = \
_bcrypt_test.create_backend_cases(["bcrypt", "pybcrypt", "bcryptor", "os_crypt", "builtin"])
#=============================================================================
# bcrypt
#=============================================================================
class _bcrypt_sha256_test(HandlerCase):
"base for BCrypt-SHA256 test cases"
handler = hash.bcrypt_sha256
reduce_default_rounds = True
forbidden_characters = None
fuzz_salts_need_bcrypt_repair = True
fallback_os_crypt_handler = hash.bcrypt
known_correct_hashes = [
#
# custom test vectors
#
# empty
("",
'$bcrypt-sha256$2a,5$E/e/2AOhqM5W/KJTFQzLce$F6dYSxOdAEoJZO2eoHUZWZljW/e0TXO'),
# ascii
("password",
'$bcrypt-sha256$2a,5$5Hg1DKFqPE8C2aflZ5vVoe$12BjNE0p7axMg55.Y/mHsYiVuFBDQyu'),
# unicode / utf8
(UPASS_TABLE,
'$bcrypt-sha256$2a,5$.US1fQ4TQS.ZTz/uJ5Kyn.$QNdPDOTKKT5/sovNz1iWg26quOU4Pje'),
(UPASS_TABLE.encode("utf-8"),
'$bcrypt-sha256$2a,5$.US1fQ4TQS.ZTz/uJ5Kyn.$QNdPDOTKKT5/sovNz1iWg26quOU4Pje'),
# test >72 chars is hashed correctly -- under bcrypt these hash the same.
# NOTE: test_60_secret_size() handles this already, this is just for overkill :)
(repeat_string("abc123",72),
'$bcrypt-sha256$2a,5$X1g1nh3g0v4h6970O68cxe$r/hyEtqJ0teqPEmfTLoZ83ciAI1Q74.'),
(repeat_string("abc123",72)+"qwr",
'$bcrypt-sha256$2a,5$X1g1nh3g0v4h6970O68cxe$021KLEif6epjot5yoxk0m8I0929ohEa'),
(repeat_string("abc123",72)+"xyz",
'$bcrypt-sha256$2a,5$X1g1nh3g0v4h6970O68cxe$7.1kgpHduMGEjvM3fX6e/QCvfn6OKja'),
]
known_correct_configs =[
('$bcrypt-sha256$2a,5$5Hg1DKFqPE8C2aflZ5vVoe',
"password", '$bcrypt-sha256$2a,5$5Hg1DKFqPE8C2aflZ5vVoe$12BjNE0p7axMg55.Y/mHsYiVuFBDQyu'),
]
known_malformed_hashes = [
# bad char in otherwise correct hash
# \/
'$bcrypt-sha256$2a,5$5Hg1DKF!PE8C2aflZ5vVoe$12BjNE0p7axMg55.Y/mHsYiVuFBDQyu',
# unrecognized bcrypt variant
'$bcrypt-sha256$2c,5$5Hg1DKFqPE8C2aflZ5vVoe$12BjNE0p7axMg55.Y/mHsYiVuFBDQyu',
# unsupported bcrypt variant
'$bcrypt-sha256$2x,5$5Hg1DKFqPE8C2aflZ5vVoe$12BjNE0p7axMg55.Y/mHsYiVuFBDQyu',
# rounds zero-padded
'$bcrypt-sha256$2a,05$5Hg1DKFqPE8C2aflZ5vVoe$12BjNE0p7axMg55.Y/mHsYiVuFBDQyu',
# config string w/ $ added
'$bcrypt-sha256$2a,5$5Hg1DKFqPE8C2aflZ5vVoe$',
]
#===================================================================
# override some methods -- cloned from bcrypt
#===================================================================
def setUp(self):
# ensure builtin is enabled for duration of test.
if TEST_MODE("full") and self.backend == "builtin":
key = "PASSLIB_BUILTIN_BCRYPT"
orig = os.environ.get(key)
if orig:
self.addCleanup(os.environ.__setitem__, key, orig)
else:
self.addCleanup(os.environ.__delitem__, key)
os.environ[key] = "enabled"
super(_bcrypt_sha256_test, self).setUp()
warnings.filterwarnings("ignore", ".*backend is vulnerable to the bsd wraparound bug.*")
def populate_settings(self, kwds):
# builtin is still just way too slow.
if self.backend == "builtin":
kwds.setdefault("rounds", 4)
super(_bcrypt_sha256_test, self).populate_settings(kwds)
#===================================================================
# override ident tests for now
#===================================================================
def test_30_HasManyIdents(self):
raise self.skipTest("multiple idents not supported")
def test_30_HasOneIdent(self):
# forbidding ident keyword, we only support "2a" for now
handler = self.handler
handler(use_defaults=True)
self.assertRaises(ValueError, handler, ident="$2y$", use_defaults=True)
#===================================================================
# fuzz testing -- cloned from bcrypt
#===================================================================
def fuzz_setting_rounds(self):
# decrease default rounds for fuzz testing to speed up volume.
return randintgauss(5, 8, 6, 1)
# create test cases for specific backends
bcrypt_sha256_bcrypt_test, bcrypt_sha256_pybcrypt_test, bcrypt_sha256_bcryptor_test, bcrypt_sha256_os_crypt_test, bcrypt_sha256_builtin_test = \
_bcrypt_sha256_test.create_backend_cases(["bcrypt", "pybcrypt", "bcryptor", "os_crypt", "builtin"])
#=============================================================================
# eof
#=============================================================================
| mit |
diegoguimaraes/django | tests/timezones/tests.py | 34 | 54022 | from __future__ import unicode_literals
import datetime
import re
import sys
from unittest import skipIf
import warnings
from xml.dom.minidom import parseString
try:
import pytz
except ImportError:
pytz = None
from django.core import serializers
from django.core.urlresolvers import reverse
from django.db.models import Min, Max
from django.http import HttpRequest
from django.template import Context, RequestContext, Template, TemplateSyntaxError
from django.test import TestCase, override_settings, skipIfDBFeature, skipUnlessDBFeature
from django.test.utils import requires_tz_support
from django.utils import six
from django.utils import timezone
from .forms import EventForm, EventSplitForm, EventLocalizedForm, EventModelForm, EventLocalizedModelForm
from .models import Event, MaybeEvent, Session, SessionEvent, Timestamp, AllDayEvent
# These tests use the EAT (Eastern Africa Time) and ICT (Indochina Time)
# who don't have Daylight Saving Time, so we can represent them easily
# with FixedOffset, and use them directly as tzinfo in the constructors.
# settings.TIME_ZONE is forced to EAT. Most tests use a variant of
# datetime.datetime(2011, 9, 1, 13, 20, 30), which translates to
# 10:20:30 in UTC and 17:20:30 in ICT.
UTC = timezone.utc
EAT = timezone.get_fixed_timezone(180) # Africa/Nairobi
ICT = timezone.get_fixed_timezone(420) # Asia/Bangkok
@override_settings(TIME_ZONE='Africa/Nairobi', USE_TZ=False)
class LegacyDatabaseTests(TestCase):
def test_naive_datetime(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertEqual(event.dt, dt)
@skipUnlessDBFeature('supports_microsecond_precision')
def test_naive_datetime_with_microsecond(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, 405060)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertEqual(event.dt, dt)
@skipIfDBFeature('supports_microsecond_precision')
def test_naive_datetime_with_microsecond_unsupported(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, 405060)
Event.objects.create(dt=dt)
event = Event.objects.get()
# microseconds are lost during a round-trip in the database
self.assertEqual(event.dt, dt.replace(microsecond=0))
@skipUnlessDBFeature('supports_timezones')
def test_aware_datetime_in_local_timezone(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertIsNone(event.dt.tzinfo)
# interpret the naive datetime in local time to get the correct value
self.assertEqual(event.dt.replace(tzinfo=EAT), dt)
@skipUnlessDBFeature('supports_timezones')
@skipUnlessDBFeature('supports_microsecond_precision')
def test_aware_datetime_in_local_timezone_with_microsecond(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, 405060, tzinfo=EAT)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertIsNone(event.dt.tzinfo)
# interpret the naive datetime in local time to get the correct value
self.assertEqual(event.dt.replace(tzinfo=EAT), dt)
# This combination actually never happens.
@skipUnlessDBFeature('supports_timezones')
@skipIfDBFeature('supports_microsecond_precision')
def test_aware_datetime_in_local_timezone_with_microsecond_unsupported(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, 405060, tzinfo=EAT)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertIsNone(event.dt.tzinfo)
# interpret the naive datetime in local time to get the correct value
# microseconds are lost during a round-trip in the database
self.assertEqual(event.dt.replace(tzinfo=EAT), dt.replace(microsecond=0))
@skipUnlessDBFeature('supports_timezones')
@skipIfDBFeature('needs_datetime_string_cast')
def test_aware_datetime_in_utc(self):
dt = datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertIsNone(event.dt.tzinfo)
# interpret the naive datetime in local time to get the correct value
self.assertEqual(event.dt.replace(tzinfo=EAT), dt)
# This combination is no longer possible since timezone support
# was removed from the SQLite backend -- it didn't work.
@skipUnlessDBFeature('supports_timezones')
@skipUnlessDBFeature('needs_datetime_string_cast')
def test_aware_datetime_in_utc_unsupported(self):
dt = datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertIsNone(event.dt.tzinfo)
# django.db.backends.utils.typecast_dt will just drop the
# timezone, so a round-trip in the database alters the data (!)
# interpret the naive datetime in local time and you get a wrong value
self.assertNotEqual(event.dt.replace(tzinfo=EAT), dt)
# interpret the naive datetime in original time to get the correct value
self.assertEqual(event.dt.replace(tzinfo=UTC), dt)
@skipUnlessDBFeature('supports_timezones')
@skipIfDBFeature('needs_datetime_string_cast')
def test_aware_datetime_in_other_timezone(self):
dt = datetime.datetime(2011, 9, 1, 17, 20, 30, tzinfo=ICT)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertIsNone(event.dt.tzinfo)
# interpret the naive datetime in local time to get the correct value
self.assertEqual(event.dt.replace(tzinfo=EAT), dt)
# This combination is no longer possible since timezone support
# was removed from the SQLite backend -- it didn't work.
@skipUnlessDBFeature('supports_timezones')
@skipUnlessDBFeature('needs_datetime_string_cast')
def test_aware_datetime_in_other_timezone_unsupported(self):
dt = datetime.datetime(2011, 9, 1, 17, 20, 30, tzinfo=ICT)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertIsNone(event.dt.tzinfo)
# django.db.backends.utils.typecast_dt will just drop the
# timezone, so a round-trip in the database alters the data (!)
# interpret the naive datetime in local time and you get a wrong value
self.assertNotEqual(event.dt.replace(tzinfo=EAT), dt)
# interpret the naive datetime in original time to get the correct value
self.assertEqual(event.dt.replace(tzinfo=ICT), dt)
@skipIfDBFeature('supports_timezones')
def test_aware_datetime_unspported(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT)
with self.assertRaises(ValueError):
Event.objects.create(dt=dt)
def test_auto_now_and_auto_now_add(self):
now = datetime.datetime.now()
past = now - datetime.timedelta(seconds=2)
future = now + datetime.timedelta(seconds=2)
Timestamp.objects.create()
ts = Timestamp.objects.get()
self.assertLess(past, ts.created)
self.assertLess(past, ts.updated)
self.assertGreater(future, ts.updated)
self.assertGreater(future, ts.updated)
def test_query_filter(self):
dt1 = datetime.datetime(2011, 9, 1, 12, 20, 30)
dt2 = datetime.datetime(2011, 9, 1, 14, 20, 30)
Event.objects.create(dt=dt1)
Event.objects.create(dt=dt2)
self.assertEqual(Event.objects.filter(dt__gte=dt1).count(), 2)
self.assertEqual(Event.objects.filter(dt__gt=dt1).count(), 1)
self.assertEqual(Event.objects.filter(dt__gte=dt2).count(), 1)
self.assertEqual(Event.objects.filter(dt__gt=dt2).count(), 0)
def test_query_datetime_lookups(self):
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 1, 30, 0))
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 4, 30, 0))
self.assertEqual(Event.objects.filter(dt__year=2011).count(), 2)
self.assertEqual(Event.objects.filter(dt__month=1).count(), 2)
self.assertEqual(Event.objects.filter(dt__day=1).count(), 2)
self.assertEqual(Event.objects.filter(dt__week_day=7).count(), 2)
self.assertEqual(Event.objects.filter(dt__hour=1).count(), 1)
self.assertEqual(Event.objects.filter(dt__minute=30).count(), 2)
self.assertEqual(Event.objects.filter(dt__second=0).count(), 2)
def test_query_aggregation(self):
# Only min and max make sense for datetimes.
Event.objects.create(dt=datetime.datetime(2011, 9, 1, 23, 20, 20))
Event.objects.create(dt=datetime.datetime(2011, 9, 1, 13, 20, 30))
Event.objects.create(dt=datetime.datetime(2011, 9, 1, 3, 20, 40))
result = Event.objects.all().aggregate(Min('dt'), Max('dt'))
self.assertEqual(result, {
'dt__min': datetime.datetime(2011, 9, 1, 3, 20, 40),
'dt__max': datetime.datetime(2011, 9, 1, 23, 20, 20),
})
def test_query_annotation(self):
# Only min and max make sense for datetimes.
morning = Session.objects.create(name='morning')
afternoon = Session.objects.create(name='afternoon')
SessionEvent.objects.create(dt=datetime.datetime(2011, 9, 1, 23, 20, 20), session=afternoon)
SessionEvent.objects.create(dt=datetime.datetime(2011, 9, 1, 13, 20, 30), session=afternoon)
SessionEvent.objects.create(dt=datetime.datetime(2011, 9, 1, 3, 20, 40), session=morning)
morning_min_dt = datetime.datetime(2011, 9, 1, 3, 20, 40)
afternoon_min_dt = datetime.datetime(2011, 9, 1, 13, 20, 30)
self.assertQuerysetEqual(
Session.objects.annotate(dt=Min('events__dt')).order_by('dt'),
[morning_min_dt, afternoon_min_dt],
transform=lambda d: d.dt)
self.assertQuerysetEqual(
Session.objects.annotate(dt=Min('events__dt')).filter(dt__lt=afternoon_min_dt),
[morning_min_dt],
transform=lambda d: d.dt)
self.assertQuerysetEqual(
Session.objects.annotate(dt=Min('events__dt')).filter(dt__gte=afternoon_min_dt),
[afternoon_min_dt],
transform=lambda d: d.dt)
def test_query_datetimes(self):
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 1, 30, 0))
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 4, 30, 0))
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'year'),
[datetime.datetime(2011, 1, 1, 0, 0, 0)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'month'),
[datetime.datetime(2011, 1, 1, 0, 0, 0)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'day'),
[datetime.datetime(2011, 1, 1, 0, 0, 0)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'hour'),
[datetime.datetime(2011, 1, 1, 1, 0, 0),
datetime.datetime(2011, 1, 1, 4, 0, 0)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'minute'),
[datetime.datetime(2011, 1, 1, 1, 30, 0),
datetime.datetime(2011, 1, 1, 4, 30, 0)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'second'),
[datetime.datetime(2011, 1, 1, 1, 30, 0),
datetime.datetime(2011, 1, 1, 4, 30, 0)],
transform=lambda d: d)
def test_raw_sql(self):
# Regression test for #17755
dt = datetime.datetime(2011, 9, 1, 13, 20, 30)
event = Event.objects.create(dt=dt)
self.assertQuerysetEqual(
Event.objects.raw('SELECT * FROM timezones_event WHERE dt = %s', [dt]),
[event],
transform=lambda d: d)
def test_filter_date_field_with_aware_datetime(self):
# Regression test for #17742
day = datetime.date(2011, 9, 1)
AllDayEvent.objects.create(day=day)
# This is 2011-09-02T01:30:00+03:00 in EAT
dt = datetime.datetime(2011, 9, 1, 22, 30, 0, tzinfo=UTC)
self.assertTrue(AllDayEvent.objects.filter(day__gte=dt).exists())
@override_settings(TIME_ZONE='Africa/Nairobi', USE_TZ=True)
class NewDatabaseTests(TestCase):
@requires_tz_support
def test_naive_datetime(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30)
with warnings.catch_warnings(record=True) as recorded:
warnings.simplefilter('always')
Event.objects.create(dt=dt)
self.assertEqual(len(recorded), 1)
msg = str(recorded[0].message)
self.assertTrue(msg.startswith("DateTimeField Event.dt received "
"a naive datetime"))
event = Event.objects.get()
# naive datetimes are interpreted in local time
self.assertEqual(event.dt, dt.replace(tzinfo=EAT))
@requires_tz_support
def test_datetime_from_date(self):
dt = datetime.date(2011, 9, 1)
with warnings.catch_warnings(record=True) as recorded:
warnings.simplefilter('always')
Event.objects.create(dt=dt)
self.assertEqual(len(recorded), 1)
msg = str(recorded[0].message)
self.assertTrue(msg.startswith("DateTimeField Event.dt received "
"a naive datetime"))
event = Event.objects.get()
self.assertEqual(event.dt, datetime.datetime(2011, 9, 1, tzinfo=EAT))
@requires_tz_support
@skipUnlessDBFeature('supports_microsecond_precision')
def test_naive_datetime_with_microsecond(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, 405060)
with warnings.catch_warnings(record=True) as recorded:
warnings.simplefilter('always')
Event.objects.create(dt=dt)
self.assertEqual(len(recorded), 1)
msg = str(recorded[0].message)
self.assertTrue(msg.startswith("DateTimeField Event.dt received "
"a naive datetime"))
event = Event.objects.get()
# naive datetimes are interpreted in local time
self.assertEqual(event.dt, dt.replace(tzinfo=EAT))
@requires_tz_support
@skipIfDBFeature('supports_microsecond_precision')
def test_naive_datetime_with_microsecond_unsupported(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, 405060)
with warnings.catch_warnings(record=True) as recorded:
warnings.simplefilter('always')
Event.objects.create(dt=dt)
self.assertEqual(len(recorded), 1)
msg = str(recorded[0].message)
self.assertTrue(msg.startswith("DateTimeField Event.dt received "
"a naive datetime"))
event = Event.objects.get()
# microseconds are lost during a round-trip in the database
# naive datetimes are interpreted in local time
self.assertEqual(event.dt, dt.replace(microsecond=0, tzinfo=EAT))
def test_aware_datetime_in_local_timezone(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertEqual(event.dt, dt)
@skipUnlessDBFeature('supports_microsecond_precision')
def test_aware_datetime_in_local_timezone_with_microsecond(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, 405060, tzinfo=EAT)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertEqual(event.dt, dt)
@skipIfDBFeature('supports_microsecond_precision')
def test_aware_datetime_in_local_timezone_with_microsecond_unsupported(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, 405060, tzinfo=EAT)
Event.objects.create(dt=dt)
event = Event.objects.get()
# microseconds are lost during a round-trip in the database
self.assertEqual(event.dt, dt.replace(microsecond=0))
def test_aware_datetime_in_utc(self):
dt = datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertEqual(event.dt, dt)
def test_aware_datetime_in_other_timezone(self):
dt = datetime.datetime(2011, 9, 1, 17, 20, 30, tzinfo=ICT)
Event.objects.create(dt=dt)
event = Event.objects.get()
self.assertEqual(event.dt, dt)
def test_auto_now_and_auto_now_add(self):
now = timezone.now()
past = now - datetime.timedelta(seconds=2)
future = now + datetime.timedelta(seconds=2)
Timestamp.objects.create()
ts = Timestamp.objects.get()
self.assertLess(past, ts.created)
self.assertLess(past, ts.updated)
self.assertGreater(future, ts.updated)
self.assertGreater(future, ts.updated)
def test_query_filter(self):
dt1 = datetime.datetime(2011, 9, 1, 12, 20, 30, tzinfo=EAT)
dt2 = datetime.datetime(2011, 9, 1, 14, 20, 30, tzinfo=EAT)
Event.objects.create(dt=dt1)
Event.objects.create(dt=dt2)
self.assertEqual(Event.objects.filter(dt__gte=dt1).count(), 2)
self.assertEqual(Event.objects.filter(dt__gt=dt1).count(), 1)
self.assertEqual(Event.objects.filter(dt__gte=dt2).count(), 1)
self.assertEqual(Event.objects.filter(dt__gt=dt2).count(), 0)
@skipIf(pytz is None, "this test requires pytz")
def test_query_filter_with_pytz_timezones(self):
tz = pytz.timezone('Europe/Paris')
dt = datetime.datetime(2011, 9, 1, 12, 20, 30, tzinfo=tz)
Event.objects.create(dt=dt)
next = dt + datetime.timedelta(seconds=3)
prev = dt - datetime.timedelta(seconds=3)
self.assertEqual(Event.objects.filter(dt__exact=dt).count(), 1)
self.assertEqual(Event.objects.filter(dt__exact=next).count(), 0)
self.assertEqual(Event.objects.filter(dt__in=(prev, next)).count(), 0)
self.assertEqual(Event.objects.filter(dt__in=(prev, dt, next)).count(), 1)
self.assertEqual(Event.objects.filter(dt__range=(prev, next)).count(), 1)
@requires_tz_support
def test_query_filter_with_naive_datetime(self):
dt = datetime.datetime(2011, 9, 1, 12, 20, 30, tzinfo=EAT)
Event.objects.create(dt=dt)
dt = dt.replace(tzinfo=None)
with warnings.catch_warnings(record=True) as recorded:
warnings.simplefilter('always')
# naive datetimes are interpreted in local time
self.assertEqual(Event.objects.filter(dt__exact=dt).count(), 1)
self.assertEqual(Event.objects.filter(dt__lte=dt).count(), 1)
self.assertEqual(Event.objects.filter(dt__gt=dt).count(), 0)
self.assertEqual(len(recorded), 3)
for warning in recorded:
msg = str(warning.message)
self.assertTrue(msg.startswith("DateTimeField Event.dt "
"received a naive datetime"))
@skipUnlessDBFeature('has_zoneinfo_database')
def test_query_datetime_lookups(self):
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 1, 30, 0, tzinfo=EAT))
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 4, 30, 0, tzinfo=EAT))
self.assertEqual(Event.objects.filter(dt__year=2011).count(), 2)
self.assertEqual(Event.objects.filter(dt__month=1).count(), 2)
self.assertEqual(Event.objects.filter(dt__day=1).count(), 2)
self.assertEqual(Event.objects.filter(dt__week_day=7).count(), 2)
self.assertEqual(Event.objects.filter(dt__hour=1).count(), 1)
self.assertEqual(Event.objects.filter(dt__minute=30).count(), 2)
self.assertEqual(Event.objects.filter(dt__second=0).count(), 2)
@skipUnlessDBFeature('has_zoneinfo_database')
def test_query_datetime_lookups_in_other_timezone(self):
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 1, 30, 0, tzinfo=EAT))
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 4, 30, 0, tzinfo=EAT))
with timezone.override(UTC):
# These two dates fall in the same day in EAT, but in different days,
# years and months in UTC.
self.assertEqual(Event.objects.filter(dt__year=2011).count(), 1)
self.assertEqual(Event.objects.filter(dt__month=1).count(), 1)
self.assertEqual(Event.objects.filter(dt__day=1).count(), 1)
self.assertEqual(Event.objects.filter(dt__week_day=7).count(), 1)
self.assertEqual(Event.objects.filter(dt__hour=22).count(), 1)
self.assertEqual(Event.objects.filter(dt__minute=30).count(), 2)
self.assertEqual(Event.objects.filter(dt__second=0).count(), 2)
def test_query_aggregation(self):
# Only min and max make sense for datetimes.
Event.objects.create(dt=datetime.datetime(2011, 9, 1, 23, 20, 20, tzinfo=EAT))
Event.objects.create(dt=datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT))
Event.objects.create(dt=datetime.datetime(2011, 9, 1, 3, 20, 40, tzinfo=EAT))
result = Event.objects.all().aggregate(Min('dt'), Max('dt'))
self.assertEqual(result, {
'dt__min': datetime.datetime(2011, 9, 1, 3, 20, 40, tzinfo=EAT),
'dt__max': datetime.datetime(2011, 9, 1, 23, 20, 20, tzinfo=EAT),
})
def test_query_annotation(self):
# Only min and max make sense for datetimes.
morning = Session.objects.create(name='morning')
afternoon = Session.objects.create(name='afternoon')
SessionEvent.objects.create(dt=datetime.datetime(2011, 9, 1, 23, 20, 20, tzinfo=EAT), session=afternoon)
SessionEvent.objects.create(dt=datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT), session=afternoon)
SessionEvent.objects.create(dt=datetime.datetime(2011, 9, 1, 3, 20, 40, tzinfo=EAT), session=morning)
morning_min_dt = datetime.datetime(2011, 9, 1, 3, 20, 40, tzinfo=EAT)
afternoon_min_dt = datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT)
self.assertQuerysetEqual(
Session.objects.annotate(dt=Min('events__dt')).order_by('dt'),
[morning_min_dt, afternoon_min_dt],
transform=lambda d: d.dt)
self.assertQuerysetEqual(
Session.objects.annotate(dt=Min('events__dt')).filter(dt__lt=afternoon_min_dt),
[morning_min_dt],
transform=lambda d: d.dt)
self.assertQuerysetEqual(
Session.objects.annotate(dt=Min('events__dt')).filter(dt__gte=afternoon_min_dt),
[afternoon_min_dt],
transform=lambda d: d.dt)
@skipUnlessDBFeature('has_zoneinfo_database')
def test_query_datetimes(self):
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 1, 30, 0, tzinfo=EAT))
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 4, 30, 0, tzinfo=EAT))
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'year'),
[datetime.datetime(2011, 1, 1, 0, 0, 0, tzinfo=EAT)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'month'),
[datetime.datetime(2011, 1, 1, 0, 0, 0, tzinfo=EAT)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'day'),
[datetime.datetime(2011, 1, 1, 0, 0, 0, tzinfo=EAT)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'hour'),
[datetime.datetime(2011, 1, 1, 1, 0, 0, tzinfo=EAT),
datetime.datetime(2011, 1, 1, 4, 0, 0, tzinfo=EAT)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'minute'),
[datetime.datetime(2011, 1, 1, 1, 30, 0, tzinfo=EAT),
datetime.datetime(2011, 1, 1, 4, 30, 0, tzinfo=EAT)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'second'),
[datetime.datetime(2011, 1, 1, 1, 30, 0, tzinfo=EAT),
datetime.datetime(2011, 1, 1, 4, 30, 0, tzinfo=EAT)],
transform=lambda d: d)
@skipUnlessDBFeature('has_zoneinfo_database')
def test_query_datetimes_in_other_timezone(self):
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 1, 30, 0, tzinfo=EAT))
Event.objects.create(dt=datetime.datetime(2011, 1, 1, 4, 30, 0, tzinfo=EAT))
with timezone.override(UTC):
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'year'),
[datetime.datetime(2010, 1, 1, 0, 0, 0, tzinfo=UTC),
datetime.datetime(2011, 1, 1, 0, 0, 0, tzinfo=UTC)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'month'),
[datetime.datetime(2010, 12, 1, 0, 0, 0, tzinfo=UTC),
datetime.datetime(2011, 1, 1, 0, 0, 0, tzinfo=UTC)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'day'),
[datetime.datetime(2010, 12, 31, 0, 0, 0, tzinfo=UTC),
datetime.datetime(2011, 1, 1, 0, 0, 0, tzinfo=UTC)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'hour'),
[datetime.datetime(2010, 12, 31, 22, 0, 0, tzinfo=UTC),
datetime.datetime(2011, 1, 1, 1, 0, 0, tzinfo=UTC)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'minute'),
[datetime.datetime(2010, 12, 31, 22, 30, 0, tzinfo=UTC),
datetime.datetime(2011, 1, 1, 1, 30, 0, tzinfo=UTC)],
transform=lambda d: d)
self.assertQuerysetEqual(
Event.objects.datetimes('dt', 'second'),
[datetime.datetime(2010, 12, 31, 22, 30, 0, tzinfo=UTC),
datetime.datetime(2011, 1, 1, 1, 30, 0, tzinfo=UTC)],
transform=lambda d: d)
def test_raw_sql(self):
# Regression test for #17755
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT)
event = Event.objects.create(dt=dt)
self.assertQuerysetEqual(
Event.objects.raw('SELECT * FROM timezones_event WHERE dt = %s', [dt]),
[event],
transform=lambda d: d)
@requires_tz_support
def test_filter_date_field_with_aware_datetime(self):
# Regression test for #17742
day = datetime.date(2011, 9, 1)
AllDayEvent.objects.create(day=day)
# This is 2011-09-02T01:30:00+03:00 in EAT
dt = datetime.datetime(2011, 9, 1, 22, 30, 0, tzinfo=UTC)
self.assertFalse(AllDayEvent.objects.filter(day__gte=dt).exists())
def test_null_datetime(self):
# Regression test for #17294
e = MaybeEvent.objects.create()
self.assertEqual(e.dt, None)
@override_settings(TIME_ZONE='Africa/Nairobi')
class SerializationTests(TestCase):
# Backend-specific notes:
# - JSON supports only milliseconds, microseconds will be truncated.
# - PyYAML dumps the UTC offset correctly for timezone-aware datetimes,
# but when it loads this representation, it substracts the offset and
# returns a naive datetime object in UTC (http://pyyaml.org/ticket/202).
# Tests are adapted to take these quirks into account.
def assert_python_contains_datetime(self, objects, dt):
self.assertEqual(objects[0]['fields']['dt'], dt)
def assert_json_contains_datetime(self, json, dt):
self.assertIn('"fields": {"dt": "%s"}' % dt, json)
def assert_xml_contains_datetime(self, xml, dt):
field = parseString(xml).getElementsByTagName('field')[0]
self.assertXMLEqual(field.childNodes[0].wholeText, dt)
def assert_yaml_contains_datetime(self, yaml, dt):
# Depending on the yaml dumper, '!timestamp' might be absent
six.assertRegex(self, yaml,
r"- fields: {dt: !(!timestamp)? '%s'}" % re.escape(dt))
def test_naive_datetime(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30)
data = serializers.serialize('python', [Event(dt=dt)])
self.assert_python_contains_datetime(data, dt)
obj = next(serializers.deserialize('python', data)).object
self.assertEqual(obj.dt, dt)
data = serializers.serialize('json', [Event(dt=dt)])
self.assert_json_contains_datetime(data, "2011-09-01T13:20:30")
obj = next(serializers.deserialize('json', data)).object
self.assertEqual(obj.dt, dt)
data = serializers.serialize('xml', [Event(dt=dt)])
self.assert_xml_contains_datetime(data, "2011-09-01T13:20:30")
obj = next(serializers.deserialize('xml', data)).object
self.assertEqual(obj.dt, dt)
if not isinstance(serializers.get_serializer('yaml'), serializers.BadSerializer):
data = serializers.serialize('yaml', [Event(dt=dt)])
self.assert_yaml_contains_datetime(data, "2011-09-01 13:20:30")
obj = next(serializers.deserialize('yaml', data)).object
self.assertEqual(obj.dt, dt)
def test_naive_datetime_with_microsecond(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, 405060)
data = serializers.serialize('python', [Event(dt=dt)])
self.assert_python_contains_datetime(data, dt)
obj = next(serializers.deserialize('python', data)).object
self.assertEqual(obj.dt, dt)
data = serializers.serialize('json', [Event(dt=dt)])
self.assert_json_contains_datetime(data, "2011-09-01T13:20:30.405")
obj = next(serializers.deserialize('json', data)).object
self.assertEqual(obj.dt, dt.replace(microsecond=405000))
data = serializers.serialize('xml', [Event(dt=dt)])
self.assert_xml_contains_datetime(data, "2011-09-01T13:20:30.405060")
obj = next(serializers.deserialize('xml', data)).object
self.assertEqual(obj.dt, dt)
if not isinstance(serializers.get_serializer('yaml'), serializers.BadSerializer):
data = serializers.serialize('yaml', [Event(dt=dt)])
self.assert_yaml_contains_datetime(data, "2011-09-01 13:20:30.405060")
obj = next(serializers.deserialize('yaml', data)).object
self.assertEqual(obj.dt, dt)
def test_aware_datetime_with_microsecond(self):
dt = datetime.datetime(2011, 9, 1, 17, 20, 30, 405060, tzinfo=ICT)
data = serializers.serialize('python', [Event(dt=dt)])
self.assert_python_contains_datetime(data, dt)
obj = next(serializers.deserialize('python', data)).object
self.assertEqual(obj.dt, dt)
data = serializers.serialize('json', [Event(dt=dt)])
self.assert_json_contains_datetime(data, "2011-09-01T17:20:30.405+07:00")
obj = next(serializers.deserialize('json', data)).object
self.assertEqual(obj.dt, dt.replace(microsecond=405000))
data = serializers.serialize('xml', [Event(dt=dt)])
self.assert_xml_contains_datetime(data, "2011-09-01T17:20:30.405060+07:00")
obj = next(serializers.deserialize('xml', data)).object
self.assertEqual(obj.dt, dt)
if not isinstance(serializers.get_serializer('yaml'), serializers.BadSerializer):
data = serializers.serialize('yaml', [Event(dt=dt)])
self.assert_yaml_contains_datetime(data, "2011-09-01 17:20:30.405060+07:00")
obj = next(serializers.deserialize('yaml', data)).object
self.assertEqual(obj.dt.replace(tzinfo=UTC), dt)
def test_aware_datetime_in_utc(self):
dt = datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC)
data = serializers.serialize('python', [Event(dt=dt)])
self.assert_python_contains_datetime(data, dt)
obj = next(serializers.deserialize('python', data)).object
self.assertEqual(obj.dt, dt)
data = serializers.serialize('json', [Event(dt=dt)])
self.assert_json_contains_datetime(data, "2011-09-01T10:20:30Z")
obj = next(serializers.deserialize('json', data)).object
self.assertEqual(obj.dt, dt)
data = serializers.serialize('xml', [Event(dt=dt)])
self.assert_xml_contains_datetime(data, "2011-09-01T10:20:30+00:00")
obj = next(serializers.deserialize('xml', data)).object
self.assertEqual(obj.dt, dt)
if not isinstance(serializers.get_serializer('yaml'), serializers.BadSerializer):
data = serializers.serialize('yaml', [Event(dt=dt)])
self.assert_yaml_contains_datetime(data, "2011-09-01 10:20:30+00:00")
obj = next(serializers.deserialize('yaml', data)).object
self.assertEqual(obj.dt.replace(tzinfo=UTC), dt)
def test_aware_datetime_in_local_timezone(self):
dt = datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT)
data = serializers.serialize('python', [Event(dt=dt)])
self.assert_python_contains_datetime(data, dt)
obj = next(serializers.deserialize('python', data)).object
self.assertEqual(obj.dt, dt)
data = serializers.serialize('json', [Event(dt=dt)])
self.assert_json_contains_datetime(data, "2011-09-01T13:20:30+03:00")
obj = next(serializers.deserialize('json', data)).object
self.assertEqual(obj.dt, dt)
data = serializers.serialize('xml', [Event(dt=dt)])
self.assert_xml_contains_datetime(data, "2011-09-01T13:20:30+03:00")
obj = next(serializers.deserialize('xml', data)).object
self.assertEqual(obj.dt, dt)
if not isinstance(serializers.get_serializer('yaml'), serializers.BadSerializer):
data = serializers.serialize('yaml', [Event(dt=dt)])
self.assert_yaml_contains_datetime(data, "2011-09-01 13:20:30+03:00")
obj = next(serializers.deserialize('yaml', data)).object
self.assertEqual(obj.dt.replace(tzinfo=UTC), dt)
def test_aware_datetime_in_other_timezone(self):
dt = datetime.datetime(2011, 9, 1, 17, 20, 30, tzinfo=ICT)
data = serializers.serialize('python', [Event(dt=dt)])
self.assert_python_contains_datetime(data, dt)
obj = next(serializers.deserialize('python', data)).object
self.assertEqual(obj.dt, dt)
data = serializers.serialize('json', [Event(dt=dt)])
self.assert_json_contains_datetime(data, "2011-09-01T17:20:30+07:00")
obj = next(serializers.deserialize('json', data)).object
self.assertEqual(obj.dt, dt)
data = serializers.serialize('xml', [Event(dt=dt)])
self.assert_xml_contains_datetime(data, "2011-09-01T17:20:30+07:00")
obj = next(serializers.deserialize('xml', data)).object
self.assertEqual(obj.dt, dt)
if not isinstance(serializers.get_serializer('yaml'), serializers.BadSerializer):
data = serializers.serialize('yaml', [Event(dt=dt)])
self.assert_yaml_contains_datetime(data, "2011-09-01 17:20:30+07:00")
obj = next(serializers.deserialize('yaml', data)).object
self.assertEqual(obj.dt.replace(tzinfo=UTC), dt)
@override_settings(DATETIME_FORMAT='c', TIME_ZONE='Africa/Nairobi', USE_L10N=False, USE_TZ=True)
class TemplateTests(TestCase):
@requires_tz_support
def test_localtime_templatetag_and_filters(self):
"""
Test the {% localtime %} templatetag and related filters.
"""
datetimes = {
'utc': datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC),
'eat': datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT),
'ict': datetime.datetime(2011, 9, 1, 17, 20, 30, tzinfo=ICT),
'naive': datetime.datetime(2011, 9, 1, 13, 20, 30),
}
templates = {
'notag': Template("{% load tz %}{{ dt }}|{{ dt|localtime }}|{{ dt|utc }}|{{ dt|timezone:ICT }}"),
'noarg': Template("{% load tz %}{% localtime %}{{ dt }}|{{ dt|localtime }}|{{ dt|utc }}|{{ dt|timezone:ICT }}{% endlocaltime %}"),
'on': Template("{% load tz %}{% localtime on %}{{ dt }}|{{ dt|localtime }}|{{ dt|utc }}|{{ dt|timezone:ICT }}{% endlocaltime %}"),
'off': Template("{% load tz %}{% localtime off %}{{ dt }}|{{ dt|localtime }}|{{ dt|utc }}|{{ dt|timezone:ICT }}{% endlocaltime %}"),
}
# Transform a list of keys in 'datetimes' to the expected template
# output. This makes the definition of 'results' more readable.
def t(*result):
return '|'.join(datetimes[key].isoformat() for key in result)
# Results for USE_TZ = True
results = {
'utc': {
'notag': t('eat', 'eat', 'utc', 'ict'),
'noarg': t('eat', 'eat', 'utc', 'ict'),
'on': t('eat', 'eat', 'utc', 'ict'),
'off': t('utc', 'eat', 'utc', 'ict'),
},
'eat': {
'notag': t('eat', 'eat', 'utc', 'ict'),
'noarg': t('eat', 'eat', 'utc', 'ict'),
'on': t('eat', 'eat', 'utc', 'ict'),
'off': t('eat', 'eat', 'utc', 'ict'),
},
'ict': {
'notag': t('eat', 'eat', 'utc', 'ict'),
'noarg': t('eat', 'eat', 'utc', 'ict'),
'on': t('eat', 'eat', 'utc', 'ict'),
'off': t('ict', 'eat', 'utc', 'ict'),
},
'naive': {
'notag': t('naive', 'eat', 'utc', 'ict'),
'noarg': t('naive', 'eat', 'utc', 'ict'),
'on': t('naive', 'eat', 'utc', 'ict'),
'off': t('naive', 'eat', 'utc', 'ict'),
}
}
for k1, dt in six.iteritems(datetimes):
for k2, tpl in six.iteritems(templates):
ctx = Context({'dt': dt, 'ICT': ICT})
actual = tpl.render(ctx)
expected = results[k1][k2]
self.assertEqual(actual, expected, '%s / %s: %r != %r' % (k1, k2, actual, expected))
# Changes for USE_TZ = False
results['utc']['notag'] = t('utc', 'eat', 'utc', 'ict')
results['ict']['notag'] = t('ict', 'eat', 'utc', 'ict')
with self.settings(USE_TZ=False):
for k1, dt in six.iteritems(datetimes):
for k2, tpl in six.iteritems(templates):
ctx = Context({'dt': dt, 'ICT': ICT})
actual = tpl.render(ctx)
expected = results[k1][k2]
self.assertEqual(actual, expected, '%s / %s: %r != %r' % (k1, k2, actual, expected))
@skipIf(pytz is None, "this test requires pytz")
def test_localtime_filters_with_pytz(self):
"""
Test the |localtime, |utc, and |timezone filters with pytz.
"""
# Use a pytz timezone as local time
tpl = Template("{% load tz %}{{ dt|localtime }}|{{ dt|utc }}")
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 12, 20, 30)})
with self.settings(TIME_ZONE='Europe/Paris'):
self.assertEqual(tpl.render(ctx), "2011-09-01T12:20:30+02:00|2011-09-01T10:20:30+00:00")
# Use a pytz timezone as argument
tpl = Template("{% load tz %}{{ dt|timezone:tz }}")
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 13, 20, 30),
'tz': pytz.timezone('Europe/Paris')})
self.assertEqual(tpl.render(ctx), "2011-09-01T12:20:30+02:00")
# Use a pytz timezone name as argument
tpl = Template("{% load tz %}{{ dt|timezone:'Europe/Paris' }}")
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 13, 20, 30),
'tz': pytz.timezone('Europe/Paris')})
self.assertEqual(tpl.render(ctx), "2011-09-01T12:20:30+02:00")
def test_localtime_templatetag_invalid_argument(self):
with self.assertRaises(TemplateSyntaxError):
Template("{% load tz %}{% localtime foo %}{% endlocaltime %}").render()
def test_localtime_filters_do_not_raise_exceptions(self):
"""
Test the |localtime, |utc, and |timezone filters on bad inputs.
"""
tpl = Template("{% load tz %}{{ dt }}|{{ dt|localtime }}|{{ dt|utc }}|{{ dt|timezone:tz }}")
with self.settings(USE_TZ=True):
# bad datetime value
ctx = Context({'dt': None, 'tz': ICT})
self.assertEqual(tpl.render(ctx), "None|||")
ctx = Context({'dt': 'not a date', 'tz': ICT})
self.assertEqual(tpl.render(ctx), "not a date|||")
# bad timezone value
tpl = Template("{% load tz %}{{ dt|timezone:tz }}")
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 13, 20, 30), 'tz': None})
self.assertEqual(tpl.render(ctx), "")
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 13, 20, 30), 'tz': 'not a tz'})
self.assertEqual(tpl.render(ctx), "")
@requires_tz_support
def test_timezone_templatetag(self):
"""
Test the {% timezone %} templatetag.
"""
tpl = Template(
"{% load tz %}"
"{{ dt }}|"
"{% timezone tz1 %}"
"{{ dt }}|"
"{% timezone tz2 %}"
"{{ dt }}"
"{% endtimezone %}"
"{% endtimezone %}"
)
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC),
'tz1': ICT, 'tz2': None})
self.assertEqual(tpl.render(ctx), "2011-09-01T13:20:30+03:00|2011-09-01T17:20:30+07:00|2011-09-01T13:20:30+03:00")
@skipIf(pytz is None, "this test requires pytz")
def test_timezone_templatetag_with_pytz(self):
"""
Test the {% timezone %} templatetag with pytz.
"""
tpl = Template("{% load tz %}{% timezone tz %}{{ dt }}{% endtimezone %}")
# Use a pytz timezone as argument
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT),
'tz': pytz.timezone('Europe/Paris')})
self.assertEqual(tpl.render(ctx), "2011-09-01T12:20:30+02:00")
# Use a pytz timezone name as argument
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT),
'tz': 'Europe/Paris'})
self.assertEqual(tpl.render(ctx), "2011-09-01T12:20:30+02:00")
def test_timezone_templatetag_invalid_argument(self):
with self.assertRaises(TemplateSyntaxError):
Template("{% load tz %}{% timezone %}{% endtimezone %}").render()
with self.assertRaises(ValueError if pytz is None else pytz.UnknownTimeZoneError):
Template("{% load tz %}{% timezone tz %}{% endtimezone %}").render(Context({'tz': 'foobar'}))
@skipIf(sys.platform.startswith('win'), "Windows uses non-standard time zone names")
def test_get_current_timezone_templatetag(self):
"""
Test the {% get_current_timezone %} templatetag.
"""
tpl = Template("{% load tz %}{% get_current_timezone as time_zone %}{{ time_zone }}")
self.assertEqual(tpl.render(Context()), "Africa/Nairobi" if pytz else "EAT")
with timezone.override(UTC):
self.assertEqual(tpl.render(Context()), "UTC")
tpl = Template("{% load tz %}{% timezone tz %}{% get_current_timezone as time_zone %}{% endtimezone %}{{ time_zone }}")
self.assertEqual(tpl.render(Context({'tz': ICT})), "+0700")
with timezone.override(UTC):
self.assertEqual(tpl.render(Context({'tz': ICT})), "+0700")
@skipIf(pytz is None, "this test requires pytz")
def test_get_current_timezone_templatetag_with_pytz(self):
"""
Test the {% get_current_timezone %} templatetag with pytz.
"""
tpl = Template("{% load tz %}{% get_current_timezone as time_zone %}{{ time_zone }}")
with timezone.override(pytz.timezone('Europe/Paris')):
self.assertEqual(tpl.render(Context()), "Europe/Paris")
tpl = Template("{% load tz %}{% timezone 'Europe/Paris' %}{% get_current_timezone as time_zone %}{% endtimezone %}{{ time_zone }}")
self.assertEqual(tpl.render(Context()), "Europe/Paris")
def test_get_current_timezone_templatetag_invalid_argument(self):
with self.assertRaises(TemplateSyntaxError):
Template("{% load tz %}{% get_current_timezone %}").render()
@skipIf(sys.platform.startswith('win'), "Windows uses non-standard time zone names")
def test_tz_template_context_processor(self):
"""
Test the django.core.context_processors.tz template context processor.
"""
tpl = Template("{{ TIME_ZONE }}")
self.assertEqual(tpl.render(Context()), "")
self.assertEqual(tpl.render(RequestContext(HttpRequest())), "Africa/Nairobi" if pytz else "EAT")
@requires_tz_support
def test_date_and_time_template_filters(self):
tpl = Template("{{ dt|date:'Y-m-d' }} at {{ dt|time:'H:i:s' }}")
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 20, 20, 20, tzinfo=UTC)})
self.assertEqual(tpl.render(ctx), "2011-09-01 at 23:20:20")
with timezone.override(ICT):
self.assertEqual(tpl.render(ctx), "2011-09-02 at 03:20:20")
def test_date_and_time_template_filters_honor_localtime(self):
tpl = Template("{% load tz %}{% localtime off %}{{ dt|date:'Y-m-d' }} at {{ dt|time:'H:i:s' }}{% endlocaltime %}")
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 20, 20, 20, tzinfo=UTC)})
self.assertEqual(tpl.render(ctx), "2011-09-01 at 20:20:20")
with timezone.override(ICT):
self.assertEqual(tpl.render(ctx), "2011-09-01 at 20:20:20")
def test_localtime_with_time_zone_setting_set_to_none(self):
# Regression for #17274
tpl = Template("{% load tz %}{{ dt }}")
ctx = Context({'dt': datetime.datetime(2011, 9, 1, 12, 20, 30, tzinfo=EAT)})
with self.settings(TIME_ZONE=None):
# the actual value depends on the system time zone of the host
self.assertTrue(tpl.render(ctx).startswith("2011"))
@requires_tz_support
def test_now_template_tag_uses_current_time_zone(self):
# Regression for #17343
tpl = Template("{% now \"O\" %}")
self.assertEqual(tpl.render(Context({})), "+0300")
with timezone.override(ICT):
self.assertEqual(tpl.render(Context({})), "+0700")
@override_settings(DATETIME_FORMAT='c', TIME_ZONE='Africa/Nairobi', USE_L10N=False, USE_TZ=False)
class LegacyFormsTests(TestCase):
def test_form(self):
form = EventForm({'dt': '2011-09-01 13:20:30'})
self.assertTrue(form.is_valid())
self.assertEqual(form.cleaned_data['dt'], datetime.datetime(2011, 9, 1, 13, 20, 30))
@skipIf(pytz is None, "this test requires pytz")
def test_form_with_non_existent_time(self):
form = EventForm({'dt': '2011-03-27 02:30:00'})
with timezone.override(pytz.timezone('Europe/Paris')):
# this is obviously a bug
self.assertTrue(form.is_valid())
self.assertEqual(form.cleaned_data['dt'], datetime.datetime(2011, 3, 27, 2, 30, 0))
@skipIf(pytz is None, "this test requires pytz")
def test_form_with_ambiguous_time(self):
form = EventForm({'dt': '2011-10-30 02:30:00'})
with timezone.override(pytz.timezone('Europe/Paris')):
# this is obviously a bug
self.assertTrue(form.is_valid())
self.assertEqual(form.cleaned_data['dt'], datetime.datetime(2011, 10, 30, 2, 30, 0))
def test_split_form(self):
form = EventSplitForm({'dt_0': '2011-09-01', 'dt_1': '13:20:30'})
self.assertTrue(form.is_valid())
self.assertEqual(form.cleaned_data['dt'], datetime.datetime(2011, 9, 1, 13, 20, 30))
def test_model_form(self):
EventModelForm({'dt': '2011-09-01 13:20:30'}).save()
e = Event.objects.get()
self.assertEqual(e.dt, datetime.datetime(2011, 9, 1, 13, 20, 30))
@override_settings(DATETIME_FORMAT='c', TIME_ZONE='Africa/Nairobi', USE_L10N=False, USE_TZ=True)
class NewFormsTests(TestCase):
@requires_tz_support
def test_form(self):
form = EventForm({'dt': '2011-09-01 13:20:30'})
self.assertTrue(form.is_valid())
self.assertEqual(form.cleaned_data['dt'], datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC))
def test_form_with_other_timezone(self):
form = EventForm({'dt': '2011-09-01 17:20:30'})
with timezone.override(ICT):
self.assertTrue(form.is_valid())
self.assertEqual(form.cleaned_data['dt'], datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC))
def test_form_with_explicit_timezone(self):
form = EventForm({'dt': '2011-09-01 17:20:30+07:00'})
# Datetime inputs formats don't allow providing a time zone.
self.assertFalse(form.is_valid())
@skipIf(pytz is None, "this test requires pytz")
def test_form_with_non_existent_time(self):
with timezone.override(pytz.timezone('Europe/Paris')):
form = EventForm({'dt': '2011-03-27 02:30:00'})
self.assertFalse(form.is_valid())
self.assertEqual(form.errors['dt'],
["2011-03-27 02:30:00 couldn't be interpreted in time zone "
"Europe/Paris; it may be ambiguous or it may not exist."])
@skipIf(pytz is None, "this test requires pytz")
def test_form_with_ambiguous_time(self):
with timezone.override(pytz.timezone('Europe/Paris')):
form = EventForm({'dt': '2011-10-30 02:30:00'})
self.assertFalse(form.is_valid())
self.assertEqual(form.errors['dt'],
["2011-10-30 02:30:00 couldn't be interpreted in time zone "
"Europe/Paris; it may be ambiguous or it may not exist."])
@requires_tz_support
def test_split_form(self):
form = EventSplitForm({'dt_0': '2011-09-01', 'dt_1': '13:20:30'})
self.assertTrue(form.is_valid())
self.assertEqual(form.cleaned_data['dt'], datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC))
@requires_tz_support
def test_localized_form(self):
form = EventLocalizedForm(initial={'dt': datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT)})
with timezone.override(ICT):
self.assertIn("2011-09-01 17:20:30", str(form))
@requires_tz_support
def test_model_form(self):
EventModelForm({'dt': '2011-09-01 13:20:30'}).save()
e = Event.objects.get()
self.assertEqual(e.dt, datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC))
@requires_tz_support
def test_localized_model_form(self):
form = EventLocalizedModelForm(instance=Event(dt=datetime.datetime(2011, 9, 1, 13, 20, 30, tzinfo=EAT)))
with timezone.override(ICT):
self.assertIn("2011-09-01 17:20:30", str(form))
@override_settings(DATETIME_FORMAT='c', TIME_ZONE='Africa/Nairobi', USE_L10N=False, USE_TZ=True,
PASSWORD_HASHERS=('django.contrib.auth.hashers.SHA1PasswordHasher',),
ROOT_URLCONF='timezones.urls')
class AdminTests(TestCase):
fixtures = ['tz_users.xml']
def setUp(self):
self.client.login(username='super', password='secret')
@requires_tz_support
def test_changelist(self):
e = Event.objects.create(dt=datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC))
response = self.client.get(reverse('admin:timezones_event_changelist'))
self.assertContains(response, e.dt.astimezone(EAT).isoformat())
def test_changelist_in_other_timezone(self):
e = Event.objects.create(dt=datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC))
with timezone.override(ICT):
response = self.client.get(reverse('admin:timezones_event_changelist'))
self.assertContains(response, e.dt.astimezone(ICT).isoformat())
@requires_tz_support
def test_change_editable(self):
e = Event.objects.create(dt=datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC))
response = self.client.get(reverse('admin:timezones_event_change', args=(e.pk,)))
self.assertContains(response, e.dt.astimezone(EAT).date().isoformat())
self.assertContains(response, e.dt.astimezone(EAT).time().isoformat())
def test_change_editable_in_other_timezone(self):
e = Event.objects.create(dt=datetime.datetime(2011, 9, 1, 10, 20, 30, tzinfo=UTC))
with timezone.override(ICT):
response = self.client.get(reverse('admin:timezones_event_change', args=(e.pk,)))
self.assertContains(response, e.dt.astimezone(ICT).date().isoformat())
self.assertContains(response, e.dt.astimezone(ICT).time().isoformat())
@requires_tz_support
def test_change_readonly(self):
Timestamp.objects.create()
# re-fetch the object for backends that lose microseconds (MySQL)
t = Timestamp.objects.get()
response = self.client.get(reverse('admin:timezones_timestamp_change', args=(t.pk,)))
self.assertContains(response, t.created.astimezone(EAT).isoformat())
def test_change_readonly_in_other_timezone(self):
Timestamp.objects.create()
# re-fetch the object for backends that lose microseconds (MySQL)
t = Timestamp.objects.get()
with timezone.override(ICT):
response = self.client.get(reverse('admin:timezones_timestamp_change', args=(t.pk,)))
self.assertContains(response, t.created.astimezone(ICT).isoformat())
| bsd-3-clause |
skion/oauthlib-oidc | oauthlib/oauth2/rfc6749/errors.py | 13 | 12866 | # coding=utf-8
"""
oauthlib.oauth2.rfc6749.errors
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Error used both by OAuth 2 clients and providers to represent the spec
defined error responses for all four core grant types.
"""
from __future__ import unicode_literals
import json
from oauthlib.common import add_params_to_uri, urlencode
class OAuth2Error(Exception):
error = None
status_code = 400
description = ''
def __init__(self, description=None, uri=None, state=None,
status_code=None, request=None):
"""
description: A human-readable ASCII [USASCII] text providing
additional information, used to assist the client
developer in understanding the error that occurred.
Values for the "error_description" parameter MUST NOT
include characters outside the set
x20-21 / x23-5B / x5D-7E.
uri: A URI identifying a human-readable web page with information
about the error, used to provide the client developer with
additional information about the error. Values for the
"error_uri" parameter MUST conform to the URI- Reference
syntax, and thus MUST NOT include characters outside the set
x21 / x23-5B / x5D-7E.
state: A CSRF protection value received from the client.
request: Oauthlib Request object
"""
if description is not None:
self.description = description
message = '(%s) %s' % (self.error, self.description)
if request:
message += ' ' + repr(request)
super(OAuth2Error, self).__init__(message)
self.uri = uri
self.state = state
if status_code:
self.status_code = status_code
if request:
self.redirect_uri = request.redirect_uri
self.client_id = request.client_id
self.scopes = request.scopes
self.response_type = request.response_type
self.response_mode = request.response_mode
self.grant_type = request.grant_type
if not state:
self.state = request.state
else:
self.redirect_uri = None
self.client_id = None
self.scopes = None
self.response_type = None
self.response_mode = None
self.grant_type = None
def in_uri(self, uri):
fragment = self.response_mode == "fragment"
return add_params_to_uri(uri, self.twotuples, fragment)
@property
def twotuples(self):
error = [('error', self.error)]
if self.description:
error.append(('error_description', self.description))
if self.uri:
error.append(('error_uri', self.uri))
if self.state:
error.append(('state', self.state))
return error
@property
def urlencoded(self):
return urlencode(self.twotuples)
@property
def json(self):
return json.dumps(dict(self.twotuples))
class TokenExpiredError(OAuth2Error):
error = 'token_expired'
class InsecureTransportError(OAuth2Error):
error = 'insecure_transport'
description = 'OAuth 2 MUST utilize https.'
class MismatchingStateError(OAuth2Error):
error = 'mismatching_state'
description = 'CSRF Warning! State not equal in request and response.'
class MissingCodeError(OAuth2Error):
error = 'missing_code'
class MissingTokenError(OAuth2Error):
error = 'missing_token'
class MissingTokenTypeError(OAuth2Error):
error = 'missing_token_type'
class FatalClientError(OAuth2Error):
"""
Errors during authorization where user should not be redirected back.
If the request fails due to a missing, invalid, or mismatching
redirection URI, or if the client identifier is missing or invalid,
the authorization server SHOULD inform the resource owner of the
error and MUST NOT automatically redirect the user-agent to the
invalid redirection URI.
Instead the user should be informed of the error by the provider itself.
"""
pass
class InvalidRequestFatalError(FatalClientError):
"""
For fatal errors, the request is missing a required parameter, includes
an invalid parameter value, includes a parameter more than once, or is
otherwise malformed.
"""
error = 'invalid_request'
class InvalidRedirectURIError(InvalidRequestFatalError):
description = 'Invalid redirect URI.'
class MissingRedirectURIError(InvalidRequestFatalError):
description = 'Missing redirect URI.'
class MismatchingRedirectURIError(InvalidRequestFatalError):
description = 'Mismatching redirect URI.'
class InvalidClientIdError(InvalidRequestFatalError):
description = 'Invalid client_id parameter value.'
class MissingClientIdError(InvalidRequestFatalError):
description = 'Missing client_id parameter.'
class InvalidRequestError(OAuth2Error):
"""
The request is missing a required parameter, includes an invalid
parameter value, includes a parameter more than once, or is
otherwise malformed.
"""
error = 'invalid_request'
class MissingResponseTypeError(InvalidRequestError):
description = 'Missing response_type parameter.'
class AccessDeniedError(OAuth2Error):
"""
The resource owner or authorization server denied the request.
"""
error = 'access_denied'
status_code = 401
class UnsupportedResponseTypeError(OAuth2Error):
"""
The authorization server does not support obtaining an authorization
code using this method.
"""
error = 'unsupported_response_type'
class InvalidScopeError(OAuth2Error):
"""
The requested scope is invalid, unknown, or malformed.
"""
error = 'invalid_scope'
status_code = 401
class ServerError(OAuth2Error):
"""
The authorization server encountered an unexpected condition that
prevented it from fulfilling the request. (This error code is needed
because a 500 Internal Server Error HTTP status code cannot be returned
to the client via a HTTP redirect.)
"""
error = 'server_error'
class TemporarilyUnavailableError(OAuth2Error):
"""
The authorization server is currently unable to handle the request
due to a temporary overloading or maintenance of the server.
(This error code is needed because a 503 Service Unavailable HTTP
status code cannot be returned to the client via a HTTP redirect.)
"""
error = 'temporarily_unavailable'
class InvalidClientError(OAuth2Error):
"""
Client authentication failed (e.g. unknown client, no client
authentication included, or unsupported authentication method).
The authorization server MAY return an HTTP 401 (Unauthorized) status
code to indicate which HTTP authentication schemes are supported.
If the client attempted to authenticate via the "Authorization" request
header field, the authorization server MUST respond with an
HTTP 401 (Unauthorized) status code, and include the "WWW-Authenticate"
response header field matching the authentication scheme used by the
client.
"""
error = 'invalid_client'
status_code = 401
class InvalidGrantError(OAuth2Error):
"""
The provided authorization grant (e.g. authorization code, resource
owner credentials) or refresh token is invalid, expired, revoked, does
not match the redirection URI used in the authorization request, or was
issued to another client.
"""
error = 'invalid_grant'
status_code = 401
class UnauthorizedClientError(OAuth2Error):
"""
The authenticated client is not authorized to use this authorization
grant type.
"""
error = 'unauthorized_client'
status_code = 401
class UnsupportedGrantTypeError(OAuth2Error):
"""
The authorization grant type is not supported by the authorization
server.
"""
error = 'unsupported_grant_type'
class UnsupportedTokenTypeError(OAuth2Error):
"""
The authorization server does not support the revocation of the
presented token type. I.e. the client tried to revoke an access token
on a server not supporting this feature.
"""
error = 'unsupported_token_type'
class FatalOpenIDClientError(FatalClientError):
pass
class OpenIDClientError(OAuth2Error):
pass
class InteractionRequired(OpenIDClientError):
"""
The Authorization Server requires End-User interaction to proceed.
This error MAY be returned when the prompt parameter value in the
Authentication Request is none, but the Authentication Request cannot be
completed without displaying a user interface for End-User interaction.
"""
error = 'interaction_required'
status_code = 401
class LoginRequired(OpenIDClientError):
"""
The Authorization Server requires End-User authentication.
This error MAY be returned when the prompt parameter value in the
Authentication Request is none, but the Authentication Request cannot be
completed without displaying a user interface for End-User authentication.
"""
error = 'login_required'
status_code = 401
class AccountSelectionRequired(OpenIDClientError):
"""
The End-User is REQUIRED to select a session at the Authorization Server.
The End-User MAY be authenticated at the Authorization Server with
different associated accounts, but the End-User did not select a session.
This error MAY be returned when the prompt parameter value in the
Authentication Request is none, but the Authentication Request cannot be
completed without displaying a user interface to prompt for a session to
use.
"""
error = 'account_selection_required'
class ConsentRequired(OpenIDClientError):
"""
The Authorization Server requires End-User consent.
This error MAY be returned when the prompt parameter value in the
Authentication Request is none, but the Authentication Request cannot be
completed without displaying a user interface for End-User consent.
"""
error = 'consent_required'
status_code = 401
class InvalidRequestURI(OpenIDClientError):
"""
The request_uri in the Authorization Request returns an error or
contains invalid data.
"""
error = 'invalid_request_uri'
description = 'The request_uri in the Authorization Request returns an ' \
'error or contains invalid data.'
class InvalidRequestObject(OpenIDClientError):
"""
The request parameter contains an invalid Request Object.
"""
error = 'invalid_request_object'
description = 'The request parameter contains an invalid Request Object.'
class RequestNotSupported(OpenIDClientError):
"""
The OP does not support use of the request parameter.
"""
error = 'request_not_supported'
description = 'The request parameter is not supported.'
class RequestURINotSupported(OpenIDClientError):
"""
The OP does not support use of the request_uri parameter.
"""
error = 'request_uri_not_supported'
description = 'The request_uri parameter is not supported.'
class RegistrationNotSupported(OpenIDClientError):
"""
The OP does not support use of the registration parameter.
"""
error = 'registration_not_supported'
description = 'The registration parameter is not supported.'
class InvalidTokenError(OAuth2Error):
"""
The access token provided is expired, revoked, malformed, or
invalid for other reasons. The resource SHOULD respond with
the HTTP 401 (Unauthorized) status code. The client MAY
request a new access token and retry the protected resource
request.
"""
error = 'invalid_token'
status_code = 401
description = ("The access token provided is expired, revoked, malformed, "
"or invalid for other reasons.")
class InsufficientScopeError(OAuth2Error):
"""
The request requires higher privileges than provided by the
access token. The resource server SHOULD respond with the HTTP
403 (Forbidden) status code and MAY include the "scope"
attribute with the scope necessary to access the protected
resource.
"""
error = 'insufficient_scope'
status_code = 403
description = ("The request requires higher privileges than provided by "
"the access token.")
def raise_from_error(error, params=None):
import inspect
import sys
kwargs = {
'description': params.get('error_description'),
'uri': params.get('error_uri'),
'state': params.get('state')
}
for _, cls in inspect.getmembers(sys.modules[__name__], inspect.isclass):
if cls.error == error:
raise cls(**kwargs)
| bsd-3-clause |
lastweek/PCP | ECE695-Spring17/t3-scheduler/linux-4.10.6/tools/perf/scripts/python/Perf-Trace-Util/lib/Perf/Trace/EventClass.py | 4653 | 3596 | # EventClass.py
#
# This is a library defining some events types classes, which could
# be used by other scripts to analyzing the perf samples.
#
# Currently there are just a few classes defined for examples,
# PerfEvent is the base class for all perf event sample, PebsEvent
# is a HW base Intel x86 PEBS event, and user could add more SW/HW
# event classes based on requirements.
import struct
# Event types, user could add more here
EVTYPE_GENERIC = 0
EVTYPE_PEBS = 1 # Basic PEBS event
EVTYPE_PEBS_LL = 2 # PEBS event with load latency info
EVTYPE_IBS = 3
#
# Currently we don't have good way to tell the event type, but by
# the size of raw buffer, raw PEBS event with load latency data's
# size is 176 bytes, while the pure PEBS event's size is 144 bytes.
#
def create_event(name, comm, dso, symbol, raw_buf):
if (len(raw_buf) == 144):
event = PebsEvent(name, comm, dso, symbol, raw_buf)
elif (len(raw_buf) == 176):
event = PebsNHM(name, comm, dso, symbol, raw_buf)
else:
event = PerfEvent(name, comm, dso, symbol, raw_buf)
return event
class PerfEvent(object):
event_num = 0
def __init__(self, name, comm, dso, symbol, raw_buf, ev_type=EVTYPE_GENERIC):
self.name = name
self.comm = comm
self.dso = dso
self.symbol = symbol
self.raw_buf = raw_buf
self.ev_type = ev_type
PerfEvent.event_num += 1
def show(self):
print "PMU event: name=%12s, symbol=%24s, comm=%8s, dso=%12s" % (self.name, self.symbol, self.comm, self.dso)
#
# Basic Intel PEBS (Precise Event-based Sampling) event, whose raw buffer
# contains the context info when that event happened: the EFLAGS and
# linear IP info, as well as all the registers.
#
class PebsEvent(PerfEvent):
pebs_num = 0
def __init__(self, name, comm, dso, symbol, raw_buf, ev_type=EVTYPE_PEBS):
tmp_buf=raw_buf[0:80]
flags, ip, ax, bx, cx, dx, si, di, bp, sp = struct.unpack('QQQQQQQQQQ', tmp_buf)
self.flags = flags
self.ip = ip
self.ax = ax
self.bx = bx
self.cx = cx
self.dx = dx
self.si = si
self.di = di
self.bp = bp
self.sp = sp
PerfEvent.__init__(self, name, comm, dso, symbol, raw_buf, ev_type)
PebsEvent.pebs_num += 1
del tmp_buf
#
# Intel Nehalem and Westmere support PEBS plus Load Latency info which lie
# in the four 64 bit words write after the PEBS data:
# Status: records the IA32_PERF_GLOBAL_STATUS register value
# DLA: Data Linear Address (EIP)
# DSE: Data Source Encoding, where the latency happens, hit or miss
# in L1/L2/L3 or IO operations
# LAT: the actual latency in cycles
#
class PebsNHM(PebsEvent):
pebs_nhm_num = 0
def __init__(self, name, comm, dso, symbol, raw_buf, ev_type=EVTYPE_PEBS_LL):
tmp_buf=raw_buf[144:176]
status, dla, dse, lat = struct.unpack('QQQQ', tmp_buf)
self.status = status
self.dla = dla
self.dse = dse
self.lat = lat
PebsEvent.__init__(self, name, comm, dso, symbol, raw_buf, ev_type)
PebsNHM.pebs_nhm_num += 1
del tmp_buf
| gpl-3.0 |
dongjinleekr/spark-doc | examples/src/main/python/sql/basic.py | 14 | 6373 | #
# Licensed to the Apache Software Foundation (ASF) under one or more
# contributor license agreements. See the NOTICE file distributed with
# this work for additional information regarding copyright ownership.
# The ASF licenses this file to You 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.
#
from __future__ import print_function
# $example on:init_session$
from pyspark.sql import SparkSession
# $example off:init_session$
# $example on:schema_inferring$
from pyspark.sql import Row
# $example off:schema_inferring$
# $example on:programmatic_schema$
# Import data types
from pyspark.sql.types import *
# $example off:programmatic_schema$
"""
A simple example demonstrating basic Spark SQL features.
Run with:
./bin/spark-submit examples/src/main/python/sql/basic.py
"""
def basic_df_example(spark):
# $example on:create_df$
# spark is an existing SparkSession
df = spark.read.json("examples/src/main/resources/people.json")
# Displays the content of the DataFrame to stdout
df.show()
# +----+-------+
# | age| name|
# +----+-------+
# |null|Michael|
# | 30| Andy|
# | 19| Justin|
# +----+-------+
# $example off:create_df$
# $example on:untyped_ops$
# spark, df are from the previous example
# Print the schema in a tree format
df.printSchema()
# root
# |-- age: long (nullable = true)
# |-- name: string (nullable = true)
# Select only the "name" column
df.select("name").show()
# +-------+
# | name|
# +-------+
# |Michael|
# | Andy|
# | Justin|
# +-------+
# Select everybody, but increment the age by 1
df.select(df['name'], df['age'] + 1).show()
# +-------+---------+
# | name|(age + 1)|
# +-------+---------+
# |Michael| null|
# | Andy| 31|
# | Justin| 20|
# +-------+---------+
# Select people older than 21
df.filter(df['age'] > 21).show()
# +---+----+
# |age|name|
# +---+----+
# | 30|Andy|
# +---+----+
# Count people by age
df.groupBy("age").count().show()
# +----+-----+
# | age|count|
# +----+-----+
# | 19| 1|
# |null| 1|
# | 30| 1|
# +----+-----+
# $example off:untyped_ops$
# $example on:run_sql$
# Register the DataFrame as a SQL temporary view
df.createOrReplaceTempView("people")
sqlDF = spark.sql("SELECT * FROM people")
sqlDF.show()
# +----+-------+
# | age| name|
# +----+-------+
# |null|Michael|
# | 30| Andy|
# | 19| Justin|
# +----+-------+
# $example off:run_sql$
# $example on:global_temp_view$
# Register the DataFrame as a global temporary view
df.createGlobalTempView("people")
# Global temporary view is tied to a system preserved database `global_temp`
spark.sql("SELECT * FROM global_temp.people").show()
# +----+-------+
# | age| name|
# +----+-------+
# |null|Michael|
# | 30| Andy|
# | 19| Justin|
# +----+-------+
# Global temporary view is cross-session
spark.newSession().sql("SELECT * FROM global_temp.people").show()
# +----+-------+
# | age| name|
# +----+-------+
# |null|Michael|
# | 30| Andy|
# | 19| Justin|
# +----+-------+
# $example off:global_temp_view$
def schema_inference_example(spark):
# $example on:schema_inferring$
sc = spark.sparkContext
# Load a text file and convert each line to a Row.
lines = sc.textFile("examples/src/main/resources/people.txt")
parts = lines.map(lambda l: l.split(","))
people = parts.map(lambda p: Row(name=p[0], age=int(p[1])))
# Infer the schema, and register the DataFrame as a table.
schemaPeople = spark.createDataFrame(people)
schemaPeople.createOrReplaceTempView("people")
# SQL can be run over DataFrames that have been registered as a table.
teenagers = spark.sql("SELECT name FROM people WHERE age >= 13 AND age <= 19")
# The results of SQL queries are Dataframe objects.
# rdd returns the content as an :class:`pyspark.RDD` of :class:`Row`.
teenNames = teenagers.rdd.map(lambda p: "Name: " + p.name).collect()
for name in teenNames:
print(name)
# Name: Justin
# $example off:schema_inferring$
def programmatic_schema_example(spark):
# $example on:programmatic_schema$
sc = spark.sparkContext
# Load a text file and convert each line to a Row.
lines = sc.textFile("examples/src/main/resources/people.txt")
parts = lines.map(lambda l: l.split(","))
# Each line is converted to a tuple.
people = parts.map(lambda p: (p[0], p[1].strip()))
# The schema is encoded in a string.
schemaString = "name age"
fields = [StructField(field_name, StringType(), True) for field_name in schemaString.split()]
schema = StructType(fields)
# Apply the schema to the RDD.
schemaPeople = spark.createDataFrame(people, schema)
# Creates a temporary view using the DataFrame
schemaPeople.createOrReplaceTempView("people")
# Creates a temporary view using the DataFrame
schemaPeople.createOrReplaceTempView("people")
# SQL can be run over DataFrames that have been registered as a table.
results = spark.sql("SELECT name FROM people")
results.show()
# +-------+
# | name|
# +-------+
# |Michael|
# | Andy|
# | Justin|
# +-------+
# $example off:programmatic_schema$
if __name__ == "__main__":
# $example on:init_session$
spark = SparkSession \
.builder \
.appName("Python Spark SQL basic example") \
.config("spark.some.config.option", "some-value") \
.getOrCreate()
# $example off:init_session$
basic_df_example(spark)
schema_inference_example(spark)
programmatic_schema_example(spark)
spark.stop()
| apache-2.0 |
tph-thuering/vnetsource | job_services/models.py | 2 | 1975 | from django.db import models
from django.contrib.auth.models import User
from data_services.models import DimRun
from . import cluster_id
cluster_choices = tuple([(cluster, cluster) for cluster in cluster_id.ALL_KNOWN])
class RunProvider(models.Model):
"""
Associates a run to a provider. When runs are submitted to a cluster for execution, the provider is stored in this
table for future retrieval. This ensures that once a run is submitted with a particular provider, that same provider
is always used for that run.
"""
provider = models.CharField(max_length=256)
run = models.ForeignKey(DimRun)
class Job(models.Model):
"""
Represents a Job object. Jobs are associated to runs (data_services.models.DimRun) and are used to send runs to
the cluster to be processed.
"""
run = models.ForeignKey(DimRun)
cluster = models.CharField(choices=cluster_choices, max_length=cluster_id.MAX_LENGTH)
class Quota(models.Model):
"""
Sets the maximum number of jobs a user can run on a cluster.
"""
user = models.ForeignKey(User)
max_per_month = models.IntegerField() # maximum number of jobs per month
max_per_run = models.IntegerField() # maximum number of jobs per run
cluster = models.CharField(choices=cluster_choices, max_length=cluster_id.MAX_LENGTH)
class Meta:
unique_together = ('user', 'cluster')
class SubmittedJobs(models.Model):
"""
Associates a user and cluster to a number of submitted jobs. Used to calculate the number of jobs a user has
submitted to a given cluster.
"""
cluster = models.CharField(choices=cluster_choices, max_length=cluster_id.MAX_LENGTH)
date = models.DateTimeField()
number_of_jobs = models.IntegerField()
user = models.ForeignKey(User)
class Manifest(models.Model):
"""
Stores a manifest file associated with a given run.
"""
run = models.ForeignKey(DimRun)
manifest = models.TextField()
| mpl-2.0 |
tamasgal/km3pipe | km3pipe/io/online.py | 1 | 11134 | #!/usr/bin/env python
# Filename: online.py
# pylint: disable=
"""
Pump for the online file format
(the file format formerly known as formerly as JPP)
"""
import numpy as np
import km3io
from thepipe import Module, Blob
from km3pipe.dataclasses import Table
from km3pipe.logger import get_logger
log = get_logger(__name__) # pylint: disable=C0103
__author__ = "Tamas Gal"
__copyright__ = "Copyright 2016, Tamas Gal and the KM3NeT collaboration."
__credits__ = ["Thomas Heid", "Giuliano Maggi", "Moritz Lotze", "Johannes Schumann"]
__license__ = "MIT"
__maintainer__ = "Tamas Gal"
__email__ = "tgal@km3net.de"
__status__ = "Development"
class EventPump(Module):
"""A pump for DAQ (triggered) events in online files.
Parameters
----------
filename: str
Name of the file to open.
"""
def configure(self):
self.event_index = self.get("index") or 0
self.filename = self.require("filename")
self.event_reader = km3io.OnlineReader(self.filename.encode())
self.blobs = self.blob_generator()
self.n_events = len(self.event_reader.events)
self._current_blob = Blob()
def blob_generator(self):
for i in range(self.n_events):
try:
yield self.extract_event(i)
except IndexError:
return
def __getitem__(self, index):
if index >= self.n_events:
raise IndexError
return self.extract_event(index)
def _get_trigger_mask(self, snapshot_hits, triggered_hits):
trg_mask = np.zeros(len(snapshot_hits))
s = np.array(
[snapshot_hits.time, snapshot_hits.channel_id, snapshot_hits.dom_id]
).transpose()
t = np.array(
[triggered_hits.time, triggered_hits.channel_id, triggered_hits.dom_id]
).transpose()
cmp_mask = s == t[:, None]
trg_map = np.argwhere(np.all(cmp_mask, axis=2))[:, 1]
trg_mask[trg_map] = triggered_hits.trigger_mask
return trg_mask
def extract_event(self, event_number):
blob = self._current_blob
r = self.event_reader
hits = r.events.snapshot_hits[event_number]
trg_hits = r.events.triggered_hits[event_number]
raw_event_info = r.events.headers[event_number]
trigger_mask = self._get_trigger_mask(hits, trg_hits)
hit_series = Table(
{
"channel_id": hits.channel_id,
"dom_id": hits.dom_id,
"time": hits.time,
"tot": hits.tot,
"triggered": trigger_mask,
},
name="Hits",
h5loc="/hits",
split_h5=True,
)
event_info = Table(
{
"det_id": raw_event_info["detector_id"],
"frame_index": raw_event_info["frame_index"],
"livetime_sec": 0,
"mc_id": 0,
"mc_t": 0,
"n_events_gen": 0,
"n_files_gen": 0,
"overlays": raw_event_info["overlays"],
"trigger_counter": raw_event_info["trigger_counter"],
"trigger_mask": raw_event_info["trigger_mask"],
"utc_nanoseconds": raw_event_info["UTC_16nanosecondcycles"] * 16.0,
"utc_seconds": raw_event_info["UTC_seconds"],
"weight_w1": np.nan,
"weight_w2": np.nan,
"weight_w3": np.nan,
"run_id": raw_event_info["run"],
},
name="EventInfo",
h5loc="/event_info",
)
self.event_index += 1
blob["EventInfo"] = event_info
blob["Hits"] = hit_series
return blob
def process(self, blob):
self._current_blob = blob
return next(self.blobs)
def __iter__(self):
return self
def __next__(self):
self._current_blob = next(self.blobs)
return self._current_blob
class TimeslicePump(Module):
"""A pump to read and extract timeslices. Currently only hits are read.
Parameters
-------------------
filename: str
stream: str ('L0', 'L1', 'L2', 'SN') default: 'L1'
"""
def configure(self):
fname = self.require("filename")
self.stream = self.get("stream", default="L1")
self.blobs = self.timeslice_generator()
self.r = km3io.OnlineReader(fname)
self.timeslice_info = self.create_timeslice_info()
self.n_timeslices = len(self.timeslice_info)
self._current_blob = Blob()
self._hits_blob_key = "{}Hits".format(self.stream if self.stream else "TS")
def create_timeslice_info(self):
header = self.r.timeslices.stream(self.stream, 0).header
slice_ids = header["frame_index"].array()
timestamps = header["timeslice_start.UTC_seconds"].array()
number_of_slices = len(slice_ids)
nanoseconds = header["timeslice_start.UTC_16nanosecondcycles"].array() * 16
timeslice_info = Table.from_template(
{
"frame_index": slice_ids,
"slice_id": range(number_of_slices),
"timestamp": timestamps,
"nanoseconds": nanoseconds,
"n_frames": np.zeros(len(slice_ids)),
},
"TimesliceInfo",
)
return timeslice_info
def process(self, blob):
self._current_blob = blob
return next(self.blobs)
def timeslice_generator(self):
"""Uses slice ID as iterator"""
slice_id = 0
while slice_id < self.n_timeslices:
blob = self.get_blob(slice_id)
yield blob
slice_id += 1
def get_blob(self, index):
"""Index is slice ID"""
blob = self._current_blob
hits = self._extract_hits(index)
hits.group_id = index
blob["TimesliceInfo"] = self.timeslice_info[index : index + 1]
blob["TimesliceInfo"]["n_frames"] = self._extract_number_of_frames(index)
blob[self._hits_blob_key] = hits
return blob
def _extract_number_of_frames(self, index):
timeslice = self.r.timeslices.stream(self.stream, index)
return len(timeslice.frames)
def _extract_hits(self, index):
timeslice = self.r.timeslices.stream(self.stream, index)
raw_hits = {
"dom_id": [],
"channel_id": [],
"time": [],
"tot": [],
"group_id": [],
}
for dom_id, frame in timeslice.frames.items():
raw_hits["channel_id"].extend(frame.pmt)
raw_hits["time"].extend(frame.tdc)
raw_hits["tot"].extend(frame.tot)
raw_hits["dom_id"].extend(len(frame.pmt) * [dom_id])
raw_hits["group_id"].extend(len(frame.pmt) * [0])
hits = Table.from_template(raw_hits, "TimesliceHits")
return hits
def get_by_frame_index(self, frame_index):
blob = Blob()
ts_info = self.timeslice_info[self.timeslice_info.frame_index == frame_index][0]
slice_id = ts_info.slice_id
hits = self._extract_hits(slice_id)
blob[self._hits_blob_key] = hits
return blob
def __len__(self):
return self.n_timeslices
def __iter__(self):
return self
def __next__(self):
self._current_blob = next(self.blobs)
return self._current_blob
def __getitem__(self, index):
if isinstance(index, int):
return self.get_blob(index)
elif isinstance(index, slice):
return self._slice_generator(index)
else:
raise TypeError("index must be int or slice")
def _slice_generator(self, index):
"""A simple slice generator for iterations"""
start, stop, step = index.indices(len(self))
for i in range(start, stop, step):
yield self.get_blob(i)
class SummaryslicePump(Module):
"""Preliminary Summaryslice reader"""
def configure(self):
filename = self.require("filename")
self.blobs = self.summaryslice_generator()
self.r = km3io.OnlineReader(filename)
self.n_summaryslices = len(self.r.summaryslices.slices)
self.summaryslice_info = self._create_summaryslice_info()
def process(self, blob):
return next(self.blobs)
def _create_summaryslice_info(self):
header = self.r.summaryslices.headers
frame_ids = np.array(header["frame_index"])
timestamps = np.array(header["UTC_seconds"])
nanoseconds = np.array(header["UTC_16nanosecondcycles"])
summaryslice_info = Table.from_template(
{
"frame_index": frame_ids,
"slice_id": range(self.n_summaryslices),
"timestamp": timestamps,
"nanoseconds": nanoseconds,
"n_frames": [len(v) for v in self.r.summaryslices.slices.dom_id],
},
"SummarysliceInfo",
)
return summaryslice_info
def get_blob(self, i):
blob = Blob()
blob["SummarysliceInfo"] = self.summaryslice_info[i : i + 1]
raw_summaryslice = self.r.summaryslices.slices[i]
summary_slice = {}
for dom_id in raw_summaryslice.dom_id:
frame = raw_summaryslice[raw_summaryslice.dom_id == dom_id]
raw_rates = [getattr(frame, "ch%d" % i)[0] for i in range(31)]
rates = km3io.online.get_rate(raw_rates).astype(np.float64)
hrvs = km3io.online.get_channel_flags(frame.hrv)
fifos = km3io.online.get_channel_flags(frame.fifo)
udp_packets = km3io.online.get_number_udp_packets(frame.dq_status)
max_sequence_number = km3io.online.get_udp_max_sequence_number(
frame.dq_status
)
has_udp_trailer = km3io.online.has_udp_trailer(frame.fifo)
summary_slice[dom_id] = {
"rates": rates,
"hrvs": hrvs[0],
"fifos": fifos[0],
"n_udp_packets": udp_packets,
"max_sequence_number": max_sequence_number,
"has_udp_trailer": has_udp_trailer,
"high_rate_veto": np.any(hrvs),
"fifo_status": np.any(fifos),
}
blob["Summaryslice"] = summary_slice
return blob
def _slice_generator(self, index):
"""A simple slice generator for iterations"""
start, stop, step = index.indices(len(self))
for i in range(start, stop, step):
yield self.get_blob(i)
def summaryslice_generator(self):
for i in range(self.n_summaryslices):
yield self.get_blob(i)
def __iter__(self):
return self
def __next__(self):
return next(self.blobs)
def __len__(self):
return self.n_summaryslices
def __getitem__(self, index):
if isinstance(index, int):
return self.get_blob(index)
elif isinstance(index, slice):
return self._slice_generator(index)
else:
raise TypeError("index must be int or slice")
| mit |
dims/nova | nova/db/sqlalchemy/migrate_repo/versions/302_pgsql_add_instance_system_metadata_index.py | 43 | 1322 | # Copyright 2015 Huawei.
# All Rights Reserved.
#
# 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.
from oslo_db.sqlalchemy import utils
INDEX_COLUMNS = ['instance_uuid']
# using the index name same with mysql
INDEX_NAME = 'instance_uuid'
SYS_META_TABLE_NAME = 'instance_system_metadata'
def upgrade(migrate_engine):
"""Add instance_system_metadata indexes missing on PostgreSQL and other DB.
"""
# This index was already added by migration 216 for MySQL
if migrate_engine.name != 'mysql':
# Adds index for PostgreSQL and other DB
if not utils.index_exists(migrate_engine, SYS_META_TABLE_NAME,
INDEX_NAME):
utils.add_index(migrate_engine, SYS_META_TABLE_NAME, INDEX_NAME,
INDEX_COLUMNS)
| apache-2.0 |
hottwaj/django | django/forms/boundfield.py | 135 | 8680 | from __future__ import unicode_literals
import datetime
from django.forms.utils import flatatt, pretty_name
from django.forms.widgets import Textarea, TextInput
from django.utils import six
from django.utils.encoding import (
force_text, python_2_unicode_compatible, smart_text,
)
from django.utils.html import conditional_escape, format_html, html_safe
from django.utils.safestring import mark_safe
from django.utils.translation import ugettext_lazy as _
__all__ = ('BoundField',)
UNSET = object()
@html_safe
@python_2_unicode_compatible
class BoundField(object):
"A Field plus data"
def __init__(self, form, field, name):
self.form = form
self.field = field
self.name = name
self.html_name = form.add_prefix(name)
self.html_initial_name = form.add_initial_prefix(name)
self.html_initial_id = form.add_initial_prefix(self.auto_id)
if self.field.label is None:
self.label = pretty_name(name)
else:
self.label = self.field.label
self.help_text = field.help_text or ''
self._initial_value = UNSET
def __str__(self):
"""Renders this field as an HTML widget."""
if self.field.show_hidden_initial:
return self.as_widget() + self.as_hidden(only_initial=True)
return self.as_widget()
def __iter__(self):
"""
Yields rendered strings that comprise all widgets in this BoundField.
This really is only useful for RadioSelect widgets, so that you can
iterate over individual radio buttons in a template.
"""
id_ = self.field.widget.attrs.get('id') or self.auto_id
attrs = {'id': id_} if id_ else {}
for subwidget in self.field.widget.subwidgets(self.html_name, self.value(), attrs):
yield subwidget
def __len__(self):
return len(list(self.__iter__()))
def __getitem__(self, idx):
# Prevent unnecessary reevaluation when accessing BoundField's attrs
# from templates.
if not isinstance(idx, six.integer_types):
raise TypeError
return list(self.__iter__())[idx]
@property
def errors(self):
"""
Returns an ErrorList for this field. Returns an empty ErrorList
if there are none.
"""
return self.form.errors.get(self.name, self.form.error_class())
def as_widget(self, widget=None, attrs=None, only_initial=False):
"""
Renders the field by rendering the passed widget, adding any HTML
attributes passed as attrs. If no widget is specified, then the
field's default widget will be used.
"""
if not widget:
widget = self.field.widget
if self.field.localize:
widget.is_localized = True
attrs = attrs or {}
if self.field.disabled:
attrs['disabled'] = True
auto_id = self.auto_id
if auto_id and 'id' not in attrs and 'id' not in widget.attrs:
if not only_initial:
attrs['id'] = auto_id
else:
attrs['id'] = self.html_initial_id
if not only_initial:
name = self.html_name
else:
name = self.html_initial_name
return force_text(widget.render(name, self.value(), attrs=attrs))
def as_text(self, attrs=None, **kwargs):
"""
Returns a string of HTML for representing this as an <input type="text">.
"""
return self.as_widget(TextInput(), attrs, **kwargs)
def as_textarea(self, attrs=None, **kwargs):
"Returns a string of HTML for representing this as a <textarea>."
return self.as_widget(Textarea(), attrs, **kwargs)
def as_hidden(self, attrs=None, **kwargs):
"""
Returns a string of HTML for representing this as an <input type="hidden">.
"""
return self.as_widget(self.field.hidden_widget(), attrs, **kwargs)
@property
def data(self):
"""
Returns the data for this BoundField, or None if it wasn't given.
"""
return self.field.widget.value_from_datadict(self.form.data, self.form.files, self.html_name)
def value(self):
"""
Returns the value for this BoundField, using the initial value if
the form is not bound or the data otherwise.
"""
if not self.form.is_bound:
data = self.form.initial.get(self.name, self.field.initial)
if callable(data):
if self._initial_value is not UNSET:
data = self._initial_value
else:
data = data()
# If this is an auto-generated default date, nix the
# microseconds for standardized handling. See #22502.
if (isinstance(data, (datetime.datetime, datetime.time)) and
not self.field.widget.supports_microseconds):
data = data.replace(microsecond=0)
self._initial_value = data
else:
data = self.field.bound_data(
self.data, self.form.initial.get(self.name, self.field.initial)
)
return self.field.prepare_value(data)
def label_tag(self, contents=None, attrs=None, label_suffix=None):
"""
Wraps the given contents in a <label>, if the field has an ID attribute.
contents should be 'mark_safe'd to avoid HTML escaping. If contents
aren't given, uses the field's HTML-escaped label.
If attrs are given, they're used as HTML attributes on the <label> tag.
label_suffix allows overriding the form's label_suffix.
"""
contents = contents or self.label
if label_suffix is None:
label_suffix = (self.field.label_suffix if self.field.label_suffix is not None
else self.form.label_suffix)
# Only add the suffix if the label does not end in punctuation.
# Translators: If found as last label character, these punctuation
# characters will prevent the default label_suffix to be appended to the label
if label_suffix and contents and contents[-1] not in _(':?.!'):
contents = format_html('{}{}', contents, label_suffix)
widget = self.field.widget
id_ = widget.attrs.get('id') or self.auto_id
if id_:
id_for_label = widget.id_for_label(id_)
if id_for_label:
attrs = dict(attrs or {}, **{'for': id_for_label})
if self.field.required and hasattr(self.form, 'required_css_class'):
attrs = attrs or {}
if 'class' in attrs:
attrs['class'] += ' ' + self.form.required_css_class
else:
attrs['class'] = self.form.required_css_class
attrs = flatatt(attrs) if attrs else ''
contents = format_html('<label{}>{}</label>', attrs, contents)
else:
contents = conditional_escape(contents)
return mark_safe(contents)
def css_classes(self, extra_classes=None):
"""
Returns a string of space-separated CSS classes for this field.
"""
if hasattr(extra_classes, 'split'):
extra_classes = extra_classes.split()
extra_classes = set(extra_classes or [])
if self.errors and hasattr(self.form, 'error_css_class'):
extra_classes.add(self.form.error_css_class)
if self.field.required and hasattr(self.form, 'required_css_class'):
extra_classes.add(self.form.required_css_class)
return ' '.join(extra_classes)
@property
def is_hidden(self):
"Returns True if this BoundField's widget is hidden."
return self.field.widget.is_hidden
@property
def auto_id(self):
"""
Calculates and returns the ID attribute for this BoundField, if the
associated Form has specified auto_id. Returns an empty string otherwise.
"""
auto_id = self.form.auto_id
if auto_id and '%s' in smart_text(auto_id):
return smart_text(auto_id) % self.html_name
elif auto_id:
return self.html_name
return ''
@property
def id_for_label(self):
"""
Wrapper around the field widget's `id_for_label` method.
Useful, for example, for focusing on this field regardless of whether
it has a single widget or a MultiWidget.
"""
widget = self.field.widget
id_ = widget.attrs.get('id') or self.auto_id
return widget.id_for_label(id_)
| bsd-3-clause |
jalexvig/tensorflow | tensorflow/contrib/boosted_trees/estimator_batch/model.py | 1 | 13528 | # Copyright 2017 The TensorFlow Authors. All Rights Reserved.
#
# 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.
# ==============================================================================
"""GTFlow Model definitions."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import copy
from tensorflow.contrib import learn
from tensorflow.contrib.boosted_trees.estimator_batch import estimator_utils
from tensorflow.contrib.boosted_trees.estimator_batch import trainer_hooks
from tensorflow.contrib.boosted_trees.python.ops import model_ops
from tensorflow.contrib.boosted_trees.python.training.functions import gbdt_batch
from tensorflow.python.framework import ops
from tensorflow.python.ops import state_ops
from tensorflow.python.training import training_util
class ModelBuilderOutputType(object):
MODEL_FN_OPS = 0
ESTIMATOR_SPEC = 1
def model_builder(features,
labels,
mode,
params,
config,
output_type=ModelBuilderOutputType.MODEL_FN_OPS):
"""Multi-machine batch gradient descent tree model.
Args:
features: `Tensor` or `dict` of `Tensor` objects.
labels: Labels used to train on.
mode: Mode we are in. (TRAIN/EVAL/INFER)
params: A dict of hyperparameters.
The following hyperparameters are expected:
* head: A `Head` instance.
* learner_config: A config for the learner.
* feature_columns: An iterable containing all the feature columns used by
the model.
* examples_per_layer: Number of examples to accumulate before growing a
layer. It can also be a function that computes the number of examples
based on the depth of the layer that's being built.
* weight_column_name: The name of weight column.
* center_bias: Whether a separate tree should be created for first fitting
the bias.
config: `RunConfig` of the estimator.
Returns:
A `ModelFnOps` object.
Raises:
ValueError: if inputs are not valid.
"""
head = params["head"]
learner_config = params["learner_config"]
examples_per_layer = params["examples_per_layer"]
feature_columns = params["feature_columns"]
weight_column_name = params["weight_column_name"]
num_trees = params["num_trees"]
use_core_libs = params["use_core_libs"]
logits_modifier_function = params["logits_modifier_function"]
output_leaf_index = params["output_leaf_index"]
if features is None:
raise ValueError("At least one feature must be specified.")
if config is None:
raise ValueError("Missing estimator RunConfig.")
center_bias = params["center_bias"]
if isinstance(features, ops.Tensor):
features = {features.name: features}
# Make a shallow copy of features to ensure downstream usage
# is unaffected by modifications in the model function.
training_features = copy.copy(features)
training_features.pop(weight_column_name, None)
global_step = training_util.get_global_step()
with ops.device(global_step.device):
ensemble_handle = model_ops.tree_ensemble_variable(
stamp_token=0,
tree_ensemble_config="", # Initialize an empty ensemble.
name="ensemble_model")
# Create GBDT model.
gbdt_model = gbdt_batch.GradientBoostedDecisionTreeModel(
is_chief=config.is_chief,
num_ps_replicas=config.num_ps_replicas,
ensemble_handle=ensemble_handle,
center_bias=center_bias,
examples_per_layer=examples_per_layer,
learner_config=learner_config,
feature_columns=feature_columns,
logits_dimension=head.logits_dimension,
features=training_features,
use_core_columns=use_core_libs,
output_leaf_index=output_leaf_index)
with ops.name_scope("gbdt", "gbdt_optimizer"):
predictions_dict = gbdt_model.predict(mode)
logits = predictions_dict["predictions"]
if logits_modifier_function:
logits = logits_modifier_function(logits, features, mode)
def _train_op_fn(loss):
"""Returns the op to optimize the loss."""
update_op = gbdt_model.train(loss, predictions_dict, labels)
with ops.control_dependencies(
[update_op]), (ops.colocate_with(global_step)):
update_op = state_ops.assign_add(global_step, 1).op
return update_op
create_estimator_spec_op = getattr(head, "create_estimator_spec", None)
if num_trees:
if center_bias:
num_trees += 1
finalized_trees, attempted_trees = gbdt_model.get_number_of_trees_tensor()
training_hooks = [
trainer_hooks.StopAfterNTrees(num_trees, attempted_trees,
finalized_trees)
]
if output_type == ModelBuilderOutputType.MODEL_FN_OPS:
if use_core_libs and callable(create_estimator_spec_op):
model_fn_ops = head.create_estimator_spec(
features=features,
mode=mode,
labels=labels,
train_op_fn=_train_op_fn,
logits=logits)
model_fn_ops = estimator_utils.estimator_spec_to_model_fn_ops(
model_fn_ops)
else:
model_fn_ops = head.create_model_fn_ops(
features=features,
mode=mode,
labels=labels,
train_op_fn=_train_op_fn,
logits=logits)
if output_leaf_index and gbdt_batch.LEAF_INDEX in predictions_dict:
model_fn_ops.predictions[gbdt_batch.LEAF_INDEX] = predictions_dict[
gbdt_batch.LEAF_INDEX]
model_fn_ops.training_hooks.extend(training_hooks)
return model_fn_ops
elif output_type == ModelBuilderOutputType.ESTIMATOR_SPEC:
assert callable(create_estimator_spec_op)
estimator_spec = head.create_estimator_spec(
features=features,
mode=mode,
labels=labels,
train_op_fn=_train_op_fn,
logits=logits)
estimator_spec = estimator_spec._replace(
training_hooks=training_hooks + list(estimator_spec.training_hooks))
return estimator_spec
return model_fn_ops
def ranking_model_builder(features, labels, mode, params, config):
"""Multi-machine batch gradient descent tree model for ranking.
Args:
features: `Tensor` or `dict` of `Tensor` objects.
labels: Labels used to train on.
mode: Mode we are in. (TRAIN/EVAL/INFER)
params: A dict of hyperparameters.
The following hyperparameters are expected:
* head: A `Head` instance.
* learner_config: A config for the learner.
* feature_columns: An iterable containing all the feature columns used by
the model.
* examples_per_layer: Number of examples to accumulate before growing a
layer. It can also be a function that computes the number of examples
based on the depth of the layer that's being built.
* weight_column_name: The name of weight column.
* center_bias: Whether a separate tree should be created for first fitting
the bias.
* ranking_model_pair_keys (Optional): Keys to distinguish between features
for left and right part of the training pairs for ranking. For example,
for an Example with features "a.f1" and "b.f1", the keys would be
("a", "b").
config: `RunConfig` of the estimator.
Returns:
A `ModelFnOps` object.
Raises:
ValueError: if inputs are not valid.
"""
head = params["head"]
learner_config = params["learner_config"]
examples_per_layer = params["examples_per_layer"]
feature_columns = params["feature_columns"]
weight_column_name = params["weight_column_name"]
num_trees = params["num_trees"]
use_core_libs = params["use_core_libs"]
logits_modifier_function = params["logits_modifier_function"]
output_leaf_index = params["output_leaf_index"]
ranking_model_pair_keys = params["ranking_model_pair_keys"]
if features is None:
raise ValueError("At least one feature must be specified.")
if config is None:
raise ValueError("Missing estimator RunConfig.")
center_bias = params["center_bias"]
if isinstance(features, ops.Tensor):
features = {features.name: features}
# Make a shallow copy of features to ensure downstream usage
# is unaffected by modifications in the model function.
training_features = copy.copy(features)
training_features.pop(weight_column_name, None)
global_step = training_util.get_global_step()
with ops.device(global_step.device):
ensemble_handle = model_ops.tree_ensemble_variable(
stamp_token=0,
tree_ensemble_config="", # Initialize an empty ensemble.
name="ensemble_model")
# Extract the features.
if mode == learn.ModeKeys.TRAIN or mode == learn.ModeKeys.EVAL:
# For ranking pairwise training, we extract two sets of features.
if len(ranking_model_pair_keys) != 2:
raise ValueError("You must provide keys for ranking.")
left_pair_key = ranking_model_pair_keys[0]
right_pair_key = ranking_model_pair_keys[1]
if left_pair_key is None or right_pair_key is None:
raise ValueError("Both pair keys should be provided for ranking.")
features_1 = {}
features_2 = {}
for name in training_features:
feature = training_features[name]
new_name = name[2:]
if name.startswith(left_pair_key + "."):
features_1[new_name] = feature
else:
assert name.startswith(right_pair_key + ".")
features_2[new_name] = feature
main_features = features_1
supplementary_features = features_2
else:
# For non-ranking or inference ranking, we have only 1 set of features.
main_features = training_features
# Create GBDT model.
gbdt_model_main = gbdt_batch.GradientBoostedDecisionTreeModel(
is_chief=config.is_chief,
num_ps_replicas=config.num_ps_replicas,
ensemble_handle=ensemble_handle,
center_bias=center_bias,
examples_per_layer=examples_per_layer,
learner_config=learner_config,
feature_columns=feature_columns,
logits_dimension=head.logits_dimension,
features=main_features,
use_core_columns=use_core_libs,
output_leaf_index=output_leaf_index)
with ops.name_scope("gbdt", "gbdt_optimizer"):
# Logits for inference.
if mode == learn.ModeKeys.INFER:
predictions_dict = gbdt_model_main.predict(mode)
logits = predictions_dict[gbdt_batch.PREDICTIONS]
if logits_modifier_function:
logits = logits_modifier_function(logits, features, mode)
else:
gbdt_model_supplementary = gbdt_batch.GradientBoostedDecisionTreeModel(
is_chief=config.is_chief,
num_ps_replicas=config.num_ps_replicas,
ensemble_handle=ensemble_handle,
center_bias=center_bias,
examples_per_layer=examples_per_layer,
learner_config=learner_config,
feature_columns=feature_columns,
logits_dimension=head.logits_dimension,
features=supplementary_features,
use_core_columns=use_core_libs,
output_leaf_index=output_leaf_index)
# Logits for train and eval.
if not supplementary_features:
raise ValueError("Features for ranking must be specified.")
predictions_dict_1 = gbdt_model_main.predict(mode)
predictions_1 = predictions_dict_1[gbdt_batch.PREDICTIONS]
predictions_dict_2 = gbdt_model_supplementary.predict(mode)
predictions_2 = predictions_dict_2[gbdt_batch.PREDICTIONS]
logits = predictions_1 - predictions_2
if logits_modifier_function:
logits = logits_modifier_function(logits, features, mode)
predictions_dict = predictions_dict_1
predictions_dict[gbdt_batch.PREDICTIONS] = logits
def _train_op_fn(loss):
"""Returns the op to optimize the loss."""
update_op = gbdt_model_main.train(loss, predictions_dict, labels)
with ops.control_dependencies(
[update_op]), (ops.colocate_with(global_step)):
update_op = state_ops.assign_add(global_step, 1).op
return update_op
create_estimator_spec_op = getattr(head, "create_estimator_spec", None)
if use_core_libs and callable(create_estimator_spec_op):
model_fn_ops = head.create_estimator_spec(
features=features,
mode=mode,
labels=labels,
train_op_fn=_train_op_fn,
logits=logits)
model_fn_ops = estimator_utils.estimator_spec_to_model_fn_ops(model_fn_ops)
else:
model_fn_ops = head.create_model_fn_ops(
features=features,
mode=mode,
labels=labels,
train_op_fn=_train_op_fn,
logits=logits)
if output_leaf_index and gbdt_batch.LEAF_INDEX in predictions_dict:
model_fn_ops.predictions[gbdt_batch.LEAF_INDEX] = predictions_dict[
gbdt_batch.LEAF_INDEX]
if num_trees:
if center_bias:
num_trees += 1
finalized_trees, attempted_trees = (
gbdt_model_main.get_number_of_trees_tensor())
model_fn_ops.training_hooks.append(
trainer_hooks.StopAfterNTrees(num_trees, attempted_trees,
finalized_trees))
return model_fn_ops
| apache-2.0 |
bodi000/odoo | addons/l10n_multilang/__init__.py | 438 | 1082 | # -*- coding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Management Solution
# Copyright (C) 2004-2010 Tiny SPRL (<http://tiny.be>).
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero 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 Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
##############################################################################
import account
import l10n_multilang
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
| agpl-3.0 |
louiskun/flaskGIT | venv/lib/python2.7/site-packages/pip/_vendor/requests/packages/chardet/sjisprober.py | 1777 | 3764 | ######################## BEGIN LICENSE BLOCK ########################
# The Original Code is mozilla.org code.
#
# The Initial Developer of the Original Code is
# Netscape Communications Corporation.
# Portions created by the Initial Developer are Copyright (C) 1998
# the Initial Developer. All Rights Reserved.
#
# Contributor(s):
# Mark Pilgrim - port to Python
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 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
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
# 02110-1301 USA
######################### END LICENSE BLOCK #########################
import sys
from .mbcharsetprober import MultiByteCharSetProber
from .codingstatemachine import CodingStateMachine
from .chardistribution import SJISDistributionAnalysis
from .jpcntx import SJISContextAnalysis
from .mbcssm import SJISSMModel
from . import constants
class SJISProber(MultiByteCharSetProber):
def __init__(self):
MultiByteCharSetProber.__init__(self)
self._mCodingSM = CodingStateMachine(SJISSMModel)
self._mDistributionAnalyzer = SJISDistributionAnalysis()
self._mContextAnalyzer = SJISContextAnalysis()
self.reset()
def reset(self):
MultiByteCharSetProber.reset(self)
self._mContextAnalyzer.reset()
def get_charset_name(self):
return self._mContextAnalyzer.get_charset_name()
def feed(self, aBuf):
aLen = len(aBuf)
for i in range(0, aLen):
codingState = self._mCodingSM.next_state(aBuf[i])
if codingState == constants.eError:
if constants._debug:
sys.stderr.write(self.get_charset_name()
+ ' prober hit error at byte ' + str(i)
+ '\n')
self._mState = constants.eNotMe
break
elif codingState == constants.eItsMe:
self._mState = constants.eFoundIt
break
elif codingState == constants.eStart:
charLen = self._mCodingSM.get_current_charlen()
if i == 0:
self._mLastChar[1] = aBuf[0]
self._mContextAnalyzer.feed(self._mLastChar[2 - charLen:],
charLen)
self._mDistributionAnalyzer.feed(self._mLastChar, charLen)
else:
self._mContextAnalyzer.feed(aBuf[i + 1 - charLen:i + 3
- charLen], charLen)
self._mDistributionAnalyzer.feed(aBuf[i - 1:i + 1],
charLen)
self._mLastChar[0] = aBuf[aLen - 1]
if self.get_state() == constants.eDetecting:
if (self._mContextAnalyzer.got_enough_data() and
(self.get_confidence() > constants.SHORTCUT_THRESHOLD)):
self._mState = constants.eFoundIt
return self.get_state()
def get_confidence(self):
contxtCf = self._mContextAnalyzer.get_confidence()
distribCf = self._mDistributionAnalyzer.get_confidence()
return max(contxtCf, distribCf)
| mit |
realsystem/CloudFerry | cfglib.py | 2 | 21734 | from oslo.config import cfg
import addons
src = cfg.OptGroup(name='src',
title='Credentials and general config for source cloud')
src_opts = [
cfg.StrOpt('type', default='os',
help='os - OpenStack Cloud'),
cfg.StrOpt('auth_url', default='-',
help='Keystone service endpoint for authorization'),
cfg.StrOpt('host', default='-',
help='ip-address controller for cloud'),
cfg.StrOpt('ssh_host', default='',
help='ip-address of cloud node for ssh connect'),
cfg.StrOpt('ext_cidr', default='',
help='external network CIDR'),
cfg.StrOpt('user', default='-',
help='user for access to API'),
cfg.StrOpt('password', default='-',
help='password for access to API'),
cfg.StrOpt('tenant', default='-',
help='tenant for access to API'),
cfg.StrOpt('temp', default='-',
help='temporary directory on controller'),
cfg.StrOpt('service_tenant', default='services',
help='Tenant name for services'),
cfg.StrOpt('ssh_user', default='root',
help='user to connect via ssh'),
cfg.StrOpt('ssh_sudo_password', default='',
help='sudo password to connect via ssh, if any')
]
dst = cfg.OptGroup(name='dst',
title='Credentials and general '
'config for destination cloud')
dst_opts = [
cfg.StrOpt('type', default='os',
help='os - OpenStack Cloud'),
cfg.StrOpt('auth_url', default='-',
help='Keystone service endpoint for authorization'),
cfg.StrOpt('host', default='-',
help='ip-address controller for cloud'),
cfg.StrOpt('ssh_host', default='',
help='ip-address of cloud node for ssh connect'),
cfg.StrOpt('ext_cidr', default='',
help='external network CIDR'),
cfg.StrOpt('user', default='-',
help='user for access to API'),
cfg.StrOpt('password', default='-',
help='password for access to API'),
cfg.StrOpt('tenant', default='-',
help='tenant for access to API'),
cfg.StrOpt('temp', default='-',
help='temporary directory on controller'),
cfg.StrOpt('service_tenant', default='services',
help='Tenant name for services'),
cfg.StrOpt('ssh_user', default='root',
help='user to connect via ssh'),
cfg.StrOpt('ssh_sudo_password', default='',
help='sudo password to connect via ssh, if any')
]
migrate = cfg.OptGroup(name='migrate',
title='General config for migration process')
migrate_opts = [
cfg.BoolOpt('keep_user_passwords', default=True,
help='True - keep user passwords, '
'False - not keep user passwords'),
cfg.StrOpt('key_filename', default='id_rsa',
help='name pub key'),
cfg.BoolOpt('keep_ip', default=False,
help='yes - keep ip, no - not keep ip'),
cfg.BoolOpt('migrate_extnets', default=False,
help='yes - migrate external networks, no - do not migrate external networks'),
cfg.StrOpt('ext_net_map', default='configs/ext_net_map.yaml',
help='path to the map of external networks, which contains '
'references between old and new ids'),
cfg.BoolOpt('keep_floatingip', default=False,
help='yes - keep floatingip, no - not keep floatingip'),
cfg.StrOpt('cinder_migration_strategy',
default='cloudferrylib.os.storage.cinder_storage.CinderStorage',
help='path to class that will perform cinder migration actions'),
cfg.BoolOpt('keep_lbaas', default=False,
help='yes - keep lbaas settings, no - not keep lbaas settings'),
cfg.BoolOpt('keep_volume_snapshots', default=False,
help='yes - keep volume snapshots, no - not keep volume snapshots'),
cfg.BoolOpt('keep_volume_storage', default=False,
help='True - keep volume_storage, False - not keep volume_storage'),
cfg.StrOpt('speed_limit', default='10MB',
help='speed limit for glance to glance'),
cfg.StrOpt('instances', default='key_name-qwerty',
help='filter instance by parameters'),
cfg.StrOpt('file_compression', default='dd',
help='gzip - use GZIP when file transferring via ssh, '
' - no compression, directly via dd'),
cfg.IntOpt('level_compression', default='7',
help='level compression for gzip'),
cfg.StrOpt('ssh_transfer_port', default='9990',
help='interval ports for ssh tunnel'),
cfg.StrOpt('port', default='9990',
help='interval ports for ssh tunnel'),
cfg.BoolOpt('overwrite_user_passwords', default=False,
help='Overwrite password for exists users on destination'),
cfg.BoolOpt('migrate_quotas', default=False,
help='Migrate tenant quotas'),
cfg.StrOpt('disk_format', default='qcow2',
help='format when covert volume to image'),
cfg.StrOpt('container_format', default='bare',
help='container format when covert volume to image'),
cfg.BoolOpt('direct_compute_transfer', default=False,
help='Direct data transmission between compute nodes via external network'),
cfg.StrOpt('filter_path', default='configs/filter.yaml',
help='path to the filter yaml file with options for search resources'),
cfg.IntOpt('retry', default='7',
help='Number retry if except Performing error'),
cfg.IntOpt('time_wait', default=5,
help='Time wait if except Performing error'),
cfg.IntOpt('ssh_chunk_size', default=100,
help='Size of one chunk to transfer via SSH'),
cfg.StrOpt('group_file_path',
help='Path to file with the groups of VMs'),
cfg.BoolOpt('all_networks', default=False,
help="Migrate all network resources from all tenants"),
cfg.BoolOpt('all_volumes', default=False,
help="Migrate all volume resources from all tenants"),
cfg.BoolOpt('all_vms', default=False,
help="Migrate all VM's from all tenants. User, specified in "
"the 'dst' section of config also should have admin role "
"in all tenants."),
cfg.BoolOpt('all_images', default=False,
help='Migrate images of all tenants'),
cfg.BoolOpt('skip_down_hosts', default=True,
help="If set to True, removes unreachable compute hosts from "
"nova hypervisor list. Otherwise migration process fails "
"with unrecoverable error if host is down."),
cfg.StrOpt('scenario', default='scenario/migrate.yaml',
help='Path to a scenario file, which holds the whole migration '
'procedure. Must be YAML format'),
cfg.StrOpt('tasks_mapping', default='scenario/tasks.yaml',
help='Path to a file which holds CloudFerry python code tasks '
'mapped to migration scenario items. Items defined in '
'this file must be used in the migration scenario.'),
cfg.BoolOpt('migrate_users', default=True,
help='Migrate users'),
cfg.BoolOpt('migrate_user_quotas', default=True,
help='Migrate user quotas. If it set in "false" only tenant '
'quotas will be migrated. Use this in case when '
'OpenStack does not support user quotas (e.g. Grizzly)'),
]
mail = cfg.OptGroup(name='mail',
title='Mail credentials for notifications')
mail_opts = [
cfg.StrOpt('server', default='-',
help='name mail server'),
cfg.StrOpt('username', default='-',
help='name username for mail'),
cfg.StrOpt('password', default='-',
help='password for mail'),
cfg.StrOpt('from_addr', default='-',
help='field FROM in letter')
]
src_mysql = cfg.OptGroup(name='src_mysql',
title='Config mysql for source cloud')
src_mysql_opts = [
cfg.StrOpt('user', default='-',
help='user for mysql'),
cfg.StrOpt('password', default='-',
help='password for mysql'),
cfg.StrOpt('host', default='-',
help='host of mysql'),
cfg.StrOpt('connection', default='mysql+mysqlconnector',
help='driver for connection'),
]
src_rabbit = cfg.OptGroup(name='src_rabbit',
title='Config RabbitMQ for source cloud')
src_rabbit_opts = [
cfg.StrOpt('user', default='guest',
help='user for RabbitMQ'),
cfg.StrOpt('password', default='guest',
help='password for RabbitMQ'),
cfg.StrOpt('hosts', default='-',
help='comma separated RabbitMQ hosts')
]
src_compute = cfg.OptGroup(name='src_compute',
title='Config service for compute')
src_compute_opts = [
cfg.StrOpt('service', default='nova',
help='name service for compute'),
cfg.StrOpt('backend', default='ceph',
help='backend for ephemeral drives'),
cfg.StrOpt('convert_diff_file', default='qcow2',
help='convert diff file to'),
cfg.StrOpt('convert_ephemeral_disk', default='qcow2',
help='convert ephemeral disk to'),
cfg.StrOpt('host_eph_drv', default='-',
help='host ephemeral drive')
]
src_storage = cfg.OptGroup(name='src_storage',
title='Config service for storage')
src_storage_opts = [
cfg.StrOpt('service', default='cinder',
help='name service for storage'),
cfg.StrOpt('backend', default='iscsi',
help='backend for storage'),
cfg.StrOpt('host', default='',
help='storage node ip address'),
cfg.StrOpt('user', default='',
help='user for db access (if backend == db)'),
cfg.StrOpt('password', default='',
help='password for db access (if backend == db)'),
cfg.StrOpt('database_name', default='',
help='cinder_database name (if backend == db)'),
cfg.StrOpt('connection', default='mysql+mysqlconnector',
help='driver for connection'),
cfg.StrOpt('protocol_transfer', default='GLANCE',
help='mode transporting volumes GLANCE or SSH'),
cfg.StrOpt('disk_format', default='qcow2',
help='convert volume'),
cfg.StrOpt('volume_name_template', default='volume-',
help='template for creating names of volumes on storage backend'),
cfg.StrOpt('rbd_pool', default='volumes',
help='name of pool for volumes in Ceph RBD storage'),
cfg.StrOpt('snapshot_name_template', default='snapshot-',
help='template for creating names of snapshots on storage backend')
]
src_image = cfg.OptGroup(name='src_image',
title='Config service for images')
src_image_opts = [
cfg.StrOpt('service', default='glance',
help='name service for images'),
cfg.StrOpt('user', default='',
help='user for db access (if backend == db)'),
cfg.StrOpt('host', default='',
help='glance mysql node ip address'),
cfg.StrOpt('password', default='',
help='password for db access (if backend == db)'),
cfg.StrOpt('database_name', default='',
help='cinder_database name (if backend == db)'),
cfg.StrOpt('connection', default='mysql+mysqlconnector',
help='driver for connection'),
cfg.StrOpt('backend', default='file',
help='backend for images')
]
src_identity = cfg.OptGroup(name='src_identity',
title='Config service for identity')
src_identity_opts = [
cfg.StrOpt('service', default='keystone',
help='name service for keystone')
]
src_network = cfg.OptGroup(name='src_network',
title='Config service for network')
src_network_opts = [
cfg.StrOpt('service', default='auto',
help='name service for network, '
'auto - detect avaiable service')
]
src_objstorage = cfg.OptGroup(name='src_objstorage',
title='Config service for object storage')
src_objstorage_opts = [
cfg.StrOpt('service', default='swift',
help='service name for object storage')
]
dst_mysql = cfg.OptGroup(name='dst_mysql',
title='Config mysql for destination cloud')
dst_mysql_opts = [
cfg.StrOpt('user', default='-',
help='user for mysql'),
cfg.StrOpt('password', default='-',
help='password for mysql'),
cfg.StrOpt('host', default='-',
help='host of mysql'),
cfg.StrOpt('connection', default='mysql+mysqlconnector',
help='driver for connection'),
]
dst_rabbit = cfg.OptGroup(name='dst_rabbit',
title='Config RabbitMQ for source cloud')
dst_rabbit_opts = [
cfg.StrOpt('user', default='guest',
help='user for RabbitMQ'),
cfg.StrOpt('password', default='guest',
help='password for RabbitMQ'),
cfg.StrOpt('hosts', default='-',
help='comma separated RabbitMQ hosts')
]
dst_compute = cfg.OptGroup(name='dst_compute',
title='Config service for compute')
dst_compute_opts = [
cfg.StrOpt('service', default='nova',
help='name service for compute'),
cfg.StrOpt('backend', default='ceph',
help='backend for ephemeral drives'),
cfg.StrOpt('convert_diff_file', default='qcow2',
help='convert diff file to'),
cfg.StrOpt('convert_ephemeral_disk', default='qcow2',
help='convert ephemeral disk to'),
cfg.StrOpt('host_eph_drv', default='-',
help='host ephemeral drive'),
cfg.FloatOpt('cpu_allocation_ratio', default='16',
help='cpu allocation ratio'),
cfg.FloatOpt('ram_allocation_ratio', default='1',
help='ram allocation ratio'),
cfg.FloatOpt('disk_allocation_ratio', default='0.9',
help='disk allocation ratio')
]
dst_storage = cfg.OptGroup(name='dst_storage',
title='Config service for storage')
dst_storage_opts = [
cfg.StrOpt('service', default='cinder',
help='name service for storage'),
cfg.StrOpt('backend', default='iscsi',
help='backend for storage'),
cfg.StrOpt('host', default='',
help='storage node ip address'),
cfg.StrOpt('user', default='',
help='user for db access (if backend == db)'),
cfg.StrOpt('password', default='',
help='password for db access (if backend == db)'),
cfg.StrOpt('database_name', default='',
help='cinder_database name (if backend == db)'),
cfg.StrOpt('connection', default='mysql+mysqlconnector',
help='driver for connection'),
cfg.StrOpt('protocol_transfer', default='GLANCE',
help='mode transporting volumes GLANCE or SSH'),
cfg.StrOpt('disk_format', default='qcow2',
help='convert volume'),
cfg.StrOpt('volume_name_template', default='volume-',
help='template for creating names of volumes on storage backend'),
cfg.StrOpt('rbd_pool', default='volumes',
help='name of pool for volumes in Ceph RBD storage'),
cfg.StrOpt('snapshot_name_template', default='snapshot-',
help='template for creating names of snapshots on storage backend')
]
dst_image = cfg.OptGroup(name='dst_image',
title='Config service for images')
dst_image_opts = [
cfg.StrOpt('service', default='glance',
help='name service for images'),
cfg.BoolOpt('convert_to_raw', default='True',
help='convert to raw images'),
cfg.StrOpt('host', default='',
help='glance mysql node ip address'),
cfg.StrOpt('user', default='',
help='user for db access (if backend == db)'),
cfg.StrOpt('password', default='',
help='password for db access (if backend == db)'),
cfg.StrOpt('database_name', default='',
help='cinder_database name (if backend == db)'),
cfg.StrOpt('connection', default='mysql+mysqlconnector',
help='driver for connection'),
cfg.StrOpt('backend', default='file',
help='backend for images')
]
dst_identity = cfg.OptGroup(name='dst_identity',
title='Config service for identity')
dst_identity_opts = [
cfg.StrOpt('service', default='keystone',
help='name service for keystone')
]
dst_network = cfg.OptGroup(name='dst_network',
title='Config service for network')
dst_network_opts = [
cfg.StrOpt('service', default='auto',
help='name service for network, '
'auto - detect available service'),
cfg.ListOpt('interfaces_for_instance', default='net04',
help='list interfaces for connection to instance')
]
dst_objstorage = cfg.OptGroup(name='dst_objstorage',
title='Config service for object storage')
dst_objstorage_opts = [
cfg.StrOpt('service', default='swift',
help='service name for object storage')
]
import_rules = cfg.OptGroup(name='import_rules',
title='Import Rules for '
'overwrite something fields')
import_rules_opts = [
cfg.StrOpt('key', default='',
help=''),
]
snapshot = cfg.OptGroup(name='snapshot',
title="Rules for snapshot")
snapshot_opts = [
cfg.StrOpt('snapshot_path', default="dump.sql")]
initial_check = cfg.OptGroup(name='initial_check',
title='Some configuration to initial checks')
initial_check_opts = [
cfg.IntOpt('claimed_bandwidth', default=100,
help='Claimed bandwidth of network (Mb/s).'),
cfg.FloatOpt('factor', default=0.5,
help='The percentage of the allowable loss of network speed'),
cfg.IntOpt('test_file_size', default=100,
help='Size of testing file to send/receive via network (MB).'),
]
condense = cfg.OptGroup(name='condense',
title="options for condensation")
condense_opts = [
cfg.StrOpt('nova_file'),
cfg.StrOpt('node_file'),
cfg.StrOpt('group_file'),
cfg.IntOpt('ram_reduction_coef', default=1),
cfg.IntOpt('core_reduction_coef', default=4),
cfg.IntOpt('precision', default=85)]
database = cfg.OptGroup(name="database",
title="options for database")
database_opts = [
cfg.StrOpt("host", default="localhost"),
cfg.IntOpt("port", default=6379)]
cfg_for_reg = [
(src, src_opts),
(dst, dst_opts),
(migrate, migrate_opts),
(mail, mail_opts),
(src_mysql, src_mysql_opts),
(src_rabbit, src_rabbit_opts),
(src_compute, src_compute_opts),
(src_storage, src_storage_opts),
(src_identity, src_identity_opts),
(src_image, src_image_opts),
(src_network, src_network_opts),
(src_objstorage, src_objstorage_opts),
(dst_mysql, dst_mysql_opts),
(dst_rabbit, dst_rabbit_opts),
(dst_compute, dst_compute_opts),
(dst_storage, dst_storage_opts),
(dst_identity, dst_identity_opts),
(dst_image, dst_image_opts),
(dst_network, dst_network_opts),
(dst_objstorage, dst_objstorage_opts),
(snapshot, snapshot_opts),
(import_rules, import_rules_opts),
(initial_check, initial_check_opts),
(condense, condense_opts),
(database, database_opts),
(import_rules, import_rules_opts)
]
CONF = cfg.CONF
name_configs = ['configs/config.ini']
def init_config(name_config=None):
for i in cfg_for_reg:
CONF.register_group(i[0])
CONF.register_opts(i[1], i[0])
if name_config:
name_configs[0] = name_config
CONF(default_config_files=name_configs, args="")
def get_plugins():
plugins = addons
dir_plugins = dir(plugins)
exclude_field = ['__author__', '__builtins__', '__doc__', '__file__',
'__name__', '__package__', '__path__']
plugins = [(item, plugins.__dict__[item])
for item in dir_plugins if item not in exclude_field]
return plugins
def find_group(group):
for g in xrange(len(cfg_for_reg)):
if group.name == cfg_for_reg[g][0].name:
return g
return -1
def find_field(field, fields):
for g in xrange(len(fields)):
if field.name == fields[g].name:
return g
return -1
def merge_fields(index_pair, fields):
for field in fields:
index_field = find_field(field, cfg_for_reg[index_pair][1])
if index_field >= 0:
cfg_for_reg[index_pair][1][index_field] = field
else:
cfg_for_reg[index_pair][1].append(field)
def merge_cfg(cfg):
for pair in cfg:
index_pair = find_group(pair[0])
if index_pair == -1:
cfg_for_reg.append(pair)
else:
merge_fields(index_pair, pair[1])
def collector_configs_plugins():
plugins = get_plugins()
for plugin in plugins:
merge_cfg(plugin[1].cfg_for_reg)
name_configs.append('addons/%s/configs/config.ini' % plugin[0])
if __name__ == '__main__':
collector_configs_plugins()
init_config()
| apache-2.0 |
spezi77/android_kernel_google_mako | Documentation/networking/cxacru-cf.py | 14668 | 1626 | #!/usr/bin/env python
# Copyright 2009 Simon Arlott
#
# 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 2 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, write to the Free Software Foundation, Inc., 59
# Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
# Usage: cxacru-cf.py < cxacru-cf.bin
# Output: values string suitable for the sysfs adsl_config attribute
#
# Warning: cxacru-cf.bin with MD5 hash cdbac2689969d5ed5d4850f117702110
# contains mis-aligned values which will stop the modem from being able
# to make a connection. If the first and last two bytes are removed then
# the values become valid, but the modulation will be forced to ANSI
# T1.413 only which may not be appropriate.
#
# The original binary format is a packed list of le32 values.
import sys
import struct
i = 0
while True:
buf = sys.stdin.read(4)
if len(buf) == 0:
break
elif len(buf) != 4:
sys.stdout.write("\n")
sys.stderr.write("Error: read {0} not 4 bytes\n".format(len(buf)))
sys.exit(1)
if i > 0:
sys.stdout.write(" ")
sys.stdout.write("{0:x}={1}".format(i, struct.unpack("<I", buf)[0]))
i += 1
sys.stdout.write("\n")
| gpl-2.0 |
daniestevez/gr-satellites | python/snet_classifier.py | 1 | 1414 | #!/usr/bin/env python3
# -*- coding: utf-8 -*-
# Copyright 2018 Daniel Estevez <daniel@destevez.net>
#
# This file is part of gr-satellites
#
# SPDX-License-Identifier: GPL-3.0-or-later
#
from gnuradio import gr
import numpy
import pmt
class snet_classifier(gr.basic_block):
"""docstring for block snet_classifier"""
def __init__(self):
gr.basic_block.__init__(
self,
name='snet_classifier',
in_sig=[],
out_sig=[])
self.message_port_register_in(pmt.intern('in'))
self.set_msg_handler(pmt.intern('in'), self.handle_msg)
self.message_port_register_out(pmt.intern('SNET-A'))
self.message_port_register_out(pmt.intern('SNET-B'))
self.message_port_register_out(pmt.intern('SNET-C'))
self.message_port_register_out(pmt.intern('SNET-D'))
def handle_msg(self, msg_pmt):
srcId = pmt.dict_ref(pmt.car(msg_pmt),
pmt.intern('SNET SrcId'), pmt.PMT_NIL)
if pmt.eq(srcId, pmt.PMT_NIL):
return
sat = pmt.to_long(srcId) >> 1
if sat == 0:
satellite = 'SNET-A'
elif sat == 1:
satellite = 'SNET-B'
elif sat == 2:
satellite = 'SNET-C'
elif sat == 3:
satellite = 'SNET-D'
else:
return
self.message_port_pub(pmt.intern(satellite), msg_pmt)
| gpl-3.0 |
MortimerGoro/servo | etc/ci/performance/submit_to_perfherder.py | 55 | 11981 | #!/usr/bin/env python3
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
import argparse
from functools import partial, reduce
import json
import operator
import os
import random
import string
from thclient import (TreeherderClient, TreeherderResultSetCollection,
TreeherderJobCollection)
import time
from runner import format_result_summary
def geometric_mean(iterable):
filtered = list(filter(lambda x: x > 0, iterable))
return (reduce(operator.mul, filtered)) ** (1.0 / len(filtered))
def format_testcase_name(name):
temp = name.replace('http://localhost:8000/page_load_test/', '')
temp = temp.replace('http://localhost:8000/tp6/', '')
temp = temp.split('/')[0]
temp = temp[0:80]
return temp
def format_perf_data(perf_json, engine='servo'):
suites = []
measurement = "domComplete" # Change this to an array when we have more
def get_time_from_nav_start(timings, measurement):
return timings[measurement] - timings['navigationStart']
measurementFromNavStart = partial(get_time_from_nav_start,
measurement=measurement)
if (engine == 'gecko'):
name = 'gecko.{}'.format(measurement)
else:
name = measurement
suite = {
"name": name,
"value": geometric_mean(map(measurementFromNavStart, perf_json)),
"subtests": []
}
for testcase in perf_json:
if measurementFromNavStart(testcase) < 0:
value = -1
# print('Error: test case has negative timing. Test timeout?')
else:
value = measurementFromNavStart(testcase)
suite["subtests"].append({
"name": format_testcase_name(testcase["testcase"]),
"value": value
})
suites.append(suite)
return {
"performance_data": {
# https://bugzilla.mozilla.org/show_bug.cgi?id=1271472
"framework": {"name": "servo-perf"},
"suites": suites
}
}
def create_resultset_collection(dataset):
print("[DEBUG] ResultSet Collection:")
print(dataset)
trsc = TreeherderResultSetCollection()
for data in dataset:
trs = trsc.get_resultset()
trs.add_push_timestamp(data['push_timestamp'])
trs.add_revision(data['revision'])
trs.add_author(data['author'])
# TODO: figure out where type is used
# trs.add_type(data['type'])
revisions = []
for rev in data['revisions']:
tr = trs.get_revision()
tr.add_revision(rev['revision'])
tr.add_author(rev['author'])
tr.add_comment(rev['comment'])
tr.add_repository(rev['repository'])
revisions.append(tr)
trs.add_revisions(revisions)
trsc.add(trs)
return trsc
def create_job_collection(dataset):
print("[DEBUG] Job Collection:")
print(dataset)
tjc = TreeherderJobCollection()
for data in dataset:
tj = tjc.get_job()
tj.add_revision(data['revision'])
tj.add_project(data['project'])
tj.add_coalesced_guid(data['job']['coalesced'])
tj.add_job_guid(data['job']['job_guid'])
tj.add_job_name(data['job']['name'])
tj.add_job_symbol(data['job']['job_symbol'])
tj.add_group_name(data['job']['group_name'])
tj.add_group_symbol(data['job']['group_symbol'])
tj.add_description(data['job']['desc'])
tj.add_product_name(data['job']['product_name'])
tj.add_state(data['job']['state'])
tj.add_result(data['job']['result'])
tj.add_reason(data['job']['reason'])
tj.add_who(data['job']['who'])
tj.add_tier(data['job']['tier'])
tj.add_submit_timestamp(data['job']['submit_timestamp'])
tj.add_start_timestamp(data['job']['start_timestamp'])
tj.add_end_timestamp(data['job']['end_timestamp'])
tj.add_machine(data['job']['machine'])
tj.add_build_info(
data['job']['build_platform']['os_name'],
data['job']['build_platform']['platform'],
data['job']['build_platform']['architecture']
)
tj.add_machine_info(
data['job']['machine_platform']['os_name'],
data['job']['machine_platform']['platform'],
data['job']['machine_platform']['architecture']
)
tj.add_option_collection(data['job']['option_collection'])
for artifact_data in data['job']['artifacts']:
tj.add_artifact(
artifact_data['name'],
artifact_data['type'],
artifact_data['blob']
)
tjc.add(tj)
return tjc
# TODO: refactor this big function to smaller chunks
def submit(perf_data, failures, revision, summary, engine):
print("[DEBUG] failures:")
print(list(map(lambda x: x['testcase'], failures)))
author = "{} <{}>".format(revision['author']['name'],
revision['author']['email'])
dataset = [
{
# The top-most revision in the list of commits for a push.
'revision': revision['commit'],
'author': author,
'push_timestamp': int(revision['author']['timestamp']),
'type': 'push',
# a list of revisions associated with the resultset. There should
# be at least one.
'revisions': [
{
'comment': revision['subject'],
'revision': revision['commit'],
'repository': 'servo',
'author': author
}
]
}
]
trsc = create_resultset_collection(dataset)
result = "success"
# TODO: verify a failed test won't affect Perfherder visualization
# if len(failures) > 0:
# result = "testfailed"
hashlen = len(revision['commit'])
job_guid = ''.join(
random.choice(string.ascii_letters + string.digits) for i in range(hashlen)
)
if (engine == "gecko"):
project = "servo"
job_symbol = 'PLG'
group_symbol = 'SPG'
group_name = 'Servo Perf on Gecko'
else:
project = "servo"
job_symbol = 'PL'
group_symbol = 'SP'
group_name = 'Servo Perf'
dataset = [
{
'project': project,
'revision': revision['commit'],
'job': {
'job_guid': job_guid,
'product_name': project,
'reason': 'scheduler',
# TODO: What is `who` for?
'who': 'Servo',
'desc': 'Servo Page Load Time Tests',
'name': 'Servo Page Load Time',
# The symbol representing the job displayed in
# treeherder.allizom.org
'job_symbol': job_symbol,
# The symbol representing the job group in
# treeherder.allizom.org
'group_symbol': group_symbol,
'group_name': group_name,
# TODO: get the real timing from the test runner
'submit_timestamp': str(int(time.time())),
'start_timestamp': str(int(time.time())),
'end_timestamp': str(int(time.time())),
'state': 'completed',
'result': result, # "success" or "testfailed"
'machine': 'local-machine',
# TODO: read platform from test result
'build_platform': {
'platform': 'linux64',
'os_name': 'linux',
'architecture': 'x86_64'
},
'machine_platform': {
'platform': 'linux64',
'os_name': 'linux',
'architecture': 'x86_64'
},
'option_collection': {'opt': True},
# jobs can belong to different tiers
# setting the tier here will determine which tier the job
# belongs to. However, if a job is set as Tier of 1, but
# belongs to the Tier 2 profile on the server, it will still
# be saved as Tier 2.
'tier': 1,
# the ``name`` of the log can be the default of "buildbot_text"
# however, you can use a custom name. See below.
# TODO: point this to the log when we have them uploaded to S3
'log_references': [
{
'url': 'TBD',
'name': 'test log'
}
],
# The artifact can contain any kind of structured data
# associated with a test.
'artifacts': [
{
'type': 'json',
'name': 'performance_data',
# TODO: include the job_guid when the runner actually
# generates one
# 'job_guid': job_guid,
'blob': perf_data
},
{
'type': 'json',
'name': 'Job Info',
# 'job_guid': job_guid,
"blob": {
"job_details": [
{
"content_type": "raw_html",
"title": "Result Summary",
"value": summary
}
]
}
}
],
# List of job guids that were coalesced to this job
'coalesced': []
}
}
]
tjc = create_job_collection(dataset)
# TODO: extract this read credential code out of this function.
cred = {
'client_id': os.environ['TREEHERDER_CLIENT_ID'],
'secret': os.environ['TREEHERDER_CLIENT_SECRET']
}
client = TreeherderClient(server_url='https://treeherder.mozilla.org',
client_id=cred['client_id'],
secret=cred['secret'])
# data structure validation is automatically performed here, if validation
# fails a TreeherderClientError is raised
client.post_collection('servo', trsc)
client.post_collection('servo', tjc)
def main():
parser = argparse.ArgumentParser(
description=("Submit Servo performance data to Perfherder. "
"Remember to set your Treeherder credential as environment"
" variable \'TREEHERDER_CLIENT_ID\' and "
"\'TREEHERDER_CLIENT_SECRET\'"))
parser.add_argument("perf_json",
help="the output json from runner")
parser.add_argument("revision_json",
help="the json containing the servo revision data")
parser.add_argument("--engine",
type=str,
default='servo',
help=("The engine to run the tests on. Currently only"
" servo and gecko are supported."))
args = parser.parse_args()
with open(args.perf_json, 'r') as f:
result_json = json.load(f)
with open(args.revision_json, 'r') as f:
revision = json.load(f)
perf_data = format_perf_data(result_json, args.engine)
failures = list(filter(lambda x: x['domComplete'] == -1, result_json))
summary = format_result_summary(result_json).replace('\n', '<br/>')
submit(perf_data, failures, revision, summary, args.engine)
print("Done!")
if __name__ == "__main__":
main()
| mpl-2.0 |
kmoocdev2/edx-platform | lms/djangoapps/course_api/blocks/transformers/tests/test_milestones.py | 9 | 8909 | """
Tests for ProctoredExamTransformer.
"""
import ddt
from milestones.tests.utils import MilestonesTestCaseMixin
from mock import Mock, patch
from nose.plugins.attrib import attr
from gating import api as lms_gating_api
from lms.djangoapps.course_blocks.api import get_course_blocks
from lms.djangoapps.course_blocks.transformers.tests.helpers import CourseStructureTestCase
from openedx.core.djangoapps.content.block_structure.transformers import BlockStructureTransformers
from openedx.core.lib.gating import api as gating_api
from student.tests.factories import CourseEnrollmentFactory
from ..milestones import MilestonesAndSpecialExamsTransformer
@attr(shard=3)
@ddt.ddt
@patch.dict('django.conf.settings.FEATURES', {'ENABLE_SPECIAL_EXAMS': True})
class MilestonesTransformerTestCase(CourseStructureTestCase, MilestonesTestCaseMixin):
"""
Test behavior of ProctoredExamTransformer
"""
TRANSFORMER_CLASS_TO_TEST = MilestonesAndSpecialExamsTransformer
def setUp(self):
"""
Setup course structure and create user for split test transformer test.
"""
super(MilestonesTransformerTestCase, self).setUp()
# Build course.
self.course_hierarchy = self.get_course_hierarchy()
self.blocks = self.build_course(self.course_hierarchy)
self.course = self.blocks['course']
# Enroll user in course.
CourseEnrollmentFactory.create(user=self.user, course_id=self.course.id, is_active=True)
self.transformers = BlockStructureTransformers([self.TRANSFORMER_CLASS_TO_TEST(False)])
def setup_gated_section(self, gated_block, gating_block):
"""
Test helper to create a gating requirement.
Args:
gated_block: The block that should be inaccessible until gating_block is completed
gating_block: The block that must be completed before access is granted
"""
gating_api.add_prerequisite(self.course.id, unicode(gating_block.location))
gating_api.set_required_content(self.course.id, gated_block.location, gating_block.location, 100, 0)
ALL_BLOCKS = (
'course', 'A', 'B', 'C', 'ProctoredExam', 'D', 'E', 'PracticeExam', 'F', 'G', 'H', 'I', 'TimedExam', 'J', 'K'
)
# The special exams (proctored, practice, timed) are not visible to
# students via the Courses API.
ALL_BLOCKS_EXCEPT_SPECIAL = ('course', 'A', 'B', 'C', 'H', 'I')
def get_course_hierarchy(self):
"""
Get a course hierarchy to test with.
"""
# course
# / / \ \ \
# / / \ \ \
# A ProctoredExam PracticeExam H TimedExam
# / \ / \ / \ | / \
# / \ / \ / \ | / \
# B C D E F G I J K
#
return [
{
'org': 'MilestonesTransformer',
'course': 'PE101F',
'run': 'test_run',
'#type': 'course',
'#ref': 'course',
},
{
'#type': 'sequential',
'#ref': 'A',
'#children': [
{'#type': 'vertical', '#ref': 'B'},
{'#type': 'vertical', '#ref': 'C'},
],
},
{
'#type': 'sequential',
'#ref': 'ProctoredExam',
'is_time_limited': True,
'is_proctored_enabled': True,
'is_practice_exam': False,
'#children': [
{'#type': 'vertical', '#ref': 'D'},
{'#type': 'vertical', '#ref': 'E'},
],
},
{
'#type': 'sequential',
'#ref': 'PracticeExam',
'is_time_limited': True,
'is_proctored_enabled': True,
'is_practice_exam': True,
'#children': [
{'#type': 'vertical', '#ref': 'F'},
{'#type': 'vertical', '#ref': 'G'},
],
},
{
'#type': 'sequential',
'#ref': 'H',
'#children': [
{'#type': 'vertical', '#ref': 'I'},
],
},
{
'#type': 'sequential',
'#ref': 'TimedExam',
'is_time_limited': True,
'is_proctored_enabled': False,
'is_practice_exam': False,
'#children': [
{'#type': 'vertical', '#ref': 'J'},
{'#type': 'vertical', '#ref': 'K'},
],
},
]
def test_special_exams_not_visible_to_non_staff(self):
self.get_blocks_and_check_against_expected(self.user, self.ALL_BLOCKS_EXCEPT_SPECIAL)
@ddt.data(
(
'H',
'A',
('course', 'A', 'B', 'C', 'H', 'I')
),
(
'H',
'ProctoredExam',
('course', 'A', 'B', 'C', 'H', 'I'),
),
)
@ddt.unpack
def test_gated(self, gated_block_ref, gating_block_ref, expected_blocks_before_completion):
"""
Students should be able to see gated content blocks before and after they have completed the
prerequisite for it.
First, checks that a student can see the gated block when it is gated by the gating block and no
attempt has been made to complete the gating block.
Then, checks that the student can see the gated block after the gating block has been completed.
expected_blocks_before_completion is the set of blocks we expect to be visible to the student
before the student has completed the gating block.
The test data includes one special exam and one non-special block as the gating blocks.
"""
self.course.enable_subsection_gating = True
self.setup_gated_section(self.blocks[gated_block_ref], self.blocks[gating_block_ref])
with self.assertNumQueries(6):
self.get_blocks_and_check_against_expected(self.user, expected_blocks_before_completion)
# clear the request cache to simulate a new request
self.clear_caches()
# this call triggers reevaluation of prerequisites fulfilled by the gating block.
lms_gating_api.evaluate_prerequisite(
self.course,
Mock(location=self.blocks[gating_block_ref].location, percent_graded=1.0),
self.user,
)
with self.assertNumQueries(6):
self.get_blocks_and_check_against_expected(self.user, self.ALL_BLOCKS_EXCEPT_SPECIAL)
def test_staff_access(self):
"""
Ensures that staff can always access all blocks in the course,
regardless of gating or proctoring.
"""
expected_blocks = self.ALL_BLOCKS
self.setup_gated_section(self.blocks['H'], self.blocks['A'])
self.get_blocks_and_check_against_expected(self.staff, expected_blocks)
def test_special_exams(self):
"""
When the block structure transformers are set to allow users to view special exams,
ensure that we can see the special exams and not any of the otherwise gated blocks.
"""
self.transformers = BlockStructureTransformers([self.TRANSFORMER_CLASS_TO_TEST(True)])
self.course.enable_subsection_gating = True
self.setup_gated_section(self.blocks['H'], self.blocks['A'])
expected_blocks = (
'course', 'A', 'B', 'C', 'ProctoredExam', 'D', 'E', 'PracticeExam', 'F', 'G', 'TimedExam', 'J', 'K', 'H', 'I'
)
self.get_blocks_and_check_against_expected(self.user, expected_blocks)
# clear the request cache to simulate a new request
self.clear_caches()
# this call triggers reevaluation of prerequisites fulfilled by the gating block.
lms_gating_api.evaluate_prerequisite(
self.course,
Mock(location=self.blocks['A'].location, percent_graded=1.0),
self.user,
)
self.get_blocks_and_check_against_expected(self.user, self.ALL_BLOCKS)
def get_blocks_and_check_against_expected(self, user, expected_blocks):
"""
Calls the course API as the specified user and checks the
output against a specified set of expected blocks.
"""
block_structure = get_course_blocks(
user,
self.course.location,
self.transformers,
)
self.assertEqual(
set(block_structure.get_block_keys()),
set(self.get_block_key_set(self.blocks, *expected_blocks)),
)
| agpl-3.0 |
cmvelo/ansible | lib/ansible/cli/doc.py | 4 | 12205 | # (c) 2014, James Tanner <tanner.jc@gmail.com>
#
# Ansible 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.
#
# Ansible 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 Ansible. If not, see <http://www.gnu.org/licenses/>.
#
# ansible-vault is a script that encrypts/decrypts YAML files. See
# http://docs.ansible.com/playbooks_vault.html for more details.
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
import datetime
import os
import traceback
import textwrap
from ansible.compat.six import iteritems
from ansible import constants as C
from ansible.errors import AnsibleError, AnsibleOptionsError
from ansible.plugins import module_loader
from ansible.cli import CLI
from ansible.utils import module_docs
try:
from __main__ import display
except ImportError:
from ansible.utils.display import Display
display = Display()
class DocCLI(CLI):
""" Vault command line class """
def __init__(self, args):
super(DocCLI, self).__init__(args)
self.module_list = []
def parse(self):
self.parser = CLI.base_parser(
usage='usage: %prog [options] [module...]',
epilog='Show Ansible module documentation',
module_opts=True,
)
self.parser.add_option("-l", "--list", action="store_true", default=False, dest='list_dir',
help='List available modules')
self.parser.add_option("-s", "--snippet", action="store_true", default=False, dest='show_snippet',
help='Show playbook snippet for specified module(s)')
self.options, self.args = self.parser.parse_args(self.args[1:])
display.verbosity = self.options.verbosity
def run(self):
super(DocCLI, self).run()
if self.options.module_path is not None:
for i in self.options.module_path.split(os.pathsep):
module_loader.add_directory(i)
# list modules
if self.options.list_dir:
paths = module_loader._get_paths()
for path in paths:
self.find_modules(path)
self.pager(self.get_module_list_text())
return 0
if len(self.args) == 0:
raise AnsibleOptionsError("Incorrect options passed")
# process command line module list
text = ''
for module in self.args:
try:
# if the module lives in a non-python file (eg, win_X.ps1), require the corresponding python file for docs
filename = module_loader.find_plugin(module, mod_type='.py')
if filename is None:
display.warning("module %s not found in %s\n" % (module, DocCLI.print_paths(module_loader)))
continue
if any(filename.endswith(x) for x in C.BLACKLIST_EXTS):
continue
try:
doc, plainexamples, returndocs = module_docs.get_docstring(filename, verbose=(self.options.verbosity > 0))
except:
display.vvv(traceback.print_exc())
display.error("module %s has a documentation error formatting or is missing documentation\nTo see exact traceback use -vvv" % module)
continue
if doc is not None:
all_keys = []
for (k,v) in iteritems(doc['options']):
all_keys.append(k)
all_keys = sorted(all_keys)
doc['option_keys'] = all_keys
doc['filename'] = filename
doc['docuri'] = doc['module'].replace('_', '-')
doc['now_date'] = datetime.date.today().strftime('%Y-%m-%d')
doc['plainexamples'] = plainexamples
doc['returndocs'] = returndocs
if self.options.show_snippet:
text += self.get_snippet_text(doc)
else:
text += self.get_man_text(doc)
else:
# this typically means we couldn't even parse the docstring, not just that the YAML is busted,
# probably a quoting issue.
raise AnsibleError("Parsing produced an empty object.")
except Exception as e:
display.vvv(traceback.print_exc())
raise AnsibleError("module %s missing documentation (or could not parse documentation): %s\n" % (module, str(e)))
self.pager(text)
return 0
def find_modules(self, path):
if os.path.isdir(path):
for module in os.listdir(path):
if module.startswith('.'):
continue
elif os.path.isdir(module):
self.find_modules(module)
elif any(module.endswith(x) for x in C.BLACKLIST_EXTS):
continue
elif module.startswith('__'):
continue
elif module in C.IGNORE_FILES:
continue
elif module.startswith('_'):
fullpath = '/'.join([path,module])
if os.path.islink(fullpath): # avoids aliases
continue
module = os.path.splitext(module)[0] # removes the extension
self.module_list.append(module)
def get_module_list_text(self):
columns = display.columns
displace = max(len(x) for x in self.module_list)
linelimit = columns - displace - 5
text = []
deprecated = []
for module in sorted(set(self.module_list)):
if module in module_docs.BLACKLIST_MODULES:
continue
# if the module lives in a non-python file (eg, win_X.ps1), require the corresponding python file for docs
filename = module_loader.find_plugin(module, mod_type='.py')
if filename is None:
continue
if filename.endswith(".ps1"):
continue
if os.path.isdir(filename):
continue
try:
doc, plainexamples, returndocs = module_docs.get_docstring(filename)
desc = self.tty_ify(doc.get('short_description', '?')).strip()
if len(desc) > linelimit:
desc = desc[:linelimit] + '...'
if module.startswith('_'): # Handle deprecated
deprecated.append("%-*s %-*.*s" % (displace, module[1:], linelimit, len(desc), desc))
else:
text.append("%-*s %-*.*s" % (displace, module, linelimit, len(desc), desc))
except:
raise AnsibleError("module %s has a documentation error formatting or is missing documentation\n" % module)
if len(deprecated) > 0:
text.append("\nDEPRECATED:")
text.extend(deprecated)
return "\n".join(text)
@staticmethod
def print_paths(finder):
''' Returns a string suitable for printing of the search path '''
# Uses a list to get the order right
ret = []
for i in finder._get_paths():
if i not in ret:
ret.append(i)
return os.pathsep.join(ret)
def get_snippet_text(self, doc):
text = []
desc = CLI.tty_ify(doc['short_description'])
text.append("- name: %s" % (desc))
text.append(" action: %s" % (doc['module']))
pad = 31
subdent = ''.join([" " for a in xrange(pad)])
limit = display.columns - pad
for o in sorted(doc['options'].keys()):
opt = doc['options'][o]
desc = CLI.tty_ify(" ".join(opt['description']))
required = opt.get('required', False)
if not isinstance(required, bool):
raise("Incorrect value for 'Required', a boolean is needed.: %s" % required)
if required:
s = o + "="
else:
s = o
text.append(" %-20s # %s" % (s, textwrap.fill(desc, limit, subsequent_indent=subdent)))
text.append('')
return "\n".join(text)
def get_man_text(self, doc):
opt_indent=" "
text = []
text.append("> %s\n" % doc['module'].upper())
pad = display.columns * 0.20
limit = max(display.columns - int(pad), 70)
if isinstance(doc['description'], list):
desc = " ".join(doc['description'])
else:
desc = doc['description']
text.append("%s\n" % textwrap.fill(CLI.tty_ify(desc), limit, initial_indent=" ", subsequent_indent=" "))
if 'deprecated' in doc and doc['deprecated'] is not None and len(doc['deprecated']) > 0:
text.append("DEPRECATED: \n%s\n" % doc['deprecated'])
if 'option_keys' in doc and len(doc['option_keys']) > 0:
text.append("Options (= is mandatory):\n")
for o in sorted(doc['option_keys']):
opt = doc['options'][o]
required = opt.get('required', False)
if not isinstance(required, bool):
raise("Incorrect value for 'Required', a boolean is needed.: %s" % required)
if required:
opt_leadin = "="
else:
opt_leadin = "-"
text.append("%s %s" % (opt_leadin, o))
if isinstance(opt['description'], list):
desc = " ".join(opt['description'])
else:
desc = opt['description']
if 'choices' in opt:
choices = ", ".join(str(i) for i in opt['choices'])
desc = desc + " (Choices: " + choices + ")"
if 'default' in opt or not required:
default = str(opt.get('default', '(null)'))
desc = desc + " [Default: " + default + "]"
text.append("%s\n" % textwrap.fill(CLI.tty_ify(desc), limit, initial_indent=opt_indent, subsequent_indent=opt_indent))
if 'notes' in doc and doc['notes'] and len(doc['notes']) > 0:
notes = " ".join(doc['notes'])
text.append("Notes:%s\n" % textwrap.fill(CLI.tty_ify(notes), limit-6, initial_indent=" ", subsequent_indent=opt_indent))
if 'requirements' in doc and doc['requirements'] is not None and len(doc['requirements']) > 0:
req = ", ".join(doc['requirements'])
text.append("Requirements:%s\n" % textwrap.fill(CLI.tty_ify(req), limit-16, initial_indent=" ", subsequent_indent=opt_indent))
if 'examples' in doc and len(doc['examples']) > 0:
text.append("Example%s:\n" % ('' if len(doc['examples']) < 2 else 's'))
for ex in doc['examples']:
text.append("%s\n" % (ex['code']))
if 'plainexamples' in doc and doc['plainexamples'] is not None:
text.append("EXAMPLES:")
text.append(doc['plainexamples'])
if 'returndocs' in doc and doc['returndocs'] is not None:
text.append("RETURN VALUES:")
text.append(doc['returndocs'])
text.append('')
maintainers = set()
if 'author' in doc:
if isinstance(doc['author'], basestring):
maintainers.add(doc['author'])
else:
maintainers.update(doc['author'])
if 'maintainers' in doc:
if isinstance(doc['maintainers'], basestring):
maintainers.add(doc['author'])
else:
maintainers.update(doc['author'])
text.append('MAINTAINERS: ' + ', '.join(maintainers))
text.append('')
return "\n".join(text)
| gpl-3.0 |
scopatz/umdone | umdone/commands/remove_silence.py | 1 | 1356 | """Remove silence command"""
import sys
from argparse import ArgumentParser
from lazyasd import lazyobject
from xonsh.tools import print_color
from umdone.sound import Audio
from umdone.commands import audio_io
@lazyobject
def PARSER():
parser = ArgumentParser('remove-silence')
parser.add_argument('path',
help='path to local file or URL.',
nargs="?",
default=None,)
parser.add_argument('-t', '--reduce-to', dest='reduce_to',
type=float, default=0.0,
help="length of time (in sec) to reduce silences to"
)
return parser
@audio_io
def main(audio_in, args, stdin=None, stdout=None, stderr=None, spec=None):
"""removes silence from an audio file"""
ns = PARSER.parse_args(args)
if audio_in is None and ns.path is not None:
audio_in = Audio(ns.path)
print_color('{YELLOW}Removing silences{NO_COLOR}', file=stderr, flush=True)
print(' - audio in:', audio_in, file=stderr, flush=True)
print(' - reducing silence to:', ns.reduce_to, file=stderr, flush=True)
import umdone.basic_filters
audio_out = umdone.basic_filters.remove_silence(audio_in, reduce_to=ns.reduce_to)
print(' - audio out:', audio_out, file=stderr, flush=True)
return audio_out
| bsd-2-clause |
modeswitch/barrelfish | tools/harness/tests/mdbbench.py | 10 | 3618 |
import re, datetime
import tests, debug
from common import TestCommon
from results import PassFailResult, RowResults
from itertools import product
@tests.add_test
class MdbBench(TestCommon):
'''mdbbench'''
name = "mdbbench"
#resets = ["random_nat_ram", "propszrand_nat_ram", "szprob_cp_nat_ram"]
resets = ["szprob_cp_nat_ram"]
counts = [1<<x for x in range(5, 13+1)]
#counts = [1<<10]
impls = ["mdb_bench", "mdb_bench_old"]
measures = [
"insert_one",
"remove_one",
"iterate_1",
"iterate_10",
"iterate_100",
"iterate_1000",
"has_copies",
"has_ancestors",
"has_descendants",
]
impl_measures = {
"mdb_bench": [
"query_address"
],
}
dump = True
def get_build_targets(self, build, machine):
targets = super(MdbBench, self).get_build_targets(build, machine)
for impl in self.impls:
targets.append('%s/sbin/%s' % (machine.get_bootarch(), impl))
return targets
def run_one(self, build, machine, testdir, count, measure, reset, impl, runs):
debug.log('running %s m=%s c=%s' % (impl, measure, count))
yield "[mdb_bench of %s]\n" % impl
modules = self.get_modules(build, machine)
bench_args = ["count=%s"%count, "reset=%s"%reset, "runs=%d"%runs, "measure=%s"%measure]
modules.add_module(impl, bench_args)
self.boot(machine, modules)
self.set_timeout(datetime.timedelta(hours=1))
for line in self.collect_data(machine):
yield line
def run(self, build, machine, testdir):
for c, m, r, i in product(self.counts, self.measures, self.resets, self.impls):
for l in self.run_one(build, machine, testdir, c, m, r, i, 1000):
yield l
for i in set(self.impls) & set(self.impl_measures.keys()):
for c, m, r in product(self.counts, self.impl_measures[i], self.resets):
for l in self.run_one(build, machine, testdir, c, m, r, i, 1000):
yield l
if self.dump:
for c, r in product(self.counts, self.resets):
for l in self.run_one(build, machine, testdir, c, "dump", r, "mdb_bench", 10):
yield l
def process_data(self, testdir, rawiter):
results = RowResults(['impl', 'reset', 'measure', 'count', 'ticks'])
caps = RowResults(['run', 'reset', 'count', 'base', 'bits', 'flags'], name="caps")
impl = None
reset = None
measure = None
count = None
dumping = False
for line in rawiter:
m = re.match(r"\[mdb_bench of (\w+)\]", line)
if m:
impl = m.group(1)
continue
m = re.match(r"\[mdb_bench dumping\]", line)
if m:
dumping = True
if self.boot_phase:
continue
m = re.match(r"([^:/]+)/(\d+):dump:([^:]+): 0x([0-9a-fA-F]+)/(\d+) ([c.][a.][d.])", line)
if m:
caps.add_row([m.group(3), m.group(1), m.group(2), m.group(4), m.group(5), m.group(6)])
continue
m = re.match(r"([^:]+):([^:]+): (\d+)/(\d+)", line)
if m:
reset = m.group(1)
measure = m.group(2)
count = m.group(4)
ticks = m.group(3)
results.add_row([impl, reset, measure, count, ticks])
continue
results = [results]
if dumping:
results.append(caps)
return results
| mit |
relsi/easy_store | controllers/manage.py | 2 | 1923 | # -*- coding: utf-8 -*-
import os
from gluon.fileutils import listdir
@auth.requires_membership('admin')
def index():
btn = A('Setup', _href=URL('manage', 'setup'), _class='btn btn-large btn-block')
btn2 = A('Categories', _href=URL('manage', 'select', args='category'), _class='btn btn-large btn-block btn-primary')
btn3 = A('Products', _href=URL('manage', 'select', args='product'), _class='btn btn-large btn-block')
btn4 = A('Clear cache', _href=URL('manage', 'clear'), _class='btn btn-large btn-block btn-primary')
return dict(btn=btn, btn2=btn2, btn3=btn3, btn4=btn4)
@auth.requires_membership('admin')
def setup():
form = SQLFORM(db.info, store, showid=False)
if form.process().accepted:
redirect(URL(c='manage', f='index'))
return dict(form=form)
@auth.requires_membership('admin')
def select():
table = request.args(0)
items = db(db[table]).select()
return dict(table=table, items=items)
@auth.requires_membership('admin')
def insert():
table = request.args(0)
form = SQLFORM(db[table])
if form.process().accepted:
redirect(URL(c='manage', f='select', args=table))
return dict(table=table,form=form)
@auth.requires_membership('admin')
def edit():
table = request.args(0)
item = int(request.args(1))
form = SQLFORM(db[table], item, showid=False)
if form.process().accepted:
redirect(URL(c='manage', f='select', args=table))
return dict(table=table,form=form)
@auth.requires_membership('admin')
def remove():
table = request.args(0)
item = int(request.args(1))
db(db[table].id == item).delete()
db.commit()
redirect(URL(c='manage', f='select', args=table))
@auth.requires_membership('admin')
def clear():
app = request.application
files = listdir('applications/%s/cache/' % app,'',0)
for file in files: os.unlink(file)
files=listdir('applications/%s/errors/' % app,'',0)
for file in files: os.unlink(file)
session.flash="cache cleaned"
redirect(URL(c='manage', f='index'))
| mit |
asdofindia/kitsune | kitsune/dashboards/cron.py | 16 | 9018 | from datetime import date
from django.conf import settings
from django.db import connection
import cronjobs
from kitsune.dashboards.models import (
PERIODS, WikiDocumentVisits, WikiMetric, L10N_TOP20_CODE, L10N_TOP100_CODE, L10N_ALL_CODE,
L10N_ACTIVE_CONTRIBUTORS_CODE)
from kitsune.dashboards.readouts import l10n_overview_rows
from kitsune.products.models import Product
from kitsune.sumo.redis_utils import redis_client
from kitsune.wiki.models import Document
from kitsune.wiki.utils import num_active_contributors
@cronjobs.register
def reload_wiki_traffic_stats():
if settings.STAGE:
return
for period, _ in PERIODS:
WikiDocumentVisits.reload_period_from_analytics(
period, verbose=settings.DEBUG)
@cronjobs.register
def update_l10n_coverage_metrics():
"""Calculate and store the l10n metrics for each locale/product.
The metrics are:
* Percent localized of top 20 articles
* Percent localized of all articles
"""
today = date.today()
# Loop through all locales.
for locale in settings.SUMO_LANGUAGES:
# Skip en-US, it is always 100% localized.
if locale == settings.WIKI_DEFAULT_LANGUAGE:
continue
# Loop through all enabled products, including None (really All).
for product in [None] + list(Product.objects.filter(visible=True)):
# (Ab)use the l10n_overview_rows helper from the readouts.
rows = l10n_overview_rows(locale=locale, product=product)
# % of top 20 articles
top20 = rows['top-20']
try:
percent = 100.0 * float(top20['numerator']) / top20['denominator']
except ZeroDivisionError:
percent = 0.0
WikiMetric.objects.create(
code=L10N_TOP20_CODE,
locale=locale,
product=product,
date=today,
value=percent)
# % of top 100 articles
top100 = rows['top-100']
try:
percent = 100.0 * float(top100['numerator']) / top100['denominator']
except ZeroDivisionError:
percent = 0.0
WikiMetric.objects.create(
code=L10N_TOP100_CODE,
locale=locale,
product=product,
date=today,
value=percent)
# % of all articles
all_ = rows['all']
try:
percent = 100 * float(all_['numerator']) / all_['denominator']
except ZeroDivisionError:
percent = 0.0
WikiMetric.objects.create(
code=L10N_ALL_CODE,
locale=locale,
product=product,
date=today,
value=percent)
@cronjobs.register
def update_l10n_contributor_metrics(day=None):
"""Update the number of active contributors for each locale/product.
An active contributor is defined as a user that created or reviewed a
revision in the previous calendar month.
"""
if day is None:
day = date.today()
first_of_month = date(day.year, day.month, 1)
if day.month == 1:
previous_first_of_month = date(day.year - 1, 12, 1)
else:
previous_first_of_month = date(day.year, day.month - 1, 1)
# Loop through all locales.
for locale in settings.SUMO_LANGUAGES:
# Loop through all enabled products, including None (really All).
for product in [None] + list(Product.objects.filter(visible=True)):
num = num_active_contributors(
from_date=previous_first_of_month,
to_date=first_of_month,
locale=locale,
product=product)
WikiMetric.objects.create(
code=L10N_ACTIVE_CONTRIBUTORS_CODE,
locale=locale,
product=product,
date=previous_first_of_month,
value=num)
def _get_old_unhelpful():
"""
Gets the data from 2 weeks ago and formats it as output so that we can
get a percent change.
"""
old_formatted = {}
cursor = connection.cursor()
cursor.execute(
"""SELECT doc_id, yes, no
FROM
(SELECT wiki_revision.document_id as doc_id,
SUM(limitedvotes.helpful) as yes,
SUM(NOT(limitedvotes.helpful)) as no
FROM
(SELECT * FROM wiki_helpfulvote
WHERE created <= DATE_SUB(CURDATE(), INTERVAL 1 WEEK)
AND created >= DATE_SUB(DATE_SUB(CURDATE(),
INTERVAL 1 WEEK), INTERVAL 1 WEEK)
) as limitedvotes
INNER JOIN wiki_revision ON
limitedvotes.revision_id=wiki_revision.id
INNER JOIN wiki_document ON
wiki_document.id=wiki_revision.document_id
WHERE wiki_document.locale="en-US"
GROUP BY doc_id
HAVING no > yes
) as calculated""")
old_data = cursor.fetchall()
for data in old_data:
doc_id = data[0]
yes = float(data[1])
no = float(data[2])
total = yes + no
if total == 0:
continue
old_formatted[doc_id] = {'total': total,
'percentage': yes / total}
return old_formatted
def _get_current_unhelpful(old_formatted):
"""Gets the data for the past week and formats it as return value."""
final = {}
cursor = connection.cursor()
cursor.execute(
"""SELECT doc_id, yes, no
FROM
(SELECT wiki_revision.document_id as doc_id,
SUM(limitedvotes.helpful) as yes,
SUM(NOT(limitedvotes.helpful)) as no
FROM
(SELECT * FROM wiki_helpfulvote
WHERE created >= DATE_SUB(CURDATE(), INTERVAL 1 WEEK)
) as limitedvotes
INNER JOIN wiki_revision ON
limitedvotes.revision_id=wiki_revision.id
INNER JOIN wiki_document ON
wiki_document.id=wiki_revision.document_id
WHERE wiki_document.locale="en-US"
GROUP BY doc_id
HAVING no > yes
) as calculated""")
current_data = cursor.fetchall()
for data in current_data:
doc_id = data[0]
yes = float(data[1])
no = float(data[2])
total = yes + no
if total == 0:
continue
percentage = yes / total
if doc_id in old_formatted:
final[doc_id] = {
'total': total,
'currperc': percentage,
'diffperc': percentage - old_formatted[doc_id]['percentage']
}
else:
final[doc_id] = {
'total': total,
'currperc': percentage,
'diffperc': 0.0
}
return final
@cronjobs.register
def cache_most_unhelpful_kb_articles():
"""Calculate and save the most unhelpful KB articles in the past month."""
REDIS_KEY = settings.HELPFULVOTES_UNHELPFUL_KEY
old_formatted = _get_old_unhelpful()
final = _get_current_unhelpful(old_formatted)
if final == {}:
return
def _mean(vals):
"""Argument: List of floats"""
if len(vals) == 0:
return None
return sum(vals) / len(vals)
def _bayes_avg(C, m, R, v):
# Bayesian Average
# C = mean vote, v = number of votes,
# R = mean rating, m = minimum votes to list in topranked
return (C * m + R * v) / (m + v)
mean_perc = _mean([float(final[key]['currperc']) for key in final.keys()])
mean_total = _mean([float(final[key]['total']) for key in final.keys()])
# TODO: Make this into namedtuples
sorted_final = [(key,
final[key]['total'],
final[key]['currperc'],
final[key]['diffperc'],
_bayes_avg(mean_perc, mean_total,
final[key]['currperc'],
final[key]['total']))
for key in final.keys()]
sorted_final.sort(key=lambda entry: entry[4]) # Sort by Bayesian Avg
redis = redis_client('helpfulvotes')
redis.delete(REDIS_KEY)
max_total = max([b[1] for b in sorted_final])
for entry in sorted_final:
doc = Document.objects.get(pk=entry[0])
redis.rpush(REDIS_KEY, (u'%s::%s::%s::%s::%s::%s::%s' %
(entry[0], # Document ID
entry[1], # Total Votes
entry[2], # Current Percentage
entry[3], # Difference in Percentage
1 - (entry[1] / max_total), # Graph Color
doc.slug, # Document slug
doc.title))) # Document title
| bsd-3-clause |
TheCentralLimit/TopSecret | src/main.py | 1 | 3926 | #!/usr/bin/env python2
from __future__ import division, print_function
from astroML.decorators import pickle_results
import numpy as np
import matplotlib as mpl
import matplotlib.pyplot as plt
import scipy
from os import path
from sys import argv
from classifier import classifier
from fit import power_law
import gw
from density import chirp_mass_distribution
from utils import make_sure_path_exists
from chis_code import chis_code
def main(data_filename, output_directory, *features):
# Set random seed.
np.random.seed(1)
# Create output directory if it does not exist.
make_sure_path_exists(output_directory)
# Load data from file.
m_1, m_2, s, rho = np.loadtxt(data_filename, unpack=True)
s = s.astype(bool)
# Compute standard quantitites.
eta = gw.symmetric_mass_ratio(m_1, m_2)
M_c = gw.chirp_mass(m_1, m_2)
x_err = gw.chirp_mass_log_error(M_c, rho)
q = gw.mass_ratio(m_1, m_2)
q_err = gw.mass_ratio_error(M_c, rho)
D = gw.detectable_distance(M_c)
V = (4/3) * np.pi * D**3
T = 0.6
# Transform M_c into log-space.
x = np.log10(M_c)
# Compute the weights for each M_c.
w = 1 / (V*T)
# Generate `n_smooth` evenly-spaced values of log(M_c) for visualization
# purposes.
x_smooth = np.linspace(np.min(x), np.max(x), num=1000)
M_c_smooth = 10**x_smooth
# Create Figure.
fig_density = plt.figure()
# Set layout of Figure such that there are 3 vertically stacked subplots,
# with the bottom one being 1/5 the size of the other two.
gs = mpl.gridspec.GridSpec(2, 1, height_ratios=[5,1])
# Create subplot axes, with shared x-axes.
ax_pdf = fig_density.add_subplot(gs[0])
ax_data = fig_density.add_subplot(gs[1], sharex=ax_pdf)
# Set axis labels.
ax_data.set_xlabel(r"$\mathcal{M}_c\ [M_\odot]$")
ax_pdf.set_ylabel(r"$r(\mathcal{M}_c)$")
# Hide unwanted axis ticks and tick labels.
plt.setp(ax_pdf.xaxis.get_ticklabels(), visible=False)
ax_data.yaxis.set_ticks([])
ax_pdf.semilogx()
ax_data.semilogx()
# Create log-scale Figure.
fig_log_density = plt.figure()
# Set layout of Figure such that there are 3 vertically stacked subplots,
# with the bottom one being 1/5 the size of the other two.
gs = mpl.gridspec.GridSpec(2, 1, height_ratios=[5,1])
# Create subplot axes, with shared x-axes.
ax_log_pdf = fig_log_density.add_subplot(gs[0])
ax_log_data = fig_log_density.add_subplot(gs[1], sharex=ax_log_pdf)
# Set axis labels.
ax_log_data.set_xlabel(r"$\mathcal{M}_c\ [M_\odot]$")
ax_log_pdf.set_ylabel(r"$r(\mathcal{M}_c)$")
# Hide unwanted axis ticks and tick labels.
plt.setp(ax_log_pdf.xaxis.get_ticklabels(), visible=False)
ax_log_data.yaxis.set_ticks([])
ax_log_pdf.loglog()
ax_log_data.semilogx()
r_fn, r_err_fn = chirp_mass_distribution(M_c, M_c_smooth, x, x_smooth, w, s,
ax_pdf, ax_data,
ax_log_pdf, ax_log_data)
if ("power_law" in features) or ("all" in features):
power_law(r_fn, r_err_fn, M_c, M_c_smooth, x, x_smooth,
ax_pdf, ax_data, ax_log_pdf, ax_log_data)
if ("mcmc" in features) or ("all" in features):
lam_mcmc = chis_code(np.log10(M_c),r_fn(np.log10(M_c)),r_err_fn(np.log10(M_c)),output_directory) # (x,y,yerr)
if ("classifier" in features) or ("all" in features):
classifier(m_1, m_2, M_c, s,
ax_pdf, ax_data, ax_log_pdf, ax_log_data,
output_directory)
ax_pdf.legend()
fig_density.savefig(path.join(output_directory,
"chirp-mass-distribution.pdf"))
fig_log_density.savefig(path.join(output_directory,
"chirp-mass-log-distribution.pdf"))
if __name__ == "__main__":
main(*argv[1:])
| mit |
Teamxrtc/webrtc-streaming-node | examples/xrtc-meet/node_modules/node-gyp/gyp/pylib/gyp/generator/gypd.py | 1824 | 3474 | # Copyright (c) 2011 Google Inc. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
"""gypd output module
This module produces gyp input as its output. Output files are given the
.gypd extension to avoid overwriting the .gyp files that they are generated
from. Internal references to .gyp files (such as those found in
"dependencies" sections) are not adjusted to point to .gypd files instead;
unlike other paths, which are relative to the .gyp or .gypd file, such paths
are relative to the directory from which gyp was run to create the .gypd file.
This generator module is intended to be a sample and a debugging aid, hence
the "d" for "debug" in .gypd. It is useful to inspect the results of the
various merges, expansions, and conditional evaluations performed by gyp
and to see a representation of what would be fed to a generator module.
It's not advisable to rename .gypd files produced by this module to .gyp,
because they will have all merges, expansions, and evaluations already
performed and the relevant constructs not present in the output; paths to
dependencies may be wrong; and various sections that do not belong in .gyp
files such as such as "included_files" and "*_excluded" will be present.
Output will also be stripped of comments. This is not intended to be a
general-purpose gyp pretty-printer; for that, you probably just want to
run "pprint.pprint(eval(open('source.gyp').read()))", which will still strip
comments but won't do all of the other things done to this module's output.
The specific formatting of the output generated by this module is subject
to change.
"""
import gyp.common
import errno
import os
import pprint
# These variables should just be spit back out as variable references.
_generator_identity_variables = [
'CONFIGURATION_NAME',
'EXECUTABLE_PREFIX',
'EXECUTABLE_SUFFIX',
'INTERMEDIATE_DIR',
'LIB_DIR',
'PRODUCT_DIR',
'RULE_INPUT_ROOT',
'RULE_INPUT_DIRNAME',
'RULE_INPUT_EXT',
'RULE_INPUT_NAME',
'RULE_INPUT_PATH',
'SHARED_INTERMEDIATE_DIR',
'SHARED_LIB_DIR',
'SHARED_LIB_PREFIX',
'SHARED_LIB_SUFFIX',
'STATIC_LIB_PREFIX',
'STATIC_LIB_SUFFIX',
]
# gypd doesn't define a default value for OS like many other generator
# modules. Specify "-D OS=whatever" on the command line to provide a value.
generator_default_variables = {
}
# gypd supports multiple toolsets
generator_supports_multiple_toolsets = True
# TODO(mark): This always uses <, which isn't right. The input module should
# notify the generator to tell it which phase it is operating in, and this
# module should use < for the early phase and then switch to > for the late
# phase. Bonus points for carrying @ back into the output too.
for v in _generator_identity_variables:
generator_default_variables[v] = '<(%s)' % v
def GenerateOutput(target_list, target_dicts, data, params):
output_files = {}
for qualified_target in target_list:
[input_file, target] = \
gyp.common.ParseQualifiedTarget(qualified_target)[0:2]
if input_file[-4:] != '.gyp':
continue
input_file_stem = input_file[:-4]
output_file = input_file_stem + params['options'].suffix + '.gypd'
if not output_file in output_files:
output_files[output_file] = input_file
for output_file, input_file in output_files.iteritems():
output = open(output_file, 'w')
pprint.pprint(data[input_file], output)
output.close()
| mit |
loxal/zcash | qa/rpc-tests/test_framework/util.py | 5 | 13031 | # Copyright (c) 2014 The Bitcoin Core developers
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
#
# Helpful routines for regression testing
#
# Add python-bitcoinrpc to module search path:
import os
import sys
from decimal import Decimal, ROUND_DOWN
import json
import random
import shutil
import subprocess
import time
import re
from authproxy import AuthServiceProxy, JSONRPCException
from util import *
def p2p_port(n):
return 11000 + n + os.getpid()%999
def rpc_port(n):
return 12000 + n + os.getpid()%999
def check_json_precision():
"""Make sure json library being used does not lose precision converting BTC values"""
n = Decimal("20000000.00000003")
satoshis = int(json.loads(json.dumps(float(n)))*1.0e8)
if satoshis != 2000000000000003:
raise RuntimeError("JSON encode/decode loses precision")
def sync_blocks(rpc_connections, wait=1):
"""
Wait until everybody has the same block count
"""
while True:
counts = [ x.getblockcount() for x in rpc_connections ]
if counts == [ counts[0] ]*len(counts):
break
time.sleep(wait)
def sync_mempools(rpc_connections, wait=1):
"""
Wait until everybody has the same transactions in their memory
pools
"""
while True:
pool = set(rpc_connections[0].getrawmempool())
num_match = 1
for i in range(1, len(rpc_connections)):
if set(rpc_connections[i].getrawmempool()) == pool:
num_match = num_match+1
if num_match == len(rpc_connections):
break
time.sleep(wait)
bitcoind_processes = {}
def initialize_datadir(dirname, n):
datadir = os.path.join(dirname, "node"+str(n))
if not os.path.isdir(datadir):
os.makedirs(datadir)
with open(os.path.join(datadir, "zcash.conf"), 'w') as f:
f.write("regtest=1\n");
f.write("rpcuser=rt\n");
f.write("rpcpassword=rt\n");
f.write("port="+str(p2p_port(n))+"\n");
f.write("rpcport="+str(rpc_port(n))+"\n");
return datadir
def initialize_chain(test_dir):
"""
Create (or copy from cache) a 200-block-long chain and
4 wallets.
bitcoind and bitcoin-cli must be in search path.
"""
if not os.path.isdir(os.path.join("cache", "node0")):
devnull = open("/dev/null", "w+")
# Create cache directories, run bitcoinds:
for i in range(4):
datadir=initialize_datadir("cache", i)
args = [ os.getenv("BITCOIND", "bitcoind"), "-keypool=1", "-datadir="+datadir, "-discover=0" ]
if i > 0:
args.append("-connect=127.0.0.1:"+str(p2p_port(0)))
bitcoind_processes[i] = subprocess.Popen(args)
if os.getenv("PYTHON_DEBUG", ""):
print "initialize_chain: bitcoind started, calling bitcoin-cli -rpcwait getblockcount"
subprocess.check_call([ os.getenv("BITCOINCLI", "bitcoin-cli"), "-datadir="+datadir,
"-rpcwait", "getblockcount"], stdout=devnull)
if os.getenv("PYTHON_DEBUG", ""):
print "initialize_chain: bitcoin-cli -rpcwait getblockcount completed"
devnull.close()
rpcs = []
for i in range(4):
try:
url = "http://rt:rt@127.0.0.1:%d"%(rpc_port(i),)
rpcs.append(AuthServiceProxy(url))
except:
sys.stderr.write("Error connecting to "+url+"\n")
sys.exit(1)
# Create a 200-block-long chain; each of the 4 nodes
# gets 25 mature blocks and 25 immature.
# blocks are created with timestamps 10 minutes apart, starting
# at 1 Jan 2014
block_time = 1388534400
for i in range(2):
for peer in range(4):
for j in range(25):
set_node_times(rpcs, block_time)
rpcs[peer].generate(1)
block_time += 10*60
# Must sync before next peer starts generating blocks
sync_blocks(rpcs)
# Shut them down, and clean up cache directories:
stop_nodes(rpcs)
wait_bitcoinds()
for i in range(4):
os.remove(log_filename("cache", i, "debug.log"))
os.remove(log_filename("cache", i, "db.log"))
os.remove(log_filename("cache", i, "peers.dat"))
os.remove(log_filename("cache", i, "fee_estimates.dat"))
for i in range(4):
from_dir = os.path.join("cache", "node"+str(i))
to_dir = os.path.join(test_dir, "node"+str(i))
shutil.copytree(from_dir, to_dir)
initialize_datadir(test_dir, i) # Overwrite port/rpcport in zcash.conf
def initialize_chain_clean(test_dir, num_nodes):
"""
Create an empty blockchain and num_nodes wallets.
Useful if a test case wants complete control over initialization.
"""
for i in range(num_nodes):
datadir=initialize_datadir(test_dir, i)
def _rpchost_to_args(rpchost):
'''Convert optional IP:port spec to rpcconnect/rpcport args'''
if rpchost is None:
return []
match = re.match('(\[[0-9a-fA-f:]+\]|[^:]+)(?::([0-9]+))?$', rpchost)
if not match:
raise ValueError('Invalid RPC host spec ' + rpchost)
rpcconnect = match.group(1)
rpcport = match.group(2)
if rpcconnect.startswith('['): # remove IPv6 [...] wrapping
rpcconnect = rpcconnect[1:-1]
rv = ['-rpcconnect=' + rpcconnect]
if rpcport:
rv += ['-rpcport=' + rpcport]
return rv
def start_node(i, dirname, extra_args=None, rpchost=None, timewait=None, binary=None):
"""
Start a bitcoind and return RPC connection to it
"""
datadir = os.path.join(dirname, "node"+str(i))
if binary is None:
binary = os.getenv("BITCOIND", "bitcoind")
args = [ binary, "-datadir="+datadir, "-keypool=1", "-discover=0", "-rest" ]
if extra_args is not None: args.extend(extra_args)
bitcoind_processes[i] = subprocess.Popen(args)
devnull = open("/dev/null", "w+")
if os.getenv("PYTHON_DEBUG", ""):
print "start_node: bitcoind started, calling bitcoin-cli -rpcwait getblockcount"
subprocess.check_call([ os.getenv("BITCOINCLI", "bitcoin-cli"), "-datadir="+datadir] +
_rpchost_to_args(rpchost) +
["-rpcwait", "getblockcount"], stdout=devnull)
if os.getenv("PYTHON_DEBUG", ""):
print "start_node: calling bitcoin-cli -rpcwait getblockcount returned"
devnull.close()
url = "http://rt:rt@%s:%d" % (rpchost or '127.0.0.1', rpc_port(i))
if timewait is not None:
proxy = AuthServiceProxy(url, timeout=timewait)
else:
proxy = AuthServiceProxy(url)
proxy.url = url # store URL on proxy for info
return proxy
def start_nodes(num_nodes, dirname, extra_args=None, rpchost=None, binary=None):
"""
Start multiple bitcoinds, return RPC connections to them
"""
if extra_args is None: extra_args = [ None for i in range(num_nodes) ]
if binary is None: binary = [ None for i in range(num_nodes) ]
return [ start_node(i, dirname, extra_args[i], rpchost, binary=binary[i]) for i in range(num_nodes) ]
def log_filename(dirname, n_node, logname):
return os.path.join(dirname, "node"+str(n_node), "regtest", logname)
def stop_node(node, i):
node.stop()
bitcoind_processes[i].wait()
del bitcoind_processes[i]
def stop_nodes(nodes):
for node in nodes:
node.stop()
del nodes[:] # Emptying array closes connections as a side effect
def set_node_times(nodes, t):
for node in nodes:
node.setmocktime(t)
def wait_bitcoinds():
# Wait for all bitcoinds to cleanly exit
for bitcoind in bitcoind_processes.values():
bitcoind.wait()
bitcoind_processes.clear()
def connect_nodes(from_connection, node_num):
ip_port = "127.0.0.1:"+str(p2p_port(node_num))
from_connection.addnode(ip_port, "onetry")
# poll until version handshake complete to avoid race conditions
# with transaction relaying
while any(peer['version'] == 0 for peer in from_connection.getpeerinfo()):
time.sleep(0.1)
def connect_nodes_bi(nodes, a, b):
connect_nodes(nodes[a], b)
connect_nodes(nodes[b], a)
def find_output(node, txid, amount):
"""
Return index to output of txid with value amount
Raises exception if there is none.
"""
txdata = node.getrawtransaction(txid, 1)
for i in range(len(txdata["vout"])):
if txdata["vout"][i]["value"] == amount:
return i
raise RuntimeError("find_output txid %s : %s not found"%(txid,str(amount)))
def gather_inputs(from_node, amount_needed, confirmations_required=1):
"""
Return a random set of unspent txouts that are enough to pay amount_needed
"""
assert(confirmations_required >=0)
utxo = from_node.listunspent(confirmations_required)
random.shuffle(utxo)
inputs = []
total_in = Decimal("0.00000000")
while total_in < amount_needed and len(utxo) > 0:
t = utxo.pop()
total_in += t["amount"]
inputs.append({ "txid" : t["txid"], "vout" : t["vout"], "address" : t["address"] } )
if total_in < amount_needed:
raise RuntimeError("Insufficient funds: need %d, have %d"%(amount_needed, total_in))
return (total_in, inputs)
def make_change(from_node, amount_in, amount_out, fee):
"""
Create change output(s), return them
"""
outputs = {}
amount = amount_out+fee
change = amount_in - amount
if change > amount*2:
# Create an extra change output to break up big inputs
change_address = from_node.getnewaddress()
# Split change in two, being careful of rounding:
outputs[change_address] = Decimal(change/2).quantize(Decimal('0.00000001'), rounding=ROUND_DOWN)
change = amount_in - amount - outputs[change_address]
if change > 0:
outputs[from_node.getnewaddress()] = change
return outputs
def send_zeropri_transaction(from_node, to_node, amount, fee):
"""
Create&broadcast a zero-priority transaction.
Returns (txid, hex-encoded-txdata)
Ensures transaction is zero-priority by first creating a send-to-self,
then using its output
"""
# Create a send-to-self with confirmed inputs:
self_address = from_node.getnewaddress()
(total_in, inputs) = gather_inputs(from_node, amount+fee*2)
outputs = make_change(from_node, total_in, amount+fee, fee)
outputs[self_address] = float(amount+fee)
self_rawtx = from_node.createrawtransaction(inputs, outputs)
self_signresult = from_node.signrawtransaction(self_rawtx)
self_txid = from_node.sendrawtransaction(self_signresult["hex"], True)
vout = find_output(from_node, self_txid, amount+fee)
# Now immediately spend the output to create a 1-input, 1-output
# zero-priority transaction:
inputs = [ { "txid" : self_txid, "vout" : vout } ]
outputs = { to_node.getnewaddress() : float(amount) }
rawtx = from_node.createrawtransaction(inputs, outputs)
signresult = from_node.signrawtransaction(rawtx)
txid = from_node.sendrawtransaction(signresult["hex"], True)
return (txid, signresult["hex"])
def random_zeropri_transaction(nodes, amount, min_fee, fee_increment, fee_variants):
"""
Create a random zero-priority transaction.
Returns (txid, hex-encoded-transaction-data, fee)
"""
from_node = random.choice(nodes)
to_node = random.choice(nodes)
fee = min_fee + fee_increment*random.randint(0,fee_variants)
(txid, txhex) = send_zeropri_transaction(from_node, to_node, amount, fee)
return (txid, txhex, fee)
def random_transaction(nodes, amount, min_fee, fee_increment, fee_variants):
"""
Create a random transaction.
Returns (txid, hex-encoded-transaction-data, fee)
"""
from_node = random.choice(nodes)
to_node = random.choice(nodes)
fee = min_fee + fee_increment*random.randint(0,fee_variants)
(total_in, inputs) = gather_inputs(from_node, amount+fee)
outputs = make_change(from_node, total_in, amount, fee)
outputs[to_node.getnewaddress()] = float(amount)
rawtx = from_node.createrawtransaction(inputs, outputs)
signresult = from_node.signrawtransaction(rawtx)
txid = from_node.sendrawtransaction(signresult["hex"], True)
return (txid, signresult["hex"], fee)
def assert_equal(thing1, thing2):
if thing1 != thing2:
raise AssertionError("%s != %s"%(str(thing1),str(thing2)))
def assert_greater_than(thing1, thing2):
if thing1 <= thing2:
raise AssertionError("%s <= %s"%(str(thing1),str(thing2)))
def assert_raises(exc, fun, *args, **kwds):
try:
fun(*args, **kwds)
except exc:
pass
except Exception as e:
raise AssertionError("Unexpected exception raised: "+type(e).__name__)
else:
raise AssertionError("No exception raised")
| mit |
Metrological/qtwebkit | Tools/QueueStatusServer/handlers/updatestatus.py | 121 | 3253 | # Copyright (C) 2013 Google Inc. 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 Google Inc. 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.
from google.appengine.api import users
from google.appengine.ext import webapp, db
from google.appengine.ext.webapp import template
from handlers.updatebase import UpdateBase
from loggers.recordbotevent import RecordBotEvent
from loggers.recordpatchevent import RecordPatchEvent
from model.attachment import Attachment
from model.queuestatus import QueueStatus
class UpdateStatus(UpdateBase):
def get(self):
self.response.out.write(template.render("templates/updatestatus.html", None))
def _queue_status_from_request(self):
queue_status = QueueStatus()
# FIXME: I think this can be removed, no one uses it.
if users.get_current_user():
queue_status.author = users.get_current_user()
bug_id = self._int_from_request("bug_id")
patch_id = self._int_from_request("patch_id")
queue_name = self.request.get("queue_name")
bot_id = self.request.get("bot_id")
queue_status.queue_name = queue_name
queue_status.bot_id = bot_id
queue_status.active_bug_id = bug_id
queue_status.active_patch_id = patch_id
queue_status.message = self.request.get("status")
results_file = self.request.get("results_file")
queue_status.results_file = db.Blob(str(results_file))
return queue_status
def post(self):
queue_status = self._queue_status_from_request()
queue_status.put()
RecordBotEvent.record_activity(queue_status.queue_name, queue_status.bot_id)
if queue_status.active_patch_id:
RecordPatchEvent.updated(queue_status.active_patch_id, queue_status.queue_name, queue_status.bot_id)
self.response.out.write(queue_status.key().id())
| lgpl-3.0 |
HyperBaton/ansible | lib/ansible/modules/cloud/azure/azure_rm_aks_info.py | 20 | 5333 | #!/usr/bin/python
#
# Copyright (c) 2018 Yuwei Zhou, <yuwzho@microsoft.com>
#
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
from __future__ import absolute_import, division, print_function
__metaclass__ = type
ANSIBLE_METADATA = {'metadata_version': '1.1',
'status': ['preview'],
'supported_by': 'community'}
DOCUMENTATION = '''
---
module: azure_rm_aks_info
version_added: "2.9"
short_description: Get Azure Kubernetes Service facts
description:
- Get facts for a specific Azure Kubernetes Service or all Azure Kubernetes Services.
options:
name:
description:
- Limit results to a specific resource group.
resource_group:
description:
- The resource group to search for the desired Azure Kubernetes Service
tags:
description:
- Limit results by providing a list of tags. Format tags as 'key' or 'key:value'.
show_kubeconfig:
description:
- Show kubeconfig of the AKS cluster.
- Note the operation will cost more network overhead, not recommended when listing AKS.
version_added: "2.8"
choices:
- user
- admin
extends_documentation_fragment:
- azure
author:
- Yuwei Zhou (@yuwzho)
'''
EXAMPLES = '''
- name: Get facts for one Azure Kubernetes Service
azure_rm_aks_info:
name: Testing
resource_group: myResourceGroup
- name: Get facts for all Azure Kubernetes Services
azure_rm_aks_info:
- name: Get facts by tags
azure_rm_aks_info:
tags:
- testing
'''
RETURN = '''
azure_aks:
description: List of Azure Kubernetes Service dicts.
returned: always
type: list
'''
from ansible.module_utils.azure_rm_common import AzureRMModuleBase
try:
from msrestazure.azure_exceptions import CloudError
from azure.common import AzureHttpError
except Exception:
# handled in azure_rm_common
pass
AZURE_OBJECT_CLASS = 'managedClusters'
class AzureRMManagedClusterInfo(AzureRMModuleBase):
"""Utility class to get Azure Kubernetes Service facts"""
def __init__(self):
self.module_args = dict(
name=dict(type='str'),
resource_group=dict(type='str'),
tags=dict(type='list'),
show_kubeconfig=dict(type='str', choices=['user', 'admin']),
)
self.results = dict(
changed=False,
aks=[],
available_versions=[]
)
self.name = None
self.resource_group = None
self.tags = None
self.show_kubeconfig = None
super(AzureRMManagedClusterInfo, self).__init__(
derived_arg_spec=self.module_args,
supports_tags=False,
facts_module=True
)
def exec_module(self, **kwargs):
is_old_facts = self.module._name == 'azure_rm_aks_facts'
if is_old_facts:
self.module.deprecate("The 'azure_rm_aks_facts' module has been renamed to 'azure_rm_aks_info'", version='2.13')
for key in self.module_args:
setattr(self, key, kwargs[key])
self.results['aks'] = (
self.get_item() if self.name
else self.list_items()
)
return self.results
def get_item(self):
"""Get a single Azure Kubernetes Service"""
self.log('Get properties for {0}'.format(self.name))
item = None
result = []
try:
item = self.managedcluster_client.managed_clusters.get(self.resource_group, self.name)
except CloudError:
pass
if item and self.has_tags(item.tags, self.tags):
result = [self.serialize_obj(item, AZURE_OBJECT_CLASS)]
if self.show_kubeconfig:
result[0]['kube_config'] = self.get_aks_kubeconfig(self.resource_group, self.name)
return result
def list_items(self):
"""Get all Azure Kubernetes Services"""
self.log('List all Azure Kubernetes Services')
try:
response = self.managedcluster_client.managed_clusters.list(self.resource_group)
except AzureHttpError as exc:
self.fail('Failed to list all items - {0}'.format(str(exc)))
results = []
for item in response:
if self.has_tags(item.tags, self.tags):
item_dict = self.serialize_obj(item, AZURE_OBJECT_CLASS)
if self.show_kubeconfig:
item_dict['kube_config'] = self.get_aks_kubeconfig(self.resource_group, item.name)
results.append(item_dict)
return results
def get_aks_kubeconfig(self, resource_group, name):
'''
Gets kubeconfig for the specified AKS instance.
:return: AKS instance kubeconfig
'''
if not self.show_kubeconfig:
return ''
role_name = 'cluster{0}'.format(str.capitalize(self.show_kubeconfig))
access_profile = self.managedcluster_client.managed_clusters.get_access_profile(resource_group, name, role_name)
return access_profile.kube_config.decode('utf-8')
def main():
"""Main module execution code path"""
AzureRMManagedClusterInfo()
if __name__ == '__main__':
main()
| gpl-3.0 |
totallybradical/temp_servo2 | tests/wpt/web-platform-tests/websockets/handlers/stash_responder_wsh.py | 206 | 1673 | #!/usr/bin/python
import urlparse, json
from mod_pywebsocket import common, msgutil, util
from mod_pywebsocket.handshake import hybi
from wptserve import stash
address, authkey = stash.load_env_config()
stash = stash.Stash("/stash_responder", address=address, authkey=authkey)
def web_socket_do_extra_handshake(request):
return
def web_socket_transfer_data(request):
while True:
line = request.ws_stream.receive_message()
if line == "echo":
query = request.unparsed_uri.split('?')[1]
GET = dict(urlparse.parse_qsl(query))
# TODO(kristijanburnik): This code should be reused from
# /mixed-content/generic/expect.py or implemented more generally
# for other tests.
path = GET.get("path", request.unparsed_uri.split('?')[0])
key = GET["key"]
action = GET["action"]
if action == "put":
value = GET["value"]
stash.take(key=key, path=path)
stash.put(key=key, value=value, path=path)
response_data = json.dumps({"status": "success", "result": key})
elif action == "purge":
value = stash.take(key=key, path=path)
response_data = json.dumps({"status": "success", "result": value})
elif action == "take":
value = stash.take(key=key, path=path)
if value is None:
status = "allowed"
else:
status = "blocked"
response_data = json.dumps({"status": status, "result": value})
msgutil.send_message(request, response_data)
return
| mpl-2.0 |
wlerin/streamlink | src/streamlink/plugins/abweb.py | 5 | 6792 | import re
import time
from streamlink.cache import Cache
from streamlink.exceptions import PluginError
from streamlink.plugin import Plugin
from streamlink.plugin import PluginArguments, PluginArgument
from streamlink.plugin.api import useragents
from streamlink.stream import HLSStream
from streamlink.utils import update_scheme
class ABweb(Plugin):
'''BIS Livestreams of french AB Groupe
http://www.abweb.com/BIS-TV-Online/
'''
login_url = 'http://www.abweb.com/BIS-TV-Online/Default.aspx'
_url_re = re.compile(r'https?://(?:www\.)?abweb\.com/BIS-TV-Online/bistvo-tele-universal.aspx', re.IGNORECASE)
_hls_re = re.compile(r'''["']file["']:\s?["'](?P<url>[^"']+\.m3u8[^"']+)["']''')
_iframe_re = re.compile(r'''<iframe[^>]+src=["'](?P<url>[^"']+)["']''')
_input_re = re.compile(r'''(<input[^>]+>)''')
_name_re = re.compile(r'''name=["']([^"']*)["']''')
_value_re = re.compile(r'''value=["']([^"']*)["']''')
expires_time = 3600 * 24
arguments = PluginArguments(
PluginArgument(
"username",
required=True,
requires=["password"],
metavar="USERNAME",
help="""
The username associated with your ABweb account, required to access any
ABweb stream.
""",
prompt="Enter ABweb username"
),
PluginArgument(
"password",
sensitive=True,
metavar="PASSWORD",
help="A ABweb account password to use with --abweb-username.",
prompt="Enter ABweb password"
),
PluginArgument(
"purge-credentials",
action="store_true",
help="""
Purge cached ABweb credentials to initiate a new session and
reauthenticate.
""")
)
def __init__(self, url):
super(ABweb, self).__init__(url)
self._session_attributes = Cache(filename='plugin-cache.json', key_prefix='abweb:attributes')
self._authed = self._session_attributes.get('ASP.NET_SessionId') and self._session_attributes.get('.abportail1')
self._expires = self._session_attributes.get('expires', time.time() + self.expires_time)
@classmethod
def can_handle_url(cls, url):
return cls._url_re.match(url) is not None
def set_expires_time_cache(self):
expires = time.time() + self.expires_time
self._session_attributes.set('expires', expires, expires=self.expires_time)
def get_iframe_url(self):
self.logger.debug('search for an iframe')
res = self.session.http.get(self.url)
m = self._iframe_re.search(res.text)
if not m:
raise PluginError('No iframe found.')
iframe_url = m.group('url')
iframe_url = update_scheme('http://', iframe_url)
self.logger.debug('IFRAME URL={0}'.format(iframe_url))
return iframe_url
def get_hls_url(self, iframe_url):
self.logger.debug('search for hls url')
res = self.session.http.get(iframe_url)
m = self._hls_re.search(res.text)
if not m:
raise PluginError('No playlist found.')
return m and m.group('url')
def _login(self, username, password):
'''login and update cached cookies'''
self.logger.debug('login ...')
res = self.session.http.get(self.login_url)
input_list = self._input_re.findall(res.text)
if not input_list:
raise PluginError('Missing input data on login website.')
data = {}
for _input_data in input_list:
try:
_input_name = self._name_re.search(_input_data).group(1)
except AttributeError:
continue
try:
_input_value = self._value_re.search(_input_data).group(1)
except AttributeError:
_input_value = ''
data[_input_name] = _input_value
login_data = {
'ctl00$Login1$UserName': username,
'ctl00$Login1$Password': password,
'ctl00$Login1$LoginButton.x': '0',
'ctl00$Login1$LoginButton.y': '0'
}
data.update(login_data)
res = self.session.http.post(self.login_url, data=data)
for cookie in self.session.http.cookies:
self._session_attributes.set(cookie.name, cookie.value, expires=3600 * 24)
if self._session_attributes.get('ASP.NET_SessionId') and self._session_attributes.get('.abportail1'):
self.logger.debug('New session data')
self.set_expires_time_cache()
return True
else:
self.logger.error('Failed to login, check your username/password')
return False
def _get_streams(self):
self.session.http.headers.update({'User-Agent': useragents.CHROME,
'Referer': 'http://www.abweb.com/BIS-TV-Online/bistvo-tele-universal.aspx'})
login_username = self.get_option('username')
login_password = self.get_option('password')
if self.options.get('purge_credentials'):
self._session_attributes.set('ASP.NET_SessionId', None, expires=0)
self._session_attributes.set('.abportail1', None, expires=0)
self._authed = False
self.logger.info('All credentials were successfully removed.')
if not self._authed and not (login_username and login_password):
self.logger.error('A login for ABweb is required, use --abweb-username USERNAME --abweb-password PASSWORD')
return
if self._authed:
if self._expires < time.time():
self.logger.debug('get new cached cookies')
# login after 24h
self.set_expires_time_cache()
self._authed = False
else:
self.logger.info('Attempting to authenticate using cached cookies')
self.session.http.cookies.set('ASP.NET_SessionId', self._session_attributes.get('ASP.NET_SessionId'))
self.session.http.cookies.set('.abportail1', self._session_attributes.get('.abportail1'))
if not self._authed and not self._login(login_username, login_password):
return
iframe_url = self.get_iframe_url()
self.session.http.headers.update({'Referer': iframe_url})
hls_url = self.get_hls_url(iframe_url)
hls_url = update_scheme(self.url, hls_url)
self.logger.debug('URL={0}'.format(hls_url))
variant = HLSStream.parse_variant_playlist(self.session, hls_url)
if variant:
for q, s in variant.items():
yield q, s
else:
yield 'live', HLSStream(self.session, hls_url)
__plugin__ = ABweb
| bsd-2-clause |
anielsen001/scipy | scipy/interpolate/interpolate_wrapper.py | 78 | 5304 | """ helper_funcs.py.
scavenged from enthought,interpolate
"""
from __future__ import division, print_function, absolute_import
import numpy as np
from . import _interpolate # C extension. Does all the real work.
def atleast_1d_and_contiguous(ary, dtype=np.float64):
return np.atleast_1d(np.ascontiguousarray(ary, dtype))
def nearest(x, y, new_x):
"""
Rounds each new x to nearest input x and returns corresponding input y.
Parameters
----------
x : array_like
Independent values.
y : array_like
Dependent values.
new_x : array_like
The x values to return the interpolate y values.
Returns
-------
nearest : ndarray
Rounds each `new_x` to nearest `x` and returns the corresponding `y`.
"""
shifted_x = np.concatenate((np.array([x[0]-1]), x[0:-1]))
midpoints_of_x = atleast_1d_and_contiguous(.5*(x + shifted_x))
new_x = atleast_1d_and_contiguous(new_x)
TINY = 1e-10
indices = np.searchsorted(midpoints_of_x, new_x+TINY)-1
indices = np.atleast_1d(np.clip(indices, 0, np.Inf).astype(int))
new_y = np.take(y, indices, axis=-1)
return new_y
def linear(x, y, new_x):
"""
Linearly interpolates values in new_x based on the values in x and y
Parameters
----------
x : array_like
Independent values
y : array_like
Dependent values
new_x : array_like
The x values to return the interpolated y values.
"""
x = atleast_1d_and_contiguous(x, np.float64)
y = atleast_1d_and_contiguous(y, np.float64)
new_x = atleast_1d_and_contiguous(new_x, np.float64)
if y.ndim > 2:
raise ValueError("`linear` only works with 1-D or 2-D arrays.")
if len(y.shape) == 2:
new_y = np.zeros((y.shape[0], len(new_x)), np.float64)
for i in range(len(new_y)): # for each row
_interpolate.linear_dddd(x, y[i], new_x, new_y[i])
else:
new_y = np.zeros(len(new_x), np.float64)
_interpolate.linear_dddd(x, y, new_x, new_y)
return new_y
def logarithmic(x, y, new_x):
"""
Linearly interpolates values in new_x based in the log space of y.
Parameters
----------
x : array_like
Independent values.
y : array_like
Dependent values.
new_x : array_like
The x values to return interpolated y values at.
"""
x = atleast_1d_and_contiguous(x, np.float64)
y = atleast_1d_and_contiguous(y, np.float64)
new_x = atleast_1d_and_contiguous(new_x, np.float64)
if y.ndim > 2:
raise ValueError("`linear` only works with 1-D or 2-D arrays.")
if len(y.shape) == 2:
new_y = np.zeros((y.shape[0], len(new_x)), np.float64)
for i in range(len(new_y)):
_interpolate.loginterp_dddd(x, y[i], new_x, new_y[i])
else:
new_y = np.zeros(len(new_x), np.float64)
_interpolate.loginterp_dddd(x, y, new_x, new_y)
return new_y
def block_average_above(x, y, new_x):
"""
Linearly interpolates values in new_x based on the values in x and y.
Parameters
----------
x : array_like
Independent values.
y : array_like
Dependent values.
new_x : array_like
The x values to interpolate y values.
"""
bad_index = None
x = atleast_1d_and_contiguous(x, np.float64)
y = atleast_1d_and_contiguous(y, np.float64)
new_x = atleast_1d_and_contiguous(new_x, np.float64)
if y.ndim > 2:
raise ValueError("`linear` only works with 1-D or 2-D arrays.")
if len(y.shape) == 2:
new_y = np.zeros((y.shape[0], len(new_x)), np.float64)
for i in range(len(new_y)):
bad_index = _interpolate.block_averave_above_dddd(x, y[i],
new_x, new_y[i])
if bad_index is not None:
break
else:
new_y = np.zeros(len(new_x), np.float64)
bad_index = _interpolate.block_average_above_dddd(x, y, new_x, new_y)
if bad_index is not None:
msg = "block_average_above cannot extrapolate and new_x[%d]=%f "\
"is out of the x range (%f, %f)" % \
(bad_index, new_x[bad_index], x[0], x[-1])
raise ValueError(msg)
return new_y
def block(x, y, new_x):
"""
Essentially a step function.
For each `new_x`, finds largest j such that``x[j] < new_x[j]`` and
returns ``y[j]``.
Parameters
----------
x : array_like
Independent values.
y : array_like
Dependent values.
new_x : array_like
The x values used to calculate the interpolated y.
Returns
-------
block : ndarray
Return array, of same length as `x_new`.
"""
# find index of values in x that precede values in x
# This code is a little strange -- we really want a routine that
# returns the index of values where x[j] < x[index]
TINY = 1e-10
indices = np.searchsorted(x, new_x+TINY)-1
# If the value is at the front of the list, it'll have -1.
# In this case, we will use the first (0), element in the array.
# take requires the index array to be an Int
indices = np.atleast_1d(np.clip(indices, 0, np.Inf).astype(int))
new_y = np.take(y, indices, axis=-1)
return new_y
| bsd-3-clause |
SivilTaram/edx-platform | common/djangoapps/config_models/admin.py | 84 | 7287 | """
Admin site models for managing :class:`.ConfigurationModel` subclasses
"""
from django.forms import models
from django.contrib import admin
from django.contrib.admin import ListFilter
from django.core.cache import get_cache, InvalidCacheBackendError
from django.core.urlresolvers import reverse
from django.http import HttpResponseRedirect
from django.shortcuts import get_object_or_404
from django.utils.translation import ugettext_lazy as _
try:
cache = get_cache('configuration') # pylint: disable=invalid-name
except InvalidCacheBackendError:
from django.core.cache import cache
# pylint: disable=protected-access
class ConfigurationModelAdmin(admin.ModelAdmin):
"""
:class:`~django.contrib.admin.ModelAdmin` for :class:`.ConfigurationModel` subclasses
"""
date_hierarchy = 'change_date'
def get_actions(self, request):
return {
'revert': (ConfigurationModelAdmin.revert, 'revert', _('Revert to the selected configuration'))
}
def get_list_display(self, request):
return self.model._meta.get_all_field_names()
# Don't allow deletion of configuration
def has_delete_permission(self, request, obj=None):
return False
# Make all fields read-only when editing an object
def get_readonly_fields(self, request, obj=None):
if obj: # editing an existing object
return self.model._meta.get_all_field_names()
return self.readonly_fields
def add_view(self, request, form_url='', extra_context=None):
# Prepopulate new configuration entries with the value of the current config
get = request.GET.copy()
get.update(models.model_to_dict(self.model.current()))
request.GET = get
return super(ConfigurationModelAdmin, self).add_view(request, form_url, extra_context)
# Hide the save buttons in the change view
def change_view(self, request, object_id, form_url='', extra_context=None):
extra_context = extra_context or {}
extra_context['readonly'] = True
return super(ConfigurationModelAdmin, self).change_view(
request,
object_id,
form_url,
extra_context=extra_context
)
def save_model(self, request, obj, form, change):
obj.changed_by = request.user
super(ConfigurationModelAdmin, self).save_model(request, obj, form, change)
cache.delete(obj.cache_key_name(*(getattr(obj, key_name) for key_name in obj.KEY_FIELDS)))
cache.delete(obj.key_values_cache_key_name())
def revert(self, request, queryset):
"""
Admin action to revert a configuration back to the selected value
"""
if queryset.count() != 1:
self.message_user(request, _("Please select a single configuration to revert to."))
return
target = queryset[0]
target.id = None
self.save_model(request, target, None, False)
self.message_user(request, _("Reverted configuration."))
return HttpResponseRedirect(
reverse(
'admin:{}_{}_change'.format(
self.model._meta.app_label,
self.model._meta.module_name,
),
args=(target.id,),
)
)
class ShowHistoryFilter(ListFilter):
"""
Admin change view filter to show only the most recent (i.e. the "current") row for each
unique key value.
"""
title = _('Status')
parameter_name = 'show_history'
def __init__(self, request, params, model, model_admin):
super(ShowHistoryFilter, self).__init__(request, params, model, model_admin)
if self.parameter_name in params:
value = params.pop(self.parameter_name)
self.used_parameters[self.parameter_name] = value
def has_output(self):
""" Should this filter be shown? """
return True
def choices(self, cl):
""" Returns choices ready to be output in the template. """
show_all = self.used_parameters.get(self.parameter_name) == "1"
return (
{
'display': _('Current Configuration'),
'selected': not show_all,
'query_string': cl.get_query_string({}, [self.parameter_name]),
},
{
'display': _('All (Show History)'),
'selected': show_all,
'query_string': cl.get_query_string({self.parameter_name: "1"}, []),
}
)
def queryset(self, request, queryset):
""" Filter the queryset. No-op since it's done by KeyedConfigurationModelAdmin """
return queryset
def expected_parameters(self):
""" List the query string params used by this filter """
return [self.parameter_name]
class KeyedConfigurationModelAdmin(ConfigurationModelAdmin):
"""
:class:`~django.contrib.admin.ModelAdmin` for :class:`.ConfigurationModel` subclasses that
use extra keys (i.e. they have KEY_FIELDS set).
"""
date_hierarchy = None
list_filter = (ShowHistoryFilter, )
def queryset(self, request):
"""
Annote the queryset with an 'is_active' property that's true iff that row is the most
recently added row for that particular set of KEY_FIELDS values.
Filter the queryset to show only is_active rows by default.
"""
if request.GET.get(ShowHistoryFilter.parameter_name) == '1':
queryset = self.model.objects.with_active_flag()
else:
# Show only the most recent row for each key.
queryset = self.model.objects.current_set()
ordering = self.get_ordering(request)
if ordering:
return queryset.order_by(*ordering)
return queryset
def get_list_display(self, request):
""" Add a link to each row for creating a new row using the chosen row as a template """
return self.model._meta.get_all_field_names() + ['edit_link']
def add_view(self, request, form_url='', extra_context=None):
# Prepopulate new configuration entries with the value of the current config, if given:
if 'source' in request.GET:
get = request.GET.copy()
source_id = int(get.pop('source')[0])
source = get_object_or_404(self.model, pk=source_id)
get.update(models.model_to_dict(source))
request.GET = get
# Call our grandparent's add_view, skipping the parent code
# because the parent code has a different way to prepopulate new configuration entries
# with the value of the latest config, which doesn't make sense for keyed models.
# pylint: disable=bad-super-call
return super(ConfigurationModelAdmin, self).add_view(request, form_url, extra_context)
def edit_link(self, inst):
""" Edit link for the change view """
if not inst.is_active:
return u'--'
update_url = reverse('admin:{}_{}_add'.format(self.model._meta.app_label, self.model._meta.module_name))
update_url += "?source={}".format(inst.pk)
return u'<a href="{}">{}</a>'.format(update_url, _('Update'))
edit_link.allow_tags = True
edit_link.short_description = _('Update')
| agpl-3.0 |
sbuss/TigerShark | tests/test_convert.py | 1 | 3855 | #!/usr/bin/env python
"""Test :mod:`tools.convertPyX12`.
Each TestCase is reasonably similar to the following.
1. Use the ParserBuilder to read the source and build an :mod:`X12.parse` object.
2. Emit SQL. Use the SQL to build a SQLite database.
3. Emit Python Source. Evaluate the Python source to create a parser.
Parse a sample message with that parser.
"""
from __future__ import print_function
import unittest, logging, sys
import os.path
from tigershark.tools import convertPyX12
import cStringIO
import sqlite3.dbapi2 as sqlite
import zipfile
from tigershark.X12.map.source import FlatPythonVisitor
from tigershark.X12.map.SQL import SQLTableVisitor
from tigershark.X12.parse import Message
logger= logging.getLogger( __name__ )
class TestConvertPyx12(unittest.TestCase):
"""Test conversion of PyX12 source XML definitions.
.. note::
The ORIGINAL 278.4010.X094.A1.xml definition was improperly nested.
The 2000A, 2000B, 2000C, 2000D, 2000E, 2000F Loop structure was not flat;
a failure to match the Situational 2000D segment means that are
no more segments were available to match. Why no more? 2000E and 2000F are
nested within 2010D - inexplicably.
"""
def setUp( self ):
# a 278-13 - I think this is a referral response
self.msg1="""ISA*03*gjohnson2 *01*0000000000*ZZ*0000000Eliginet*ZZ*BLUECROSS BLUES*071015*0903*U*00401*000242835*0*P*:~GS*HI*0000000Eliginet*BLUECROSS BLUES*20071015*0903*241935*X*004010X094A1~ST*278*242835~BHT*0078*13*GXEDWLXQYKII*20071015*0903~HL*1**20*1~NM1*X3*2*BLUECROSS BLUESHIELD OF WESTERN NEW*****PI*55204~HL*2*1*21*1~NM1*1P*1*SHEIKH*ZIA****24*161590688~REF*ZH*000524454008~N3*4039 ROUTE 219*SUITE 102~N4*SALAMANCA*NY*14779~HL*3*2*22*1~HI*BF:706.1~NM1*IL*1*burton*amanda****MI*yjw88034076701~DMG*D8*19900815*U~HL*4*3*19*1~NM1*SJ*1*JAREMKO*WILLIAM****24*161482964~REF*ZH*000511127003~N3*2646 WEST STATE STREET*SUITE 405~N4*OLEAN*NY*147600000~HL*5*4*SS*0~TRN*1*1*9999955204~UM*SC*I*******Y~DTP*472*RD8*20071015-20080415~HSD*VS*30~SE*24*242835~GE*1*241935~IEA*1*000242835~"""
bldParser= convertPyX12.ParserBuilder()
xml= convertPyX12.XMLParser()
xml.data( open("tests/map/dataele.xml") )
xml.codes( open("tests/map/codes.xml") )
#The 278 definition doesn't have the correct nested LOOP structure to parse
xml.read( open("tests/map/278.4010.X094.A1.xml") )
#This 278 definition seems to parse better.
#xml.read( os.path.join( "test", "278.4010.X094.A1.xml" ) )
self.x12p= bldParser.build( xml )
sql= SQLTableVisitor( )
self.x12p.visit( sql )
self.sqlCode= sql.getSource()
python= FlatPythonVisitor( "parse_278" )
self.x12p.visit( python )
self.pyCode= python.getSource()
def testPythonOut( self ):
try:
# Creates response parser, parse_278
exec self.pyCode
except Exception, ex:
logger.exception( self.pyCode )
try:
x12mssg= parse_278.unmarshall( self.msg1 )
except Exception, ex:
logger.exception( self.pyCode )
eltPunct, compPunct, segPunct, segments= Message.tokenize(self.msg1)
logger.error( segments )
raise
# TODO: Assert something...
print( "result" )
print( x12mssg )
#print( self.pyCode )
def testSQL( self ):
db= sqlite.connect( ":memory:")
try:
for stmt in self.sqlCode.split( '\n;\n' ):
db.execute( stmt )
except sqlite.OperationalError, e:
logger.exception( stmt )
raise
db.close()
if __name__ == '__main__':
logging.basicConfig(
stream=sys.stderr,
level=logging.DEBUG,
)
unittest.main()
| bsd-3-clause |
atreyv/sympy | sympy/geometry/polygon.py | 33 | 62413 | from __future__ import division, print_function
from sympy.core import Expr, S, Symbol, oo, pi, sympify
from sympy.core.compatibility import as_int, range
from sympy.functions.elementary.complexes import sign
from sympy.functions.elementary.piecewise import Piecewise
from sympy.functions.elementary.trigonometric import cos, sin, tan
from sympy.geometry.exceptions import GeometryError
from sympy.logic import And
from sympy.matrices import Matrix
from sympy.simplify import simplify
from sympy.utilities import default_sort_key
from sympy.utilities.iterables import has_dups, has_variety, uniq
from .entity import GeometryEntity, GeometrySet
from .point import Point
from .ellipse import Circle
from .line import Line, Segment
from .util import _symbol
import warnings
class Polygon(GeometrySet):
"""A two-dimensional polygon.
A simple polygon in space. Can be constructed from a sequence of points
or from a center, radius, number of sides and rotation angle.
Parameters
==========
vertices : sequence of Points
Attributes
==========
area
angles
perimeter
vertices
centroid
sides
Raises
======
GeometryError
If all parameters are not Points.
If the Polygon has intersecting sides.
See Also
========
sympy.geometry.point.Point, sympy.geometry.line.Segment, Triangle
Notes
=====
Polygons are treated as closed paths rather than 2D areas so
some calculations can be be negative or positive (e.g., area)
based on the orientation of the points.
Any consecutive identical points are reduced to a single point
and any points collinear and between two points will be removed
unless they are needed to define an explicit intersection (see examples).
A Triangle, Segment or Point will be returned when there are 3 or
fewer points provided.
Examples
========
>>> from sympy import Point, Polygon, pi
>>> p1, p2, p3, p4, p5 = [(0, 0), (1, 0), (5, 1), (0, 1), (3, 0)]
>>> Polygon(p1, p2, p3, p4)
Polygon(Point2D(0, 0), Point2D(1, 0), Point2D(5, 1), Point2D(0, 1))
>>> Polygon(p1, p2)
Segment(Point2D(0, 0), Point2D(1, 0))
>>> Polygon(p1, p2, p5)
Segment(Point2D(0, 0), Point2D(3, 0))
While the sides of a polygon are not allowed to cross implicitly, they
can do so explicitly. For example, a polygon shaped like a Z with the top
left connecting to the bottom right of the Z must have the point in the
middle of the Z explicitly given:
>>> mid = Point(1, 1)
>>> Polygon((0, 2), (2, 2), mid, (0, 0), (2, 0), mid).area
0
>>> Polygon((0, 2), (2, 2), mid, (2, 0), (0, 0), mid).area
-2
When the the keyword `n` is used to define the number of sides of the
Polygon then a RegularPolygon is created and the other arguments are
interpreted as center, radius and rotation. The unrotated RegularPolygon
will always have a vertex at Point(r, 0) where `r` is the radius of the
circle that circumscribes the RegularPolygon. Its method `spin` can be
used to increment that angle.
>>> p = Polygon((0,0), 1, n=3)
>>> p
RegularPolygon(Point2D(0, 0), 1, 3, 0)
>>> p.vertices[0]
Point2D(1, 0)
>>> p.args[0]
Point2D(0, 0)
>>> p.spin(pi/2)
>>> p.vertices[0]
Point2D(0, 1)
"""
def __new__(cls, *args, **kwargs):
if kwargs.get('n', 0):
n = kwargs.pop('n')
args = list(args)
# return a virtual polygon with n sides
if len(args) == 2: # center, radius
args.append(n)
elif len(args) == 3: # center, radius, rotation
args.insert(2, n)
return RegularPolygon(*args, **kwargs)
vertices = [Point(a) for a in args]
# remove consecutive duplicates
nodup = []
for p in vertices:
if nodup and p == nodup[-1]:
continue
nodup.append(p)
if len(nodup) > 1 and nodup[-1] == nodup[0]:
nodup.pop() # last point was same as first
# remove collinear points unless they are shared points
got = set()
shared = set()
for p in nodup:
if p in got:
shared.add(p)
else:
got.add(p)
i = -3
while i < len(nodup) - 3 and len(nodup) > 2:
a, b, c = nodup[i], nodup[i + 1], nodup[i + 2]
if b not in shared and Point.is_collinear(a, b, c):
nodup.pop(i + 1)
if a == c:
nodup.pop(i)
else:
i += 1
vertices = list(nodup)
if len(vertices) > 3:
rv = GeometryEntity.__new__(cls, *vertices, **kwargs)
elif len(vertices) == 3:
return Triangle(*vertices, **kwargs)
elif len(vertices) == 2:
return Segment(*vertices, **kwargs)
else:
return Point(*vertices, **kwargs)
# reject polygons that have intersecting sides unless the
# intersection is a shared point or a generalized intersection.
# A self-intersecting polygon is easier to detect than a
# random set of segments since only those sides that are not
# part of the convex hull can possibly intersect with other
# sides of the polygon...but for now we use the n**2 algorithm
# and check if any side intersects with any preceding side,
# excluding the ones it is connected to
try:
convex = rv.is_convex()
except ValueError:
convex = True
if not convex:
sides = rv.sides
for i, si in enumerate(sides):
pts = si.args
# exclude the sides connected to si
for j in range(1 if i == len(sides) - 1 else 0, i - 1):
sj = sides[j]
if sj.p1 not in pts and sj.p2 not in pts:
hit = si.intersection(sj)
if not hit:
continue
hit = hit[0]
# don't complain unless the intersection is definite;
# if there are symbols present then the intersection
# might not occur; this may not be necessary since if
# the convex test passed, this will likely pass, too.
# But we are about to raise an error anyway so it
# won't matter too much.
if all(i.is_number for i in hit.args):
raise GeometryError(
"Polygon has intersecting sides.")
return rv
@property
def area(self):
"""
The area of the polygon.
Notes
=====
The area calculation can be positive or negative based on the
orientation of the points.
See Also
========
sympy.geometry.ellipse.Ellipse.area
Examples
========
>>> from sympy import Point, Polygon
>>> p1, p2, p3, p4 = map(Point, [(0, 0), (1, 0), (5, 1), (0, 1)])
>>> poly = Polygon(p1, p2, p3, p4)
>>> poly.area
3
"""
area = 0
args = self.args
for i in range(len(args)):
x1, y1 = args[i - 1].args
x2, y2 = args[i].args
area += x1*y2 - x2*y1
return simplify(area) / 2
@staticmethod
def _isright(a, b, c):
ba = b - a
ca = c - a
t_area = simplify(ba.x*ca.y - ca.x*ba.y)
res = t_area.is_nonpositive
if res is None:
raise ValueError("Can't determine orientation")
return res
@property
def angles(self):
"""The internal angle at each vertex.
Returns
=======
angles : dict
A dictionary where each key is a vertex and each value is the
internal angle at that vertex. The vertices are represented as
Points.
See Also
========
sympy.geometry.point.Point, sympy.geometry.line.LinearEntity.angle_between
Examples
========
>>> from sympy import Point, Polygon
>>> p1, p2, p3, p4 = map(Point, [(0, 0), (1, 0), (5, 1), (0, 1)])
>>> poly = Polygon(p1, p2, p3, p4)
>>> poly.angles[p1]
pi/2
>>> poly.angles[p2]
acos(-4*sqrt(17)/17)
"""
# Determine orientation of points
args = self.vertices
cw = self._isright(args[-1], args[0], args[1])
ret = {}
for i in range(len(args)):
a, b, c = args[i - 2], args[i - 1], args[i]
ang = Line.angle_between(Line(b, a), Line(b, c))
if cw ^ self._isright(a, b, c):
ret[b] = 2*S.Pi - ang
else:
ret[b] = ang
return ret
@property
def perimeter(self):
"""The perimeter of the polygon.
Returns
=======
perimeter : number or Basic instance
See Also
========
sympy.geometry.line.Segment.length
Examples
========
>>> from sympy import Point, Polygon
>>> p1, p2, p3, p4 = map(Point, [(0, 0), (1, 0), (5, 1), (0, 1)])
>>> poly = Polygon(p1, p2, p3, p4)
>>> poly.perimeter
sqrt(17) + 7
"""
p = 0
args = self.vertices
for i in range(len(args)):
p += args[i - 1].distance(args[i])
return simplify(p)
@property
def vertices(self):
"""The vertices of the polygon.
Returns
=======
vertices : tuple of Points
Notes
=====
When iterating over the vertices, it is more efficient to index self
rather than to request the vertices and index them. Only use the
vertices when you want to process all of them at once. This is even
more important with RegularPolygons that calculate each vertex.
See Also
========
sympy.geometry.point.Point
Examples
========
>>> from sympy import Point, Polygon
>>> p1, p2, p3, p4 = map(Point, [(0, 0), (1, 0), (5, 1), (0, 1)])
>>> poly = Polygon(p1, p2, p3, p4)
>>> poly.vertices
(Point2D(0, 0), Point2D(1, 0), Point2D(5, 1), Point2D(0, 1))
>>> poly.args[0]
Point2D(0, 0)
"""
return self.args
@property
def centroid(self):
"""The centroid of the polygon.
Returns
=======
centroid : Point
See Also
========
sympy.geometry.point.Point, sympy.geometry.util.centroid
Examples
========
>>> from sympy import Point, Polygon
>>> p1, p2, p3, p4 = map(Point, [(0, 0), (1, 0), (5, 1), (0, 1)])
>>> poly = Polygon(p1, p2, p3, p4)
>>> poly.centroid
Point2D(31/18, 11/18)
"""
A = 1/(6*self.area)
cx, cy = 0, 0
args = self.args
for i in range(len(args)):
x1, y1 = args[i - 1].args
x2, y2 = args[i].args
v = x1*y2 - x2*y1
cx += v*(x1 + x2)
cy += v*(y1 + y2)
return Point(simplify(A*cx), simplify(A*cy))
@property
def sides(self):
"""The line segments that form the sides of the polygon.
Returns
=======
sides : list of sides
Each side is a Segment.
Notes
=====
The Segments that represent the sides are an undirected
line segment so cannot be used to tell the orientation of
the polygon.
See Also
========
sympy.geometry.point.Point, sympy.geometry.line.Segment
Examples
========
>>> from sympy import Point, Polygon
>>> p1, p2, p3, p4 = map(Point, [(0, 0), (1, 0), (5, 1), (0, 1)])
>>> poly = Polygon(p1, p2, p3, p4)
>>> poly.sides
[Segment(Point2D(0, 0), Point2D(1, 0)),
Segment(Point2D(1, 0), Point2D(5, 1)),
Segment(Point2D(0, 1), Point2D(5, 1)), Segment(Point2D(0, 0), Point2D(0, 1))]
"""
res = []
args = self.vertices
for i in range(-len(args), 0):
res.append(Segment(args[i], args[i + 1]))
return res
@property
def bounds(self):
"""Return a tuple (xmin, ymin, xmax, ymax) representing the bounding
rectangle for the geometric figure.
"""
verts = self.vertices
xs = [p.x for p in verts]
ys = [p.y for p in verts]
return (min(xs), min(ys), max(xs), max(ys))
def is_convex(self):
"""Is the polygon convex?
A polygon is convex if all its interior angles are less than 180
degrees.
Returns
=======
is_convex : boolean
True if this polygon is convex, False otherwise.
See Also
========
sympy.geometry.util.convex_hull
Examples
========
>>> from sympy import Point, Polygon
>>> p1, p2, p3, p4 = map(Point, [(0, 0), (1, 0), (5, 1), (0, 1)])
>>> poly = Polygon(p1, p2, p3, p4)
>>> poly.is_convex()
True
"""
# Determine orientation of points
args = self.vertices
cw = self._isright(args[-2], args[-1], args[0])
for i in range(1, len(args)):
if cw ^ self._isright(args[i - 2], args[i - 1], args[i]):
return False
return True
def encloses_point(self, p):
"""
Return True if p is enclosed by (is inside of) self.
Notes
=====
Being on the border of self is considered False.
Parameters
==========
p : Point
Returns
=======
encloses_point : True, False or None
See Also
========
sympy.geometry.point.Point, sympy.geometry.ellipse.Ellipse.encloses_point
Examples
========
>>> from sympy import Polygon, Point
>>> from sympy.abc import t
>>> p = Polygon((0, 0), (4, 0), (4, 4))
>>> p.encloses_point(Point(2, 1))
True
>>> p.encloses_point(Point(2, 2))
False
>>> p.encloses_point(Point(5, 5))
False
References
==========
[1] http://www.ariel.com.au/a/python-point-int-poly.html
"""
p = Point(p)
if p in self.vertices or any(p in s for s in self.sides):
return False
# move to p, checking that the result is numeric
lit = []
for v in self.vertices:
lit.append(v - p) # the difference is simplified
if lit[-1].free_symbols:
return None
poly = Polygon(*lit)
# polygon closure is assumed in the following test but Polygon removes duplicate pts so
# the last point has to be added so all sides are computed. Using Polygon.sides is
# not good since Segments are unordered.
args = poly.args
indices = list(range(-len(args), 1))
if poly.is_convex():
orientation = None
for i in indices:
a = args[i]
b = args[i + 1]
test = ((-a.y)*(b.x - a.x) - (-a.x)*(b.y - a.y)).is_negative
if orientation is None:
orientation = test
elif test is not orientation:
return False
return True
hit_odd = False
p1x, p1y = args[0].args
for i in indices[1:]:
p2x, p2y = args[i].args
if 0 > min(p1y, p2y):
if 0 <= max(p1y, p2y):
if 0 <= max(p1x, p2x):
if p1y != p2y:
xinters = (-p1y)*(p2x - p1x)/(p2y - p1y) + p1x
if p1x == p2x or 0 <= xinters:
hit_odd = not hit_odd
p1x, p1y = p2x, p2y
return hit_odd
def arbitrary_point(self, parameter='t'):
"""A parameterized point on the polygon.
The parameter, varying from 0 to 1, assigns points to the position on
the perimeter that is that fraction of the total perimeter. So the
point evaluated at t=1/2 would return the point from the first vertex
that is 1/2 way around the polygon.
Parameters
==========
parameter : str, optional
Default value is 't'.
Returns
=======
arbitrary_point : Point
Raises
======
ValueError
When `parameter` already appears in the Polygon's definition.
See Also
========
sympy.geometry.point.Point
Examples
========
>>> from sympy import Polygon, S, Symbol
>>> t = Symbol('t', real=True)
>>> tri = Polygon((0, 0), (1, 0), (1, 1))
>>> p = tri.arbitrary_point('t')
>>> perimeter = tri.perimeter
>>> s1, s2 = [s.length for s in tri.sides[:2]]
>>> p.subs(t, (s1 + s2/2)/perimeter)
Point2D(1, 1/2)
"""
t = _symbol(parameter)
if t.name in (f.name for f in self.free_symbols):
raise ValueError('Symbol %s already appears in object and cannot be used as a parameter.' % t.name)
sides = []
perimeter = self.perimeter
perim_fraction_start = 0
for s in self.sides:
side_perim_fraction = s.length/perimeter
perim_fraction_end = perim_fraction_start + side_perim_fraction
pt = s.arbitrary_point(parameter).subs(
t, (t - perim_fraction_start)/side_perim_fraction)
sides.append(
(pt, (And(perim_fraction_start <= t, t < perim_fraction_end))))
perim_fraction_start = perim_fraction_end
return Piecewise(*sides)
def plot_interval(self, parameter='t'):
"""The plot interval for the default geometric plot of the polygon.
Parameters
==========
parameter : str, optional
Default value is 't'.
Returns
=======
plot_interval : list (plot interval)
[parameter, lower_bound, upper_bound]
Examples
========
>>> from sympy import Polygon
>>> p = Polygon((0, 0), (1, 0), (1, 1))
>>> p.plot_interval()
[t, 0, 1]
"""
t = Symbol(parameter, real=True)
return [t, 0, 1]
def intersection(self, o):
"""The intersection of two polygons.
The intersection may be empty and can contain individual Points and
complete Line Segments.
Parameters
==========
other: Polygon
Returns
=======
intersection : list
The list of Segments and Points
See Also
========
sympy.geometry.point.Point, sympy.geometry.line.Segment
Examples
========
>>> from sympy import Point, Polygon
>>> p1, p2, p3, p4 = map(Point, [(0, 0), (1, 0), (5, 1), (0, 1)])
>>> poly1 = Polygon(p1, p2, p3, p4)
>>> p5, p6, p7 = map(Point, [(3, 2), (1, -1), (0, 2)])
>>> poly2 = Polygon(p5, p6, p7)
>>> poly1.intersection(poly2)
[Point2D(2/3, 0), Point2D(9/5, 1/5), Point2D(7/3, 1), Point2D(1/3, 1)]
"""
res = []
for side in self.sides:
inter = side.intersection(o)
if inter is not None:
res.extend(inter)
return list(uniq(res))
def distance(self, o):
"""
Returns the shortest distance between self and o.
If o is a point, then self does not need to be convex.
If o is another polygon self and o must be complex.
Examples
========
>>> from sympy import Point, Polygon, RegularPolygon
>>> p1, p2 = map(Point, [(0, 0), (7, 5)])
>>> poly = Polygon(*RegularPolygon(p1, 1, 3).vertices)
>>> poly.distance(p2)
sqrt(61)
"""
if isinstance(o, Point):
dist = oo
for side in self.sides:
current = side.distance(o)
if current == 0:
return S.Zero
elif current < dist:
dist = current
return dist
elif isinstance(o, Polygon) and self.is_convex() and o.is_convex():
return self._do_poly_distance(o)
raise NotImplementedError()
def _do_poly_distance(self, e2):
"""
Calculates the least distance between the exteriors of two
convex polygons e1 and e2. Does not check for the convexity
of the polygons as this is checked by Polygon.distance.
Notes
=====
- Prints a warning if the two polygons possibly intersect as the return
value will not be valid in such a case. For a more through test of
intersection use intersection().
See Also
========
sympy.geometry.point.Point.distance
Examples
========
>>> from sympy.geometry import Point, Polygon
>>> square = Polygon(Point(0, 0), Point(0, 1), Point(1, 1), Point(1, 0))
>>> triangle = Polygon(Point(1, 2), Point(2, 2), Point(2, 1))
>>> square._do_poly_distance(triangle)
sqrt(2)/2
Description of method used
==========================
Method:
[1] http://cgm.cs.mcgill.ca/~orm/mind2p.html
Uses rotating calipers:
[2] http://en.wikipedia.org/wiki/Rotating_calipers
and antipodal points:
[3] http://en.wikipedia.org/wiki/Antipodal_point
"""
e1 = self
'''Tests for a possible intersection between the polygons and outputs a warning'''
e1_center = e1.centroid
e2_center = e2.centroid
e1_max_radius = S.Zero
e2_max_radius = S.Zero
for vertex in e1.vertices:
r = Point.distance(e1_center, vertex)
if e1_max_radius < r:
e1_max_radius = r
for vertex in e2.vertices:
r = Point.distance(e2_center, vertex)
if e2_max_radius < r:
e2_max_radius = r
center_dist = Point.distance(e1_center, e2_center)
if center_dist <= e1_max_radius + e2_max_radius:
warnings.warn("Polygons may intersect producing erroneous output")
'''
Find the upper rightmost vertex of e1 and the lowest leftmost vertex of e2
'''
e1_ymax = Point(0, -oo)
e2_ymin = Point(0, oo)
for vertex in e1.vertices:
if vertex.y > e1_ymax.y or (vertex.y == e1_ymax.y and vertex.x > e1_ymax.x):
e1_ymax = vertex
for vertex in e2.vertices:
if vertex.y < e2_ymin.y or (vertex.y == e2_ymin.y and vertex.x < e2_ymin.x):
e2_ymin = vertex
min_dist = Point.distance(e1_ymax, e2_ymin)
'''
Produce a dictionary with vertices of e1 as the keys and, for each vertex, the points
to which the vertex is connected as its value. The same is then done for e2.
'''
e1_connections = {}
e2_connections = {}
for side in e1.sides:
if side.p1 in e1_connections:
e1_connections[side.p1].append(side.p2)
else:
e1_connections[side.p1] = [side.p2]
if side.p2 in e1_connections:
e1_connections[side.p2].append(side.p1)
else:
e1_connections[side.p2] = [side.p1]
for side in e2.sides:
if side.p1 in e2_connections:
e2_connections[side.p1].append(side.p2)
else:
e2_connections[side.p1] = [side.p2]
if side.p2 in e2_connections:
e2_connections[side.p2].append(side.p1)
else:
e2_connections[side.p2] = [side.p1]
e1_current = e1_ymax
e2_current = e2_ymin
support_line = Line(Point(S.Zero, S.Zero), Point(S.One, S.Zero))
'''
Determine which point in e1 and e2 will be selected after e2_ymin and e1_ymax,
this information combined with the above produced dictionaries determines the
path that will be taken around the polygons
'''
point1 = e1_connections[e1_ymax][0]
point2 = e1_connections[e1_ymax][1]
angle1 = support_line.angle_between(Line(e1_ymax, point1))
angle2 = support_line.angle_between(Line(e1_ymax, point2))
if angle1 < angle2:
e1_next = point1
elif angle2 < angle1:
e1_next = point2
elif Point.distance(e1_ymax, point1) > Point.distance(e1_ymax, point2):
e1_next = point2
else:
e1_next = point1
point1 = e2_connections[e2_ymin][0]
point2 = e2_connections[e2_ymin][1]
angle1 = support_line.angle_between(Line(e2_ymin, point1))
angle2 = support_line.angle_between(Line(e2_ymin, point2))
if angle1 > angle2:
e2_next = point1
elif angle2 > angle1:
e2_next = point2
elif Point.distance(e2_ymin, point1) > Point.distance(e2_ymin, point2):
e2_next = point2
else:
e2_next = point1
'''
Loop which determins the distance between anti-podal pairs and updates the
minimum distance accordingly. It repeats until it reaches the starting position.
'''
while True:
e1_angle = support_line.angle_between(Line(e1_current, e1_next))
e2_angle = pi - support_line.angle_between(Line(
e2_current, e2_next))
if (e1_angle < e2_angle) is True:
support_line = Line(e1_current, e1_next)
e1_segment = Segment(e1_current, e1_next)
min_dist_current = e1_segment.distance(e2_current)
if min_dist_current.evalf() < min_dist.evalf():
min_dist = min_dist_current
if e1_connections[e1_next][0] != e1_current:
e1_current = e1_next
e1_next = e1_connections[e1_next][0]
else:
e1_current = e1_next
e1_next = e1_connections[e1_next][1]
elif (e1_angle > e2_angle) is True:
support_line = Line(e2_next, e2_current)
e2_segment = Segment(e2_current, e2_next)
min_dist_current = e2_segment.distance(e1_current)
if min_dist_current.evalf() < min_dist.evalf():
min_dist = min_dist_current
if e2_connections[e2_next][0] != e2_current:
e2_current = e2_next
e2_next = e2_connections[e2_next][0]
else:
e2_current = e2_next
e2_next = e2_connections[e2_next][1]
else:
support_line = Line(e1_current, e1_next)
e1_segment = Segment(e1_current, e1_next)
e2_segment = Segment(e2_current, e2_next)
min1 = e1_segment.distance(e2_next)
min2 = e2_segment.distance(e1_next)
min_dist_current = min(min1, min2)
if min_dist_current.evalf() < min_dist.evalf():
min_dist = min_dist_current
if e1_connections[e1_next][0] != e1_current:
e1_current = e1_next
e1_next = e1_connections[e1_next][0]
else:
e1_current = e1_next
e1_next = e1_connections[e1_next][1]
if e2_connections[e2_next][0] != e2_current:
e2_current = e2_next
e2_next = e2_connections[e2_next][0]
else:
e2_current = e2_next
e2_next = e2_connections[e2_next][1]
if e1_current == e1_ymax and e2_current == e2_ymin:
break
return min_dist
def _svg(self, scale_factor=1., fill_color="#66cc99"):
"""Returns SVG path element for the Polygon.
Parameters
==========
scale_factor : float
Multiplication factor for the SVG stroke-width. Default is 1.
fill_color : str, optional
Hex string for fill color. Default is "#66cc99".
"""
from sympy.core.evalf import N
verts = map(N, self.vertices)
coords = ["{0},{1}".format(p.x, p.y) for p in verts]
path = "M {0} L {1} z".format(coords[0], " L ".join(coords[1:]))
return (
'<path fill-rule="evenodd" fill="{2}" stroke="#555555" '
'stroke-width="{0}" opacity="0.6" d="{1}" />'
).format(2. * scale_factor, path, fill_color)
def __eq__(self, o):
if not isinstance(o, Polygon) or len(self.args) != len(o.args):
return False
# See if self can ever be traversed (cw or ccw) from any of its
# vertices to match all points of o
args = self.args
oargs = o.args
n = len(args)
o0 = oargs[0]
for i0 in range(n):
if args[i0] == o0:
if all(args[(i0 + i) % n] == oargs[i] for i in range(1, n)):
return True
if all(args[(i0 - i) % n] == oargs[i] for i in range(1, n)):
return True
return False
def __hash__(self):
return super(Polygon, self).__hash__()
def __contains__(self, o):
"""
Return True if o is contained within the boundary lines of self.altitudes
Parameters
==========
other : GeometryEntity
Returns
=======
contained in : bool
The points (and sides, if applicable) are contained in self.
See Also
========
sympy.geometry.entity.GeometryEntity.encloses
Examples
========
>>> from sympy import Line, Segment, Point
>>> p = Point(0, 0)
>>> q = Point(1, 1)
>>> s = Segment(p, q*2)
>>> l = Line(p, q)
>>> p in q
False
>>> p in s
True
>>> q*3 in s
False
>>> s in l
True
"""
if isinstance(o, Polygon):
return self == o
elif isinstance(o, Segment):
return any(o in s for s in self.sides)
elif isinstance(o, Point):
if o in self.vertices:
return True
for side in self.sides:
if o in side:
return True
return False
class RegularPolygon(Polygon):
"""
A regular polygon.
Such a polygon has all internal angles equal and all sides the same length.
Parameters
==========
center : Point
radius : number or Basic instance
The distance from the center to a vertex
n : int
The number of sides
Attributes
==========
vertices
center
radius
rotation
apothem
interior_angle
exterior_angle
circumcircle
incircle
angles
Raises
======
GeometryError
If the `center` is not a Point, or the `radius` is not a number or Basic
instance, or the number of sides, `n`, is less than three.
Notes
=====
A RegularPolygon can be instantiated with Polygon with the kwarg n.
Regular polygons are instantiated with a center, radius, number of sides
and a rotation angle. Whereas the arguments of a Polygon are vertices, the
vertices of the RegularPolygon must be obtained with the vertices method.
See Also
========
sympy.geometry.point.Point, Polygon
Examples
========
>>> from sympy.geometry import RegularPolygon, Point
>>> r = RegularPolygon(Point(0, 0), 5, 3)
>>> r
RegularPolygon(Point2D(0, 0), 5, 3, 0)
>>> r.vertices[0]
Point2D(5, 0)
"""
__slots__ = ['_n', '_center', '_radius', '_rot']
def __new__(self, c, r, n, rot=0, **kwargs):
r, n, rot = map(sympify, (r, n, rot))
c = Point(c)
if not isinstance(r, Expr):
raise GeometryError("r must be an Expr object, not %s" % r)
if n.is_Number:
as_int(n) # let an error raise if necessary
if n < 3:
raise GeometryError("n must be a >= 3, not %s" % n)
obj = GeometryEntity.__new__(self, c, r, n, **kwargs)
obj._n = n
obj._center = c
obj._radius = r
obj._rot = rot
return obj
@property
def args(self):
"""
Returns the center point, the radius,
the number of sides, and the orientation angle.
Examples
========
>>> from sympy import RegularPolygon, Point
>>> r = RegularPolygon(Point(0, 0), 5, 3)
>>> r.args
(Point2D(0, 0), 5, 3, 0)
"""
return self._center, self._radius, self._n, self._rot
def __str__(self):
return 'RegularPolygon(%s, %s, %s, %s)' % tuple(self.args)
def __repr__(self):
return 'RegularPolygon(%s, %s, %s, %s)' % tuple(self.args)
@property
def area(self):
"""Returns the area.
Examples
========
>>> from sympy.geometry import RegularPolygon
>>> square = RegularPolygon((0, 0), 1, 4)
>>> square.area
2
>>> _ == square.length**2
True
"""
c, r, n, rot = self.args
return sign(r)*n*self.length**2/(4*tan(pi/n))
@property
def length(self):
"""Returns the length of the sides.
The half-length of the side and the apothem form two legs
of a right triangle whose hypotenuse is the radius of the
regular polygon.
Examples
========
>>> from sympy.geometry import RegularPolygon
>>> from sympy import sqrt
>>> s = square_in_unit_circle = RegularPolygon((0, 0), 1, 4)
>>> s.length
sqrt(2)
>>> sqrt((_/2)**2 + s.apothem**2) == s.radius
True
"""
return self.radius*2*sin(pi/self._n)
@property
def center(self):
"""The center of the RegularPolygon
This is also the center of the circumscribing circle.
Returns
=======
center : Point
See Also
========
sympy.geometry.point.Point, sympy.geometry.ellipse.Ellipse.center
Examples
========
>>> from sympy.geometry import RegularPolygon, Point
>>> rp = RegularPolygon(Point(0, 0), 5, 4)
>>> rp.center
Point2D(0, 0)
"""
return self._center
centroid = center
@property
def circumcenter(self):
"""
Alias for center.
Examples
========
>>> from sympy.geometry import RegularPolygon, Point
>>> rp = RegularPolygon(Point(0, 0), 5, 4)
>>> rp.circumcenter
Point2D(0, 0)
"""
return self.center
@property
def radius(self):
"""Radius of the RegularPolygon
This is also the radius of the circumscribing circle.
Returns
=======
radius : number or instance of Basic
See Also
========
sympy.geometry.line.Segment.length, sympy.geometry.ellipse.Circle.radius
Examples
========
>>> from sympy import Symbol
>>> from sympy.geometry import RegularPolygon, Point
>>> radius = Symbol('r')
>>> rp = RegularPolygon(Point(0, 0), radius, 4)
>>> rp.radius
r
"""
return self._radius
@property
def circumradius(self):
"""
Alias for radius.
Examples
========
>>> from sympy import Symbol
>>> from sympy.geometry import RegularPolygon, Point
>>> radius = Symbol('r')
>>> rp = RegularPolygon(Point(0, 0), radius, 4)
>>> rp.circumradius
r
"""
return self.radius
@property
def rotation(self):
"""CCW angle by which the RegularPolygon is rotated
Returns
=======
rotation : number or instance of Basic
Examples
========
>>> from sympy import pi
>>> from sympy.geometry import RegularPolygon, Point
>>> RegularPolygon(Point(0, 0), 3, 4, pi).rotation
pi
"""
return self._rot
@property
def apothem(self):
"""The inradius of the RegularPolygon.
The apothem/inradius is the radius of the inscribed circle.
Returns
=======
apothem : number or instance of Basic
See Also
========
sympy.geometry.line.Segment.length, sympy.geometry.ellipse.Circle.radius
Examples
========
>>> from sympy import Symbol
>>> from sympy.geometry import RegularPolygon, Point
>>> radius = Symbol('r')
>>> rp = RegularPolygon(Point(0, 0), radius, 4)
>>> rp.apothem
sqrt(2)*r/2
"""
return self.radius * cos(S.Pi/self._n)
@property
def inradius(self):
"""
Alias for apothem.
Examples
========
>>> from sympy import Symbol
>>> from sympy.geometry import RegularPolygon, Point
>>> radius = Symbol('r')
>>> rp = RegularPolygon(Point(0, 0), radius, 4)
>>> rp.inradius
sqrt(2)*r/2
"""
return self.apothem
@property
def interior_angle(self):
"""Measure of the interior angles.
Returns
=======
interior_angle : number
See Also
========
sympy.geometry.line.LinearEntity.angle_between
Examples
========
>>> from sympy.geometry import RegularPolygon, Point
>>> rp = RegularPolygon(Point(0, 0), 4, 8)
>>> rp.interior_angle
3*pi/4
"""
return (self._n - 2)*S.Pi/self._n
@property
def exterior_angle(self):
"""Measure of the exterior angles.
Returns
=======
exterior_angle : number
See Also
========
sympy.geometry.line.LinearEntity.angle_between
Examples
========
>>> from sympy.geometry import RegularPolygon, Point
>>> rp = RegularPolygon(Point(0, 0), 4, 8)
>>> rp.exterior_angle
pi/4
"""
return 2*S.Pi/self._n
@property
def circumcircle(self):
"""The circumcircle of the RegularPolygon.
Returns
=======
circumcircle : Circle
See Also
========
circumcenter, sympy.geometry.ellipse.Circle
Examples
========
>>> from sympy.geometry import RegularPolygon, Point
>>> rp = RegularPolygon(Point(0, 0), 4, 8)
>>> rp.circumcircle
Circle(Point2D(0, 0), 4)
"""
return Circle(self.center, self.radius)
@property
def incircle(self):
"""The incircle of the RegularPolygon.
Returns
=======
incircle : Circle
See Also
========
inradius, sympy.geometry.ellipse.Circle
Examples
========
>>> from sympy.geometry import RegularPolygon, Point
>>> rp = RegularPolygon(Point(0, 0), 4, 7)
>>> rp.incircle
Circle(Point2D(0, 0), 4*cos(pi/7))
"""
return Circle(self.center, self.apothem)
@property
def angles(self):
"""
Returns a dictionary with keys, the vertices of the Polygon,
and values, the interior angle at each vertex.
Examples
========
>>> from sympy import RegularPolygon, Point
>>> r = RegularPolygon(Point(0, 0), 5, 3)
>>> r.angles
{Point2D(-5/2, -5*sqrt(3)/2): pi/3,
Point2D(-5/2, 5*sqrt(3)/2): pi/3,
Point2D(5, 0): pi/3}
"""
ret = {}
ang = self.interior_angle
for v in self.vertices:
ret[v] = ang
return ret
def encloses_point(self, p):
"""
Return True if p is enclosed by (is inside of) self.
Notes
=====
Being on the border of self is considered False.
The general Polygon.encloses_point method is called only if
a point is not within or beyond the incircle or circumcircle,
respectively.
Parameters
==========
p : Point
Returns
=======
encloses_point : True, False or None
See Also
========
sympy.geometry.ellipse.Ellipse.encloses_point
Examples
========
>>> from sympy import RegularPolygon, S, Point, Symbol
>>> p = RegularPolygon((0, 0), 3, 4)
>>> p.encloses_point(Point(0, 0))
True
>>> r, R = p.inradius, p.circumradius
>>> p.encloses_point(Point((r + R)/2, 0))
True
>>> p.encloses_point(Point(R/2, R/2 + (R - r)/10))
False
>>> t = Symbol('t', real=True)
>>> p.encloses_point(p.arbitrary_point().subs(t, S.Half))
False
>>> p.encloses_point(Point(5, 5))
False
"""
c = self.center
d = Segment(c, p).length
if d >= self.radius:
return False
elif d < self.inradius:
return True
else:
# now enumerate the RegularPolygon like a general polygon.
return Polygon.encloses_point(self, p)
def spin(self, angle):
"""Increment *in place* the virtual Polygon's rotation by ccw angle.
See also: rotate method which moves the center.
>>> from sympy import Polygon, Point, pi
>>> r = Polygon(Point(0,0), 1, n=3)
>>> r.vertices[0]
Point2D(1, 0)
>>> r.spin(pi/6)
>>> r.vertices[0]
Point2D(sqrt(3)/2, 1/2)
See Also
========
rotation
rotate : Creates a copy of the RegularPolygon rotated about a Point
"""
self._rot += angle
def rotate(self, angle, pt=None):
"""Override GeometryEntity.rotate to first rotate the RegularPolygon
about its center.
>>> from sympy import Point, RegularPolygon, Polygon, pi
>>> t = RegularPolygon(Point(1, 0), 1, 3)
>>> t.vertices[0] # vertex on x-axis
Point2D(2, 0)
>>> t.rotate(pi/2).vertices[0] # vertex on y axis now
Point2D(0, 2)
See Also
========
rotation
spin : Rotates a RegularPolygon in place
"""
r = type(self)(*self.args) # need a copy or else changes are in-place
r._rot += angle
return GeometryEntity.rotate(r, angle, pt)
def scale(self, x=1, y=1, pt=None):
"""Override GeometryEntity.scale since it is the radius that must be
scaled (if x == y) or else a new Polygon must be returned.
>>> from sympy import RegularPolygon
Symmetric scaling returns a RegularPolygon:
>>> RegularPolygon((0, 0), 1, 4).scale(2, 2)
RegularPolygon(Point2D(0, 0), 2, 4, 0)
Asymmetric scaling returns a kite as a Polygon:
>>> RegularPolygon((0, 0), 1, 4).scale(2, 1)
Polygon(Point2D(2, 0), Point2D(0, 1), Point2D(-2, 0), Point2D(0, -1))
"""
if pt:
pt = Point(pt)
return self.translate(*(-pt).args).scale(x, y).translate(*pt.args)
if x != y:
return Polygon(*self.vertices).scale(x, y)
c, r, n, rot = self.args
r *= x
return self.func(c, r, n, rot)
def reflect(self, line):
"""Override GeometryEntity.reflect since this is not made of only
points.
>>> from sympy import RegularPolygon, Line
>>> RegularPolygon((0, 0), 1, 4).reflect(Line((0, 1), slope=-2))
RegularPolygon(Point2D(4/5, 2/5), -1, 4, acos(3/5))
"""
c, r, n, rot = self.args
cc = c.reflect(line)
v = self.vertices[0]
vv = v.reflect(line)
# see how much it must get spun at the new center
ang = Segment(cc, vv).angle_between(Segment(c, v))
rot = (rot + ang + pi) % (2*pi/n)
return self.func(cc, -r, n, rot)
@property
def vertices(self):
"""The vertices of the RegularPolygon.
Returns
=======
vertices : list
Each vertex is a Point.
See Also
========
sympy.geometry.point.Point
Examples
========
>>> from sympy.geometry import RegularPolygon, Point
>>> rp = RegularPolygon(Point(0, 0), 5, 4)
>>> rp.vertices
[Point2D(5, 0), Point2D(0, 5), Point2D(-5, 0), Point2D(0, -5)]
"""
c = self._center
r = abs(self._radius)
rot = self._rot
v = 2*S.Pi/self._n
return [Point(c.x + r*cos(k*v + rot), c.y + r*sin(k*v + rot))
for k in range(self._n)]
def __eq__(self, o):
if not isinstance(o, Polygon):
return False
elif not isinstance(o, RegularPolygon):
return Polygon.__eq__(o, self)
return self.args == o.args
def __hash__(self):
return super(RegularPolygon, self).__hash__()
class Triangle(Polygon):
"""
A polygon with three vertices and three sides.
Parameters
==========
points : sequence of Points
keyword: asa, sas, or sss to specify sides/angles of the triangle
Attributes
==========
vertices
altitudes
orthocenter
circumcenter
circumradius
circumcircle
inradius
incircle
medians
medial
Raises
======
GeometryError
If the number of vertices is not equal to three, or one of the vertices
is not a Point, or a valid keyword is not given.
See Also
========
sympy.geometry.point.Point, Polygon
Examples
========
>>> from sympy.geometry import Triangle, Point
>>> Triangle(Point(0, 0), Point(4, 0), Point(4, 3))
Triangle(Point2D(0, 0), Point2D(4, 0), Point2D(4, 3))
Keywords sss, sas, or asa can be used to give the desired
side lengths (in order) and interior angles (in degrees) that
define the triangle:
>>> Triangle(sss=(3, 4, 5))
Triangle(Point2D(0, 0), Point2D(3, 0), Point2D(3, 4))
>>> Triangle(asa=(30, 1, 30))
Triangle(Point2D(0, 0), Point2D(1, 0), Point2D(1/2, sqrt(3)/6))
>>> Triangle(sas=(1, 45, 2))
Triangle(Point2D(0, 0), Point2D(2, 0), Point2D(sqrt(2)/2, sqrt(2)/2))
"""
def __new__(cls, *args, **kwargs):
if len(args) != 3:
if 'sss' in kwargs:
return _sss(*[simplify(a) for a in kwargs['sss']])
if 'asa' in kwargs:
return _asa(*[simplify(a) for a in kwargs['asa']])
if 'sas' in kwargs:
return _sas(*[simplify(a) for a in kwargs['sas']])
msg = "Triangle instantiates with three points or a valid keyword."
raise GeometryError(msg)
vertices = [Point(a) for a in args]
# remove consecutive duplicates
nodup = []
for p in vertices:
if nodup and p == nodup[-1]:
continue
nodup.append(p)
if len(nodup) > 1 and nodup[-1] == nodup[0]:
nodup.pop() # last point was same as first
# remove collinear points
i = -3
while i < len(nodup) - 3 and len(nodup) > 2:
a, b, c = sorted(
[nodup[i], nodup[i + 1], nodup[i + 2]], key=default_sort_key)
if Point.is_collinear(a, b, c):
nodup[i] = a
nodup[i + 1] = None
nodup.pop(i + 1)
i += 1
vertices = list(filter(lambda x: x is not None, nodup))
if len(vertices) == 3:
return GeometryEntity.__new__(cls, *vertices, **kwargs)
elif len(vertices) == 2:
return Segment(*vertices, **kwargs)
else:
return Point(*vertices, **kwargs)
@property
def vertices(self):
"""The triangle's vertices
Returns
=======
vertices : tuple
Each element in the tuple is a Point
See Also
========
sympy.geometry.point.Point
Examples
========
>>> from sympy.geometry import Triangle, Point
>>> t = Triangle(Point(0, 0), Point(4, 0), Point(4, 3))
>>> t.vertices
(Point2D(0, 0), Point2D(4, 0), Point2D(4, 3))
"""
return self.args
def is_similar(t1, t2):
"""Is another triangle similar to this one.
Two triangles are similar if one can be uniformly scaled to the other.
Parameters
==========
other: Triangle
Returns
=======
is_similar : boolean
See Also
========
sympy.geometry.entity.GeometryEntity.is_similar
Examples
========
>>> from sympy.geometry import Triangle, Point
>>> t1 = Triangle(Point(0, 0), Point(4, 0), Point(4, 3))
>>> t2 = Triangle(Point(0, 0), Point(-4, 0), Point(-4, -3))
>>> t1.is_similar(t2)
True
>>> t2 = Triangle(Point(0, 0), Point(-4, 0), Point(-4, -4))
>>> t1.is_similar(t2)
False
"""
if not isinstance(t2, Polygon):
return False
s1_1, s1_2, s1_3 = [side.length for side in t1.sides]
s2 = [side.length for side in t2.sides]
def _are_similar(u1, u2, u3, v1, v2, v3):
e1 = simplify(u1/v1)
e2 = simplify(u2/v2)
e3 = simplify(u3/v3)
return bool(e1 == e2) and bool(e2 == e3)
# There's only 6 permutations, so write them out
return _are_similar(s1_1, s1_2, s1_3, *s2) or \
_are_similar(s1_1, s1_3, s1_2, *s2) or \
_are_similar(s1_2, s1_1, s1_3, *s2) or \
_are_similar(s1_2, s1_3, s1_1, *s2) or \
_are_similar(s1_3, s1_1, s1_2, *s2) or \
_are_similar(s1_3, s1_2, s1_1, *s2)
def is_equilateral(self):
"""Are all the sides the same length?
Returns
=======
is_equilateral : boolean
See Also
========
sympy.geometry.entity.GeometryEntity.is_similar, RegularPolygon
is_isosceles, is_right, is_scalene
Examples
========
>>> from sympy.geometry import Triangle, Point
>>> t1 = Triangle(Point(0, 0), Point(4, 0), Point(4, 3))
>>> t1.is_equilateral()
False
>>> from sympy import sqrt
>>> t2 = Triangle(Point(0, 0), Point(10, 0), Point(5, 5*sqrt(3)))
>>> t2.is_equilateral()
True
"""
return not has_variety(s.length for s in self.sides)
def is_isosceles(self):
"""Are two or more of the sides the same length?
Returns
=======
is_isosceles : boolean
See Also
========
is_equilateral, is_right, is_scalene
Examples
========
>>> from sympy.geometry import Triangle, Point
>>> t1 = Triangle(Point(0, 0), Point(4, 0), Point(2, 4))
>>> t1.is_isosceles()
True
"""
return has_dups(s.length for s in self.sides)
def is_scalene(self):
"""Are all the sides of the triangle of different lengths?
Returns
=======
is_scalene : boolean
See Also
========
is_equilateral, is_isosceles, is_right
Examples
========
>>> from sympy.geometry import Triangle, Point
>>> t1 = Triangle(Point(0, 0), Point(4, 0), Point(1, 4))
>>> t1.is_scalene()
True
"""
return not has_dups(s.length for s in self.sides)
def is_right(self):
"""Is the triangle right-angled.
Returns
=======
is_right : boolean
See Also
========
sympy.geometry.line.LinearEntity.is_perpendicular
is_equilateral, is_isosceles, is_scalene
Examples
========
>>> from sympy.geometry import Triangle, Point
>>> t1 = Triangle(Point(0, 0), Point(4, 0), Point(4, 3))
>>> t1.is_right()
True
"""
s = self.sides
return Segment.is_perpendicular(s[0], s[1]) or \
Segment.is_perpendicular(s[1], s[2]) or \
Segment.is_perpendicular(s[0], s[2])
@property
def altitudes(self):
"""The altitudes of the triangle.
An altitude of a triangle is a segment through a vertex,
perpendicular to the opposite side, with length being the
height of the vertex measured from the line containing the side.
Returns
=======
altitudes : dict
The dictionary consists of keys which are vertices and values
which are Segments.
See Also
========
sympy.geometry.point.Point, sympy.geometry.line.Segment.length
Examples
========
>>> from sympy.geometry import Point, Triangle
>>> p1, p2, p3 = Point(0, 0), Point(1, 0), Point(0, 1)
>>> t = Triangle(p1, p2, p3)
>>> t.altitudes[p1]
Segment(Point2D(0, 0), Point2D(1/2, 1/2))
"""
s = self.sides
v = self.vertices
return {v[0]: s[1].perpendicular_segment(v[0]),
v[1]: s[2].perpendicular_segment(v[1]),
v[2]: s[0].perpendicular_segment(v[2])}
@property
def orthocenter(self):
"""The orthocenter of the triangle.
The orthocenter is the intersection of the altitudes of a triangle.
It may lie inside, outside or on the triangle.
Returns
=======
orthocenter : Point
See Also
========
sympy.geometry.point.Point
Examples
========
>>> from sympy.geometry import Point, Triangle
>>> p1, p2, p3 = Point(0, 0), Point(1, 0), Point(0, 1)
>>> t = Triangle(p1, p2, p3)
>>> t.orthocenter
Point2D(0, 0)
"""
a = self.altitudes
v = self.vertices
return Line(a[v[0]]).intersection(Line(a[v[1]]))[0]
@property
def circumcenter(self):
"""The circumcenter of the triangle
The circumcenter is the center of the circumcircle.
Returns
=======
circumcenter : Point
See Also
========
sympy.geometry.point.Point
Examples
========
>>> from sympy.geometry import Point, Triangle
>>> p1, p2, p3 = Point(0, 0), Point(1, 0), Point(0, 1)
>>> t = Triangle(p1, p2, p3)
>>> t.circumcenter
Point2D(1/2, 1/2)
"""
a, b, c = [x.perpendicular_bisector() for x in self.sides]
return a.intersection(b)[0]
@property
def circumradius(self):
"""The radius of the circumcircle of the triangle.
Returns
=======
circumradius : number of Basic instance
See Also
========
sympy.geometry.ellipse.Circle.radius
Examples
========
>>> from sympy import Symbol
>>> from sympy.geometry import Point, Triangle
>>> a = Symbol('a')
>>> p1, p2, p3 = Point(0, 0), Point(1, 0), Point(0, a)
>>> t = Triangle(p1, p2, p3)
>>> t.circumradius
sqrt(a**2/4 + 1/4)
"""
return Point.distance(self.circumcenter, self.vertices[0])
@property
def circumcircle(self):
"""The circle which passes through the three vertices of the triangle.
Returns
=======
circumcircle : Circle
See Also
========
sympy.geometry.ellipse.Circle
Examples
========
>>> from sympy.geometry import Point, Triangle
>>> p1, p2, p3 = Point(0, 0), Point(1, 0), Point(0, 1)
>>> t = Triangle(p1, p2, p3)
>>> t.circumcircle
Circle(Point2D(1/2, 1/2), sqrt(2)/2)
"""
return Circle(self.circumcenter, self.circumradius)
def bisectors(self):
"""The angle bisectors of the triangle.
An angle bisector of a triangle is a straight line through a vertex
which cuts the corresponding angle in half.
Returns
=======
bisectors : dict
Each key is a vertex (Point) and each value is the corresponding
bisector (Segment).
See Also
========
sympy.geometry.point.Point, sympy.geometry.line.Segment
Examples
========
>>> from sympy.geometry import Point, Triangle, Segment
>>> p1, p2, p3 = Point(0, 0), Point(1, 0), Point(0, 1)
>>> t = Triangle(p1, p2, p3)
>>> from sympy import sqrt
>>> t.bisectors()[p2] == Segment(Point(0, sqrt(2) - 1), Point(1, 0))
True
"""
s = self.sides
v = self.vertices
c = self.incenter
l1 = Segment(v[0], Line(v[0], c).intersection(s[1])[0])
l2 = Segment(v[1], Line(v[1], c).intersection(s[2])[0])
l3 = Segment(v[2], Line(v[2], c).intersection(s[0])[0])
return {v[0]: l1, v[1]: l2, v[2]: l3}
@property
def incenter(self):
"""The center of the incircle.
The incircle is the circle which lies inside the triangle and touches
all three sides.
Returns
=======
incenter : Point
See Also
========
incircle, sympy.geometry.point.Point
Examples
========
>>> from sympy.geometry import Point, Triangle
>>> p1, p2, p3 = Point(0, 0), Point(1, 0), Point(0, 1)
>>> t = Triangle(p1, p2, p3)
>>> t.incenter
Point2D(-sqrt(2)/2 + 1, -sqrt(2)/2 + 1)
"""
s = self.sides
l = Matrix([s[i].length for i in [1, 2, 0]])
p = sum(l)
v = self.vertices
x = simplify(l.dot(Matrix([vi.x for vi in v]))/p)
y = simplify(l.dot(Matrix([vi.y for vi in v]))/p)
return Point(x, y)
@property
def inradius(self):
"""The radius of the incircle.
Returns
=======
inradius : number of Basic instance
See Also
========
incircle, sympy.geometry.ellipse.Circle.radius
Examples
========
>>> from sympy.geometry import Point, Triangle
>>> p1, p2, p3 = Point(0, 0), Point(4, 0), Point(0, 3)
>>> t = Triangle(p1, p2, p3)
>>> t.inradius
1
"""
return simplify(2 * self.area / self.perimeter)
@property
def incircle(self):
"""The incircle of the triangle.
The incircle is the circle which lies inside the triangle and touches
all three sides.
Returns
=======
incircle : Circle
See Also
========
sympy.geometry.ellipse.Circle
Examples
========
>>> from sympy.geometry import Point, Triangle
>>> p1, p2, p3 = Point(0, 0), Point(2, 0), Point(0, 2)
>>> t = Triangle(p1, p2, p3)
>>> t.incircle
Circle(Point2D(-sqrt(2) + 2, -sqrt(2) + 2), -sqrt(2) + 2)
"""
return Circle(self.incenter, self.inradius)
@property
def medians(self):
"""The medians of the triangle.
A median of a triangle is a straight line through a vertex and the
midpoint of the opposite side, and divides the triangle into two
equal areas.
Returns
=======
medians : dict
Each key is a vertex (Point) and each value is the median (Segment)
at that point.
See Also
========
sympy.geometry.point.Point.midpoint, sympy.geometry.line.Segment.midpoint
Examples
========
>>> from sympy.geometry import Point, Triangle
>>> p1, p2, p3 = Point(0, 0), Point(1, 0), Point(0, 1)
>>> t = Triangle(p1, p2, p3)
>>> t.medians[p1]
Segment(Point2D(0, 0), Point2D(1/2, 1/2))
"""
s = self.sides
v = self.vertices
return {v[0]: Segment(v[0], s[1].midpoint),
v[1]: Segment(v[1], s[2].midpoint),
v[2]: Segment(v[2], s[0].midpoint)}
@property
def medial(self):
"""The medial triangle of the triangle.
The triangle which is formed from the midpoints of the three sides.
Returns
=======
medial : Triangle
See Also
========
sympy.geometry.line.Segment.midpoint
Examples
========
>>> from sympy.geometry import Point, Triangle
>>> p1, p2, p3 = Point(0, 0), Point(1, 0), Point(0, 1)
>>> t = Triangle(p1, p2, p3)
>>> t.medial
Triangle(Point2D(1/2, 0), Point2D(1/2, 1/2), Point2D(0, 1/2))
"""
s = self.sides
return Triangle(s[0].midpoint, s[1].midpoint, s[2].midpoint)
def rad(d):
"""Return the radian value for the given degrees (pi = 180 degrees)."""
return d*pi/180
def deg(r):
"""Return the degree value for the given radians (pi = 180 degrees)."""
return r/pi*180
def _slope(d):
rv = tan(rad(d))
return rv
def _asa(d1, l, d2):
"""Return triangle having side with length l on the x-axis."""
xy = Line((0, 0), slope=_slope(d1)).intersection(
Line((l, 0), slope=_slope(180 - d2)))[0]
return Triangle((0, 0), (l, 0), xy)
def _sss(l1, l2, l3):
"""Return triangle having side of length l1 on the x-axis."""
c1 = Circle((0, 0), l3)
c2 = Circle((l1, 0), l2)
inter = [a for a in c1.intersection(c2) if a.y.is_nonnegative]
if not inter:
return None
pt = inter[0]
return Triangle((0, 0), (l1, 0), pt)
def _sas(l1, d, l2):
"""Return triangle having side with length l2 on the x-axis."""
p1 = Point(0, 0)
p2 = Point(l2, 0)
p3 = Point(cos(rad(d))*l1, sin(rad(d))*l1)
return Triangle(p1, p2, p3)
| bsd-3-clause |
shawnwanderson/cmput404-project | venv/lib/python2.7/site-packages/django/db/models/sql/where.py | 439 | 8054 | """
Code to manage the creation and SQL rendering of 'where' constraints.
"""
from django.db.models.sql.datastructures import EmptyResultSet
from django.utils import tree
from django.utils.functional import cached_property
# Connection types
AND = 'AND'
OR = 'OR'
class WhereNode(tree.Node):
"""
Used to represent the SQL where-clause.
The class is tied to the Query class that created it (in order to create
the correct SQL).
A child is usually an expression producing boolean values. Most likely the
expression is a Lookup instance.
However, a child could also be any class with as_sql() and either
relabeled_clone() method or relabel_aliases() and clone() methods and
contains_aggregate attribute.
"""
default = AND
def split_having(self, negated=False):
"""
Returns two possibly None nodes: one for those parts of self that
should be included in the WHERE clause and one for those parts of
self that must be included in the HAVING clause.
"""
if not self.contains_aggregate:
return self, None
in_negated = negated ^ self.negated
# If the effective connector is OR and this node contains an aggregate,
# then we need to push the whole branch to HAVING clause.
may_need_split = (
(in_negated and self.connector == AND) or
(not in_negated and self.connector == OR))
if may_need_split and self.contains_aggregate:
return None, self
where_parts = []
having_parts = []
for c in self.children:
if hasattr(c, 'split_having'):
where_part, having_part = c.split_having(in_negated)
if where_part is not None:
where_parts.append(where_part)
if having_part is not None:
having_parts.append(having_part)
elif c.contains_aggregate:
having_parts.append(c)
else:
where_parts.append(c)
having_node = self.__class__(having_parts, self.connector, self.negated) if having_parts else None
where_node = self.__class__(where_parts, self.connector, self.negated) if where_parts else None
return where_node, having_node
def as_sql(self, compiler, connection):
"""
Returns the SQL version of the where clause and the value to be
substituted in. Returns '', [] if this node matches everything,
None, [] if this node is empty, and raises EmptyResultSet if this
node can't match anything.
"""
result = []
result_params = []
if self.connector == AND:
full_needed, empty_needed = len(self.children), 1
else:
full_needed, empty_needed = 1, len(self.children)
for child in self.children:
try:
sql, params = compiler.compile(child)
except EmptyResultSet:
empty_needed -= 1
else:
if sql:
result.append(sql)
result_params.extend(params)
else:
full_needed -= 1
# Check if this node matches nothing or everything.
# First check the amount of full nodes and empty nodes
# to make this node empty/full.
# Now, check if this node is full/empty using the
# counts.
if empty_needed == 0:
if self.negated:
return '', []
else:
raise EmptyResultSet
if full_needed == 0:
if self.negated:
raise EmptyResultSet
else:
return '', []
conn = ' %s ' % self.connector
sql_string = conn.join(result)
if sql_string:
if self.negated:
# Some backends (Oracle at least) need parentheses
# around the inner SQL in the negated case, even if the
# inner SQL contains just a single expression.
sql_string = 'NOT (%s)' % sql_string
elif len(result) > 1:
sql_string = '(%s)' % sql_string
return sql_string, result_params
def get_group_by_cols(self):
cols = []
for child in self.children:
cols.extend(child.get_group_by_cols())
return cols
def relabel_aliases(self, change_map):
"""
Relabels the alias values of any children. 'change_map' is a dictionary
mapping old (current) alias values to the new values.
"""
for pos, child in enumerate(self.children):
if hasattr(child, 'relabel_aliases'):
# For example another WhereNode
child.relabel_aliases(change_map)
elif hasattr(child, 'relabeled_clone'):
self.children[pos] = child.relabeled_clone(change_map)
def clone(self):
"""
Creates a clone of the tree. Must only be called on root nodes (nodes
with empty subtree_parents). Childs must be either (Contraint, lookup,
value) tuples, or objects supporting .clone().
"""
clone = self.__class__._new_instance(
children=[], connector=self.connector, negated=self.negated)
for child in self.children:
if hasattr(child, 'clone'):
clone.children.append(child.clone())
else:
clone.children.append(child)
return clone
def relabeled_clone(self, change_map):
clone = self.clone()
clone.relabel_aliases(change_map)
return clone
@classmethod
def _contains_aggregate(cls, obj):
if isinstance(obj, tree.Node):
return any(cls._contains_aggregate(c) for c in obj.children)
return obj.contains_aggregate
@cached_property
def contains_aggregate(self):
return self._contains_aggregate(self)
class NothingNode(object):
"""
A node that matches nothing.
"""
contains_aggregate = False
def as_sql(self, compiler=None, connection=None):
raise EmptyResultSet
class ExtraWhere(object):
# The contents are a black box - assume no aggregates are used.
contains_aggregate = False
def __init__(self, sqls, params):
self.sqls = sqls
self.params = params
def as_sql(self, compiler=None, connection=None):
sqls = ["(%s)" % sql for sql in self.sqls]
return " AND ".join(sqls), list(self.params or ())
class SubqueryConstraint(object):
# Even if aggregates would be used in a subquery, the outer query isn't
# interested about those.
contains_aggregate = False
def __init__(self, alias, columns, targets, query_object):
self.alias = alias
self.columns = columns
self.targets = targets
self.query_object = query_object
def as_sql(self, compiler, connection):
query = self.query_object
# QuerySet was sent
if hasattr(query, 'values'):
if query._db and connection.alias != query._db:
raise ValueError("Can't do subqueries with queries on different DBs.")
# Do not override already existing values.
if query._fields is None:
query = query.values(*self.targets)
else:
query = query._clone()
query = query.query
if query.can_filter():
# If there is no slicing in use, then we can safely drop all ordering
query.clear_ordering(True)
query_compiler = query.get_compiler(connection=connection)
return query_compiler.as_subquery_condition(self.alias, self.columns, compiler)
def relabel_aliases(self, change_map):
self.alias = change_map.get(self.alias, self.alias)
def clone(self):
return self.__class__(
self.alias, self.columns, self.targets,
self.query_object)
| gpl-3.0 |
rbu/mediadrop | setup.py | 10 | 3517 | #!/usr/bin/env python
# encoding: utf-8
import re
import sys
from setuptools import setup, find_packages
if sys.version_info < (2, 6):
print 'MediaDrop requires Python 2.6 or 2.7.'
sys.exit(1)
from mediadrop import __version__ as VERSION
# setuptools' dependency resolution is often too simplistic. If we install
# MediaDrop into an existing virtualenv we often face the problem that
# setuptools does not upgrade the components (even though some dependencies
# like Pylons actually require a newer version). Therefore often we add a
# specific minimum version even though that's not really a requirement by
# MediaDrop (rather an a Pylons requirement).
setup_requires = [
'PasteScript >= 1.7.4.2', # paster_plugins=
]
def requires_from_file(filename):
requirements = []
with open(filename, 'r') as requirements_fp:
for line in requirements_fp.readlines():
match = re.search('^\s*([a-zA-Z][^#]+?)(\s*#.+)?\n$', line)
if match:
requirements.append(match.group(1))
return requirements
install_requires = setup_requires + requires_from_file('requirements.txt')
if sys.version_info < (2, 7):
# importlib is included in Python 2.7
# however we can't do try/import/except because this might generate eggs
# with missing requires which can not be used in other environments
# see https://github.com/mediadrop/mediadrop/pull/44#issuecomment-573242
install_requires.extend(requires_from_file('requirements.py26.txt'))
extra_arguments_for_setup = {}
# extractors are declared separately so it is easier for 3rd party users
# to use them for other packages as well...
extractors = [
('lib/unidecode/**', 'ignore', None),
('tests/**', 'ignore', None),
('**.py', 'python', None),
('templates/**.html', 'genshi', {
'template_class': 'genshi.template.markup:MarkupTemplate'
}),
('public/**', 'ignore', None),
]
is_babel_available = True
try:
import babel
except ImportError:
is_babel_available = False
if is_babel_available:
extra_arguments_for_setup['message_extractors'] = {'mediadrop': extractors}
setup(
name='MediaDrop',
version=VERSION,
description='A audio, video and podcast publication platform.',
author='MediaDrop contributors.',
author_email='info@mediadrop.net',
url='http://mediadrop.net',
classifiers=[
'Development Status :: 4 - Beta',
'License :: OSI Approved :: GNU General Public License (GPL)',
'Framework :: TurboGears :: Applications',
'Programming Language :: Python',
'Programming Language :: JavaScript',
'Topic :: Internet :: WWW/HTTP :: Site Management'
'Topic :: Internet :: WWW/HTTP :: WSGI :: Application',
'Topic :: Multimedia :: Sound/Audio',
'Intended Audience :: Developers',
'Intended Audience :: End Users/Desktop',
'Intended Audience :: System Administrators',
],
setup_requires=setup_requires,
install_requires=install_requires,
paster_plugins=[
'PasteScript',
'Pylons',
],
test_suite='mediadrop.lib.test.suite',
packages=find_packages(exclude=['ez_setup']),
include_package_data=True,
package_data={'mediadrop': ['i18n/*/LC_MESSAGES/*.mo']},
zip_safe=False,
entry_points="""
[paste.app_factory]
main = mediadrop.config.middleware:make_app
[paste.app_install]
main = pylons.util:PylonsInstaller
""",
**extra_arguments_for_setup
)
| gpl-3.0 |
AndroidOpenDevelopment/android_external_chromium_org | chrome/common/extensions/docs/server2/fake_fetchers.py | 17 | 4558 | # Copyright (c) 2012 The Chromium Authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
# These are fake fetchers that are used for testing and the preview server.
# They return canned responses for URLs. appengine_wrappers.py uses the fake
# fetchers if the App Engine imports fail.
import os
import re
import appengine_wrappers
from extensions_paths import SERVER2
from path_util import IsDirectory
from test_util import ReadFile, ChromiumPath
import url_constants
# TODO(kalman): Investigate why logging in this class implies that the server
# isn't properly caching some fetched files; often it fetches the same file
# 10+ times. This may be a test anomaly.
def _ReadTestData(*path, **read_args):
return ReadFile(SERVER2, 'test_data', *path, **read_args)
class _FakeFetcher(object):
def _ListDir(self, path):
return os.listdir(path)
def _IsDir(self, path):
return os.path.isdir(path)
def _Stat(self, path):
return int(os.stat(path).st_mtime)
class _FakeOmahaProxy(_FakeFetcher):
def fetch(self, url):
return _ReadTestData('branch_utility', 'first.json')
class _FakeOmahaHistory(_FakeFetcher):
def fetch(self, url):
return _ReadTestData('branch_utility', 'second.json')
_SVN_URL_TO_PATH_PATTERN = re.compile(
r'^.*chrome/.*(trunk|branches/.*)/src/?([^?]*).*?')
def _ExtractPathFromSvnUrl(url):
return _SVN_URL_TO_PATH_PATTERN.match(url).group(2)
class _FakeSubversionServer(_FakeFetcher):
def fetch(self, url):
path = _ExtractPathFromSvnUrl(url)
if IsDirectory(path):
html = ['<html>Revision 000000']
try:
for f in self._ListDir(ChromiumPath(path)):
if f.startswith('.'):
continue
if self._IsDir(ChromiumPath(path, f)):
html.append('<a>' + f + '/</a>')
else:
html.append('<a>' + f + '</a>')
html.append('</html>')
return '\n'.join(html)
except OSError as e:
return None
try:
return ReadFile(path)
except IOError:
return None
class _FakeViewvcServer(_FakeFetcher):
def fetch(self, url):
path = ChromiumPath(_ExtractPathFromSvnUrl(url))
if self._IsDir(path):
html = ['<table><tbody><tr>...</tr>']
# The version of the directory.
dir_stat = self._Stat(path)
html.append('<tr>')
html.append('<td>Directory revision:</td>')
html.append('<td><a>%s</a><a></a></td>' % dir_stat)
html.append('</tr>')
# The version of each file.
for f in self._ListDir(path):
if f.startswith('.'):
continue
html.append('<tr>')
html.append(' <td><a>%s%s</a></td>' % (
f, '/' if self._IsDir(os.path.join(path, f)) else ''))
html.append(' <td><a><strong>%s</strong></a></td>' %
self._Stat(os.path.join(path, f)))
html.append('<td></td><td></td><td></td>')
html.append('</tr>')
html.append('</tbody></table>')
return '\n'.join(html)
try:
return ReadFile(path)
except IOError:
return None
class _FakeGithubStat(_FakeFetcher):
def fetch(self, url):
return '{ "sha": 0 }'
class _FakeGithubZip(_FakeFetcher):
def fetch(self, url):
return _ReadTestData('github_file_system', 'apps_samples.zip', mode='rb')
class _FakeRietveldAPI(_FakeFetcher):
def __init__(self):
self._base_pattern = re.compile(r'.*/(api/.*)')
def fetch(self, url):
return _ReadTestData(
'rietveld_patcher', self._base_pattern.match(url).group(1), 'json')
class _FakeRietveldTarball(_FakeFetcher):
def __init__(self):
self._base_pattern = re.compile(r'.*/(tarball/\d+/\d+)')
def fetch(self, url):
return _ReadTestData(
'rietveld_patcher', self._base_pattern.match(url).group(1) + '.tar.bz2',
mode='rb')
def ConfigureFakeFetchers():
'''Configure the fake fetcher paths relative to the docs directory.
'''
appengine_wrappers.ConfigureFakeUrlFetch({
url_constants.OMAHA_HISTORY: _FakeOmahaHistory(),
url_constants.OMAHA_PROXY_URL: _FakeOmahaProxy(),
'%s/.*' % url_constants.SVN_URL: _FakeSubversionServer(),
'%s/.*' % url_constants.VIEWVC_URL: _FakeViewvcServer(),
'%s/.*/commits/.*' % url_constants.GITHUB_REPOS: _FakeGithubStat(),
'%s/.*/zipball' % url_constants.GITHUB_REPOS: _FakeGithubZip(),
'%s/api/.*' % url_constants.CODEREVIEW_SERVER: _FakeRietveldAPI(),
'%s/tarball/.*' % url_constants.CODEREVIEW_SERVER: _FakeRietveldTarball(),
})
| bsd-3-clause |
fbradyirl/home-assistant | homeassistant/components/awair/sensor.py | 1 | 8003 | """Support for the Awair indoor air quality monitor."""
from datetime import timedelta
import logging
import math
import voluptuous as vol
from homeassistant.const import (
CONF_ACCESS_TOKEN,
CONF_DEVICES,
DEVICE_CLASS_HUMIDITY,
DEVICE_CLASS_TEMPERATURE,
TEMP_CELSIUS,
)
from homeassistant.exceptions import PlatformNotReady
from homeassistant.helpers.aiohttp_client import async_get_clientsession
import homeassistant.helpers.config_validation as cv
from homeassistant.helpers.entity import Entity
from homeassistant.util import Throttle, dt
_LOGGER = logging.getLogger(__name__)
ATTR_SCORE = "score"
ATTR_TIMESTAMP = "timestamp"
ATTR_LAST_API_UPDATE = "last_api_update"
ATTR_COMPONENT = "component"
ATTR_VALUE = "value"
ATTR_SENSORS = "sensors"
CONF_UUID = "uuid"
DEVICE_CLASS_PM2_5 = "PM2.5"
DEVICE_CLASS_PM10 = "PM10"
DEVICE_CLASS_CARBON_DIOXIDE = "CO2"
DEVICE_CLASS_VOLATILE_ORGANIC_COMPOUNDS = "VOC"
DEVICE_CLASS_SCORE = "score"
SENSOR_TYPES = {
"TEMP": {
"device_class": DEVICE_CLASS_TEMPERATURE,
"unit_of_measurement": TEMP_CELSIUS,
"icon": "mdi:thermometer",
},
"HUMID": {
"device_class": DEVICE_CLASS_HUMIDITY,
"unit_of_measurement": "%",
"icon": "mdi:water-percent",
},
"CO2": {
"device_class": DEVICE_CLASS_CARBON_DIOXIDE,
"unit_of_measurement": "ppm",
"icon": "mdi:periodic-table-co2",
},
"VOC": {
"device_class": DEVICE_CLASS_VOLATILE_ORGANIC_COMPOUNDS,
"unit_of_measurement": "ppb",
"icon": "mdi:cloud",
},
# Awair docs don't actually specify the size they measure for 'dust',
# but 2.5 allows the sensor to show up in HomeKit
"DUST": {
"device_class": DEVICE_CLASS_PM2_5,
"unit_of_measurement": "µg/m3",
"icon": "mdi:cloud",
},
"PM25": {
"device_class": DEVICE_CLASS_PM2_5,
"unit_of_measurement": "µg/m3",
"icon": "mdi:cloud",
},
"PM10": {
"device_class": DEVICE_CLASS_PM10,
"unit_of_measurement": "µg/m3",
"icon": "mdi:cloud",
},
"score": {
"device_class": DEVICE_CLASS_SCORE,
"unit_of_measurement": "%",
"icon": "mdi:percent",
},
}
AWAIR_QUOTA = 300
# This is the minimum time between throttled update calls.
# Don't bother asking us for state more often than that.
SCAN_INTERVAL = timedelta(minutes=5)
AWAIR_DEVICE_SCHEMA = vol.Schema({vol.Required(CONF_UUID): cv.string})
PLATFORM_SCHEMA = cv.PLATFORM_SCHEMA.extend(
{
vol.Required(CONF_ACCESS_TOKEN): cv.string,
vol.Optional(CONF_DEVICES): vol.All(cv.ensure_list, [AWAIR_DEVICE_SCHEMA]),
}
)
# Awair *heavily* throttles calls that get user information,
# and calls that get the list of user-owned devices - they
# allow 30 per DAY. So, we permit a user to provide a static
# list of devices, and they may provide the same set of information
# that the devices() call would return. However, the only thing
# used at this time is the `uuid` value.
async def async_setup_platform(hass, config, async_add_entities, discovery_info=None):
"""Connect to the Awair API and find devices."""
from python_awair import AwairClient
token = config[CONF_ACCESS_TOKEN]
client = AwairClient(token, session=async_get_clientsession(hass))
try:
all_devices = []
devices = config.get(CONF_DEVICES, await client.devices())
# Try to throttle dynamically based on quota and number of devices.
throttle_minutes = math.ceil(60 / ((AWAIR_QUOTA / len(devices)) / 24))
throttle = timedelta(minutes=throttle_minutes)
for device in devices:
_LOGGER.debug("Found awair device: %s", device)
awair_data = AwairData(client, device[CONF_UUID], throttle)
await awair_data.async_update()
for sensor in SENSOR_TYPES:
if sensor in awair_data.data:
awair_sensor = AwairSensor(awair_data, device, sensor, throttle)
all_devices.append(awair_sensor)
async_add_entities(all_devices, True)
return
except AwairClient.AuthError:
_LOGGER.error("Awair API access_token invalid")
except AwairClient.RatelimitError:
_LOGGER.error("Awair API ratelimit exceeded.")
except (
AwairClient.QueryError,
AwairClient.NotFoundError,
AwairClient.GenericError,
) as error:
_LOGGER.error("Unexpected Awair API error: %s", error)
raise PlatformNotReady
class AwairSensor(Entity):
"""Implementation of an Awair device."""
def __init__(self, data, device, sensor_type, throttle):
"""Initialize the sensor."""
self._uuid = device[CONF_UUID]
self._device_class = SENSOR_TYPES[sensor_type]["device_class"]
self._name = "Awair {}".format(self._device_class)
unit = SENSOR_TYPES[sensor_type]["unit_of_measurement"]
self._unit_of_measurement = unit
self._data = data
self._type = sensor_type
self._throttle = throttle
@property
def name(self):
"""Return the name of the sensor."""
return self._name
@property
def device_class(self):
"""Return the device class."""
return self._device_class
@property
def icon(self):
"""Icon to use in the frontend."""
return SENSOR_TYPES[self._type]["icon"]
@property
def state(self):
"""Return the state of the device."""
return self._data.data[self._type]
@property
def device_state_attributes(self):
"""Return additional attributes."""
return self._data.attrs
# The Awair device should be reporting metrics in quite regularly.
# Based on the raw data from the API, it looks like every ~10 seconds
# is normal. Here we assert that the device is not available if the
# last known API timestamp is more than (3 * throttle) minutes in the
# past. It implies that either hass is somehow unable to query the API
# for new data or that the device is not checking in. Either condition
# fits the definition for 'not available'. We pick (3 * throttle) minutes
# to allow for transient errors to correct themselves.
@property
def available(self):
"""Device availability based on the last update timestamp."""
if ATTR_LAST_API_UPDATE not in self.device_state_attributes:
return False
last_api_data = self.device_state_attributes[ATTR_LAST_API_UPDATE]
return (dt.utcnow() - last_api_data) < (3 * self._throttle)
@property
def unique_id(self):
"""Return the unique id of this entity."""
return "{}_{}".format(self._uuid, self._type)
@property
def unit_of_measurement(self):
"""Return the unit of measurement of this entity."""
return self._unit_of_measurement
async def async_update(self):
"""Get the latest data."""
await self._data.async_update()
class AwairData:
"""Get data from Awair API."""
def __init__(self, client, uuid, throttle):
"""Initialize the data object."""
self._client = client
self._uuid = uuid
self.data = {}
self.attrs = {}
self.async_update = Throttle(throttle)(self._async_update)
async def _async_update(self):
"""Get the data from Awair API."""
resp = await self._client.air_data_latest(self._uuid)
if not resp:
return
timestamp = dt.parse_datetime(resp[0][ATTR_TIMESTAMP])
self.attrs[ATTR_LAST_API_UPDATE] = timestamp
self.data[ATTR_SCORE] = resp[0][ATTR_SCORE]
# The air_data_latest call only returns one item, so this should
# be safe to only process one entry.
for sensor in resp[0][ATTR_SENSORS]:
self.data[sensor[ATTR_COMPONENT]] = round(sensor[ATTR_VALUE], 1)
_LOGGER.debug("Got Awair Data for %s: %s", self._uuid, self.data)
| apache-2.0 |
tushevorg/namebench | nb_third_party/jinja2/_stringdefs.py | 412 | 404256 | # -*- coding: utf-8 -*-
"""
jinja2._stringdefs
~~~~~~~~~~~~~~~~~~
Strings of all Unicode characters of a certain category.
Used for matching in Unicode-aware languages. Run to regenerate.
Inspired by chartypes_create.py from the MoinMoin project, original
implementation from Pygments.
:copyright: Copyright 2006-2009 by the Jinja team, see AUTHORS.
:license: BSD, see LICENSE for details.
"""
Cc = u'\x00\x01\x02\x03\x04\x05\x06\x07\x08\t\n\x0b\x0c\r\x0e\x0f\x10\x11\x12\x13\x14\x15\x16\x17\x18\x19\x1a\x1b\x1c\x1d\x1e\x1f\x7f\x80\x81\x82\x83\x84\x85\x86\x87\x88\x89\x8a\x8b\x8c\x8d\x8e\x8f\x90\x91\x92\x93\x94\x95\x96\x97\x98\x99\x9a\x9b\x9c\x9d\x9e\x9f'
Cf = u'\xad\u0600\u0601\u0602\u0603\u06dd\u070f\u17b4\u17b5\u200b\u200c\u200d\u200e\u200f\u202a\u202b\u202c\u202d\u202e\u2060\u2061\u2062\u2063\u206a\u206b\u206c\u206d\u206e\u206f\ufeff\ufff9\ufffa\ufffb'
Cn = 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d4\uabd5\uabd6\uabd7\uabd8\uabd9\uabda\uabdb\uabdc\uabdd\uabde\uabdf\uabe0\uabe1\uabe2\uabe3\uabe4\uabe5\uabe6\uabe7\uabe8\uabe9\uabea\uabeb\uabec\uabed\uabee\uabef\uabf0\uabf1\uabf2\uabf3\uabf4\uabf5\uabf6\uabf7\uabf8\uabf9\uabfa\uabfb\uabfc\uabfd\uabfe\uabff\ud7a4\ud7a5\ud7a6\ud7a7\ud7a8\ud7a9\ud7aa\ud7ab\ud7ac\ud7ad\ud7ae\ud7af\ud7b0\ud7b1\ud7b2\ud7b3\ud7b4\ud7b5\ud7b6\ud7b7\ud7b8\ud7b9\ud7ba\ud7bb\ud7bc\ud7bd\ud7be\ud7bf\ud7c0\ud7c1\ud7c2\ud7c3\ud7c4\ud7c5\ud7c6\ud7c7\ud7c8\ud7c9\ud7ca\ud7cb\ud7cc\ud7cd\ud7ce\ud7cf\ud7d0\ud7d1\ud7d2\ud7d3\ud7d4\ud7d5\ud7d6\ud7d7\ud7d8\ud7d9\ud7da\ud7db\ud7dc\ud7dd\ud7de\ud7df\ud7e0\ud7e1\ud7e2\ud7e3\ud7e4\ud7e5\ud7e6\ud7e7\ud7e8\ud7e9\ud7ea\ud7eb\ud7ec\ud7ed\ud7ee\ud7ef\ud7f0\ud7f1\ud7f2\ud7f3\ud7f4\ud7f5\ud7f6\ud7f7\ud7f8\ud7f9\ud7fa\ud7fb\ud7fc\ud7fd\ud7fe\ud7ff\ufa2e\ufa2f\ufa6b\ufa6c\ufa6d\ufa6e\ufa6f\ufada\ufadb\ufadc\ufadd\ufade\ufadf\ufae0\ufae1\ufae2\ufae3\ufae4\ufae5\ufae6\ufae7\ufae8\ufae9\ufaea\ufaeb\ufaec\ufaed\ufaee\ufaef\ufaf0\ufaf1\ufaf2\ufaf3\ufaf4\ufaf5\ufaf6\ufaf7\ufaf8\ufaf9\ufafa\ufafb\ufafc\ufafd\ufafe\ufaff\ufb07\ufb08\ufb09\ufb0a\ufb0b\ufb0c\ufb0d\ufb0e\ufb0f\ufb10\ufb11\ufb12\ufb18\ufb19\ufb1a\ufb1b\ufb1c\ufb37\ufb3d\ufb3f\ufb42\ufb45\ufbb2\ufbb3\ufbb4\ufbb5\ufbb6\ufbb7\ufbb8\ufbb9\ufbba\ufbbb\ufbbc\ufbbd\ufbbe\ufbbf\ufbc0\ufbc1\ufbc2\ufbc3\ufbc4\ufbc5\ufbc6\ufbc7\ufbc8\ufbc9\ufbca\ufbcb\ufbcc\ufbcd\ufbce\ufbcf\ufbd0\ufbd1\ufbd2\ufd40\ufd41\ufd42\ufd43\ufd44\ufd45\ufd46\ufd47\ufd48\ufd49\ufd4a\ufd4b\ufd4c\ufd4d\ufd4e\ufd4f\ufd90\ufd91\ufdc8\ufdc9\ufdca\ufdcb\ufdcc\ufdcd\ufdce\ufdcf\ufdd0\ufdd1\ufdd2\ufdd3\ufdd4\ufdd5\ufdd6\ufdd7\ufdd8\ufdd9\ufdda\ufddb\ufddc\ufddd\ufdde\ufddf\ufde0\ufde1\ufde2\ufde3\ufde4\ufde5\ufde6\ufde7\ufde8\ufde9\ufdea\ufdeb\ufdec\ufded\ufdee\ufdef\ufdfe\ufdff\ufe1a\ufe1b\ufe1c\ufe1d\ufe1e\ufe1f\ufe24\ufe25\ufe26\ufe27\ufe28\ufe29\ufe2a\ufe2b\ufe2c\ufe2d\ufe2e\ufe2f\ufe53\ufe67\ufe6c\ufe6d\ufe6e\ufe6f\ufe75\ufefd\ufefe\uff00\uffbf\uffc0\uffc1\uffc8\uffc9\uffd0\uffd1\uffd8\uffd9\uffdd\uffde\uffdf\uffe7\uffef\ufff0\ufff1\ufff2\ufff3\ufff4\ufff5\ufff6\ufff7\ufff8\ufffe'
Co = 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try:
Cs = eval(r"'\ud800\ud801\ud802\ud803\ud804\ud805\ud806\ud807\ud808\ud809\ud80a\ud80b\ud80c\ud80d\ud80e\ud80f\ud810\ud811\ud812\ud813\ud814\ud815\ud816\ud817\ud818\ud819\ud81a\ud81b\ud81c\ud81d\ud81e\ud81f\ud820\ud821\ud822\ud823\ud824\ud825\ud826\ud827\ud828\ud829\ud82a\ud82b\ud82c\ud82d\ud82e\ud82f\ud830\ud831\ud832\ud833\ud834\ud835\ud836\ud837\ud838\ud839\ud83a\ud83b\ud83c\ud83d\ud83e\ud83f\ud840\ud841\ud842\ud843\ud844\ud845\ud846\ud847\ud848\ud849\ud84a\ud84b\ud84c\ud84d\ud84e\ud84f\ud850\ud851\ud852\ud853\ud854\ud855\ud856\ud857\ud858\ud859\ud85a\ud85b\ud85c\ud85d\ud85e\ud85f\ud860\ud861\ud862\ud863\ud864\ud865\ud866\ud867\ud868\ud869\ud86a\ud86b\ud86c\ud86d\ud86e\ud86f\ud870\ud871\ud872\ud873\ud874\ud875\ud876\ud877\ud878\ud879\ud87a\ud87b\ud87c\ud87d\ud87e\ud87f\ud880\ud881\ud882\ud883\ud884\ud885\ud886\ud887\ud888\ud889\ud88a\ud88b\ud88c\ud88d\ud88e\ud88f\ud890\ud891\ud892\ud893\ud894\ud895\ud896\ud897\ud898\ud899\ud89a\ud89b\ud89c\ud89d\ud89e\ud89f\ud8a0\ud8a1\ud8a2\ud8a3\ud8a4\ud8a5\ud8a6\ud8a7\ud8a8\ud8a9\ud8aa\ud8ab\ud8ac\ud8ad\ud8ae\ud8af\ud8b0\ud8b1\ud8b2\ud8b3\ud8b4\ud8b5\ud8b6\ud8b7\ud8b8\ud8b9\ud8ba\ud8bb\ud8bc\ud8bd\ud8be\ud8bf\ud8c0\ud8c1\ud8c2\ud8c3\ud8c4\ud8c5\ud8c6\ud8c7\ud8c8\ud8c9\ud8ca\ud8cb\ud8cc\ud8cd\ud8ce\ud8cf\ud8d0\ud8d1\ud8d2\ud8d3\ud8d4\ud8d5\ud8d6\ud8d7\ud8d8\ud8d9\ud8da\ud8db\ud8dc\ud8dd\ud8de\ud8df\ud8e0\ud8e1\ud8e2\ud8e3\ud8e4\ud8e5\ud8e6\ud8e7\ud8e8\ud8e9\ud8ea\ud8eb\ud8ec\ud8ed\ud8ee\ud8ef\ud8f0\ud8f1\ud8f2\ud8f3\ud8f4\ud8f5\ud8f6\ud8f7\ud8f8\ud8f9\ud8fa\ud8fb\ud8fc\ud8fd\ud8fe\ud8ff\ud900\ud901\ud902\ud903\ud904\ud905\ud906\ud907\ud908\ud909\ud90a\ud90b\ud90c\ud90d\ud90e\ud90f\ud910\ud911\ud912\ud913\ud914\ud915\ud916\ud917\ud918\ud919\ud91a\ud91b\ud91c\ud91d\ud91e\ud91f\ud920\ud921\ud922\ud923\ud924\ud925\ud926\ud927\ud928\ud929\ud92a\ud92b\ud92c\ud92d\ud92e\ud92f\ud930\ud931\ud932\ud933\ud934\ud935\ud936\ud937\ud938\ud939\ud93a\ud93b\ud93c\ud93d\ud93e\ud93f\ud940\ud941\ud942\ud943\ud944\ud945\ud946\ud947\ud948\ud949\ud94a\ud94b\ud94c\ud94d\ud94e\ud94f\ud950\ud951\ud952\ud953\ud954\ud955\ud956\ud957\ud958\ud959\ud95a\ud95b\ud95c\ud95d\ud95e\ud95f\ud960\ud961\ud962\ud963\ud964\ud965\ud966\ud967\ud968\ud969\ud96a\ud96b\ud96c\ud96d\ud96e\ud96f\ud970\ud971\ud972\ud973\ud974\ud975\ud976\ud977\ud978\ud979\ud97a\ud97b\ud97c\ud97d\ud97e\ud97f\ud980\ud981\ud982\ud983\ud984\ud985\ud986\ud987\ud988\ud989\ud98a\ud98b\ud98c\ud98d\ud98e\ud98f\ud990\ud991\ud992\ud993\ud994\ud995\ud996\ud997\ud998\ud999\ud99a\ud99b\ud99c\ud99d\ud99e\ud99f\ud9a0\ud9a1\ud9a2\ud9a3\ud9a4\ud9a5\ud9a6\ud9a7\ud9a8\ud9a9\ud9aa\ud9ab\ud9ac\ud9ad\ud9ae\ud9af\ud9b0\ud9b1\ud9b2\ud9b3\ud9b4\ud9b5\ud9b6\ud9b7\ud9b8\ud9b9\ud9ba\ud9bb\ud9bc\ud9bd\ud9be\ud9bf\ud9c0\ud9c1\ud9c2\ud9c3\ud9c4\ud9c5\ud9c6\ud9c7\ud9c8\ud9c9\ud9ca\ud9cb\ud9cc\ud9cd\ud9ce\ud9cf\ud9d0\ud9d1\ud9d2\ud9d3\ud9d4\ud9d5\ud9d6\ud9d7\ud9d8\ud9d9\ud9da\ud9db\ud9dc\ud9dd\ud9de\ud9df\ud9e0\ud9e1\ud9e2\ud9e3\ud9e4\ud9e5\ud9e6\ud9e7\ud9e8\ud9e9\ud9ea\ud9eb\ud9ec\ud9ed\ud9ee\ud9ef\ud9f0\ud9f1\ud9f2\ud9f3\ud9f4\ud9f5\ud9f6\ud9f7\ud9f8\ud9f9\ud9fa\ud9fb\ud9fc\ud9fd\ud9fe\ud9ff\uda00\uda01\uda02\uda03\uda04\uda05\uda06\uda07\uda08\uda09\uda0a\uda0b\uda0c\uda0d\uda0e\uda0f\uda10\uda11\uda12\uda13\uda14\uda15\uda16\uda17\uda18\uda19\uda1a\uda1b\uda1c\uda1d\uda1e\uda1f\uda20\uda21\uda22\uda23\uda24\uda25\uda26\uda27\uda28\uda29\uda2a\uda2b\uda2c\uda2d\uda2e\uda2f\uda30\uda31\uda32\uda33\uda34\uda35\uda36\uda37\uda38\uda39\uda3a\uda3b\uda3c\uda3d\uda3e\uda3f\uda40\uda41\uda42\uda43\uda44\uda45\uda46\uda47\uda48\uda49\uda4a\uda4b\uda4c\uda4d\uda4e\uda4f\uda50\uda51\uda52\uda53\uda54\uda55\uda56\uda57\uda58\uda59\uda5a\uda5b\uda5c\uda5d\uda5e\uda5f\uda60\uda61\uda62\uda63\uda64\uda65\uda66\uda67\uda68\uda69\uda6a\uda6b\uda6c\uda6d\uda6e\uda6f\uda70\uda71\uda72\uda73\uda74\uda75\uda76\uda77\uda78\uda79\uda7a\uda7b\uda7c\uda7d\uda7e\uda7f\uda80\uda81\uda82\uda83\uda84\uda85\uda86\uda87\uda88\uda89\uda8a\uda8b\uda8c\uda8d\uda8e\uda8f\uda90\uda91\uda92\uda93\uda94\uda95\uda96\uda97\uda98\uda99\uda9a\uda9b\uda9c\uda9d\uda9e\uda9f\udaa0\udaa1\udaa2\udaa3\udaa4\udaa5\udaa6\udaa7\udaa8\udaa9\udaaa\udaab\udaac\udaad\udaae\udaaf\udab0\udab1\udab2\udab3\udab4\udab5\udab6\udab7\udab8\udab9\udaba\udabb\udabc\udabd\udabe\udabf\udac0\udac1\udac2\udac3\udac4\udac5\udac6\udac7\udac8\udac9\udaca\udacb\udacc\udacd\udace\udacf\udad0\udad1\udad2\udad3\udad4\udad5\udad6\udad7\udad8\udad9\udada\udadb\udadc\udadd\udade\udadf\udae0\udae1\udae2\udae3\udae4\udae5\udae6\udae7\udae8\udae9\udaea\udaeb\udaec\udaed\udaee\udaef\udaf0\udaf1\udaf2\udaf3\udaf4\udaf5\udaf6\udaf7\udaf8\udaf9\udafa\udafb\udafc\udafd\udafe\udaff\udb00\udb01\udb02\udb03\udb04\udb05\udb06\udb07\udb08\udb09\udb0a\udb0b\udb0c\udb0d\udb0e\udb0f\udb10\udb11\udb12\udb13\udb14\udb15\udb16\udb17\udb18\udb19\udb1a\udb1b\udb1c\udb1d\udb1e\udb1f\udb20\udb21\udb22\udb23\udb24\udb25\udb26\udb27\udb28\udb29\udb2a\udb2b\udb2c\udb2d\udb2e\udb2f\udb30\udb31\udb32\udb33\udb34\udb35\udb36\udb37\udb38\udb39\udb3a\udb3b\udb3c\udb3d\udb3e\udb3f\udb40\udb41\udb42\udb43\udb44\udb45\udb46\udb47\udb48\udb49\udb4a\udb4b\udb4c\udb4d\udb4e\udb4f\udb50\udb51\udb52\udb53\udb54\udb55\udb56\udb57\udb58\udb59\udb5a\udb5b\udb5c\udb5d\udb5e\udb5f\udb60\udb61\udb62\udb63\udb64\udb65\udb66\udb67\udb68\udb69\udb6a\udb6b\udb6c\udb6d\udb6e\udb6f\udb70\udb71\udb72\udb73\udb74\udb75\udb76\udb77\udb78\udb79\udb7a\udb7b\udb7c\udb7d\udb7e\udb7f\udb80\udb81\udb82\udb83\udb84\udb85\udb86\udb87\udb88\udb89\udb8a\udb8b\udb8c\udb8d\udb8e\udb8f\udb90\udb91\udb92\udb93\udb94\udb95\udb96\udb97\udb98\udb99\udb9a\udb9b\udb9c\udb9d\udb9e\udb9f\udba0\udba1\udba2\udba3\udba4\udba5\udba6\udba7\udba8\udba9\udbaa\udbab\udbac\udbad\udbae\udbaf\udbb0\udbb1\udbb2\udbb3\udbb4\udbb5\udbb6\udbb7\udbb8\udbb9\udbba\udbbb\udbbc\udbbd\udbbe\udbbf\udbc0\udbc1\udbc2\udbc3\udbc4\udbc5\udbc6\udbc7\udbc8\udbc9\udbca\udbcb\udbcc\udbcd\udbce\udbcf\udbd0\udbd1\udbd2\udbd3\udbd4\udbd5\udbd6\udbd7\udbd8\udbd9\udbda\udbdb\udbdc\udbdd\udbde\udbdf\udbe0\udbe1\udbe2\udbe3\udbe4\udbe5\udbe6\udbe7\udbe8\udbe9\udbea\udbeb\udbec\udbed\udbee\udbef\udbf0\udbf1\udbf2\udbf3\udbf4\udbf5\udbf6\udbf7\udbf8\udbf9\udbfa\udbfb\udbfc\udbfd\udbfe\U0010fc00\udc01\udc02\udc03\udc04\udc05\udc06\udc07\udc08\udc09\udc0a\udc0b\udc0c\udc0d\udc0e\udc0f\udc10\udc11\udc12\udc13\udc14\udc15\udc16\udc17\udc18\udc19\udc1a\udc1b\udc1c\udc1d\udc1e\udc1f\udc20\udc21\udc22\udc23\udc24\udc25\udc26\udc27\udc28\udc29\udc2a\udc2b\udc2c\udc2d\udc2e\udc2f\udc30\udc31\udc32\udc33\udc34\udc35\udc36\udc37\udc38\udc39\udc3a\udc3b\udc3c\udc3d\udc3e\udc3f\udc40\udc41\udc42\udc43\udc44\udc45\udc46\udc47\udc48\udc49\udc4a\udc4b\udc4c\udc4d\udc4e\udc4f\udc50\udc51\udc52\udc53\udc54\udc55\udc56\udc57\udc58\udc59\udc5a\udc5b\udc5c\udc5d\udc5e\udc5f\udc60\udc61\udc62\udc63\udc64\udc65\udc66\udc67\udc68\udc69\udc6a\udc6b\udc6c\udc6d\udc6e\udc6f\udc70\udc71\udc72\udc73\udc74\udc75\udc76\udc77\udc78\udc79\udc7a\udc7b\udc7c\udc7d\udc7e\udc7f\udc80\udc81\udc82\udc83\udc84\udc85\udc86\udc87\udc88\udc89\udc8a\udc8b\udc8c\udc8d\udc8e\udc8f\udc90\udc91\udc92\udc93\udc94\udc95\udc96\udc97\udc98\udc99\udc9a\udc9b\udc9c\udc9d\udc9e\udc9f\udca0\udca1\udca2\udca3\udca4\udca5\udca6\udca7\udca8\udca9\udcaa\udcab\udcac\udcad\udcae\udcaf\udcb0\udcb1\udcb2\udcb3\udcb4\udcb5\udcb6\udcb7\udcb8\udcb9\udcba\udcbb\udcbc\udcbd\udcbe\udcbf\udcc0\udcc1\udcc2\udcc3\udcc4\udcc5\udcc6\udcc7\udcc8\udcc9\udcca\udccb\udccc\udccd\udcce\udccf\udcd0\udcd1\udcd2\udcd3\udcd4\udcd5\udcd6\udcd7\udcd8\udcd9\udcda\udcdb\udcdc\udcdd\udcde\udcdf\udce0\udce1\udce2\udce3\udce4\udce5\udce6\udce7\udce8\udce9\udcea\udceb\udcec\udced\udcee\udcef\udcf0\udcf1\udcf2\udcf3\udcf4\udcf5\udcf6\udcf7\udcf8\udcf9\udcfa\udcfb\udcfc\udcfd\udcfe\udcff\udd00\udd01\udd02\udd03\udd04\udd05\udd06\udd07\udd08\udd09\udd0a\udd0b\udd0c\udd0d\udd0e\udd0f\udd10\udd11\udd12\udd13\udd14\udd15\udd16\udd17\udd18\udd19\udd1a\udd1b\udd1c\udd1d\udd1e\udd1f\udd20\udd21\udd22\udd23\udd24\udd25\udd26\udd27\udd28\udd29\udd2a\udd2b\udd2c\udd2d\udd2e\udd2f\udd30\udd31\udd32\udd33\udd34\udd35\udd36\udd37\udd38\udd39\udd3a\udd3b\udd3c\udd3d\udd3e\udd3f\udd40\udd41\udd42\udd43\udd44\udd45\udd46\udd47\udd48\udd49\udd4a\udd4b\udd4c\udd4d\udd4e\udd4f\udd50\udd51\udd52\udd53\udd54\udd55\udd56\udd57\udd58\udd59\udd5a\udd5b\udd5c\udd5d\udd5e\udd5f\udd60\udd61\udd62\udd63\udd64\udd65\udd66\udd67\udd68\udd69\udd6a\udd6b\udd6c\udd6d\udd6e\udd6f\udd70\udd71\udd72\udd73\udd74\udd75\udd76\udd77\udd78\udd79\udd7a\udd7b\udd7c\udd7d\udd7e\udd7f\udd80\udd81\udd82\udd83\udd84\udd85\udd86\udd87\udd88\udd89\udd8a\udd8b\udd8c\udd8d\udd8e\udd8f\udd90\udd91\udd92\udd93\udd94\udd95\udd96\udd97\udd98\udd99\udd9a\udd9b\udd9c\udd9d\udd9e\udd9f\udda0\udda1\udda2\udda3\udda4\udda5\udda6\udda7\udda8\udda9\uddaa\uddab\uddac\uddad\uddae\uddaf\uddb0\uddb1\uddb2\uddb3\uddb4\uddb5\uddb6\uddb7\uddb8\uddb9\uddba\uddbb\uddbc\uddbd\uddbe\uddbf\uddc0\uddc1\uddc2\uddc3\uddc4\uddc5\uddc6\uddc7\uddc8\uddc9\uddca\uddcb\uddcc\uddcd\uddce\uddcf\uddd0\uddd1\uddd2\uddd3\uddd4\uddd5\uddd6\uddd7\uddd8\uddd9\uddda\udddb\udddc\udddd\uddde\udddf\udde0\udde1\udde2\udde3\udde4\udde5\udde6\udde7\udde8\udde9\uddea\uddeb\uddec\udded\uddee\uddef\uddf0\uddf1\uddf2\uddf3\uddf4\uddf5\uddf6\uddf7\uddf8\uddf9\uddfa\uddfb\uddfc\uddfd\uddfe\uddff\ude00\ude01\ude02\ude03\ude04\ude05\ude06\ude07\ude08\ude09\ude0a\ude0b\ude0c\ude0d\ude0e\ude0f\ude10\ude11\ude12\ude13\ude14\ude15\ude16\ude17\ude18\ude19\ude1a\ude1b\ude1c\ude1d\ude1e\ude1f\ude20\ude21\ude22\ude23\ude24\ude25\ude26\ude27\ude28\ude29\ude2a\ude2b\ude2c\ude2d\ude2e\ude2f\ude30\ude31\ude32\ude33\ude34\ude35\ude36\ude37\ude38\ude39\ude3a\ude3b\ude3c\ude3d\ude3e\ude3f\ude40\ude41\ude42\ude43\ude44\ude45\ude46\ude47\ude48\ude49\ude4a\ude4b\ude4c\ude4d\ude4e\ude4f\ude50\ude51\ude52\ude53\ude54\ude55\ude56\ude57\ude58\ude59\ude5a\ude5b\ude5c\ude5d\ude5e\ude5f\ude60\ude61\ude62\ude63\ude64\ude65\ude66\ude67\ude68\ude69\ude6a\ude6b\ude6c\ude6d\ude6e\ude6f\ude70\ude71\ude72\ude73\ude74\ude75\ude76\ude77\ude78\ude79\ude7a\ude7b\ude7c\ude7d\ude7e\ude7f\ude80\ude81\ude82\ude83\ude84\ude85\ude86\ude87\ude88\ude89\ude8a\ude8b\ude8c\ude8d\ude8e\ude8f\ude90\ude91\ude92\ude93\ude94\ude95\ude96\ude97\ude98\ude99\ude9a\ude9b\ude9c\ude9d\ude9e\ude9f\udea0\udea1\udea2\udea3\udea4\udea5\udea6\udea7\udea8\udea9\udeaa\udeab\udeac\udead\udeae\udeaf\udeb0\udeb1\udeb2\udeb3\udeb4\udeb5\udeb6\udeb7\udeb8\udeb9\udeba\udebb\udebc\udebd\udebe\udebf\udec0\udec1\udec2\udec3\udec4\udec5\udec6\udec7\udec8\udec9\udeca\udecb\udecc\udecd\udece\udecf\uded0\uded1\uded2\uded3\uded4\uded5\uded6\uded7\uded8\uded9\udeda\udedb\udedc\udedd\udede\udedf\udee0\udee1\udee2\udee3\udee4\udee5\udee6\udee7\udee8\udee9\udeea\udeeb\udeec\udeed\udeee\udeef\udef0\udef1\udef2\udef3\udef4\udef5\udef6\udef7\udef8\udef9\udefa\udefb\udefc\udefd\udefe\udeff\udf00\udf01\udf02\udf03\udf04\udf05\udf06\udf07\udf08\udf09\udf0a\udf0b\udf0c\udf0d\udf0e\udf0f\udf10\udf11\udf12\udf13\udf14\udf15\udf16\udf17\udf18\udf19\udf1a\udf1b\udf1c\udf1d\udf1e\udf1f\udf20\udf21\udf22\udf23\udf24\udf25\udf26\udf27\udf28\udf29\udf2a\udf2b\udf2c\udf2d\udf2e\udf2f\udf30\udf31\udf32\udf33\udf34\udf35\udf36\udf37\udf38\udf39\udf3a\udf3b\udf3c\udf3d\udf3e\udf3f\udf40\udf41\udf42\udf43\udf44\udf45\udf46\udf47\udf48\udf49\udf4a\udf4b\udf4c\udf4d\udf4e\udf4f\udf50\udf51\udf52\udf53\udf54\udf55\udf56\udf57\udf58\udf59\udf5a\udf5b\udf5c\udf5d\udf5e\udf5f\udf60\udf61\udf62\udf63\udf64\udf65\udf66\udf67\udf68\udf69\udf6a\udf6b\udf6c\udf6d\udf6e\udf6f\udf70\udf71\udf72\udf73\udf74\udf75\udf76\udf77\udf78\udf79\udf7a\udf7b\udf7c\udf7d\udf7e\udf7f\udf80\udf81\udf82\udf83\udf84\udf85\udf86\udf87\udf88\udf89\udf8a\udf8b\udf8c\udf8d\udf8e\udf8f\udf90\udf91\udf92\udf93\udf94\udf95\udf96\udf97\udf98\udf99\udf9a\udf9b\udf9c\udf9d\udf9e\udf9f\udfa0\udfa1\udfa2\udfa3\udfa4\udfa5\udfa6\udfa7\udfa8\udfa9\udfaa\udfab\udfac\udfad\udfae\udfaf\udfb0\udfb1\udfb2\udfb3\udfb4\udfb5\udfb6\udfb7\udfb8\udfb9\udfba\udfbb\udfbc\udfbd\udfbe\udfbf\udfc0\udfc1\udfc2\udfc3\udfc4\udfc5\udfc6\udfc7\udfc8\udfc9\udfca\udfcb\udfcc\udfcd\udfce\udfcf\udfd0\udfd1\udfd2\udfd3\udfd4\udfd5\udfd6\udfd7\udfd8\udfd9\udfda\udfdb\udfdc\udfdd\udfde\udfdf\udfe0\udfe1\udfe2\udfe3\udfe4\udfe5\udfe6\udfe7\udfe8\udfe9\udfea\udfeb\udfec\udfed\udfee\udfef\udff0\udff1\udff2\udff3\udff4\udff5\udff6\udff7\udff8\udff9\udffa\udffb\udffc\udffd\udffe\udfff'")
except UnicodeDecodeError:
Cs = '' # Jython can't handle isolated surrogates
Ll = u'abcdefghijklmnopqrstuvwxyz\xaa\xb5\xba\xdf\xe0\xe1\xe2\xe3\xe4\xe5\xe6\xe7\xe8\xe9\xea\xeb\xec\xed\xee\xef\xf0\xf1\xf2\xf3\xf4\xf5\xf6\xf8\xf9\xfa\xfb\xfc\xfd\xfe\xff\u0101\u0103\u0105\u0107\u0109\u010b\u010d\u010f\u0111\u0113\u0115\u0117\u0119\u011b\u011d\u011f\u0121\u0123\u0125\u0127\u0129\u012b\u012d\u012f\u0131\u0133\u0135\u0137\u0138\u013a\u013c\u013e\u0140\u0142\u0144\u0146\u0148\u0149\u014b\u014d\u014f\u0151\u0153\u0155\u0157\u0159\u015b\u015d\u015f\u0161\u0163\u0165\u0167\u0169\u016b\u016d\u016f\u0171\u0173\u0175\u0177\u017a\u017c\u017e\u017f\u0180\u0183\u0185\u0188\u018c\u018d\u0192\u0195\u0199\u019a\u019b\u019e\u01a1\u01a3\u01a5\u01a8\u01aa\u01ab\u01ad\u01b0\u01b4\u01b6\u01b9\u01ba\u01bd\u01be\u01bf\u01c6\u01c9\u01cc\u01ce\u01d0\u01d2\u01d4\u01d6\u01d8\u01da\u01dc\u01dd\u01df\u01e1\u01e3\u01e5\u01e7\u01e9\u01eb\u01ed\u01ef\u01f0\u01f3\u01f5\u01f9\u01fb\u01fd\u01ff\u0201\u0203\u0205\u0207\u0209\u020b\u020d\u020f\u0211\u0213\u0215\u0217\u0219\u021b\u021d\u021f\u0221\u0223\u0225\u0227\u0229\u022b\u022d\u022f\u0231\u0233\u0234\u0235\u0236\u0237\u0238\u0239\u023c\u023f\u0240\u0250\u0251\u0252\u0253\u0254\u0255\u0256\u0257\u0258\u0259\u025a\u025b\u025c\u025d\u025e\u025f\u0260\u0261\u0262\u0263\u0264\u0265\u0266\u0267\u0268\u0269\u026a\u026b\u026c\u026d\u026e\u026f\u0270\u0271\u0272\u0273\u0274\u0275\u0276\u0277\u0278\u0279\u027a\u027b\u027c\u027d\u027e\u027f\u0280\u0281\u0282\u0283\u0284\u0285\u0286\u0287\u0288\u0289\u028a\u028b\u028c\u028d\u028e\u028f\u0290\u0291\u0292\u0293\u0294\u0295\u0296\u0297\u0298\u0299\u029a\u029b\u029c\u029d\u029e\u029f\u02a0\u02a1\u02a2\u02a3\u02a4\u02a5\u02a6\u02a7\u02a8\u02a9\u02aa\u02ab\u02ac\u02ad\u02ae\u02af\u0390\u03ac\u03ad\u03ae\u03af\u03b0\u03b1\u03b2\u03b3\u03b4\u03b5\u03b6\u03b7\u03b8\u03b9\u03ba\u03bb\u03bc\u03bd\u03be\u03bf\u03c0\u03c1\u03c2\u03c3\u03c4\u03c5\u03c6\u03c7\u03c8\u03c9\u03ca\u03cb\u03cc\u03cd\u03ce\u03d0\u03d1\u03d5\u03d6\u03d7\u03d9\u03db\u03dd\u03df\u03e1\u03e3\u03e5\u03e7\u03e9\u03eb\u03ed\u03ef\u03f0\u03f1\u03f2\u03f3\u03f5\u03f8\u03fb\u03fc\u0430\u0431\u0432\u0433\u0434\u0435\u0436\u0437\u0438\u0439\u043a\u043b\u043c\u043d\u043e\u043f\u0440\u0441\u0442\u0443\u0444\u0445\u0446\u0447\u0448\u0449\u044a\u044b\u044c\u044d\u044e\u044f\u0450\u0451\u0452\u0453\u0454\u0455\u0456\u0457\u0458\u0459\u045a\u045b\u045c\u045d\u045e\u045f\u0461\u0463\u0465\u0467\u0469\u046b\u046d\u046f\u0471\u0473\u0475\u0477\u0479\u047b\u047d\u047f\u0481\u048b\u048d\u048f\u0491\u0493\u0495\u0497\u0499\u049b\u049d\u049f\u04a1\u04a3\u04a5\u04a7\u04a9\u04ab\u04ad\u04af\u04b1\u04b3\u04b5\u04b7\u04b9\u04bb\u04bd\u04bf\u04c2\u04c4\u04c6\u04c8\u04ca\u04cc\u04ce\u04d1\u04d3\u04d5\u04d7\u04d9\u04db\u04dd\u04df\u04e1\u04e3\u04e5\u04e7\u04e9\u04eb\u04ed\u04ef\u04f1\u04f3\u04f5\u04f7\u04f9\u0501\u0503\u0505\u0507\u0509\u050b\u050d\u050f\u0561\u0562\u0563\u0564\u0565\u0566\u0567\u0568\u0569\u056a\u056b\u056c\u056d\u056e\u056f\u0570\u0571\u0572\u0573\u0574\u0575\u0576\u0577\u0578\u0579\u057a\u057b\u057c\u057d\u057e\u057f\u0580\u0581\u0582\u0583\u0584\u0585\u0586\u0587\u1d00\u1d01\u1d02\u1d03\u1d04\u1d05\u1d06\u1d07\u1d08\u1d09\u1d0a\u1d0b\u1d0c\u1d0d\u1d0e\u1d0f\u1d10\u1d11\u1d12\u1d13\u1d14\u1d15\u1d16\u1d17\u1d18\u1d19\u1d1a\u1d1b\u1d1c\u1d1d\u1d1e\u1d1f\u1d20\u1d21\u1d22\u1d23\u1d24\u1d25\u1d26\u1d27\u1d28\u1d29\u1d2a\u1d2b\u1d62\u1d63\u1d64\u1d65\u1d66\u1d67\u1d68\u1d69\u1d6a\u1d6b\u1d6c\u1d6d\u1d6e\u1d6f\u1d70\u1d71\u1d72\u1d73\u1d74\u1d75\u1d76\u1d77\u1d79\u1d7a\u1d7b\u1d7c\u1d7d\u1d7e\u1d7f\u1d80\u1d81\u1d82\u1d83\u1d84\u1d85\u1d86\u1d87\u1d88\u1d89\u1d8a\u1d8b\u1d8c\u1d8d\u1d8e\u1d8f\u1d90\u1d91\u1d92\u1d93\u1d94\u1d95\u1d96\u1d97\u1d98\u1d99\u1d9a\u1e01\u1e03\u1e05\u1e07\u1e09\u1e0b\u1e0d\u1e0f\u1e11\u1e13\u1e15\u1e17\u1e19\u1e1b\u1e1d\u1e1f\u1e21\u1e23\u1e25\u1e27\u1e29\u1e2b\u1e2d\u1e2f\u1e31\u1e33\u1e35\u1e37\u1e39\u1e3b\u1e3d\u1e3f\u1e41\u1e43\u1e45\u1e47\u1e49\u1e4b\u1e4d\u1e4f\u1e51\u1e53\u1e55\u1e57\u1e59\u1e5b\u1e5d\u1e5f\u1e61\u1e63\u1e65\u1e67\u1e69\u1e6b\u1e6d\u1e6f\u1e71\u1e73\u1e75\u1e77\u1e79\u1e7b\u1e7d\u1e7f\u1e81\u1e83\u1e85\u1e87\u1e89\u1e8b\u1e8d\u1e8f\u1e91\u1e93\u1e95\u1e96\u1e97\u1e98\u1e99\u1e9a\u1e9b\u1ea1\u1ea3\u1ea5\u1ea7\u1ea9\u1eab\u1ead\u1eaf\u1eb1\u1eb3\u1eb5\u1eb7\u1eb9\u1ebb\u1ebd\u1ebf\u1ec1\u1ec3\u1ec5\u1ec7\u1ec9\u1ecb\u1ecd\u1ecf\u1ed1\u1ed3\u1ed5\u1ed7\u1ed9\u1edb\u1edd\u1edf\u1ee1\u1ee3\u1ee5\u1ee7\u1ee9\u1eeb\u1eed\u1eef\u1ef1\u1ef3\u1ef5\u1ef7\u1ef9\u1f00\u1f01\u1f02\u1f03\u1f04\u1f05\u1f06\u1f07\u1f10\u1f11\u1f12\u1f13\u1f14\u1f15\u1f20\u1f21\u1f22\u1f23\u1f24\u1f25\u1f26\u1f27\u1f30\u1f31\u1f32\u1f33\u1f34\u1f35\u1f36\u1f37\u1f40\u1f41\u1f42\u1f43\u1f44\u1f45\u1f50\u1f51\u1f52\u1f53\u1f54\u1f55\u1f56\u1f57\u1f60\u1f61\u1f62\u1f63\u1f64\u1f65\u1f66\u1f67\u1f70\u1f71\u1f72\u1f73\u1f74\u1f75\u1f76\u1f77\u1f78\u1f79\u1f7a\u1f7b\u1f7c\u1f7d\u1f80\u1f81\u1f82\u1f83\u1f84\u1f85\u1f86\u1f87\u1f90\u1f91\u1f92\u1f93\u1f94\u1f95\u1f96\u1f97\u1fa0\u1fa1\u1fa2\u1fa3\u1fa4\u1fa5\u1fa6\u1fa7\u1fb0\u1fb1\u1fb2\u1fb3\u1fb4\u1fb6\u1fb7\u1fbe\u1fc2\u1fc3\u1fc4\u1fc6\u1fc7\u1fd0\u1fd1\u1fd2\u1fd3\u1fd6\u1fd7\u1fe0\u1fe1\u1fe2\u1fe3\u1fe4\u1fe5\u1fe6\u1fe7\u1ff2\u1ff3\u1ff4\u1ff6\u1ff7\u2071\u207f\u210a\u210e\u210f\u2113\u212f\u2134\u2139\u213c\u213d\u2146\u2147\u2148\u2149\u2c30\u2c31\u2c32\u2c33\u2c34\u2c35\u2c36\u2c37\u2c38\u2c39\u2c3a\u2c3b\u2c3c\u2c3d\u2c3e\u2c3f\u2c40\u2c41\u2c42\u2c43\u2c44\u2c45\u2c46\u2c47\u2c48\u2c49\u2c4a\u2c4b\u2c4c\u2c4d\u2c4e\u2c4f\u2c50\u2c51\u2c52\u2c53\u2c54\u2c55\u2c56\u2c57\u2c58\u2c59\u2c5a\u2c5b\u2c5c\u2c5d\u2c5e\u2c81\u2c83\u2c85\u2c87\u2c89\u2c8b\u2c8d\u2c8f\u2c91\u2c93\u2c95\u2c97\u2c99\u2c9b\u2c9d\u2c9f\u2ca1\u2ca3\u2ca5\u2ca7\u2ca9\u2cab\u2cad\u2caf\u2cb1\u2cb3\u2cb5\u2cb7\u2cb9\u2cbb\u2cbd\u2cbf\u2cc1\u2cc3\u2cc5\u2cc7\u2cc9\u2ccb\u2ccd\u2ccf\u2cd1\u2cd3\u2cd5\u2cd7\u2cd9\u2cdb\u2cdd\u2cdf\u2ce1\u2ce3\u2ce4\u2d00\u2d01\u2d02\u2d03\u2d04\u2d05\u2d06\u2d07\u2d08\u2d09\u2d0a\u2d0b\u2d0c\u2d0d\u2d0e\u2d0f\u2d10\u2d11\u2d12\u2d13\u2d14\u2d15\u2d16\u2d17\u2d18\u2d19\u2d1a\u2d1b\u2d1c\u2d1d\u2d1e\u2d1f\u2d20\u2d21\u2d22\u2d23\u2d24\u2d25\ufb00\ufb01\ufb02\ufb03\ufb04\ufb05\ufb06\ufb13\ufb14\ufb15\ufb16\ufb17\uff41\uff42\uff43\uff44\uff45\uff46\uff47\uff48\uff49\uff4a\uff4b\uff4c\uff4d\uff4e\uff4f\uff50\uff51\uff52\uff53\uff54\uff55\uff56\uff57\uff58\uff59\uff5a'
Lm = u'\u02b0\u02b1\u02b2\u02b3\u02b4\u02b5\u02b6\u02b7\u02b8\u02b9\u02ba\u02bb\u02bc\u02bd\u02be\u02bf\u02c0\u02c1\u02c6\u02c7\u02c8\u02c9\u02ca\u02cb\u02cc\u02cd\u02ce\u02cf\u02d0\u02d1\u02e0\u02e1\u02e2\u02e3\u02e4\u02ee\u037a\u0559\u0640\u06e5\u06e6\u0e46\u0ec6\u10fc\u17d7\u1843\u1d2c\u1d2d\u1d2e\u1d2f\u1d30\u1d31\u1d32\u1d33\u1d34\u1d35\u1d36\u1d37\u1d38\u1d39\u1d3a\u1d3b\u1d3c\u1d3d\u1d3e\u1d3f\u1d40\u1d41\u1d42\u1d43\u1d44\u1d45\u1d46\u1d47\u1d48\u1d49\u1d4a\u1d4b\u1d4c\u1d4d\u1d4e\u1d4f\u1d50\u1d51\u1d52\u1d53\u1d54\u1d55\u1d56\u1d57\u1d58\u1d59\u1d5a\u1d5b\u1d5c\u1d5d\u1d5e\u1d5f\u1d60\u1d61\u1d78\u1d9b\u1d9c\u1d9d\u1d9e\u1d9f\u1da0\u1da1\u1da2\u1da3\u1da4\u1da5\u1da6\u1da7\u1da8\u1da9\u1daa\u1dab\u1dac\u1dad\u1dae\u1daf\u1db0\u1db1\u1db2\u1db3\u1db4\u1db5\u1db6\u1db7\u1db8\u1db9\u1dba\u1dbb\u1dbc\u1dbd\u1dbe\u1dbf\u2090\u2091\u2092\u2093\u2094\u2d6f\u3005\u3031\u3032\u3033\u3034\u3035\u303b\u309d\u309e\u30fc\u30fd\u30fe\ua015\uff70\uff9e\uff9f'
Lo = 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fd56\ufd57\ufd58\ufd59\ufd5a\ufd5b\ufd5c\ufd5d\ufd5e\ufd5f\ufd60\ufd61\ufd62\ufd63\ufd64\ufd65\ufd66\ufd67\ufd68\ufd69\ufd6a\ufd6b\ufd6c\ufd6d\ufd6e\ufd6f\ufd70\ufd71\ufd72\ufd73\ufd74\ufd75\ufd76\ufd77\ufd78\ufd79\ufd7a\ufd7b\ufd7c\ufd7d\ufd7e\ufd7f\ufd80\ufd81\ufd82\ufd83\ufd84\ufd85\ufd86\ufd87\ufd88\ufd89\ufd8a\ufd8b\ufd8c\ufd8d\ufd8e\ufd8f\ufd92\ufd93\ufd94\ufd95\ufd96\ufd97\ufd98\ufd99\ufd9a\ufd9b\ufd9c\ufd9d\ufd9e\ufd9f\ufda0\ufda1\ufda2\ufda3\ufda4\ufda5\ufda6\ufda7\ufda8\ufda9\ufdaa\ufdab\ufdac\ufdad\ufdae\ufdaf\ufdb0\ufdb1\ufdb2\ufdb3\ufdb4\ufdb5\ufdb6\ufdb7\ufdb8\ufdb9\ufdba\ufdbb\ufdbc\ufdbd\ufdbe\ufdbf\ufdc0\ufdc1\ufdc2\ufdc3\ufdc4\ufdc5\ufdc6\ufdc7\ufdf0\ufdf1\ufdf2\ufdf3\ufdf4\ufdf5\ufdf6\ufdf7\ufdf8\ufdf9\ufdfa\ufdfb\ufe70\ufe71\ufe72\ufe73\ufe74\ufe76\ufe77\ufe78\ufe79\ufe7a\ufe7b\ufe7c\ufe7d\ufe7e\ufe7f\ufe80\ufe81\ufe82\ufe83\ufe84\ufe85\ufe86\ufe87\ufe88\ufe89\ufe8a\ufe8b\ufe8c\ufe8d\ufe8e\ufe8f\ufe90\ufe91\ufe92\ufe93\ufe94\ufe95\ufe96\ufe97\ufe98\ufe99\ufe9a\ufe9b\ufe9c\ufe9d\ufe9e\ufe9f\ufea0\ufea1\ufea2\ufea3\ufea4\ufea5\ufea6\ufea7\ufea8\ufea9\ufeaa\ufeab\ufeac\ufead\ufeae\ufeaf\ufeb0\ufeb1\ufeb2\ufeb3\ufeb4\ufeb5\ufeb6\ufeb7\ufeb8\ufeb9\ufeba\ufebb\ufebc\ufebd\ufebe\ufebf\ufec0\ufec1\ufec2\ufec3\ufec4\ufec5\ufec6\ufec7\ufec8\ufec9\ufeca\ufecb\ufecc\ufecd\ufece\ufecf\ufed0\ufed1\ufed2\ufed3\ufed4\ufed5\ufed6\ufed7\ufed8\ufed9\ufeda\ufedb\ufedc\ufedd\ufede\ufedf\ufee0\ufee1\ufee2\ufee3\ufee4\ufee5\ufee6\ufee7\ufee8\ufee9\ufeea\ufeeb\ufeec\ufeed\ufeee\ufeef\ufef0\ufef1\ufef2\ufef3\ufef4\ufef5\ufef6\ufef7\ufef8\ufef9\ufefa\ufefb\ufefc\uff66\uff67\uff68\uff69\uff6a\uff6b\uff6c\uff6d\uff6e\uff6f\uff71\uff72\uff73\uff74\uff75\uff76\uff77\uff78\uff79\uff7a\uff7b\uff7c\uff7d\uff7e\uff7f\uff80\uff81\uff82\uff83\uff84\uff85\uff86\uff87\uff88\uff89\uff8a\uff8b\uff8c\uff8d\uff8e\uff8f\uff90\uff91\uff92\uff93\uff94\uff95\uff96\uff97\uff98\uff99\uff9a\uff9b\uff9c\uff9d\uffa0\uffa1\uffa2\uffa3\uffa4\uffa5\uffa6\uffa7\uffa8\uffa9\uffaa\uffab\uffac\uffad\uffae\uffaf\uffb0\uffb1\uffb2\uffb3\uffb4\uffb5\uffb6\uffb7\uffb8\uffb9\uffba\uffbb\uffbc\uffbd\uffbe\uffc2\uffc3\uffc4\uffc5\uffc6\uffc7\uffca\uffcb\uffcc\uffcd\uffce\uffcf\uffd2\uffd3\uffd4\uffd5\uffd6\uffd7\uffda\uffdb\uffdc'
Lt = u'\u01c5\u01c8\u01cb\u01f2\u1f88\u1f89\u1f8a\u1f8b\u1f8c\u1f8d\u1f8e\u1f8f\u1f98\u1f99\u1f9a\u1f9b\u1f9c\u1f9d\u1f9e\u1f9f\u1fa8\u1fa9\u1faa\u1fab\u1fac\u1fad\u1fae\u1faf\u1fbc\u1fcc\u1ffc'
Lu = u'ABCDEFGHIJKLMNOPQRSTUVWXYZ\xc0\xc1\xc2\xc3\xc4\xc5\xc6\xc7\xc8\xc9\xca\xcb\xcc\xcd\xce\xcf\xd0\xd1\xd2\xd3\xd4\xd5\xd6\xd8\xd9\xda\xdb\xdc\xdd\xde\u0100\u0102\u0104\u0106\u0108\u010a\u010c\u010e\u0110\u0112\u0114\u0116\u0118\u011a\u011c\u011e\u0120\u0122\u0124\u0126\u0128\u012a\u012c\u012e\u0130\u0132\u0134\u0136\u0139\u013b\u013d\u013f\u0141\u0143\u0145\u0147\u014a\u014c\u014e\u0150\u0152\u0154\u0156\u0158\u015a\u015c\u015e\u0160\u0162\u0164\u0166\u0168\u016a\u016c\u016e\u0170\u0172\u0174\u0176\u0178\u0179\u017b\u017d\u0181\u0182\u0184\u0186\u0187\u0189\u018a\u018b\u018e\u018f\u0190\u0191\u0193\u0194\u0196\u0197\u0198\u019c\u019d\u019f\u01a0\u01a2\u01a4\u01a6\u01a7\u01a9\u01ac\u01ae\u01af\u01b1\u01b2\u01b3\u01b5\u01b7\u01b8\u01bc\u01c4\u01c7\u01ca\u01cd\u01cf\u01d1\u01d3\u01d5\u01d7\u01d9\u01db\u01de\u01e0\u01e2\u01e4\u01e6\u01e8\u01ea\u01ec\u01ee\u01f1\u01f4\u01f6\u01f7\u01f8\u01fa\u01fc\u01fe\u0200\u0202\u0204\u0206\u0208\u020a\u020c\u020e\u0210\u0212\u0214\u0216\u0218\u021a\u021c\u021e\u0220\u0222\u0224\u0226\u0228\u022a\u022c\u022e\u0230\u0232\u023a\u023b\u023d\u023e\u0241\u0386\u0388\u0389\u038a\u038c\u038e\u038f\u0391\u0392\u0393\u0394\u0395\u0396\u0397\u0398\u0399\u039a\u039b\u039c\u039d\u039e\u039f\u03a0\u03a1\u03a3\u03a4\u03a5\u03a6\u03a7\u03a8\u03a9\u03aa\u03ab\u03d2\u03d3\u03d4\u03d8\u03da\u03dc\u03de\u03e0\u03e2\u03e4\u03e6\u03e8\u03ea\u03ec\u03ee\u03f4\u03f7\u03f9\u03fa\u03fd\u03fe\u03ff\u0400\u0401\u0402\u0403\u0404\u0405\u0406\u0407\u0408\u0409\u040a\u040b\u040c\u040d\u040e\u040f\u0410\u0411\u0412\u0413\u0414\u0415\u0416\u0417\u0418\u0419\u041a\u041b\u041c\u041d\u041e\u041f\u0420\u0421\u0422\u0423\u0424\u0425\u0426\u0427\u0428\u0429\u042a\u042b\u042c\u042d\u042e\u042f\u0460\u0462\u0464\u0466\u0468\u046a\u046c\u046e\u0470\u0472\u0474\u0476\u0478\u047a\u047c\u047e\u0480\u048a\u048c\u048e\u0490\u0492\u0494\u0496\u0498\u049a\u049c\u049e\u04a0\u04a2\u04a4\u04a6\u04a8\u04aa\u04ac\u04ae\u04b0\u04b2\u04b4\u04b6\u04b8\u04ba\u04bc\u04be\u04c0\u04c1\u04c3\u04c5\u04c7\u04c9\u04cb\u04cd\u04d0\u04d2\u04d4\u04d6\u04d8\u04da\u04dc\u04de\u04e0\u04e2\u04e4\u04e6\u04e8\u04ea\u04ec\u04ee\u04f0\u04f2\u04f4\u04f6\u04f8\u0500\u0502\u0504\u0506\u0508\u050a\u050c\u050e\u0531\u0532\u0533\u0534\u0535\u0536\u0537\u0538\u0539\u053a\u053b\u053c\u053d\u053e\u053f\u0540\u0541\u0542\u0543\u0544\u0545\u0546\u0547\u0548\u0549\u054a\u054b\u054c\u054d\u054e\u054f\u0550\u0551\u0552\u0553\u0554\u0555\u0556\u10a0\u10a1\u10a2\u10a3\u10a4\u10a5\u10a6\u10a7\u10a8\u10a9\u10aa\u10ab\u10ac\u10ad\u10ae\u10af\u10b0\u10b1\u10b2\u10b3\u10b4\u10b5\u10b6\u10b7\u10b8\u10b9\u10ba\u10bb\u10bc\u10bd\u10be\u10bf\u10c0\u10c1\u10c2\u10c3\u10c4\u10c5\u1e00\u1e02\u1e04\u1e06\u1e08\u1e0a\u1e0c\u1e0e\u1e10\u1e12\u1e14\u1e16\u1e18\u1e1a\u1e1c\u1e1e\u1e20\u1e22\u1e24\u1e26\u1e28\u1e2a\u1e2c\u1e2e\u1e30\u1e32\u1e34\u1e36\u1e38\u1e3a\u1e3c\u1e3e\u1e40\u1e42\u1e44\u1e46\u1e48\u1e4a\u1e4c\u1e4e\u1e50\u1e52\u1e54\u1e56\u1e58\u1e5a\u1e5c\u1e5e\u1e60\u1e62\u1e64\u1e66\u1e68\u1e6a\u1e6c\u1e6e\u1e70\u1e72\u1e74\u1e76\u1e78\u1e7a\u1e7c\u1e7e\u1e80\u1e82\u1e84\u1e86\u1e88\u1e8a\u1e8c\u1e8e\u1e90\u1e92\u1e94\u1ea0\u1ea2\u1ea4\u1ea6\u1ea8\u1eaa\u1eac\u1eae\u1eb0\u1eb2\u1eb4\u1eb6\u1eb8\u1eba\u1ebc\u1ebe\u1ec0\u1ec2\u1ec4\u1ec6\u1ec8\u1eca\u1ecc\u1ece\u1ed0\u1ed2\u1ed4\u1ed6\u1ed8\u1eda\u1edc\u1ede\u1ee0\u1ee2\u1ee4\u1ee6\u1ee8\u1eea\u1eec\u1eee\u1ef0\u1ef2\u1ef4\u1ef6\u1ef8\u1f08\u1f09\u1f0a\u1f0b\u1f0c\u1f0d\u1f0e\u1f0f\u1f18\u1f19\u1f1a\u1f1b\u1f1c\u1f1d\u1f28\u1f29\u1f2a\u1f2b\u1f2c\u1f2d\u1f2e\u1f2f\u1f38\u1f39\u1f3a\u1f3b\u1f3c\u1f3d\u1f3e\u1f3f\u1f48\u1f49\u1f4a\u1f4b\u1f4c\u1f4d\u1f59\u1f5b\u1f5d\u1f5f\u1f68\u1f69\u1f6a\u1f6b\u1f6c\u1f6d\u1f6e\u1f6f\u1fb8\u1fb9\u1fba\u1fbb\u1fc8\u1fc9\u1fca\u1fcb\u1fd8\u1fd9\u1fda\u1fdb\u1fe8\u1fe9\u1fea\u1feb\u1fec\u1ff8\u1ff9\u1ffa\u1ffb\u2102\u2107\u210b\u210c\u210d\u2110\u2111\u2112\u2115\u2119\u211a\u211b\u211c\u211d\u2124\u2126\u2128\u212a\u212b\u212c\u212d\u2130\u2131\u2133\u213e\u213f\u2145\u2c00\u2c01\u2c02\u2c03\u2c04\u2c05\u2c06\u2c07\u2c08\u2c09\u2c0a\u2c0b\u2c0c\u2c0d\u2c0e\u2c0f\u2c10\u2c11\u2c12\u2c13\u2c14\u2c15\u2c16\u2c17\u2c18\u2c19\u2c1a\u2c1b\u2c1c\u2c1d\u2c1e\u2c1f\u2c20\u2c21\u2c22\u2c23\u2c24\u2c25\u2c26\u2c27\u2c28\u2c29\u2c2a\u2c2b\u2c2c\u2c2d\u2c2e\u2c80\u2c82\u2c84\u2c86\u2c88\u2c8a\u2c8c\u2c8e\u2c90\u2c92\u2c94\u2c96\u2c98\u2c9a\u2c9c\u2c9e\u2ca0\u2ca2\u2ca4\u2ca6\u2ca8\u2caa\u2cac\u2cae\u2cb0\u2cb2\u2cb4\u2cb6\u2cb8\u2cba\u2cbc\u2cbe\u2cc0\u2cc2\u2cc4\u2cc6\u2cc8\u2cca\u2ccc\u2cce\u2cd0\u2cd2\u2cd4\u2cd6\u2cd8\u2cda\u2cdc\u2cde\u2ce0\u2ce2\uff21\uff22\uff23\uff24\uff25\uff26\uff27\uff28\uff29\uff2a\uff2b\uff2c\uff2d\uff2e\uff2f\uff30\uff31\uff32\uff33\uff34\uff35\uff36\uff37\uff38\uff39\uff3a'
Mc = u'\u0903\u093e\u093f\u0940\u0949\u094a\u094b\u094c\u0982\u0983\u09be\u09bf\u09c0\u09c7\u09c8\u09cb\u09cc\u09d7\u0a03\u0a3e\u0a3f\u0a40\u0a83\u0abe\u0abf\u0ac0\u0ac9\u0acb\u0acc\u0b02\u0b03\u0b3e\u0b40\u0b47\u0b48\u0b4b\u0b4c\u0b57\u0bbe\u0bbf\u0bc1\u0bc2\u0bc6\u0bc7\u0bc8\u0bca\u0bcb\u0bcc\u0bd7\u0c01\u0c02\u0c03\u0c41\u0c42\u0c43\u0c44\u0c82\u0c83\u0cbe\u0cc0\u0cc1\u0cc2\u0cc3\u0cc4\u0cc7\u0cc8\u0cca\u0ccb\u0cd5\u0cd6\u0d02\u0d03\u0d3e\u0d3f\u0d40\u0d46\u0d47\u0d48\u0d4a\u0d4b\u0d4c\u0d57\u0d82\u0d83\u0dcf\u0dd0\u0dd1\u0dd8\u0dd9\u0dda\u0ddb\u0ddc\u0ddd\u0dde\u0ddf\u0df2\u0df3\u0f3e\u0f3f\u0f7f\u102c\u1031\u1038\u1056\u1057\u17b6\u17be\u17bf\u17c0\u17c1\u17c2\u17c3\u17c4\u17c5\u17c7\u17c8\u1923\u1924\u1925\u1926\u1929\u192a\u192b\u1930\u1931\u1933\u1934\u1935\u1936\u1937\u1938\u19b0\u19b1\u19b2\u19b3\u19b4\u19b5\u19b6\u19b7\u19b8\u19b9\u19ba\u19bb\u19bc\u19bd\u19be\u19bf\u19c0\u19c8\u19c9\u1a19\u1a1a\u1a1b\ua802\ua823\ua824\ua827'
Me = u'\u0488\u0489\u06de\u20dd\u20de\u20df\u20e0\u20e2\u20e3\u20e4'
Mn = u'\u0300\u0301\u0302\u0303\u0304\u0305\u0306\u0307\u0308\u0309\u030a\u030b\u030c\u030d\u030e\u030f\u0310\u0311\u0312\u0313\u0314\u0315\u0316\u0317\u0318\u0319\u031a\u031b\u031c\u031d\u031e\u031f\u0320\u0321\u0322\u0323\u0324\u0325\u0326\u0327\u0328\u0329\u032a\u032b\u032c\u032d\u032e\u032f\u0330\u0331\u0332\u0333\u0334\u0335\u0336\u0337\u0338\u0339\u033a\u033b\u033c\u033d\u033e\u033f\u0340\u0341\u0342\u0343\u0344\u0345\u0346\u0347\u0348\u0349\u034a\u034b\u034c\u034d\u034e\u034f\u0350\u0351\u0352\u0353\u0354\u0355\u0356\u0357\u0358\u0359\u035a\u035b\u035c\u035d\u035e\u035f\u0360\u0361\u0362\u0363\u0364\u0365\u0366\u0367\u0368\u0369\u036a\u036b\u036c\u036d\u036e\u036f\u0483\u0484\u0485\u0486\u0591\u0592\u0593\u0594\u0595\u0596\u0597\u0598\u0599\u059a\u059b\u059c\u059d\u059e\u059f\u05a0\u05a1\u05a2\u05a3\u05a4\u05a5\u05a6\u05a7\u05a8\u05a9\u05aa\u05ab\u05ac\u05ad\u05ae\u05af\u05b0\u05b1\u05b2\u05b3\u05b4\u05b5\u05b6\u05b7\u05b8\u05b9\u05bb\u05bc\u05bd\u05bf\u05c1\u05c2\u05c4\u05c5\u05c7\u0610\u0611\u0612\u0613\u0614\u0615\u064b\u064c\u064d\u064e\u064f\u0650\u0651\u0652\u0653\u0654\u0655\u0656\u0657\u0658\u0659\u065a\u065b\u065c\u065d\u065e\u0670\u06d6\u06d7\u06d8\u06d9\u06da\u06db\u06dc\u06df\u06e0\u06e1\u06e2\u06e3\u06e4\u06e7\u06e8\u06ea\u06eb\u06ec\u06ed\u0711\u0730\u0731\u0732\u0733\u0734\u0735\u0736\u0737\u0738\u0739\u073a\u073b\u073c\u073d\u073e\u073f\u0740\u0741\u0742\u0743\u0744\u0745\u0746\u0747\u0748\u0749\u074a\u07a6\u07a7\u07a8\u07a9\u07aa\u07ab\u07ac\u07ad\u07ae\u07af\u07b0\u0901\u0902\u093c\u0941\u0942\u0943\u0944\u0945\u0946\u0947\u0948\u094d\u0951\u0952\u0953\u0954\u0962\u0963\u0981\u09bc\u09c1\u09c2\u09c3\u09c4\u09cd\u09e2\u09e3\u0a01\u0a02\u0a3c\u0a41\u0a42\u0a47\u0a48\u0a4b\u0a4c\u0a4d\u0a70\u0a71\u0a81\u0a82\u0abc\u0ac1\u0ac2\u0ac3\u0ac4\u0ac5\u0ac7\u0ac8\u0acd\u0ae2\u0ae3\u0b01\u0b3c\u0b3f\u0b41\u0b42\u0b43\u0b4d\u0b56\u0b82\u0bc0\u0bcd\u0c3e\u0c3f\u0c40\u0c46\u0c47\u0c48\u0c4a\u0c4b\u0c4c\u0c4d\u0c55\u0c56\u0cbc\u0cbf\u0cc6\u0ccc\u0ccd\u0d41\u0d42\u0d43\u0d4d\u0dca\u0dd2\u0dd3\u0dd4\u0dd6\u0e31\u0e34\u0e35\u0e36\u0e37\u0e38\u0e39\u0e3a\u0e47\u0e48\u0e49\u0e4a\u0e4b\u0e4c\u0e4d\u0e4e\u0eb1\u0eb4\u0eb5\u0eb6\u0eb7\u0eb8\u0eb9\u0ebb\u0ebc\u0ec8\u0ec9\u0eca\u0ecb\u0ecc\u0ecd\u0f18\u0f19\u0f35\u0f37\u0f39\u0f71\u0f72\u0f73\u0f74\u0f75\u0f76\u0f77\u0f78\u0f79\u0f7a\u0f7b\u0f7c\u0f7d\u0f7e\u0f80\u0f81\u0f82\u0f83\u0f84\u0f86\u0f87\u0f90\u0f91\u0f92\u0f93\u0f94\u0f95\u0f96\u0f97\u0f99\u0f9a\u0f9b\u0f9c\u0f9d\u0f9e\u0f9f\u0fa0\u0fa1\u0fa2\u0fa3\u0fa4\u0fa5\u0fa6\u0fa7\u0fa8\u0fa9\u0faa\u0fab\u0fac\u0fad\u0fae\u0faf\u0fb0\u0fb1\u0fb2\u0fb3\u0fb4\u0fb5\u0fb6\u0fb7\u0fb8\u0fb9\u0fba\u0fbb\u0fbc\u0fc6\u102d\u102e\u102f\u1030\u1032\u1036\u1037\u1039\u1058\u1059\u135f\u1712\u1713\u1714\u1732\u1733\u1734\u1752\u1753\u1772\u1773\u17b7\u17b8\u17b9\u17ba\u17bb\u17bc\u17bd\u17c6\u17c9\u17ca\u17cb\u17cc\u17cd\u17ce\u17cf\u17d0\u17d1\u17d2\u17d3\u17dd\u180b\u180c\u180d\u18a9\u1920\u1921\u1922\u1927\u1928\u1932\u1939\u193a\u193b\u1a17\u1a18\u1dc0\u1dc1\u1dc2\u1dc3\u20d0\u20d1\u20d2\u20d3\u20d4\u20d5\u20d6\u20d7\u20d8\u20d9\u20da\u20db\u20dc\u20e1\u20e5\u20e6\u20e7\u20e8\u20e9\u20ea\u20eb\u302a\u302b\u302c\u302d\u302e\u302f\u3099\u309a\ua806\ua80b\ua825\ua826\ufb1e\ufe00\ufe01\ufe02\ufe03\ufe04\ufe05\ufe06\ufe07\ufe08\ufe09\ufe0a\ufe0b\ufe0c\ufe0d\ufe0e\ufe0f\ufe20\ufe21\ufe22\ufe23'
Nd = u'0123456789\u0660\u0661\u0662\u0663\u0664\u0665\u0666\u0667\u0668\u0669\u06f0\u06f1\u06f2\u06f3\u06f4\u06f5\u06f6\u06f7\u06f8\u06f9\u0966\u0967\u0968\u0969\u096a\u096b\u096c\u096d\u096e\u096f\u09e6\u09e7\u09e8\u09e9\u09ea\u09eb\u09ec\u09ed\u09ee\u09ef\u0a66\u0a67\u0a68\u0a69\u0a6a\u0a6b\u0a6c\u0a6d\u0a6e\u0a6f\u0ae6\u0ae7\u0ae8\u0ae9\u0aea\u0aeb\u0aec\u0aed\u0aee\u0aef\u0b66\u0b67\u0b68\u0b69\u0b6a\u0b6b\u0b6c\u0b6d\u0b6e\u0b6f\u0be6\u0be7\u0be8\u0be9\u0bea\u0beb\u0bec\u0bed\u0bee\u0bef\u0c66\u0c67\u0c68\u0c69\u0c6a\u0c6b\u0c6c\u0c6d\u0c6e\u0c6f\u0ce6\u0ce7\u0ce8\u0ce9\u0cea\u0ceb\u0cec\u0ced\u0cee\u0cef\u0d66\u0d67\u0d68\u0d69\u0d6a\u0d6b\u0d6c\u0d6d\u0d6e\u0d6f\u0e50\u0e51\u0e52\u0e53\u0e54\u0e55\u0e56\u0e57\u0e58\u0e59\u0ed0\u0ed1\u0ed2\u0ed3\u0ed4\u0ed5\u0ed6\u0ed7\u0ed8\u0ed9\u0f20\u0f21\u0f22\u0f23\u0f24\u0f25\u0f26\u0f27\u0f28\u0f29\u1040\u1041\u1042\u1043\u1044\u1045\u1046\u1047\u1048\u1049\u17e0\u17e1\u17e2\u17e3\u17e4\u17e5\u17e6\u17e7\u17e8\u17e9\u1810\u1811\u1812\u1813\u1814\u1815\u1816\u1817\u1818\u1819\u1946\u1947\u1948\u1949\u194a\u194b\u194c\u194d\u194e\u194f\u19d0\u19d1\u19d2\u19d3\u19d4\u19d5\u19d6\u19d7\u19d8\u19d9\uff10\uff11\uff12\uff13\uff14\uff15\uff16\uff17\uff18\uff19'
Nl = u'\u16ee\u16ef\u16f0\u2160\u2161\u2162\u2163\u2164\u2165\u2166\u2167\u2168\u2169\u216a\u216b\u216c\u216d\u216e\u216f\u2170\u2171\u2172\u2173\u2174\u2175\u2176\u2177\u2178\u2179\u217a\u217b\u217c\u217d\u217e\u217f\u2180\u2181\u2182\u2183\u3007\u3021\u3022\u3023\u3024\u3025\u3026\u3027\u3028\u3029\u3038\u3039\u303a'
No = u'\xb2\xb3\xb9\xbc\xbd\xbe\u09f4\u09f5\u09f6\u09f7\u09f8\u09f9\u0bf0\u0bf1\u0bf2\u0f2a\u0f2b\u0f2c\u0f2d\u0f2e\u0f2f\u0f30\u0f31\u0f32\u0f33\u1369\u136a\u136b\u136c\u136d\u136e\u136f\u1370\u1371\u1372\u1373\u1374\u1375\u1376\u1377\u1378\u1379\u137a\u137b\u137c\u17f0\u17f1\u17f2\u17f3\u17f4\u17f5\u17f6\u17f7\u17f8\u17f9\u2070\u2074\u2075\u2076\u2077\u2078\u2079\u2080\u2081\u2082\u2083\u2084\u2085\u2086\u2087\u2088\u2089\u2153\u2154\u2155\u2156\u2157\u2158\u2159\u215a\u215b\u215c\u215d\u215e\u215f\u2460\u2461\u2462\u2463\u2464\u2465\u2466\u2467\u2468\u2469\u246a\u246b\u246c\u246d\u246e\u246f\u2470\u2471\u2472\u2473\u2474\u2475\u2476\u2477\u2478\u2479\u247a\u247b\u247c\u247d\u247e\u247f\u2480\u2481\u2482\u2483\u2484\u2485\u2486\u2487\u2488\u2489\u248a\u248b\u248c\u248d\u248e\u248f\u2490\u2491\u2492\u2493\u2494\u2495\u2496\u2497\u2498\u2499\u249a\u249b\u24ea\u24eb\u24ec\u24ed\u24ee\u24ef\u24f0\u24f1\u24f2\u24f3\u24f4\u24f5\u24f6\u24f7\u24f8\u24f9\u24fa\u24fb\u24fc\u24fd\u24fe\u24ff\u2776\u2777\u2778\u2779\u277a\u277b\u277c\u277d\u277e\u277f\u2780\u2781\u2782\u2783\u2784\u2785\u2786\u2787\u2788\u2789\u278a\u278b\u278c\u278d\u278e\u278f\u2790\u2791\u2792\u2793\u2cfd\u3192\u3193\u3194\u3195\u3220\u3221\u3222\u3223\u3224\u3225\u3226\u3227\u3228\u3229\u3251\u3252\u3253\u3254\u3255\u3256\u3257\u3258\u3259\u325a\u325b\u325c\u325d\u325e\u325f\u3280\u3281\u3282\u3283\u3284\u3285\u3286\u3287\u3288\u3289\u32b1\u32b2\u32b3\u32b4\u32b5\u32b6\u32b7\u32b8\u32b9\u32ba\u32bb\u32bc\u32bd\u32be\u32bf'
Pc = u'_\u203f\u2040\u2054\ufe33\ufe34\ufe4d\ufe4e\ufe4f\uff3f'
Pd = u'-\u058a\u1806\u2010\u2011\u2012\u2013\u2014\u2015\u2e17\u301c\u3030\u30a0\ufe31\ufe32\ufe58\ufe63\uff0d'
Pe = u')]}\u0f3b\u0f3d\u169c\u2046\u207e\u208e\u232a\u23b5\u2769\u276b\u276d\u276f\u2771\u2773\u2775\u27c6\u27e7\u27e9\u27eb\u2984\u2986\u2988\u298a\u298c\u298e\u2990\u2992\u2994\u2996\u2998\u29d9\u29db\u29fd\u3009\u300b\u300d\u300f\u3011\u3015\u3017\u3019\u301b\u301e\u301f\ufd3f\ufe18\ufe36\ufe38\ufe3a\ufe3c\ufe3e\ufe40\ufe42\ufe44\ufe48\ufe5a\ufe5c\ufe5e\uff09\uff3d\uff5d\uff60\uff63'
Pf = u'\xbb\u2019\u201d\u203a\u2e03\u2e05\u2e0a\u2e0d\u2e1d'
Pi = u'\xab\u2018\u201b\u201c\u201f\u2039\u2e02\u2e04\u2e09\u2e0c\u2e1c'
Po = u'!"#%&\'*,./:;?@\\\xa1\xb7\xbf\u037e\u0387\u055a\u055b\u055c\u055d\u055e\u055f\u0589\u05be\u05c0\u05c3\u05c6\u05f3\u05f4\u060c\u060d\u061b\u061e\u061f\u066a\u066b\u066c\u066d\u06d4\u0700\u0701\u0702\u0703\u0704\u0705\u0706\u0707\u0708\u0709\u070a\u070b\u070c\u070d\u0964\u0965\u0970\u0df4\u0e4f\u0e5a\u0e5b\u0f04\u0f05\u0f06\u0f07\u0f08\u0f09\u0f0a\u0f0b\u0f0c\u0f0d\u0f0e\u0f0f\u0f10\u0f11\u0f12\u0f85\u0fd0\u0fd1\u104a\u104b\u104c\u104d\u104e\u104f\u10fb\u1361\u1362\u1363\u1364\u1365\u1366\u1367\u1368\u166d\u166e\u16eb\u16ec\u16ed\u1735\u1736\u17d4\u17d5\u17d6\u17d8\u17d9\u17da\u1800\u1801\u1802\u1803\u1804\u1805\u1807\u1808\u1809\u180a\u1944\u1945\u19de\u19df\u1a1e\u1a1f\u2016\u2017\u2020\u2021\u2022\u2023\u2024\u2025\u2026\u2027\u2030\u2031\u2032\u2033\u2034\u2035\u2036\u2037\u2038\u203b\u203c\u203d\u203e\u2041\u2042\u2043\u2047\u2048\u2049\u204a\u204b\u204c\u204d\u204e\u204f\u2050\u2051\u2053\u2055\u2056\u2057\u2058\u2059\u205a\u205b\u205c\u205d\u205e\u23b6\u2cf9\u2cfa\u2cfb\u2cfc\u2cfe\u2cff\u2e00\u2e01\u2e06\u2e07\u2e08\u2e0b\u2e0e\u2e0f\u2e10\u2e11\u2e12\u2e13\u2e14\u2e15\u2e16\u3001\u3002\u3003\u303d\u30fb\ufe10\ufe11\ufe12\ufe13\ufe14\ufe15\ufe16\ufe19\ufe30\ufe45\ufe46\ufe49\ufe4a\ufe4b\ufe4c\ufe50\ufe51\ufe52\ufe54\ufe55\ufe56\ufe57\ufe5f\ufe60\ufe61\ufe68\ufe6a\ufe6b\uff01\uff02\uff03\uff05\uff06\uff07\uff0a\uff0c\uff0e\uff0f\uff1a\uff1b\uff1f\uff20\uff3c\uff61\uff64\uff65'
Ps = u'([{\u0f3a\u0f3c\u169b\u201a\u201e\u2045\u207d\u208d\u2329\u23b4\u2768\u276a\u276c\u276e\u2770\u2772\u2774\u27c5\u27e6\u27e8\u27ea\u2983\u2985\u2987\u2989\u298b\u298d\u298f\u2991\u2993\u2995\u2997\u29d8\u29da\u29fc\u3008\u300a\u300c\u300e\u3010\u3014\u3016\u3018\u301a\u301d\ufd3e\ufe17\ufe35\ufe37\ufe39\ufe3b\ufe3d\ufe3f\ufe41\ufe43\ufe47\ufe59\ufe5b\ufe5d\uff08\uff3b\uff5b\uff5f\uff62'
Sc = u'$\xa2\xa3\xa4\xa5\u060b\u09f2\u09f3\u0af1\u0bf9\u0e3f\u17db\u20a0\u20a1\u20a2\u20a3\u20a4\u20a5\u20a6\u20a7\u20a8\u20a9\u20aa\u20ab\u20ac\u20ad\u20ae\u20af\u20b0\u20b1\u20b2\u20b3\u20b4\u20b5\ufdfc\ufe69\uff04\uffe0\uffe1\uffe5\uffe6'
Sk = u'^`\xa8\xaf\xb4\xb8\u02c2\u02c3\u02c4\u02c5\u02d2\u02d3\u02d4\u02d5\u02d6\u02d7\u02d8\u02d9\u02da\u02db\u02dc\u02dd\u02de\u02df\u02e5\u02e6\u02e7\u02e8\u02e9\u02ea\u02eb\u02ec\u02ed\u02ef\u02f0\u02f1\u02f2\u02f3\u02f4\u02f5\u02f6\u02f7\u02f8\u02f9\u02fa\u02fb\u02fc\u02fd\u02fe\u02ff\u0374\u0375\u0384\u0385\u1fbd\u1fbf\u1fc0\u1fc1\u1fcd\u1fce\u1fcf\u1fdd\u1fde\u1fdf\u1fed\u1fee\u1fef\u1ffd\u1ffe\u309b\u309c\ua700\ua701\ua702\ua703\ua704\ua705\ua706\ua707\ua708\ua709\ua70a\ua70b\ua70c\ua70d\ua70e\ua70f\ua710\ua711\ua712\ua713\ua714\ua715\ua716\uff3e\uff40\uffe3'
Sm = u'+<=>|~\xac\xb1\xd7\xf7\u03f6\u2044\u2052\u207a\u207b\u207c\u208a\u208b\u208c\u2140\u2141\u2142\u2143\u2144\u214b\u2190\u2191\u2192\u2193\u2194\u219a\u219b\u21a0\u21a3\u21a6\u21ae\u21ce\u21cf\u21d2\u21d4\u21f4\u21f5\u21f6\u21f7\u21f8\u21f9\u21fa\u21fb\u21fc\u21fd\u21fe\u21ff\u2200\u2201\u2202\u2203\u2204\u2205\u2206\u2207\u2208\u2209\u220a\u220b\u220c\u220d\u220e\u220f\u2210\u2211\u2212\u2213\u2214\u2215\u2216\u2217\u2218\u2219\u221a\u221b\u221c\u221d\u221e\u221f\u2220\u2221\u2222\u2223\u2224\u2225\u2226\u2227\u2228\u2229\u222a\u222b\u222c\u222d\u222e\u222f\u2230\u2231\u2232\u2233\u2234\u2235\u2236\u2237\u2238\u2239\u223a\u223b\u223c\u223d\u223e\u223f\u2240\u2241\u2242\u2243\u2244\u2245\u2246\u2247\u2248\u2249\u224a\u224b\u224c\u224d\u224e\u224f\u2250\u2251\u2252\u2253\u2254\u2255\u2256\u2257\u2258\u2259\u225a\u225b\u225c\u225d\u225e\u225f\u2260\u2261\u2262\u2263\u2264\u2265\u2266\u2267\u2268\u2269\u226a\u226b\u226c\u226d\u226e\u226f\u2270\u2271\u2272\u2273\u2274\u2275\u2276\u2277\u2278\u2279\u227a\u227b\u227c\u227d\u227e\u227f\u2280\u2281\u2282\u2283\u2284\u2285\u2286\u2287\u2288\u2289\u228a\u228b\u228c\u228d\u228e\u228f\u2290\u2291\u2292\u2293\u2294\u2295\u2296\u2297\u2298\u2299\u229a\u229b\u229c\u229d\u229e\u229f\u22a0\u22a1\u22a2\u22a3\u22a4\u22a5\u22a6\u22a7\u22a8\u22a9\u22aa\u22ab\u22ac\u22ad\u22ae\u22af\u22b0\u22b1\u22b2\u22b3\u22b4\u22b5\u22b6\u22b7\u22b8\u22b9\u22ba\u22bb\u22bc\u22bd\u22be\u22bf\u22c0\u22c1\u22c2\u22c3\u22c4\u22c5\u22c6\u22c7\u22c8\u22c9\u22ca\u22cb\u22cc\u22cd\u22ce\u22cf\u22d0\u22d1\u22d2\u22d3\u22d4\u22d5\u22d6\u22d7\u22d8\u22d9\u22da\u22db\u22dc\u22dd\u22de\u22df\u22e0\u22e1\u22e2\u22e3\u22e4\u22e5\u22e6\u22e7\u22e8\u22e9\u22ea\u22eb\u22ec\u22ed\u22ee\u22ef\u22f0\u22f1\u22f2\u22f3\u22f4\u22f5\u22f6\u22f7\u22f8\u22f9\u22fa\u22fb\u22fc\u22fd\u22fe\u22ff\u2308\u2309\u230a\u230b\u2320\u2321\u237c\u239b\u239c\u239d\u239e\u239f\u23a0\u23a1\u23a2\u23a3\u23a4\u23a5\u23a6\u23a7\u23a8\u23a9\u23aa\u23ab\u23ac\u23ad\u23ae\u23af\u23b0\u23b1\u23b2\u23b3\u25b7\u25c1\u25f8\u25f9\u25fa\u25fb\u25fc\u25fd\u25fe\u25ff\u266f\u27c0\u27c1\u27c2\u27c3\u27c4\u27d0\u27d1\u27d2\u27d3\u27d4\u27d5\u27d6\u27d7\u27d8\u27d9\u27da\u27db\u27dc\u27dd\u27de\u27df\u27e0\u27e1\u27e2\u27e3\u27e4\u27e5\u27f0\u27f1\u27f2\u27f3\u27f4\u27f5\u27f6\u27f7\u27f8\u27f9\u27fa\u27fb\u27fc\u27fd\u27fe\u27ff\u2900\u2901\u2902\u2903\u2904\u2905\u2906\u2907\u2908\u2909\u290a\u290b\u290c\u290d\u290e\u290f\u2910\u2911\u2912\u2913\u2914\u2915\u2916\u2917\u2918\u2919\u291a\u291b\u291c\u291d\u291e\u291f\u2920\u2921\u2922\u2923\u2924\u2925\u2926\u2927\u2928\u2929\u292a\u292b\u292c\u292d\u292e\u292f\u2930\u2931\u2932\u2933\u2934\u2935\u2936\u2937\u2938\u2939\u293a\u293b\u293c\u293d\u293e\u293f\u2940\u2941\u2942\u2943\u2944\u2945\u2946\u2947\u2948\u2949\u294a\u294b\u294c\u294d\u294e\u294f\u2950\u2951\u2952\u2953\u2954\u2955\u2956\u2957\u2958\u2959\u295a\u295b\u295c\u295d\u295e\u295f\u2960\u2961\u2962\u2963\u2964\u2965\u2966\u2967\u2968\u2969\u296a\u296b\u296c\u296d\u296e\u296f\u2970\u2971\u2972\u2973\u2974\u2975\u2976\u2977\u2978\u2979\u297a\u297b\u297c\u297d\u297e\u297f\u2980\u2981\u2982\u2999\u299a\u299b\u299c\u299d\u299e\u299f\u29a0\u29a1\u29a2\u29a3\u29a4\u29a5\u29a6\u29a7\u29a8\u29a9\u29aa\u29ab\u29ac\u29ad\u29ae\u29af\u29b0\u29b1\u29b2\u29b3\u29b4\u29b5\u29b6\u29b7\u29b8\u29b9\u29ba\u29bb\u29bc\u29bd\u29be\u29bf\u29c0\u29c1\u29c2\u29c3\u29c4\u29c5\u29c6\u29c7\u29c8\u29c9\u29ca\u29cb\u29cc\u29cd\u29ce\u29cf\u29d0\u29d1\u29d2\u29d3\u29d4\u29d5\u29d6\u29d7\u29dc\u29dd\u29de\u29df\u29e0\u29e1\u29e2\u29e3\u29e4\u29e5\u29e6\u29e7\u29e8\u29e9\u29ea\u29eb\u29ec\u29ed\u29ee\u29ef\u29f0\u29f1\u29f2\u29f3\u29f4\u29f5\u29f6\u29f7\u29f8\u29f9\u29fa\u29fb\u29fe\u29ff\u2a00\u2a01\u2a02\u2a03\u2a04\u2a05\u2a06\u2a07\u2a08\u2a09\u2a0a\u2a0b\u2a0c\u2a0d\u2a0e\u2a0f\u2a10\u2a11\u2a12\u2a13\u2a14\u2a15\u2a16\u2a17\u2a18\u2a19\u2a1a\u2a1b\u2a1c\u2a1d\u2a1e\u2a1f\u2a20\u2a21\u2a22\u2a23\u2a24\u2a25\u2a26\u2a27\u2a28\u2a29\u2a2a\u2a2b\u2a2c\u2a2d\u2a2e\u2a2f\u2a30\u2a31\u2a32\u2a33\u2a34\u2a35\u2a36\u2a37\u2a38\u2a39\u2a3a\u2a3b\u2a3c\u2a3d\u2a3e\u2a3f\u2a40\u2a41\u2a42\u2a43\u2a44\u2a45\u2a46\u2a47\u2a48\u2a49\u2a4a\u2a4b\u2a4c\u2a4d\u2a4e\u2a4f\u2a50\u2a51\u2a52\u2a53\u2a54\u2a55\u2a56\u2a57\u2a58\u2a59\u2a5a\u2a5b\u2a5c\u2a5d\u2a5e\u2a5f\u2a60\u2a61\u2a62\u2a63\u2a64\u2a65\u2a66\u2a67\u2a68\u2a69\u2a6a\u2a6b\u2a6c\u2a6d\u2a6e\u2a6f\u2a70\u2a71\u2a72\u2a73\u2a74\u2a75\u2a76\u2a77\u2a78\u2a79\u2a7a\u2a7b\u2a7c\u2a7d\u2a7e\u2a7f\u2a80\u2a81\u2a82\u2a83\u2a84\u2a85\u2a86\u2a87\u2a88\u2a89\u2a8a\u2a8b\u2a8c\u2a8d\u2a8e\u2a8f\u2a90\u2a91\u2a92\u2a93\u2a94\u2a95\u2a96\u2a97\u2a98\u2a99\u2a9a\u2a9b\u2a9c\u2a9d\u2a9e\u2a9f\u2aa0\u2aa1\u2aa2\u2aa3\u2aa4\u2aa5\u2aa6\u2aa7\u2aa8\u2aa9\u2aaa\u2aab\u2aac\u2aad\u2aae\u2aaf\u2ab0\u2ab1\u2ab2\u2ab3\u2ab4\u2ab5\u2ab6\u2ab7\u2ab8\u2ab9\u2aba\u2abb\u2abc\u2abd\u2abe\u2abf\u2ac0\u2ac1\u2ac2\u2ac3\u2ac4\u2ac5\u2ac6\u2ac7\u2ac8\u2ac9\u2aca\u2acb\u2acc\u2acd\u2ace\u2acf\u2ad0\u2ad1\u2ad2\u2ad3\u2ad4\u2ad5\u2ad6\u2ad7\u2ad8\u2ad9\u2ada\u2adb\u2adc\u2add\u2ade\u2adf\u2ae0\u2ae1\u2ae2\u2ae3\u2ae4\u2ae5\u2ae6\u2ae7\u2ae8\u2ae9\u2aea\u2aeb\u2aec\u2aed\u2aee\u2aef\u2af0\u2af1\u2af2\u2af3\u2af4\u2af5\u2af6\u2af7\u2af8\u2af9\u2afa\u2afb\u2afc\u2afd\u2afe\u2aff\ufb29\ufe62\ufe64\ufe65\ufe66\uff0b\uff1c\uff1d\uff1e\uff5c\uff5e\uffe2\uffe9\uffea\uffeb\uffec'
So = 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Zl = u'\u2028'
Zp = u'\u2029'
Zs = u' \xa0\u1680\u180e\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200a\u202f\u205f\u3000'
cats = ['Cc', 'Cf', 'Cn', 'Co', 'Cs', 'Ll', 'Lm', 'Lo', 'Lt', 'Lu', 'Mc', 'Me', 'Mn', 'Nd', 'Nl', 'No', 'Pc', 'Pd', 'Pe', 'Pf', 'Pi', 'Po', 'Ps', 'Sc', 'Sk', 'Sm', 'So', 'Zl', 'Zp', 'Zs']
def combine(*args):
return u''.join([globals()[cat] for cat in args])
xid_start = u'\u0041-\u005A\u005F\u0061-\u007A\u00AA\u00B5\u00BA\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u01BA\u01BB\u01BC-\u01BF\u01C0-\u01C3\u01C4-\u0241\u0250-\u02AF\u02B0-\u02C1\u02C6-\u02D1\u02E0-\u02E4\u02EE\u0386\u0388-\u038A\u038C\u038E-\u03A1\u03A3-\u03CE\u03D0-\u03F5\u03F7-\u0481\u048A-\u04CE\u04D0-\u04F9\u0500-\u050F\u0531-\u0556\u0559\u0561-\u0587\u05D0-\u05EA\u05F0-\u05F2\u0621-\u063A\u0640\u0641-\u064A\u066E-\u066F\u0671-\u06D3\u06D5\u06E5-\u06E6\u06EE-\u06EF\u06FA-\u06FC\u06FF\u0710\u0712-\u072F\u074D-\u076D\u0780-\u07A5\u07B1\u0904-\u0939\u093D\u0950\u0958-\u0961\u097D\u0985-\u098C\u098F-\u0990\u0993-\u09A8\u09AA-\u09B0\u09B2\u09B6-\u09B9\u09BD\u09CE\u09DC-\u09DD\u09DF-\u09E1\u09F0-\u09F1\u0A05-\u0A0A\u0A0F-\u0A10\u0A13-\u0A28\u0A2A-\u0A30\u0A32-\u0A33\u0A35-\u0A36\u0A38-\u0A39\u0A59-\u0A5C\u0A5E\u0A72-\u0A74\u0A85-\u0A8D\u0A8F-\u0A91\u0A93-\u0AA8\u0AAA-\u0AB0\u0AB2-\u0AB3\u0AB5-\u0AB9\u0ABD\u0AD0\u0AE0-\u0AE1\u0B05-\u0B0C\u0B0F-\u0B10\u0B13-\u0B28\u0B2A-\u0B30\u0B32-\u0B33\u0B35-\u0B39\u0B3D\u0B5C-\u0B5D\u0B5F-\u0B61\u0B71\u0B83\u0B85-\u0B8A\u0B8E-\u0B90\u0B92-\u0B95\u0B99-\u0B9A\u0B9C\u0B9E-\u0B9F\u0BA3-\u0BA4\u0BA8-\u0BAA\u0BAE-\u0BB9\u0C05-\u0C0C\u0C0E-\u0C10\u0C12-\u0C28\u0C2A-\u0C33\u0C35-\u0C39\u0C60-\u0C61\u0C85-\u0C8C\u0C8E-\u0C90\u0C92-\u0CA8\u0CAA-\u0CB3\u0CB5-\u0CB9\u0CBD\u0CDE\u0CE0-\u0CE1\u0D05-\u0D0C\u0D0E-\u0D10\u0D12-\u0D28\u0D2A-\u0D39\u0D60-\u0D61\u0D85-\u0D96\u0D9A-\u0DB1\u0DB3-\u0DBB\u0DBD\u0DC0-\u0DC6\u0E01-\u0E30\u0E32\u0E40-\u0E45\u0E46\u0E81-\u0E82\u0E84\u0E87-\u0E88\u0E8A\u0E8D\u0E94-\u0E97\u0E99-\u0E9F\u0EA1-\u0EA3\u0EA5\u0EA7\u0EAA-\u0EAB\u0EAD-\u0EB0\u0EB2\u0EBD\u0EC0-\u0EC4\u0EC6\u0EDC-\u0EDD\u0F00\u0F40-\u0F47\u0F49-\u0F6A\u0F88-\u0F8B\u1000-\u1021\u1023-\u1027\u1029-\u102A\u1050-\u1055\u10A0-\u10C5\u10D0-\u10FA\u10FC\u1100-\u1159\u115F-\u11A2\u11A8-\u11F9\u1200-\u1248\u124A-\u124D\u1250-\u1256\u1258\u125A-\u125D\u1260-\u1288\u128A-\u128D\u1290-\u12B0\u12B2-\u12B5\u12B8-\u12BE\u12C0\u12C2-\u12C5\u12C8-\u12D6\u12D8-\u1310\u1312-\u1315\u1318-\u135A\u1380-\u138F\u13A0-\u13F4\u1401-\u166C\u166F-\u1676\u1681-\u169A\u16A0-\u16EA\u16EE-\u16F0\u1700-\u170C\u170E-\u1711\u1720-\u1731\u1740-\u1751\u1760-\u176C\u176E-\u1770\u1780-\u17B3\u17D7\u17DC\u1820-\u1842\u1843\u1844-\u1877\u1880-\u18A8\u1900-\u191C\u1950-\u196D\u1970-\u1974\u1980-\u19A9\u19C1-\u19C7\u1A00-\u1A16\u1D00-\u1D2B\u1D2C-\u1D61\u1D62-\u1D77\u1D78\u1D79-\u1D9A\u1D9B-\u1DBF\u1E00-\u1E9B\u1EA0-\u1EF9\u1F00-\u1F15\u1F18-\u1F1D\u1F20-\u1F45\u1F48-\u1F4D\u1F50-\u1F57\u1F59\u1F5B\u1F5D\u1F5F-\u1F7D\u1F80-\u1FB4\u1FB6-\u1FBC\u1FBE\u1FC2-\u1FC4\u1FC6-\u1FCC\u1FD0-\u1FD3\u1FD6-\u1FDB\u1FE0-\u1FEC\u1FF2-\u1FF4\u1FF6-\u1FFC\u2071\u207F\u2090-\u2094\u2102\u2107\u210A-\u2113\u2115\u2118\u2119-\u211D\u2124\u2126\u2128\u212A-\u212D\u212E\u212F-\u2131\u2133-\u2134\u2135-\u2138\u2139\u213C-\u213F\u2145-\u2149\u2160-\u2183\u2C00-\u2C2E\u2C30-\u2C5E\u2C80-\u2CE4\u2D00-\u2D25\u2D30-\u2D65\u2D6F\u2D80-\u2D96\u2DA0-\u2DA6\u2DA8-\u2DAE\u2DB0-\u2DB6\u2DB8-\u2DBE\u2DC0-\u2DC6\u2DC8-\u2DCE\u2DD0-\u2DD6\u2DD8-\u2DDE\u3005\u3006\u3007\u3021-\u3029\u3031-\u3035\u3038-\u303A\u303B\u303C\u3041-\u3096\u309D-\u309E\u309F\u30A1-\u30FA\u30FC-\u30FE\u30FF\u3105-\u312C\u3131-\u318E\u31A0-\u31B7\u31F0-\u31FF\u3400-\u4DB5\u4E00-\u9FBB\uA000-\uA014\uA015\uA016-\uA48C\uA800-\uA801\uA803-\uA805\uA807-\uA80A\uA80C-\uA822\uAC00-\uD7A3\uF900-\uFA2D\uFA30-\uFA6A\uFA70-\uFAD9\uFB00-\uFB06\uFB13-\uFB17\uFB1D\uFB1F-\uFB28\uFB2A-\uFB36\uFB38-\uFB3C\uFB3E\uFB40-\uFB41\uFB43-\uFB44\uFB46-\uFBB1\uFBD3-\uFC5D\uFC64-\uFD3D\uFD50-\uFD8F\uFD92-\uFDC7\uFDF0-\uFDF9\uFE71\uFE73\uFE77\uFE79\uFE7B\uFE7D\uFE7F-\uFEFC\uFF21-\uFF3A\uFF41-\uFF5A\uFF66-\uFF6F\uFF70\uFF71-\uFF9D\uFFA0-\uFFBE\uFFC2-\uFFC7\uFFCA-\uFFCF\uFFD2-\uFFD7\uFFDA-\uFFDC'
xid_continue = u'\u0030-\u0039\u0041-\u005A\u005F\u0061-\u007A\u00AA\u00B5\u00B7\u00BA\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u01BA\u01BB\u01BC-\u01BF\u01C0-\u01C3\u01C4-\u0241\u0250-\u02AF\u02B0-\u02C1\u02C6-\u02D1\u02E0-\u02E4\u02EE\u0300-\u036F\u0386\u0388-\u038A\u038C\u038E-\u03A1\u03A3-\u03CE\u03D0-\u03F5\u03F7-\u0481\u0483-\u0486\u048A-\u04CE\u04D0-\u04F9\u0500-\u050F\u0531-\u0556\u0559\u0561-\u0587\u0591-\u05B9\u05BB-\u05BD\u05BF\u05C1-\u05C2\u05C4-\u05C5\u05C7\u05D0-\u05EA\u05F0-\u05F2\u0610-\u0615\u0621-\u063A\u0640\u0641-\u064A\u064B-\u065E\u0660-\u0669\u066E-\u066F\u0670\u0671-\u06D3\u06D5\u06D6-\u06DC\u06DF-\u06E4\u06E5-\u06E6\u06E7-\u06E8\u06EA-\u06ED\u06EE-\u06EF\u06F0-\u06F9\u06FA-\u06FC\u06FF\u0710\u0711\u0712-\u072F\u0730-\u074A\u074D-\u076D\u0780-\u07A5\u07A6-\u07B0\u07B1\u0901-\u0902\u0903\u0904-\u0939\u093C\u093D\u093E-\u0940\u0941-\u0948\u0949-\u094C\u094D\u0950\u0951-\u0954\u0958-\u0961\u0962-\u0963\u0966-\u096F\u097D\u0981\u0982-\u0983\u0985-\u098C\u098F-\u0990\u0993-\u09A8\u09AA-\u09B0\u09B2\u09B6-\u09B9\u09BC\u09BD\u09BE-\u09C0\u09C1-\u09C4\u09C7-\u09C8\u09CB-\u09CC\u09CD\u09CE\u09D7\u09DC-\u09DD\u09DF-\u09E1\u09E2-\u09E3\u09E6-\u09EF\u09F0-\u09F1\u0A01-\u0A02\u0A03\u0A05-\u0A0A\u0A0F-\u0A10\u0A13-\u0A28\u0A2A-\u0A30\u0A32-\u0A33\u0A35-\u0A36\u0A38-\u0A39\u0A3C\u0A3E-\u0A40\u0A41-\u0A42\u0A47-\u0A48\u0A4B-\u0A4D\u0A59-\u0A5C\u0A5E\u0A66-\u0A6F\u0A70-\u0A71\u0A72-\u0A74\u0A81-\u0A82\u0A83\u0A85-\u0A8D\u0A8F-\u0A91\u0A93-\u0AA8\u0AAA-\u0AB0\u0AB2-\u0AB3\u0AB5-\u0AB9\u0ABC\u0ABD\u0ABE-\u0AC0\u0AC1-\u0AC5\u0AC7-\u0AC8\u0AC9\u0ACB-\u0ACC\u0ACD\u0AD0\u0AE0-\u0AE1\u0AE2-\u0AE3\u0AE6-\u0AEF\u0B01\u0B02-\u0B03\u0B05-\u0B0C\u0B0F-\u0B10\u0B13-\u0B28\u0B2A-\u0B30\u0B32-\u0B33\u0B35-\u0B39\u0B3C\u0B3D\u0B3E\u0B3F\u0B40\u0B41-\u0B43\u0B47-\u0B48\u0B4B-\u0B4C\u0B4D\u0B56\u0B57\u0B5C-\u0B5D\u0B5F-\u0B61\u0B66-\u0B6F\u0B71\u0B82\u0B83\u0B85-\u0B8A\u0B8E-\u0B90\u0B92-\u0B95\u0B99-\u0B9A\u0B9C\u0B9E-\u0B9F\u0BA3-\u0BA4\u0BA8-\u0BAA\u0BAE-\u0BB9\u0BBE-\u0BBF\u0BC0\u0BC1-\u0BC2\u0BC6-\u0BC8\u0BCA-\u0BCC\u0BCD\u0BD7\u0BE6-\u0BEF\u0C01-\u0C03\u0C05-\u0C0C\u0C0E-\u0C10\u0C12-\u0C28\u0C2A-\u0C33\u0C35-\u0C39\u0C3E-\u0C40\u0C41-\u0C44\u0C46-\u0C48\u0C4A-\u0C4D\u0C55-\u0C56\u0C60-\u0C61\u0C66-\u0C6F\u0C82-\u0C83\u0C85-\u0C8C\u0C8E-\u0C90\u0C92-\u0CA8\u0CAA-\u0CB3\u0CB5-\u0CB9\u0CBC\u0CBD\u0CBE\u0CBF\u0CC0-\u0CC4\u0CC6\u0CC7-\u0CC8\u0CCA-\u0CCB\u0CCC-\u0CCD\u0CD5-\u0CD6\u0CDE\u0CE0-\u0CE1\u0CE6-\u0CEF\u0D02-\u0D03\u0D05-\u0D0C\u0D0E-\u0D10\u0D12-\u0D28\u0D2A-\u0D39\u0D3E-\u0D40\u0D41-\u0D43\u0D46-\u0D48\u0D4A-\u0D4C\u0D4D\u0D57\u0D60-\u0D61\u0D66-\u0D6F\u0D82-\u0D83\u0D85-\u0D96\u0D9A-\u0DB1\u0DB3-\u0DBB\u0DBD\u0DC0-\u0DC6\u0DCA\u0DCF-\u0DD1\u0DD2-\u0DD4\u0DD6\u0DD8-\u0DDF\u0DF2-\u0DF3\u0E01-\u0E30\u0E31\u0E32-\u0E33\u0E34-\u0E3A\u0E40-\u0E45\u0E46\u0E47-\u0E4E\u0E50-\u0E59\u0E81-\u0E82\u0E84\u0E87-\u0E88\u0E8A\u0E8D\u0E94-\u0E97\u0E99-\u0E9F\u0EA1-\u0EA3\u0EA5\u0EA7\u0EAA-\u0EAB\u0EAD-\u0EB0\u0EB1\u0EB2-\u0EB3\u0EB4-\u0EB9\u0EBB-\u0EBC\u0EBD\u0EC0-\u0EC4\u0EC6\u0EC8-\u0ECD\u0ED0-\u0ED9\u0EDC-\u0EDD\u0F00\u0F18-\u0F19\u0F20-\u0F29\u0F35\u0F37\u0F39\u0F3E-\u0F3F\u0F40-\u0F47\u0F49-\u0F6A\u0F71-\u0F7E\u0F7F\u0F80-\u0F84\u0F86-\u0F87\u0F88-\u0F8B\u0F90-\u0F97\u0F99-\u0FBC\u0FC6\u1000-\u1021\u1023-\u1027\u1029-\u102A\u102C\u102D-\u1030\u1031\u1032\u1036-\u1037\u1038\u1039\u1040-\u1049\u1050-\u1055\u1056-\u1057\u1058-\u1059\u10A0-\u10C5\u10D0-\u10FA\u10FC\u1100-\u1159\u115F-\u11A2\u11A8-\u11F9\u1200-\u1248\u124A-\u124D\u1250-\u1256\u1258\u125A-\u125D\u1260-\u1288\u128A-\u128D\u1290-\u12B0\u12B2-\u12B5\u12B8-\u12BE\u12C0\u12C2-\u12C5\u12C8-\u12D6\u12D8-\u1310\u1312-\u1315\u1318-\u135A\u135F\u1369-\u1371\u1380-\u138F\u13A0-\u13F4\u1401-\u166C\u166F-\u1676\u1681-\u169A\u16A0-\u16EA\u16EE-\u16F0\u1700-\u170C\u170E-\u1711\u1712-\u1714\u1720-\u1731\u1732-\u1734\u1740-\u1751\u1752-\u1753\u1760-\u176C\u176E-\u1770\u1772-\u1773\u1780-\u17B3\u17B6\u17B7-\u17BD\u17BE-\u17C5\u17C6\u17C7-\u17C8\u17C9-\u17D3\u17D7\u17DC\u17DD\u17E0-\u17E9\u180B-\u180D\u1810-\u1819\u1820-\u1842\u1843\u1844-\u1877\u1880-\u18A8\u18A9\u1900-\u191C\u1920-\u1922\u1923-\u1926\u1927-\u1928\u1929-\u192B\u1930-\u1931\u1932\u1933-\u1938\u1939-\u193B\u1946-\u194F\u1950-\u196D\u1970-\u1974\u1980-\u19A9\u19B0-\u19C0\u19C1-\u19C7\u19C8-\u19C9\u19D0-\u19D9\u1A00-\u1A16\u1A17-\u1A18\u1A19-\u1A1B\u1D00-\u1D2B\u1D2C-\u1D61\u1D62-\u1D77\u1D78\u1D79-\u1D9A\u1D9B-\u1DBF\u1DC0-\u1DC3\u1E00-\u1E9B\u1EA0-\u1EF9\u1F00-\u1F15\u1F18-\u1F1D\u1F20-\u1F45\u1F48-\u1F4D\u1F50-\u1F57\u1F59\u1F5B\u1F5D\u1F5F-\u1F7D\u1F80-\u1FB4\u1FB6-\u1FBC\u1FBE\u1FC2-\u1FC4\u1FC6-\u1FCC\u1FD0-\u1FD3\u1FD6-\u1FDB\u1FE0-\u1FEC\u1FF2-\u1FF4\u1FF6-\u1FFC\u203F-\u2040\u2054\u2071\u207F\u2090-\u2094\u20D0-\u20DC\u20E1\u20E5-\u20EB\u2102\u2107\u210A-\u2113\u2115\u2118\u2119-\u211D\u2124\u2126\u2128\u212A-\u212D\u212E\u212F-\u2131\u2133-\u2134\u2135-\u2138\u2139\u213C-\u213F\u2145-\u2149\u2160-\u2183\u2C00-\u2C2E\u2C30-\u2C5E\u2C80-\u2CE4\u2D00-\u2D25\u2D30-\u2D65\u2D6F\u2D80-\u2D96\u2DA0-\u2DA6\u2DA8-\u2DAE\u2DB0-\u2DB6\u2DB8-\u2DBE\u2DC0-\u2DC6\u2DC8-\u2DCE\u2DD0-\u2DD6\u2DD8-\u2DDE\u3005\u3006\u3007\u3021-\u3029\u302A-\u302F\u3031-\u3035\u3038-\u303A\u303B\u303C\u3041-\u3096\u3099-\u309A\u309D-\u309E\u309F\u30A1-\u30FA\u30FC-\u30FE\u30FF\u3105-\u312C\u3131-\u318E\u31A0-\u31B7\u31F0-\u31FF\u3400-\u4DB5\u4E00-\u9FBB\uA000-\uA014\uA015\uA016-\uA48C\uA800-\uA801\uA802\uA803-\uA805\uA806\uA807-\uA80A\uA80B\uA80C-\uA822\uA823-\uA824\uA825-\uA826\uA827\uAC00-\uD7A3\uF900-\uFA2D\uFA30-\uFA6A\uFA70-\uFAD9\uFB00-\uFB06\uFB13-\uFB17\uFB1D\uFB1E\uFB1F-\uFB28\uFB2A-\uFB36\uFB38-\uFB3C\uFB3E\uFB40-\uFB41\uFB43-\uFB44\uFB46-\uFBB1\uFBD3-\uFC5D\uFC64-\uFD3D\uFD50-\uFD8F\uFD92-\uFDC7\uFDF0-\uFDF9\uFE00-\uFE0F\uFE20-\uFE23\uFE33-\uFE34\uFE4D-\uFE4F\uFE71\uFE73\uFE77\uFE79\uFE7B\uFE7D\uFE7F-\uFEFC\uFF10-\uFF19\uFF21-\uFF3A\uFF3F\uFF41-\uFF5A\uFF66-\uFF6F\uFF70\uFF71-\uFF9D\uFF9E-\uFF9F\uFFA0-\uFFBE\uFFC2-\uFFC7\uFFCA-\uFFCF\uFFD2-\uFFD7\uFFDA-\uFFDC'
def allexcept(*args):
newcats = cats[:]
for arg in args:
newcats.remove(arg)
return u''.join([globals()[cat] for cat in newcats])
if __name__ == '__main__':
import unicodedata
categories = {}
f = open(__file__.rstrip('co'))
try:
content = f.read()
finally:
f.close()
header = content[:content.find('Cc =')]
footer = content[content.find("def combine("):]
for code in range(65535):
c = unichr(code)
cat = unicodedata.category(c)
categories.setdefault(cat, []).append(c)
f = open(__file__, 'w')
f.write(header)
for cat in sorted(categories):
val = u''.join(categories[cat])
if cat == 'Cs':
# Jython can't handle isolated surrogates
f.write("""\
try:
Cs = eval(r"%r")
except UnicodeDecodeError:
Cs = '' # Jython can't handle isolated surrogates\n\n""" % val)
else:
f.write('%s = %r\n\n' % (cat, val))
f.write('cats = %r\n\n' % sorted(categories.keys()))
f.write(footer)
f.close()
| apache-2.0 |
mandeepdhami/nova | nova/tests/functional/v3/test_suspend_server.py | 29 | 2299 | # Copyright 2013 IBM Corp.
#
# 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.
from oslo_config import cfg
from nova.tests.functional.v3 import test_servers
CONF = cfg.CONF
CONF.import_opt('osapi_compute_extension',
'nova.api.openstack.compute.extensions')
class SuspendServerSamplesJsonTest(test_servers.ServersSampleBase):
extension_name = "os-suspend-server"
ctype = 'json'
extra_extensions_to_load = ["os-access-ips"]
# TODO(park): Overriding '_api_version' till all functional tests
# are merged between v2 and v2.1. After that base class variable
# itself can be changed to 'v2'
_api_version = 'v2'
def _get_flags(self):
f = super(SuspendServerSamplesJsonTest, self)._get_flags()
f['osapi_compute_extension'] = CONF.osapi_compute_extension[:]
f['osapi_compute_extension'].append(
'nova.api.openstack.compute.contrib.admin_actions.Admin_actions')
return f
def setUp(self):
"""setUp Method for SuspendServer api samples extension
This method creates the server that will be used in each tests
"""
super(SuspendServerSamplesJsonTest, self).setUp()
self.uuid = self._post_server()
def test_post_suspend(self):
# Get api samples to suspend server request.
response = self._do_post('servers/%s/action' % self.uuid,
'server-suspend', {})
self.assertEqual(response.status_code, 202)
def test_post_resume(self):
# Get api samples to server resume request.
self.test_post_suspend()
response = self._do_post('servers/%s/action' % self.uuid,
'server-resume', {})
self.assertEqual(response.status_code, 202)
| apache-2.0 |
ZachRiegel/scriptbin | pypyjs/modules/test/test_cookie.py | 14 | 6560 | # Simple test suite for Cookie.py
from test.test_support import run_unittest, run_doctest, check_warnings
import unittest
import Cookie
import pickle
class CookieTests(unittest.TestCase):
# Currently this only tests SimpleCookie
def test_basic(self):
cases = [
{ 'data': 'chips=ahoy; vienna=finger',
'dict': {'chips':'ahoy', 'vienna':'finger'},
'repr': "<SimpleCookie: chips='ahoy' vienna='finger'>",
'output': 'Set-Cookie: chips=ahoy\nSet-Cookie: vienna=finger',
},
{ 'data': 'keebler="E=mc2; L=\\"Loves\\"; fudge=\\012;"',
'dict': {'keebler' : 'E=mc2; L="Loves"; fudge=\012;'},
'repr': '''<SimpleCookie: keebler='E=mc2; L="Loves"; fudge=\\n;'>''',
'output': 'Set-Cookie: keebler="E=mc2; L=\\"Loves\\"; fudge=\\012;"',
},
# Check illegal cookies that have an '=' char in an unquoted value
{ 'data': 'keebler=E=mc2',
'dict': {'keebler' : 'E=mc2'},
'repr': "<SimpleCookie: keebler='E=mc2'>",
'output': 'Set-Cookie: keebler=E=mc2',
}
]
for case in cases:
C = Cookie.SimpleCookie()
C.load(case['data'])
self.assertEqual(repr(C), case['repr'])
self.assertEqual(C.output(sep='\n'), case['output'])
for k, v in sorted(case['dict'].iteritems()):
self.assertEqual(C[k].value, v)
def test_load(self):
C = Cookie.SimpleCookie()
C.load('Customer="WILE_E_COYOTE"; Version=1; Path=/acme')
self.assertEqual(C['Customer'].value, 'WILE_E_COYOTE')
self.assertEqual(C['Customer']['version'], '1')
self.assertEqual(C['Customer']['path'], '/acme')
self.assertEqual(C.output(['path']),
'Set-Cookie: Customer="WILE_E_COYOTE"; Path=/acme')
self.assertEqual(C.js_output(), r"""
<script type="text/javascript">
<!-- begin hiding
document.cookie = "Customer=\"WILE_E_COYOTE\"; Path=/acme; Version=1";
// end hiding -->
</script>
""")
self.assertEqual(C.js_output(['path']), r"""
<script type="text/javascript">
<!-- begin hiding
document.cookie = "Customer=\"WILE_E_COYOTE\"; Path=/acme";
// end hiding -->
</script>
""")
# loading 'expires'
C = Cookie.SimpleCookie()
C.load('Customer="W"; expires=Wed, 01 Jan 2010 00:00:00 GMT')
self.assertEqual(C['Customer']['expires'],
'Wed, 01 Jan 2010 00:00:00 GMT')
C = Cookie.SimpleCookie()
C.load('Customer="W"; expires=Wed, 01 Jan 98 00:00:00 GMT')
self.assertEqual(C['Customer']['expires'],
'Wed, 01 Jan 98 00:00:00 GMT')
def test_extended_encode(self):
# Issue 9824: some browsers don't follow the standard; we now
# encode , and ; to keep them from tripping up.
C = Cookie.SimpleCookie()
C['val'] = "some,funky;stuff"
self.assertEqual(C.output(['val']),
'Set-Cookie: val="some\\054funky\\073stuff"')
def test_set_secure_httponly_attrs(self):
C = Cookie.SimpleCookie('Customer="WILE_E_COYOTE"')
C['Customer']['secure'] = True
C['Customer']['httponly'] = True
self.assertEqual(C.output(),
'Set-Cookie: Customer="WILE_E_COYOTE"; httponly; secure')
def test_secure_httponly_false_if_not_present(self):
C = Cookie.SimpleCookie()
C.load('eggs=scrambled; Path=/bacon')
self.assertFalse(C['eggs']['httponly'])
self.assertFalse(C['eggs']['secure'])
def test_secure_httponly_true_if_present(self):
# Issue 16611
C = Cookie.SimpleCookie()
C.load('eggs=scrambled; httponly; secure; Path=/bacon')
self.assertTrue(C['eggs']['httponly'])
self.assertTrue(C['eggs']['secure'])
def test_secure_httponly_true_if_have_value(self):
# This isn't really valid, but demonstrates what the current code
# is expected to do in this case.
C = Cookie.SimpleCookie()
C.load('eggs=scrambled; httponly=foo; secure=bar; Path=/bacon')
self.assertTrue(C['eggs']['httponly'])
self.assertTrue(C['eggs']['secure'])
# Here is what it actually does; don't depend on this behavior. These
# checks are testing backward compatibility for issue 16611.
self.assertEqual(C['eggs']['httponly'], 'foo')
self.assertEqual(C['eggs']['secure'], 'bar')
def test_bad_attrs(self):
# Issue 16611: make sure we don't break backward compatibility.
C = Cookie.SimpleCookie()
C.load('cookie=with; invalid; version; second=cookie;')
self.assertEqual(C.output(),
'Set-Cookie: cookie=with\r\nSet-Cookie: second=cookie')
def test_extra_spaces(self):
C = Cookie.SimpleCookie()
C.load('eggs = scrambled ; secure ; path = bar ; foo=foo ')
self.assertEqual(C.output(),
'Set-Cookie: eggs=scrambled; Path=bar; secure\r\nSet-Cookie: foo=foo')
def test_quoted_meta(self):
# Try cookie with quoted meta-data
C = Cookie.SimpleCookie()
C.load('Customer="WILE_E_COYOTE"; Version="1"; Path="/acme"')
self.assertEqual(C['Customer'].value, 'WILE_E_COYOTE')
self.assertEqual(C['Customer']['version'], '1')
self.assertEqual(C['Customer']['path'], '/acme')
def test_invalid_cookies(self):
# Accepting these could be a security issue
C = Cookie.SimpleCookie()
for s in (']foo=x', '[foo=x', 'blah]foo=x', 'blah[foo=x'):
C.load(s)
self.assertEqual(dict(C), {})
self.assertEqual(C.output(), '')
def test_pickle(self):
rawdata = 'Customer="WILE_E_COYOTE"; Path=/acme; Version=1'
expected_output = 'Set-Cookie: %s' % rawdata
C = Cookie.SimpleCookie()
C.load(rawdata)
self.assertEqual(C.output(), expected_output)
for proto in range(pickle.HIGHEST_PROTOCOL + 1):
C1 = pickle.loads(pickle.dumps(C, protocol=proto))
self.assertEqual(C1.output(), expected_output)
def test_main():
run_unittest(CookieTests)
if Cookie.__doc__ is not None:
with check_warnings(('.+Cookie class is insecure; do not use it',
DeprecationWarning)):
run_doctest(Cookie)
if __name__ == '__main__':
test_main()
| gpl-3.0 |
trabacus-softapps/openerp-8.0-cc | openerp/addons/account/report/account_central_journal.py | 60 | 5329 | # -*- coding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Management Solution
# Copyright (C) 2004-2010 Tiny SPRL (<http://tiny.be>).
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero 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 Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
##############################################################################
import time
from openerp.report import report_sxw
from common_report_header import common_report_header
#
# Use period and Journal for selection or resources
#
class journal_print(report_sxw.rml_parse, common_report_header):
def __init__(self, cr, uid, name, context=None):
if context is None:
context = {}
super(journal_print, self).__init__(cr, uid, name, context=context)
self.period_ids = []
self.journal_ids = []
self.localcontext.update({
'time': time,
'lines': self.lines,
'sum_debit': self._sum_debit,
'sum_credit': self._sum_credit,
'get_filter': self._get_filter,
'get_fiscalyear': self._get_fiscalyear,
'get_account': self._get_account,
'get_start_period': self.get_start_period,
'get_end_period': self.get_end_period,
'get_sortby': self._get_sortby,
'get_start_date':self._get_start_date,
'get_end_date':self._get_end_date,
'display_currency':self._display_currency,
'get_target_move': self._get_target_move,
})
def set_context(self, objects, data, ids, report_type=None):
obj_move = self.pool.get('account.move.line')
new_ids = ids
self.query_get_clause = ''
self.target_move = data['form'].get('target_move', 'all')
if (data['model'] == 'ir.ui.menu'):
new_ids = 'active_ids' in data['form'] and data['form']['active_ids'] or []
self.query_get_clause = 'AND '
self.query_get_clause += obj_move._query_get(self.cr, self.uid, obj='l', context=data['form'].get('used_context', {}))
objects = self.pool.get('account.journal.period').browse(self.cr, self.uid, new_ids)
if new_ids:
self.cr.execute('SELECT period_id, journal_id FROM account_journal_period WHERE id IN %s', (tuple(new_ids),))
res = self.cr.fetchall()
self.period_ids, self.journal_ids = zip(*res)
return super(journal_print, self).set_context(objects, data, ids, report_type=report_type)
def lines(self, period_id, journal_id):
move_state = ['draft','posted']
if self.target_move == 'posted':
move_state = ['posted']
self.cr.execute('SELECT a.currency_id, a.code, a.name, c.symbol AS currency_code, l.currency_id, l.amount_currency, SUM(debit) AS debit, SUM(credit) AS credit \
from account_move_line l \
LEFT JOIN account_move am ON (l.move_id=am.id) \
LEFT JOIN account_account a ON (l.account_id=a.id) \
LEFT JOIN res_currency c on (l.currency_id=c.id) WHERE am.state IN %s AND l.period_id=%s AND l.journal_id=%s '+self.query_get_clause+' GROUP BY a.id, a.code, a.name,l.amount_currency,c.symbol, a.currency_id,l.currency_id', (tuple(move_state), period_id, journal_id))
return self.cr.dictfetchall()
def _set_get_account_currency_code(self, account_id):
self.cr.execute("SELECT c.symbol as code "\
"FROM res_currency c,account_account as ac "\
"WHERE ac.id = %s AND ac.currency_id = c.id"%(account_id))
result = self.cr.fetchone()
if result:
self.account_currency = result[0]
else:
self.account_currency = False
def _get_account(self, data):
if data['model'] == 'account.journal.period':
return self.pool.get('account.journal.period').browse(self.cr, self.uid, data['id']).company_id.name
return super(journal_print,self)._get_account(data)
def _get_fiscalyear(self, data):
if data['model'] == 'account.journal.period':
return self.pool.get('account.journal.period').browse(self.cr, self.uid, data['id']).fiscalyear_id.name
return super(journal_print,self)._get_fiscalyear(data)
def _display_currency(self, data):
if data['model'] == 'account.journal.period':
return True
return data['form']['amount_currency']
report_sxw.report_sxw('report.account.central.journal', 'account.journal.period', 'addons/account/report/account_central_journal.rml', parser=journal_print, header='external')
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
| agpl-3.0 |
jonycgn/scipy | scipy/weave/examples/dict_sort.py | 100 | 3235 | # Borrowed from Alex Martelli's sort from Python cookbook using inlines
# 2x over fastest Python version -- again, maybe not worth the effort...
# Then again, 2x is 2x...
#
# C:\home\eric\wrk\scipy\weave\examples>python dict_sort.py
# Dict sort of 1000 items for 300 iterations:
# speed in python: 0.250999927521
# [0, 1, 2, 3, 4]
# speed in c: 0.110000014305
# speed up: 2.28
# [0, 1, 2, 3, 4]
# speed in c (scxx): 0.200000047684
# speed up: 1.25
# [0, 1, 2, 3, 4]
from __future__ import absolute_import, print_function
import sys
sys.path.insert(0,'..')
import inline_tools
def c_sort(adict):
assert(type(adict) is dict)
code = """
#line 24 "dict_sort.py"
py::list keys = adict.keys();
py::list items(keys.length());
keys.sort();
PyObject* item = NULL;
int N = keys.length();
for(int i = 0; i < N;i++)
{
item = PyList_GetItem(keys,i);
item = PyDict_GetItem(adict,item);
Py_XINCREF(item);
PyList_SetItem(items,i,item);
}
return_val = items;
"""
return inline_tools.inline(code,['adict'])
def c_sort2(adict):
assert(type(adict) is dict)
code = """
#line 44 "dict_sort.py"
py::list keys = adict.keys();
py::list items(keys.len());
keys.sort();
int N = keys.length();
for(int i = 0; i < N;i++)
{
items[i] = adict[int( keys[i] )];
}
return_val = items;
"""
return inline_tools.inline(code,['adict'],verbose=1)
# (IMHO) the simplest approach:
def sortedDictValues1(adict):
items = adict.items()
items.sort()
return [value for key, value in items]
# an alternative implementation, which
# happens to run a bit faster for large
# dictionaries on my machine:
def sortedDictValues2(adict):
keys = adict.keys()
keys.sort()
return [adict[key] for key in keys]
# a further slight speed-up on my box
# is to map a bound-method:
def sortedDictValues3(adict):
keys = adict.keys()
keys.sort()
return map(adict.get, keys)
import time
def sort_compare(a,n):
print('Dict sort of %d items for %d iterations:' % (len(a),n))
t1 = time.time()
for i in range(n):
b = sortedDictValues3(a)
t2 = time.time()
py = (t2-t1)
print(' speed in python:', (t2 - t1))
print(b[:5])
b = c_sort(a)
t1 = time.time()
for i in range(n):
b = c_sort(a)
t2 = time.time()
print(' speed in c (Python API):',(t2 - t1))
print(' speed up: %3.2f' % (py/(t2-t1)))
print(b[:5])
b = c_sort2(a)
t1 = time.time()
for i in range(n):
b = c_sort2(a)
t2 = time.time()
print(' speed in c (scxx):',(t2 - t1))
print(' speed up: %3.2f' % (py/(t2-t1)))
print(b[:5])
def setup_dict(m):
" does insertion order matter?"
import random
a = range(m)
d = {}
for i in range(m):
key = random.choice(a)
a.remove(key)
d[key] = key
return d
if __name__ == "__main__":
m = 1000
a = setup_dict(m)
n = 3000
sort_compare(a,n)
| bsd-3-clause |
gaddman/ansible | lib/ansible/module_utils/facts/network/aix.py | 143 | 5982 | # This file is part of Ansible
#
# Ansible 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.
#
# Ansible 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 Ansible. If not, see <http://www.gnu.org/licenses/>.
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
import re
from ansible.module_utils.facts.network.base import NetworkCollector
from ansible.module_utils.facts.network.generic_bsd import GenericBsdIfconfigNetwork
class AIXNetwork(GenericBsdIfconfigNetwork):
"""
This is the AIX Network Class.
It uses the GenericBsdIfconfigNetwork unchanged.
"""
platform = 'AIX'
def get_default_interfaces(self, route_path):
netstat_path = self.module.get_bin_path('netstat')
rc, out, err = self.module.run_command([netstat_path, '-nr'])
interface = dict(v4={}, v6={})
lines = out.splitlines()
for line in lines:
words = line.split()
if len(words) > 1 and words[0] == 'default':
if '.' in words[1]:
interface['v4']['gateway'] = words[1]
interface['v4']['interface'] = words[5]
elif ':' in words[1]:
interface['v6']['gateway'] = words[1]
interface['v6']['interface'] = words[5]
return interface['v4'], interface['v6']
# AIX 'ifconfig -a' does not have three words in the interface line
def get_interfaces_info(self, ifconfig_path, ifconfig_options='-a'):
interfaces = {}
current_if = {}
ips = dict(
all_ipv4_addresses=[],
all_ipv6_addresses=[],
)
uname_rc = None
uname_out = None
uname_err = None
uname_path = self.module.get_bin_path('uname')
if uname_path:
uname_rc, uname_out, uname_err = self.module.run_command([uname_path, '-W'])
rc, out, err = self.module.run_command([ifconfig_path, ifconfig_options])
for line in out.splitlines():
if line:
words = line.split()
# only this condition differs from GenericBsdIfconfigNetwork
if re.match(r'^\w*\d*:', line):
current_if = self.parse_interface_line(words)
interfaces[current_if['device']] = current_if
elif words[0].startswith('options='):
self.parse_options_line(words, current_if, ips)
elif words[0] == 'nd6':
self.parse_nd6_line(words, current_if, ips)
elif words[0] == 'ether':
self.parse_ether_line(words, current_if, ips)
elif words[0] == 'media:':
self.parse_media_line(words, current_if, ips)
elif words[0] == 'status:':
self.parse_status_line(words, current_if, ips)
elif words[0] == 'lladdr':
self.parse_lladdr_line(words, current_if, ips)
elif words[0] == 'inet':
self.parse_inet_line(words, current_if, ips)
elif words[0] == 'inet6':
self.parse_inet6_line(words, current_if, ips)
else:
self.parse_unknown_line(words, current_if, ips)
# don't bother with wpars it does not work
# zero means not in wpar
if not uname_rc and uname_out.split()[0] == '0':
if current_if['macaddress'] == 'unknown' and re.match('^en', current_if['device']):
entstat_path = self.module.get_bin_path('entstat')
if entstat_path:
rc, out, err = self.module.run_command([entstat_path, current_if['device']])
if rc != 0:
break
for line in out.splitlines():
if not line:
pass
buff = re.match('^Hardware Address: (.*)', line)
if buff:
current_if['macaddress'] = buff.group(1)
buff = re.match('^Device Type:', line)
if buff and re.match('.*Ethernet', line):
current_if['type'] = 'ether'
# device must have mtu attribute in ODM
if 'mtu' not in current_if:
lsattr_path = self.module.get_bin_path('lsattr')
if lsattr_path:
rc, out, err = self.module.run_command([lsattr_path, '-El', current_if['device']])
if rc != 0:
break
for line in out.splitlines():
if line:
words = line.split()
if words[0] == 'mtu':
current_if['mtu'] = words[1]
return interfaces, ips
# AIX 'ifconfig -a' does not inform about MTU, so remove current_if['mtu'] here
def parse_interface_line(self, words):
device = words[0][0:-1]
current_if = {'device': device, 'ipv4': [], 'ipv6': [], 'type': 'unknown'}
current_if['flags'] = self.get_options(words[1])
current_if['macaddress'] = 'unknown' # will be overwritten later
return current_if
class AIXNetworkCollector(NetworkCollector):
_fact_class = AIXNetwork
_platform = 'AIX'
| gpl-3.0 |
sameetb-cuelogic/edx-platform-test | common/djangoapps/edxmako/template.py | 144 | 2613 | # Copyright (c) 2008 Mikeal Rogers
#
# 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.
import edxmako
from django.conf import settings
from edxmako.middleware import get_template_request_context
from edxmako.shortcuts import marketing_link
from mako.template import Template as MakoTemplate
DJANGO_VARIABLES = ['output_encoding', 'encoding_errors']
# TODO: We should make this a Django Template subclass that simply has the MakoTemplate inside of it? (Intead of inheriting from MakoTemplate)
class Template(MakoTemplate):
"""
This bridges the gap between a Mako template and a djano template. It can
be rendered like it is a django template because the arguments are transformed
in a way that MakoTemplate can understand.
"""
def __init__(self, *args, **kwargs):
"""Overrides base __init__ to provide django variable overrides"""
if not kwargs.get('no_django', False):
overrides = {k: getattr(edxmako, k, None) for k in DJANGO_VARIABLES}
overrides['lookup'] = edxmako.LOOKUP['main']
kwargs.update(overrides)
super(Template, self).__init__(*args, **kwargs)
def render(self, context_instance):
"""
This takes a render call with a context (from Django) and translates
it to a render call on the mako template.
"""
# collapse context_instance to a single dictionary for mako
context_dictionary = {}
# In various testing contexts, there might not be a current request context.
request_context = get_template_request_context()
if request_context:
for item in request_context:
context_dictionary.update(item)
for item in context_instance:
context_dictionary.update(item)
context_dictionary['settings'] = settings
context_dictionary['EDX_ROOT_URL'] = settings.EDX_ROOT_URL
context_dictionary['django_context'] = context_instance
context_dictionary['marketing_link'] = marketing_link
return super(Template, self).render_unicode(**context_dictionary)
| agpl-3.0 |
F5Networks/f5-common-python | f5/utils/responses/test/unit/test_handlers.py | 1 | 3609 | # coding=utf-8
#
# Copyright 2015-2016 F5 Networks Inc.
#
# 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.
#
from f5.utils.responses.handlers import Stats
NESTED_DICT = \
{u'https://localhost/mgmt/tm/fakemod/fake/fakeone/~Common~fakeone/stats': {
u'nestedStats': {
u'kind': u'tm:fakemod:fake:fakestats',
u'selfLink': u'https://localhost/mgmt/tm/fakemod/fake/fakeone/'
u'~Common~fakeone/stats?ver=12.1.0',
u'entries': {u'syncookie.accepts': {
u'value': 0}, u'ephemeral.bitsOut': {
u'value': 0}, u'clientside.bitsOut': {u'value': 0}}}}}
NOT_NESTED_DICT = {u'syncookie.accepts': {u'value': 0},
u'ephemeral.bitsOut': {u'value': 0},
u'clientside.bitsOut': {u'value': 0}}
NESTED_DICT_NO_URI = {u'fakekey.some': {
u'nestedStats': {
u'kind': u'tm:fakemod:fake:fakestats',
u'selfLink': u'https://localhost/mgmt/tm/fakemod/'
u'fake/fakeone/~Common~fakeone/stats?ver=12.1.0',
u'entries': {u'syncookie.accepts': {u'value': 0},
u'ephemeral.bitsOut': {u'value': 0},
u'clientside.bitsOut': {u'value': 0}}}}}
EXPECTED_CONVERTED_DICT = {u'syncookie_accepts': {u'value': 0},
u'ephemeral_bitsOut': {u'value': 0},
u'clientside_bitsOut': {u'value': 0}}
EXPECTED_CONVERTED_DICT_NO_URI = {u'fakekey_some': {u'nestedStats': {
u'kind': u'tm:fakemod:fake:fakestats', u'selfLink':
u'https://localhost/mgmt/tm/fakemod/fake/fakeone/'
u'~Common~fakeone/stats?ver=12.1.0',
u'entries': {u'syncookie_accepts': {u'value': 0},
u'ephemeral_bitsOut': {u'value': 0},
u'clientside_bitsOut': {u'value': 0}}}}}
class FakeStatResource(object):
def __init__(self, obj):
self.entries = obj
class TestStatsHandlerMethods(object):
def test_key_dot_replace(self):
fake_dict = {'foo.bar': 'foo', 'baz': 'baz.foo',
'fuz.bar': {'baz.foo': {'faz': {'baz.fuz': 1}}}}
p = Stats(FakeStatResource(fake_dict))
assert 'stat' in p.__dict__
assert hasattr(p.__dict__['stat'], 'foo_bar')
assert hasattr(p.__dict__['stat'], 'fuz_bar')
assert p.__dict__['stat'] == {'foo_bar': 'foo', 'baz': 'baz.foo',
'fuz_bar': {'baz_foo': {'faz': {
'baz_fuz': 1}}}}
def test_pop_nest_stats_nested(self):
p = Stats(FakeStatResource(NESTED_DICT))
assert 'stat' in p.__dict__
assert p.__dict__['stat'] == EXPECTED_CONVERTED_DICT
def test_pop_nest_stats_not_nested(self):
p = Stats(FakeStatResource(NOT_NESTED_DICT))
assert 'stat' in p.__dict__
assert p.__dict__['stat'] == EXPECTED_CONVERTED_DICT
def test_pop_nest_stats_nested_no_uri(self):
p = Stats(FakeStatResource(NESTED_DICT_NO_URI))
assert 'stat' in p.__dict__
assert p.__dict__['stat'] == EXPECTED_CONVERTED_DICT_NO_URI
| apache-2.0 |
SMAC/corelib | smac/rpc/service.py | 1 | 1339 | # Copyright (C) 2005-2010 MISG/ICTI/EIA-FR
# See LICENSE for details.
"""
An RPC service for thrift modules.
@author: Jonathan Stoppani <jonathan.stoppani@edu.hefr.ch>
"""
from thrift.protocol.TBinaryProtocol import TBinaryProtocolFactory
from thrift.transport.TTwisted import ThriftServerFactory
from twisted.application import service, internet
from twisted.internet import defer, reactor, protocol
from smac.python import log
from smac.modules.rpc import IRPCServiceHandler
class ThriftRPCService(internet.TCPServer, object):
def __init__(self, port, processor, handler):
self.processor = processor
self.handler = IRPCServiceHandler(handler)
factory = ThriftServerFactory(processor.Processor(handler), TBinaryProtocolFactory())
super(ThriftRPCService, self).__init__(port, factory)
def startService(self):
super(ThriftRPCService, self).startService()
log.info("ThriftRPCService started, notifying handler")
self.handler.rpc_start(self)
@defer.inlineCallbacks
def stopService(self):
log.info("ThriftRPCService stopping, notifying handler")
yield self.handler.rpc_stop()
log.info("ThriftRPCService handler shutdown procedure terminated, stopping service")
super(ThriftRPCService, self).stopService()
| gpl-3.0 |
ramsateesh/designate | designate/tests/unit/test_objects/test_domain.py | 1 | 5067 | # Copyright 2015 Hewlett-Packard Development Company, L.P.
#
# Author: Federico Ceratto <federico.ceratto@hp.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.
import unittest
from oslo_log import log as logging
import oslotest.base
import testtools
from designate import exceptions
from designate import objects
LOG = logging.getLogger(__name__)
def create_test_domain():
return objects.Domain(
name='www.example.org.',
email='foo@example.com',
)
class DomainTest(oslotest.base.BaseTestCase):
def test_init(self):
domain = create_test_domain()
self.assertEqual(domain.name, 'www.example.org.')
def test_masters_none(self):
domain = objects.Domain()
with testtools.ExpectedException(exceptions.RelationNotLoaded):
self.assertEqual(domain.masters, None)
def test_masters(self):
domain = objects.Domain(
masters=objects.DomainMasterList.from_list([
{'host': '1.0.0.0', 'port': 53}
])
)
self.assertEqual(
domain.masters.to_list(), [{'host': '1.0.0.0', 'port': 53}])
def test_masters_2(self):
domain = objects.Domain(
masters=objects.DomainMasterList.from_list([
{'host': '1.0.0.0'},
{'host': '2.0.0.0'}
])
)
self.assertEqual(len(domain.masters), 2)
def test_get_master_by_ip(self):
domain = objects.Domain(
masters=objects.DomainMasterList.from_list([
{'host': '1.0.0.0', 'port': 53},
{'host': '2.0.0.0', 'port': 53}
])
)
m = domain.get_master_by_ip('2.0.0.0').to_data()
self.assertEqual(m, '2.0.0.0:53')
@unittest.expectedFailure # bug: domain.masters is not iterable
def test_get_master_by_ip_none(self):
domain = objects.Domain()
m = domain.get_master_by_ip('2.0.0.0')
self.assertEqual(m, False)
def test_validate(self):
domain = create_test_domain()
domain.validate()
def test_validate_invalid_secondary(self):
domain = objects.Domain(
type='SECONDARY',
)
with testtools.ExpectedException(exceptions.InvalidObject):
domain.validate()
def test_validate_primary_with_masters(self):
masters = objects.DomainMasterList()
masters.append(objects.DomainMaster.from_data("10.0.0.1:53"))
domain = objects.Domain(
name='example.com.',
type='PRIMARY',
email="foo@example.com",
masters=masters
)
with testtools.ExpectedException(exceptions.InvalidObject):
domain.validate()
def test_validate_primary_no_email(self):
masters = objects.DomainMasterList()
masters.append(objects.DomainMaster.from_data("10.0.0.1:53"))
domain = objects.Domain(
name='example.com.',
type='PRIMARY',
)
with testtools.ExpectedException(exceptions.InvalidObject):
domain.validate()
def test_validate_secondary_with_email(self):
masters = objects.DomainMasterList()
masters.append(objects.DomainMaster.from_data("10.0.0.1:53"))
domain = objects.Domain(
name='example.com.',
type='SECONDARY',
email="foo@example.com",
masters=masters
)
with testtools.ExpectedException(exceptions.InvalidObject):
domain.validate()
def test_validate_secondary_with_ttl(self):
masters = objects.DomainMasterList()
masters.append(objects.DomainMaster.from_data("10.0.0.1:53"))
domain = objects.Domain(
name='example.com.',
type='SECONDARY',
ttl=600,
masters=masters
)
with testtools.ExpectedException(exceptions.InvalidObject):
domain.validate()
def test_validate_secondary_with_masters_empty_list(self):
masters = objects.DomainMasterList()
domain = objects.Domain(
name='example.com.',
type='SECONDARY',
masters=masters
)
with testtools.ExpectedException(exceptions.InvalidObject):
domain.validate()
def test_validate_secondary_with_masters_none(self):
domain = objects.Domain(
name='example.com.',
type='SECONDARY',
masters=None
)
with testtools.ExpectedException(exceptions.InvalidObject):
domain.validate()
| apache-2.0 |
migueltlapa/TheIoTLearningInitiative | InternetOfThingsCourse/lcd.py | 1 | 1503 | #!/usr/bin/python
# Author: Brendan Le Foll <brendan.le.foll@intel.com>
# Copyright (c) 2014 Intel Corporation.
#
# Permission is hereby granted, free of charge, to any person obtaining
# a copy of this software and associated documentation files (the
# "Software"), to deal in the Software without restriction, including
# without limitation the rights to use, copy, modify, merge, publish,
# distribute, sublicense, and/or sell copies of the Software, and to
# permit persons to whom the Software is furnished to do so, subject to
# the following conditions:
#
# The above copyright notice and this permission notice shall be
# included in all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
# LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
# OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
# WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
import pyupm_i2clcd as lcd
# Initialize Jhd1313m1 at 0x3E (LCD_ADDRESS) and 0x62 (RGB_ADDRESS)
myLcd = lcd.Jhd1313m1(0, 0x3E, 0x62)
myLcd.setCursor(0,0)
# RGB Blue
#myLcd.setColor(53, 39, 249)
# RGB Red
myLcd.setColor(255, 0, 0)
while(1):
myLcd.write('Hello World')
myLcd.setCursor(1,2)
myLcd.write('Hello World')
| apache-2.0 |
mohanprasath/Course-Work | data_analysis/uh_data_analysis_with_python/hy-data-analysis-with-python-spring-2020/part02-e16_multiplication_table_revisited/test/test_multiplication_table_revisited.py | 1 | 1482 | #!/usr/bin/env python3
import unittest
from unittest.mock import patch
import numpy as np
from tmc import points
from tmc.utils import load, get_out
module_name="src.multiplication_table_revisited"
multiplication_table = load(module_name, "multiplication_table")
def patch_name(m, d):
import importlib
parts=d.split(".")
try:
getattr(importlib.import_module(m), parts[-1])
p=".".join([m, parts[-1]])
except ModuleNotFoundError:
raise
except AttributeError:
if len(parts) == 1:
raise
try:
getattr(importlib.import_module(m), parts[-2])
p=".".join([m] + parts[-2:])
except AttributeError:
if len(parts) == 2:
raise
getattr(importlib.import_module(m), parts[-3])
p=".".join([m] + parts[-3:])
return p
@points('p02-16.1')
class MultiplicationTableRevisited(unittest.TestCase):
def test_content(self):
for n in range(1,10):
a = multiplication_table(n)
self.assertEqual(a.shape, (n,n), msg="Incorrect shape!")
for (i,j), x in np.ndenumerate(a):
self.assertEqual(i*j, x, msg="Incorrect value at pos (%i,%i)!" %(i,j))
def test_calls(self):
with patch(patch_name(module_name, "np.arange"), wraps=np.arange) as parange:
a = multiplication_table(4)
parange.assert_called()
if __name__ == '__main__':
unittest.main()
| gpl-3.0 |
mapadofu/patches | python/random_rhythm.py | 1 | 3260 | import itertools
import random
random.seed()
import math
class BeatPattern(object):
def __init__(self, lily, onsets, endings):
self.lily=lily
self.onsets=onsets
self.endings=endings
#self.inverted=0 # TBD: allow for "inverted"
def __iter__(self):
''' Make me look like a (single-element) sequence of beats '''
yield self
options=[
BeatPattern( 'c4', [1,0,0,0], [0,0,0,1] ),
BeatPattern( 'c4-.', [1,0,0,0], [0,1,0,0] ),
BeatPattern( 'r4', [0,0,0,0], [0,0,0,0] ),
BeatPattern( 'c8 c8', [1,0,1,0], [0,1,0,1] ),
BeatPattern( 'c8-. c8', [1,0,1,0], [1,0,0,1] ),
BeatPattern( 'c8-. c8-.', [1,0,1,0], [1,0,1,0] ),
BeatPattern( 'c8 c8-.', [1,0,1,0], [0,1,1,0] ),
BeatPattern( 'r8 c8', [0,0,1,0], [0,0,0,1] ),
BeatPattern( 'r8 c8-.', [0,0,1,0], [0,0,1,0] ),
BeatPattern( 'c16 c16 c16 c16', [1,1,1,1], [1,1,1,1] ),
BeatPattern( 'r16 c16 c16 c16', [0,1,1,1], [0,1,1,1] ),
BeatPattern( 'c8-. c16 c16', [1,0,1,1], [1,0,1,1] ),
BeatPattern( 'c16 c16 r16 c16', [1,1,0,1], [1,1,0,1] ),
BeatPattern( 'c16 c16 c8-.', [1,1,1,0], [1,1,1,0] ),
BeatPattern( 'c8 c16 c16', [1,0,1,1], [0,1,1,1] ),
BeatPattern( 'r8 c16 c16', [0,0,1,1], [0,0,1,1] ),
BeatPattern( 'c8 r16 c16', [1,0,0,1], [0,1,0,1] ),
BeatPattern( 'c16 c16 c8', [1,1,1,0], [1,1,0,1] ),
BeatPattern( 'r16 c16 c8', [0,1,1,0], [0,1,0,1] ),
BeatPattern( 'c16 c16 c8-.', [1,1,1,0], [1,1,1,0] ),
]
def _ndiff(seq1, seq2):
return len( [(a,b) for (a,b) in itertools.izip(seq1,seq2) if a!=b])
def _onsets( beats ):
return itertools.chain( *[b.onsets for b in beats])
def _endings(beats):
return itertools.chain( *[b.endings for b in beats])
def _onoffs(beats):
return itertools.chain( _onsets(beats), _endings(beats) )
def _lily(beats):
return " ".join( [b.lily for b in beats] )
def E1( patt ):
on_the_one=patt[0].onsets[0] # do we "hit the one?"
if on_the_one:
return -0.1
else:
return 0.0
def E2( patt ):
(head,tail)=(patt[:2], patt[2:])
return 0.0 # TBD: is there something sensible here
def E4(patt):
(a,b,c,d)=patt
g_ac=0.1*(1.0/16)
g_bd=0.05*(1.0/16)
g_ab=0.05*(1.0/16)
return g_ac*_ndiff( _onoffs(a), _onoffs(c) )+g_bd*_ndiff( _onoffs(b), _onoffs(d) )+ g_ab*_ndiff( _onoffs(a), _onoffs(b) )
def E(patt):
return E1(patt)+E2(patt)+E4(patt)
def metropolis(patt, kT=1.0):
proposed=patt[:]
proposed[int(random.random()*len(proposed))]=random.choice( options )
dE=E(proposed)-E(patt)
print "E-initial: {0} E-final: {1}, dE={2}".format( E(patt), E(proposed), dE)
if dE<0.0 or random.random()<math.exp(-dE/kT):
return proposed
else:
return patt
def relax(patt, n, kT=1.0):
for i in xrange(n):
patt=metropolis(patt, kT)
return patt
lilytemplate="""
\\version "2.18.0"
\\paper {{
#(set-paper-size "b8")
}}
\\header {{
tagline="" % removed
}}
\score {{
\\new Staff {{
\\omit Staff.Clef
\\omit Staff.TimeSignature
\\relative c'' {{
{0}
}}
}}
\\layout{{
}}
}}
"""
A=[random.choice(options) for i in xrange(4)]
A=relax(A, 2)
B=relax(A, 3)
C=relax(B, 3)
D=relax(C, 3)
print lilytemplate.format( _lily(A+B+C+D) )
| unlicense |
sherpya/archiver | mblookup.py | 1 | 3389 | #!/usr/bin/env python
# -*- Mode: Python; tab-width: 4 -*-
#
# Netfarm Mail Archiver - release 2
#
# Copyright (C) 2005-2007 Gianluigi Tiesi <sherpya@netfarm.it>
#
# 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 2, 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 MERCHANTIBILITY
# or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
# for more details.
# ======================================================================
## @file mblookup.py
## Helper MailBox Lookup using postfix/cyrus
from types import ListType
from grp import getgrnam
__doc__ = '''Netfarm Archiver - release 2.1.0 - Postfix mailbox lookup'''
__version__ = '2.1.0'
__all__ = [ 'mblookup' ]
## Recurse in aliases
def lookup_alias(entry, db, bc):
entries = entry[:-1].strip().split(',')
results = []
for entry in entries:
key = entry.strip() + '\x00'
value = db['aliases'].get(key)
if value is not None:
## Loop detection
if value in bc: return []
bc.append(value)
results = results + lookup_alias(value, db, bc)
else:
results = results + [entry.strip()]
return results
## Lookup in virtual
def lookup(email, db):
key = email.strip() + '\x00'
value = db['virtual'].get(key)
if value is None or value.find('@') != -1: return []
bc = []
return lookup_alias(value, db, bc)
def getusers(emails, dbfiles, postuser=None):
if (type(emails) != ListType) or (len(emails) < 1): return []
results = []
res = []
db = { 'virtual': dbfiles['virtual']['db'],
'aliases': dbfiles['aliases']['db'] }
for email in emails:
res = res + lookup(email, db)
# Uniq + Sort
for mb in res:
if mb in results: continue
if mb.find('+') == -1:
results.append(mb)
else: ## Shared mailbox / direct folder post
p, s = mb.split('+', 1)
if postuser is not None and postuser == p:
# postuser+group
try:
results = results + getgrnam(s)[3] # TODO check for duplicates
except: pass
else: # user+folder
mb = p
results.sort()
return results
if __name__ == '__main__':
from anydbm import open as dbopen
from sys import argv, exit as sys_exit
if len(argv) < 2:
print 'Usage %s: email [email email ...]' % argv[0]
sys_exit(0)
dbfiles = dict(virtual=dict(db={}), aliases=dict(db={}))
# Virtual
db = dbopen('/etc/postfix/virtual.db', 'r')
dbfiles['virtual']['db'].update(db)
db.close()
# Aliases
db = dbopen('/etc/postfix/aliases.db', 'r')
dbfiles['aliases']['db'].update(db)
db.close()
postuser = None
try:
fd = open('/etc/imapd.conf', 'r')
for line in fd:
line = line.strip()
if line.startswith('postuser:'):
postuser = line.split(':', 1).pop().strip()
break
except:
print 'Error reading postuser from imapd.conf'
print getusers(argv[1:], dbfiles, postuser)
| gpl-2.0 |
aiden0z/snippets | leetcode/057_insert_interval.py | 1 | 2007 | """ Insert Interval
Given a set of non-verlapping intervals, insert a new interval into the
intervals (merge if necessary).
You may assume that the intervals were initially sorted according to their start times.
Example 1:
Input: intervals = [[1, 3], [6, 9]], newInterval = [2, 5]
Output: [[1, 5], [6, 9]]
Example 2:
Input: intervals = [[1, 2], [3, 5], [6, 7], [8, 10], [12, 16]], newInterval = [4, 8]
Output: [[1, 2], [3, 10], [12, 16]]
Explanation: Because the new interval [4, 8] overlaps with [3, 5], [6, 7], [8, 10]
"""
from typing import List
class Solution:
def insert(self, intervals: List[List[int]], newInterval: List[int]) -> List[List[int]]:
if len(intervals) == 0:
return [newInterval]
result = []
inserted = False
for i in range(len(intervals)):
if inserted:
result.append(intervals[i])
elif newInterval[0] < intervals[i][0]:
result.append(newInterval)
result.append(intervals[i])
inserted = True
else:
result.append(intervals[i])
if not inserted:
result.append(newInterval)
return self.merge(result)
def merge(self, intervals: List[List[int]]) -> List[List[int]]:
result = [intervals[0]]
i = 0
for j in range(1, len(intervals)):
if result[i][1] >= intervals[j][0]:
result[i] = [min(result[i] + intervals[j]), max(result[i] + intervals[j])]
else:
result.append(intervals[j])
i += 1
return result
if __name__ == '__main__':
cases = [
([[1, 5]], [2, 7], [[1, 7]]),
([[1, 3], [6, 9]], [2, 5], [[1, 5], [6, 9]]),
([[1, 2], [3, 5], [6, 7], [8, 10], [12, 16]], [4, 8], [[1, 2], [3, 10], [12, 16]]),
] # yapf: disable
for case in cases:
for S in [Solution]:
assert S().insert(case[0], case[1]) == case[2]
| mit |
galaxyg/plugin.video.galaxyg.filmes | mechanize/_msiecookiejar.py | 134 | 14694 | """Microsoft Internet Explorer cookie loading on Windows.
Copyright 2002-2003 Johnny Lee <typo_pl@hotmail.com> (MSIE Perl code)
Copyright 2002-2006 John J Lee <jjl@pobox.com> (The Python port)
This code is free software; you can redistribute it and/or modify it
under the terms of the BSD or ZPL 2.1 licenses (see the file
COPYING.txt included with the distribution).
"""
# XXX names and comments are not great here
import os, re, time, struct, logging
if os.name == "nt":
import _winreg
from _clientcookie import FileCookieJar, CookieJar, Cookie, \
MISSING_FILENAME_TEXT, LoadError
debug = logging.getLogger("mechanize").debug
def regload(path, leaf):
key = _winreg.OpenKey(_winreg.HKEY_CURRENT_USER, path, 0,
_winreg.KEY_ALL_ACCESS)
try:
value = _winreg.QueryValueEx(key, leaf)[0]
except WindowsError:
value = None
return value
WIN32_EPOCH = 0x019db1ded53e8000L # 1970 Jan 01 00:00:00 in Win32 FILETIME
def epoch_time_offset_from_win32_filetime(filetime):
"""Convert from win32 filetime to seconds-since-epoch value.
MSIE stores create and expire times as Win32 FILETIME, which is 64
bits of 100 nanosecond intervals since Jan 01 1601.
mechanize expects time in 32-bit value expressed in seconds since the
epoch (Jan 01 1970).
"""
if filetime < WIN32_EPOCH:
raise ValueError("filetime (%d) is before epoch (%d)" %
(filetime, WIN32_EPOCH))
return divmod((filetime - WIN32_EPOCH), 10000000L)[0]
def binary_to_char(c): return "%02X" % ord(c)
def binary_to_str(d): return "".join(map(binary_to_char, list(d)))
class MSIEBase:
magic_re = re.compile(r"Client UrlCache MMF Ver \d\.\d.*")
padding = "\x0d\xf0\xad\x0b"
msie_domain_re = re.compile(r"^([^/]+)(/.*)$")
cookie_re = re.compile("Cookie\:.+\@([\x21-\xFF]+).*?"
"(.+\@[\x21-\xFF]+\.txt)")
# path under HKEY_CURRENT_USER from which to get location of index.dat
reg_path = r"software\microsoft\windows" \
r"\currentversion\explorer\shell folders"
reg_key = "Cookies"
def __init__(self):
self._delayload_domains = {}
def _delayload_domain(self, domain):
# if necessary, lazily load cookies for this domain
delayload_info = self._delayload_domains.get(domain)
if delayload_info is not None:
cookie_file, ignore_discard, ignore_expires = delayload_info
try:
self.load_cookie_data(cookie_file,
ignore_discard, ignore_expires)
except (LoadError, IOError):
debug("error reading cookie file, skipping: %s", cookie_file)
else:
del self._delayload_domains[domain]
def _load_cookies_from_file(self, filename):
debug("Loading MSIE cookies file: %s", filename)
cookies = []
cookies_fh = open(filename)
try:
while 1:
key = cookies_fh.readline()
if key == "": break
rl = cookies_fh.readline
def getlong(rl=rl): return long(rl().rstrip())
def getstr(rl=rl): return rl().rstrip()
key = key.rstrip()
value = getstr()
domain_path = getstr()
flags = getlong() # 0x2000 bit is for secure I think
lo_expire = getlong()
hi_expire = getlong()
lo_create = getlong()
hi_create = getlong()
sep = getstr()
if "" in (key, value, domain_path, flags, hi_expire, lo_expire,
hi_create, lo_create, sep) or (sep != "*"):
break
m = self.msie_domain_re.search(domain_path)
if m:
domain = m.group(1)
path = m.group(2)
cookies.append({"KEY": key, "VALUE": value,
"DOMAIN": domain, "PATH": path,
"FLAGS": flags, "HIXP": hi_expire,
"LOXP": lo_expire, "HICREATE": hi_create,
"LOCREATE": lo_create})
finally:
cookies_fh.close()
return cookies
def load_cookie_data(self, filename,
ignore_discard=False, ignore_expires=False):
"""Load cookies from file containing actual cookie data.
Old cookies are kept unless overwritten by newly loaded ones.
You should not call this method if the delayload attribute is set.
I think each of these files contain all cookies for one user, domain,
and path.
filename: file containing cookies -- usually found in a file like
C:\WINNT\Profiles\joe\Cookies\joe@blah[1].txt
"""
now = int(time.time())
cookie_data = self._load_cookies_from_file(filename)
for cookie in cookie_data:
flags = cookie["FLAGS"]
secure = ((flags & 0x2000) != 0)
filetime = (cookie["HIXP"] << 32) + cookie["LOXP"]
expires = epoch_time_offset_from_win32_filetime(filetime)
if expires < now:
discard = True
else:
discard = False
domain = cookie["DOMAIN"]
initial_dot = domain.startswith(".")
if initial_dot:
domain_specified = True
else:
# MSIE 5 does not record whether the domain cookie-attribute
# was specified.
# Assuming it wasn't is conservative, because with strict
# domain matching this will match less frequently; with regular
# Netscape tail-matching, this will match at exactly the same
# times that domain_specified = True would. It also means we
# don't have to prepend a dot to achieve consistency with our
# own & Mozilla's domain-munging scheme.
domain_specified = False
# assume path_specified is false
# XXX is there other stuff in here? -- e.g. comment, commentURL?
c = Cookie(0,
cookie["KEY"], cookie["VALUE"],
None, False,
domain, domain_specified, initial_dot,
cookie["PATH"], False,
secure,
expires,
discard,
None,
None,
{"flags": flags})
if not ignore_discard and c.discard:
continue
if not ignore_expires and c.is_expired(now):
continue
CookieJar.set_cookie(self, c)
def load_from_registry(self, ignore_discard=False, ignore_expires=False,
username=None):
"""
username: only required on win9x
"""
cookies_dir = regload(self.reg_path, self.reg_key)
filename = os.path.normpath(os.path.join(cookies_dir, "INDEX.DAT"))
self.load(filename, ignore_discard, ignore_expires, username)
def _really_load(self, index, filename, ignore_discard, ignore_expires,
username):
now = int(time.time())
if username is None:
username = os.environ['USERNAME'].lower()
cookie_dir = os.path.dirname(filename)
data = index.read(256)
if len(data) != 256:
raise LoadError("%s file is too short" % filename)
# Cookies' index.dat file starts with 32 bytes of signature
# followed by an offset to the first record, stored as a little-
# endian DWORD.
sig, size, data = data[:32], data[32:36], data[36:]
size = struct.unpack("<L", size)[0]
# check that sig is valid
if not self.magic_re.match(sig) or size != 0x4000:
raise LoadError("%s ['%s' %s] does not seem to contain cookies" %
(str(filename), sig, size))
# skip to start of first record
index.seek(size, 0)
sector = 128 # size of sector in bytes
while 1:
data = ""
# Cookies are usually in two contiguous sectors, so read in two
# sectors and adjust if not a Cookie.
to_read = 2 * sector
d = index.read(to_read)
if len(d) != to_read:
break
data = data + d
# Each record starts with a 4-byte signature and a count
# (little-endian DWORD) of sectors for the record.
sig, size, data = data[:4], data[4:8], data[8:]
size = struct.unpack("<L", size)[0]
to_read = (size - 2) * sector
## from urllib import quote
## print "data", quote(data)
## print "sig", quote(sig)
## print "size in sectors", size
## print "size in bytes", size*sector
## print "size in units of 16 bytes", (size*sector) / 16
## print "size to read in bytes", to_read
## print
if sig != "URL ":
assert sig in ("HASH", "LEAK", \
self.padding, "\x00\x00\x00\x00"), \
"unrecognized MSIE index.dat record: %s" % \
binary_to_str(sig)
if sig == "\x00\x00\x00\x00":
# assume we've got all the cookies, and stop
break
if sig == self.padding:
continue
# skip the rest of this record
assert to_read >= 0
if size != 2:
assert to_read != 0
index.seek(to_read, 1)
continue
# read in rest of record if necessary
if size > 2:
more_data = index.read(to_read)
if len(more_data) != to_read: break
data = data + more_data
cookie_re = ("Cookie\:%s\@([\x21-\xFF]+).*?" % username +
"(%s\@[\x21-\xFF]+\.txt)" % username)
m = re.search(cookie_re, data, re.I)
if m:
cookie_file = os.path.join(cookie_dir, m.group(2))
if not self.delayload:
try:
self.load_cookie_data(cookie_file,
ignore_discard, ignore_expires)
except (LoadError, IOError):
debug("error reading cookie file, skipping: %s",
cookie_file)
else:
domain = m.group(1)
i = domain.find("/")
if i != -1:
domain = domain[:i]
self._delayload_domains[domain] = (
cookie_file, ignore_discard, ignore_expires)
class MSIECookieJar(MSIEBase, FileCookieJar):
"""FileCookieJar that reads from the Windows MSIE cookies database.
MSIECookieJar can read the cookie files of Microsoft Internet Explorer
(MSIE) for Windows version 5 on Windows NT and version 6 on Windows XP and
Windows 98. Other configurations may also work, but are untested. Saving
cookies in MSIE format is NOT supported. If you save cookies, they'll be
in the usual Set-Cookie3 format, which you can read back in using an
instance of the plain old CookieJar class. Don't save using the same
filename that you loaded cookies from, because you may succeed in
clobbering your MSIE cookies index file!
You should be able to have LWP share Internet Explorer's cookies like
this (note you need to supply a username to load_from_registry if you're on
Windows 9x or Windows ME):
cj = MSIECookieJar(delayload=1)
# find cookies index file in registry and load cookies from it
cj.load_from_registry()
opener = mechanize.build_opener(mechanize.HTTPCookieProcessor(cj))
response = opener.open("http://example.com/")
Iterating over a delayloaded MSIECookieJar instance will not cause any
cookies to be read from disk. To force reading of all cookies from disk,
call read_all_cookies. Note that the following methods iterate over self:
clear_temporary_cookies, clear_expired_cookies, __len__, __repr__, __str__
and as_string.
Additional methods:
load_from_registry(ignore_discard=False, ignore_expires=False,
username=None)
load_cookie_data(filename, ignore_discard=False, ignore_expires=False)
read_all_cookies()
"""
def __init__(self, filename=None, delayload=False, policy=None):
MSIEBase.__init__(self)
FileCookieJar.__init__(self, filename, delayload, policy)
def set_cookie(self, cookie):
if self.delayload:
self._delayload_domain(cookie.domain)
CookieJar.set_cookie(self, cookie)
def _cookies_for_request(self, request):
"""Return a list of cookies to be returned to server."""
domains = self._cookies.copy()
domains.update(self._delayload_domains)
domains = domains.keys()
cookies = []
for domain in domains:
cookies.extend(self._cookies_for_domain(domain, request))
return cookies
def _cookies_for_domain(self, domain, request):
if not self._policy.domain_return_ok(domain, request):
return []
debug("Checking %s for cookies to return", domain)
if self.delayload:
self._delayload_domain(domain)
return CookieJar._cookies_for_domain(self, domain, request)
def read_all_cookies(self):
"""Eagerly read in all cookies."""
if self.delayload:
for domain in self._delayload_domains.keys():
self._delayload_domain(domain)
def load(self, filename, ignore_discard=False, ignore_expires=False,
username=None):
"""Load cookies from an MSIE 'index.dat' cookies index file.
filename: full path to cookie index file
username: only required on win9x
"""
if filename is None:
if self.filename is not None: filename = self.filename
else: raise ValueError(MISSING_FILENAME_TEXT)
index = open(filename, "rb")
try:
self._really_load(index, filename, ignore_discard, ignore_expires,
username)
finally:
index.close()
| gpl-2.0 |
xzYue/odoo | addons/base_report_designer/plugin/openerp_report_designer/bin/script/lib/__init__.py | 392 | 1180 | # -*- encoding: utf-8 -*-
##############################################################################
#
# OpenERP, Open Source Management Solution
# Copyright (C) 2004-2009 Tiny SPRL (<http://tiny.be>). All Rights Reserved
# $Id$
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero 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 Affero General Public License for more details.
#
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
##############################################################################
import actions
import error
import functions
import gui
import logreport
import rpc
import tiny_socket
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
| agpl-3.0 |
sdague/home-assistant | homeassistant/components/harmony/remote.py | 7 | 17450 | """Support for Harmony Hub devices."""
import asyncio
import json
import logging
from aioharmony.const import ClientCallbackType
import aioharmony.exceptions as aioexc
from aioharmony.harmonyapi import HarmonyAPI as HarmonyClient, SendCommandDevice
import voluptuous as vol
from homeassistant.components import remote
from homeassistant.components.remote import (
ATTR_ACTIVITY,
ATTR_DELAY_SECS,
ATTR_DEVICE,
ATTR_HOLD_SECS,
ATTR_NUM_REPEATS,
DEFAULT_DELAY_SECS,
PLATFORM_SCHEMA,
)
from homeassistant.config_entries import SOURCE_IMPORT, ConfigEntry
from homeassistant.const import ATTR_ENTITY_ID, CONF_HOST, CONF_NAME
from homeassistant.core import HomeAssistant
from homeassistant.exceptions import PlatformNotReady
from homeassistant.helpers import entity_platform
import homeassistant.helpers.config_validation as cv
from homeassistant.helpers.dispatcher import async_dispatcher_connect
from homeassistant.helpers.restore_state import RestoreEntity
from .const import (
ACTIVITY_POWER_OFF,
ATTR_ACTIVITY_LIST,
ATTR_ACTIVITY_STARTING,
ATTR_CURRENT_ACTIVITY,
ATTR_DEVICES_LIST,
ATTR_LAST_ACTIVITY,
DOMAIN,
HARMONY_OPTIONS_UPDATE,
PREVIOUS_ACTIVE_ACTIVITY,
SERVICE_CHANGE_CHANNEL,
SERVICE_SYNC,
UNIQUE_ID,
)
from .util import (
find_best_name_for_remote,
find_matching_config_entries_for_host,
find_unique_id_for_remote,
get_harmony_client_if_available,
list_names_from_hublist,
)
_LOGGER = logging.getLogger(__name__)
# We want to fire remote commands right away
PARALLEL_UPDATES = 0
ATTR_CHANNEL = "channel"
PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend(
{
vol.Optional(ATTR_ACTIVITY): cv.string,
vol.Required(CONF_NAME): cv.string,
vol.Optional(ATTR_DELAY_SECS, default=DEFAULT_DELAY_SECS): vol.Coerce(float),
vol.Required(CONF_HOST): cv.string,
# The client ignores port so lets not confuse the user by pretenting we do anything with this
},
extra=vol.ALLOW_EXTRA,
)
HARMONY_SYNC_SCHEMA = vol.Schema({vol.Optional(ATTR_ENTITY_ID): cv.entity_ids})
HARMONY_CHANGE_CHANNEL_SCHEMA = vol.Schema(
{
vol.Required(ATTR_ENTITY_ID): cv.entity_ids,
vol.Required(ATTR_CHANNEL): cv.positive_int,
}
)
async def async_setup_platform(hass, config, async_add_entities, discovery_info=None):
"""Set up the Harmony platform."""
if discovery_info:
# Now handled by ssdp in the config flow
return
if find_matching_config_entries_for_host(hass, config[CONF_HOST]):
return
# We do the validation to verify we can connect
# so we can raise PlatformNotReady to force
# a retry so we can avoid a scenario where the config
# entry cannot be created via import because hub
# is not yet ready.
harmony = await get_harmony_client_if_available(config[CONF_HOST])
if not harmony:
raise PlatformNotReady
validated_config = config.copy()
validated_config[UNIQUE_ID] = find_unique_id_for_remote(harmony)
validated_config[CONF_NAME] = find_best_name_for_remote(config, harmony)
hass.async_create_task(
hass.config_entries.flow.async_init(
DOMAIN, context={"source": SOURCE_IMPORT}, data=validated_config
)
)
async def async_setup_entry(
hass: HomeAssistant, entry: ConfigEntry, async_add_entities
):
"""Set up the Harmony config entry."""
device = hass.data[DOMAIN][entry.entry_id]
_LOGGER.debug("Harmony Remote: %s", device)
async_add_entities([device])
platform = entity_platform.current_platform.get()
platform.async_register_entity_service(
SERVICE_SYNC,
HARMONY_SYNC_SCHEMA,
"sync",
)
platform.async_register_entity_service(
SERVICE_CHANGE_CHANNEL, HARMONY_CHANGE_CHANNEL_SCHEMA, "change_channel"
)
class HarmonyRemote(remote.RemoteEntity, RestoreEntity):
"""Remote representation used to control a Harmony device."""
def __init__(self, name, unique_id, host, activity, out_path, delay_secs):
"""Initialize HarmonyRemote class."""
self._name = name
self.host = host
self._state = None
self._current_activity = ACTIVITY_POWER_OFF
self.default_activity = activity
self._activity_starting = None
self._is_initial_update = True
self._client = HarmonyClient(ip_address=host)
self._config_path = out_path
self.delay_secs = delay_secs
self._available = False
self._unique_id = unique_id
self._last_activity = None
@property
def activity_names(self):
"""Names of all the remotes activities."""
activities = [activity["label"] for activity in self._client.config["activity"]]
# Remove both ways of representing PowerOff
if None in activities:
activities.remove(None)
if ACTIVITY_POWER_OFF in activities:
activities.remove(ACTIVITY_POWER_OFF)
return activities
async def _async_update_options(self, data):
"""Change options when the options flow does."""
if ATTR_DELAY_SECS in data:
self.delay_secs = data[ATTR_DELAY_SECS]
if ATTR_ACTIVITY in data:
self.default_activity = data[ATTR_ACTIVITY]
def _update_callbacks(self):
callbacks = {
"config_updated": self.new_config,
"connect": self.got_connected,
"disconnect": self.got_disconnected,
"new_activity_starting": self.new_activity,
"new_activity": self._new_activity_finished,
}
self._client.callbacks = ClientCallbackType(**callbacks)
def _new_activity_finished(self, activity_info: tuple) -> None:
"""Call for finished updated current activity."""
self._activity_starting = None
self.async_write_ha_state()
async def async_added_to_hass(self):
"""Complete the initialization."""
await super().async_added_to_hass()
_LOGGER.debug("%s: Harmony Hub added", self._name)
# Register the callbacks
self._update_callbacks()
self.async_on_remove(
async_dispatcher_connect(
self.hass,
f"{HARMONY_OPTIONS_UPDATE}-{self.unique_id}",
self._async_update_options,
)
)
# Store Harmony HUB config, this will also update our current
# activity
await self.new_config()
# Restore the last activity so we know
# how what to turn on if nothing
# is specified
last_state = await self.async_get_last_state()
if not last_state:
return
if ATTR_LAST_ACTIVITY not in last_state.attributes:
return
if self.is_on:
return
self._last_activity = last_state.attributes[ATTR_LAST_ACTIVITY]
async def shutdown(self):
"""Close connection on shutdown."""
_LOGGER.debug("%s: Closing Harmony Hub", self._name)
try:
await self._client.close()
except aioexc.TimeOut:
_LOGGER.warning("%s: Disconnect timed-out", self._name)
@property
def device_info(self):
"""Return device info."""
model = "Harmony Hub"
if "ethernetStatus" in self._client.hub_config.info:
model = "Harmony Hub Pro 2400"
return {
"identifiers": {(DOMAIN, self.unique_id)},
"manufacturer": "Logitech",
"sw_version": self._client.hub_config.info.get(
"hubSwVersion", self._client.fw_version
),
"name": self.name,
"model": model,
}
@property
def unique_id(self):
"""Return the unique id."""
return self._unique_id
@property
def name(self):
"""Return the Harmony device's name."""
return self._name
@property
def should_poll(self):
"""Return the fact that we should not be polled."""
return False
@property
def device_state_attributes(self):
"""Add platform specific attributes."""
return {
ATTR_ACTIVITY_STARTING: self._activity_starting,
ATTR_CURRENT_ACTIVITY: self._current_activity,
ATTR_ACTIVITY_LIST: list_names_from_hublist(
self._client.hub_config.activities
),
ATTR_DEVICES_LIST: list_names_from_hublist(self._client.hub_config.devices),
ATTR_LAST_ACTIVITY: self._last_activity,
}
@property
def is_on(self):
"""Return False if PowerOff is the current activity, otherwise True."""
return self._current_activity not in [None, "PowerOff"]
@property
def available(self):
"""Return True if connected to Hub, otherwise False."""
return self._available
async def connect(self):
"""Connect to the Harmony HUB."""
_LOGGER.debug("%s: Connecting", self._name)
try:
if not await self._client.connect():
_LOGGER.warning("%s: Unable to connect to HUB", self._name)
await self._client.close()
return False
except aioexc.TimeOut:
_LOGGER.warning("%s: Connection timed-out", self._name)
return False
return True
def new_activity(self, activity_info: tuple) -> None:
"""Call for updating the current activity."""
activity_id, activity_name = activity_info
_LOGGER.debug("%s: activity reported as: %s", self._name, activity_name)
self._current_activity = activity_name
if self._is_initial_update:
self._is_initial_update = False
else:
self._activity_starting = activity_name
if activity_id != -1:
# Save the activity so we can restore
# to that activity if none is specified
# when turning on
self._last_activity = activity_name
self._state = bool(activity_id != -1)
self._available = True
self.async_write_ha_state()
async def new_config(self, _=None):
"""Call for updating the current activity."""
_LOGGER.debug("%s: configuration has been updated", self._name)
self.new_activity(self._client.current_activity)
await self.hass.async_add_executor_job(self.write_config_file)
async def got_connected(self, _=None):
"""Notification that we're connected to the HUB."""
_LOGGER.debug("%s: connected to the HUB", self._name)
if not self._available:
# We were disconnected before.
await self.new_config()
async def got_disconnected(self, _=None):
"""Notification that we're disconnected from the HUB."""
_LOGGER.debug("%s: disconnected from the HUB", self._name)
self._available = False
# We're going to wait for 10 seconds before announcing we're
# unavailable, this to allow a reconnection to happen.
await asyncio.sleep(10)
if not self._available:
# Still disconnected. Let the state engine know.
self.async_write_ha_state()
async def async_turn_on(self, **kwargs):
"""Start an activity from the Harmony device."""
_LOGGER.debug("%s: Turn On", self.name)
activity = kwargs.get(ATTR_ACTIVITY, self.default_activity)
if not activity or activity == PREVIOUS_ACTIVE_ACTIVITY:
if self._last_activity:
activity = self._last_activity
else:
all_activities = list_names_from_hublist(
self._client.hub_config.activities
)
if all_activities:
activity = all_activities[0]
if activity:
activity_id = None
activity_name = None
if activity.isdigit() or activity == "-1":
_LOGGER.debug("%s: Activity is numeric", self.name)
activity_name = self._client.get_activity_name(int(activity))
if activity_name:
activity_id = activity
if activity_id is None:
_LOGGER.debug("%s: Find activity ID based on name", self.name)
activity_name = str(activity)
activity_id = self._client.get_activity_id(activity_name)
if activity_id is None:
_LOGGER.error("%s: Activity %s is invalid", self.name, activity)
return
if self._current_activity == activity_name:
# Automations or HomeKit may turn the device on multiple times
# when the current activity is already active which will cause
# harmony to loose state. This behavior is unexpected as turning
# the device on when its already on isn't expected to reset state.
_LOGGER.debug(
"%s: Current activity is already %s", self.name, activity_name
)
return
try:
await self._client.start_activity(activity_id)
except aioexc.TimeOut:
_LOGGER.error("%s: Starting activity %s timed-out", self.name, activity)
else:
_LOGGER.error("%s: No activity specified with turn_on service", self.name)
async def async_turn_off(self, **kwargs):
"""Start the PowerOff activity."""
_LOGGER.debug("%s: Turn Off", self.name)
try:
await self._client.power_off()
except aioexc.TimeOut:
_LOGGER.error("%s: Powering off timed-out", self.name)
async def async_send_command(self, command, **kwargs):
"""Send a list of commands to one device."""
_LOGGER.debug("%s: Send Command", self.name)
device = kwargs.get(ATTR_DEVICE)
if device is None:
_LOGGER.error("%s: Missing required argument: device", self.name)
return
device_id = None
if device.isdigit():
_LOGGER.debug("%s: Device %s is numeric", self.name, device)
if self._client.get_device_name(int(device)):
device_id = device
if device_id is None:
_LOGGER.debug(
"%s: Find device ID %s based on device name", self.name, device
)
device_id = self._client.get_device_id(str(device).strip())
if device_id is None:
_LOGGER.error("%s: Device %s is invalid", self.name, device)
return
num_repeats = kwargs[ATTR_NUM_REPEATS]
delay_secs = kwargs.get(ATTR_DELAY_SECS, self.delay_secs)
hold_secs = kwargs[ATTR_HOLD_SECS]
_LOGGER.debug(
"Sending commands to device %s holding for %s seconds "
"with a delay of %s seconds",
device,
hold_secs,
delay_secs,
)
# Creating list of commands to send.
snd_cmnd_list = []
for _ in range(num_repeats):
for single_command in command:
send_command = SendCommandDevice(
device=device_id, command=single_command, delay=hold_secs
)
snd_cmnd_list.append(send_command)
if delay_secs > 0:
snd_cmnd_list.append(float(delay_secs))
_LOGGER.debug("%s: Sending commands", self.name)
try:
result_list = await self._client.send_commands(snd_cmnd_list)
except aioexc.TimeOut:
_LOGGER.error("%s: Sending commands timed-out", self.name)
return
for result in result_list:
_LOGGER.error(
"Sending command %s to device %s failed with code %s: %s",
result.command.command,
result.command.device,
result.code,
result.msg,
)
async def change_channel(self, channel):
"""Change the channel using Harmony remote."""
_LOGGER.debug("%s: Changing channel to %s", self.name, channel)
try:
await self._client.change_channel(channel)
except aioexc.TimeOut:
_LOGGER.error("%s: Changing channel to %s timed-out", self.name, channel)
async def sync(self):
"""Sync the Harmony device with the web service."""
_LOGGER.debug("%s: Syncing hub with Harmony cloud", self.name)
try:
await self._client.sync()
except aioexc.TimeOut:
_LOGGER.error("%s: Syncing hub with Harmony cloud timed-out", self.name)
else:
await self.hass.async_add_executor_job(self.write_config_file)
def write_config_file(self):
"""Write Harmony configuration file."""
_LOGGER.debug(
"%s: Writing hub configuration to file: %s", self.name, self._config_path
)
if self._client.config is None:
_LOGGER.warning("%s: No configuration received from hub", self.name)
return
try:
with open(self._config_path, "w+", encoding="utf-8") as file_out:
json.dump(self._client.json_config, file_out, sort_keys=True, indent=4)
except OSError as exc:
_LOGGER.error(
"%s: Unable to write HUB configuration to %s: %s",
self.name,
self._config_path,
exc,
)
| apache-2.0 |
daenamkim/ansible | test/units/plugins/callback/test_callback.py | 5 | 11106 | # (c) 2012-2014, Chris Meyers <chris.meyers.fsu@gmail.com>
#
# This file is part of Ansible
#
# Ansible 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.
#
# Ansible 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 Ansible. If not, see <http://www.gnu.org/licenses/>.
# Make coding more python3-ish
from __future__ import (absolute_import, division, print_function)
__metaclass__ = type
import re
import textwrap
import types
from ansible.compat.tests import unittest
from ansible.compat.tests.mock import patch, mock_open, MagicMock
from ansible.plugins.callback import CallbackBase
class TestCallback(unittest.TestCase):
# FIXME: This doesn't really test anything...
def test_init(self):
CallbackBase()
def test_display(self):
display_mock = MagicMock()
display_mock.verbosity = 0
cb = CallbackBase(display=display_mock)
self.assertIs(cb._display, display_mock)
def test_display_verbose(self):
display_mock = MagicMock()
display_mock.verbosity = 5
cb = CallbackBase(display=display_mock)
self.assertIs(cb._display, display_mock)
# TODO: import callback module so we can patch callback.cli/callback.C
class TestCallbackResults(unittest.TestCase):
def test_get_item(self):
cb = CallbackBase()
results = {'item': 'some_item'}
res = cb._get_item(results)
self.assertEquals(res, 'some_item')
def test_get_item_no_log(self):
cb = CallbackBase()
results = {'item': 'some_item', '_ansible_no_log': True}
res = cb._get_item(results)
self.assertEquals(res, "(censored due to no_log)")
results = {'item': 'some_item', '_ansible_no_log': False}
res = cb._get_item(results)
self.assertEquals(res, "some_item")
def test_clean_results(self):
cb = CallbackBase()
result = {'item': 'some_item',
'invocation': 'foo --bar whatever [some_json]',
'changed': True}
self.assertTrue('changed' in result)
self.assertTrue('invocation' in result)
cb._clean_results(result, 'debug')
class TestCallbackDumpResults(unittest.TestCase):
def test_internal_keys(self):
cb = CallbackBase()
result = {'item': 'some_item',
'_ansible_some_var': 'SENTINEL',
'testing_ansible_out': 'should_be_left_in LEFTIN',
'invocation': 'foo --bar whatever [some_json]',
'some_dict_key': {'a_sub_dict_for_key': 'baz'},
'bad_dict_key': {'_ansible_internal_blah': 'SENTINEL'},
'changed': True}
json_out = cb._dump_results(result)
self.assertFalse('"_ansible_' in json_out)
self.assertFalse('SENTINEL' in json_out)
self.assertTrue('LEFTIN' in json_out)
def test_exception(self):
cb = CallbackBase()
result = {'item': 'some_item LEFTIN',
'exception': ['frame1', 'SENTINEL']}
json_out = cb._dump_results(result)
self.assertFalse('SENTINEL' in json_out)
self.assertFalse('exception' in json_out)
self.assertTrue('LEFTIN' in json_out)
def test_verbose(self):
cb = CallbackBase()
result = {'item': 'some_item LEFTIN',
'_ansible_verbose_always': 'chicane'}
json_out = cb._dump_results(result)
self.assertFalse('SENTINEL' in json_out)
self.assertTrue('LEFTIN' in json_out)
def test_diff(self):
cb = CallbackBase()
result = {'item': 'some_item LEFTIN',
'diff': ['remove stuff', 'added LEFTIN'],
'_ansible_verbose_always': 'chicane'}
json_out = cb._dump_results(result)
self.assertFalse('SENTINEL' in json_out)
self.assertTrue('LEFTIN' in json_out)
# TODO: triggr the 'except UnicodeError' around _get_diff
# that try except orig appeared in 61d01f549f2143fd9adfa4ffae42f09d24649c26
# in 2013 so maybe a < py2.6 issue
class TestCallbackDiff(unittest.TestCase):
def setUp(self):
self.cb = CallbackBase()
def _strip_color(self, s):
return re.sub('\033\\[[^m]*m', '', s)
def test_difflist(self):
# TODO: split into smaller tests?
difflist = [{'before': ['preface\nThe Before String\npostscript'],
'after': ['preface\nThe After String\npostscript'],
'before_header': 'just before',
'after_header': 'just after'
},
{'before': ['preface\nThe Before String\npostscript'],
'after': ['preface\nThe After String\npostscript'],
},
{'src_binary': 'chicane'},
{'dst_binary': 'chicanery'},
{'dst_larger': 1},
{'src_larger': 2},
{'prepared': 'what does prepared do?'},
{'before_header': 'just before'},
{'after_header': 'just after'}]
res = self.cb._get_diff(difflist)
self.assertIn('Before String', res)
self.assertIn('After String', res)
self.assertIn('just before', res)
self.assertIn('just after', res)
def test_simple_diff(self):
self.assertMultiLineEqual(
self._strip_color(self.cb._get_diff({
'before_header': 'somefile.txt',
'after_header': 'generated from template somefile.j2',
'before': 'one\ntwo\nthree\n',
'after': 'one\nthree\nfour\n',
})),
textwrap.dedent('''\
--- before: somefile.txt
+++ after: generated from template somefile.j2
@@ -1,3 +1,3 @@
one
-two
three
+four
'''))
def test_new_file(self):
self.assertMultiLineEqual(
self._strip_color(self.cb._get_diff({
'before_header': 'somefile.txt',
'after_header': 'generated from template somefile.j2',
'before': '',
'after': 'one\ntwo\nthree\n',
})),
textwrap.dedent('''\
--- before: somefile.txt
+++ after: generated from template somefile.j2
@@ -0,0 +1,3 @@
+one
+two
+three
'''))
def test_clear_file(self):
self.assertMultiLineEqual(
self._strip_color(self.cb._get_diff({
'before_header': 'somefile.txt',
'after_header': 'generated from template somefile.j2',
'before': 'one\ntwo\nthree\n',
'after': '',
})),
textwrap.dedent('''\
--- before: somefile.txt
+++ after: generated from template somefile.j2
@@ -1,3 +0,0 @@
-one
-two
-three
'''))
def test_no_trailing_newline_before(self):
self.assertMultiLineEqual(
self._strip_color(self.cb._get_diff({
'before_header': 'somefile.txt',
'after_header': 'generated from template somefile.j2',
'before': 'one\ntwo\nthree',
'after': 'one\ntwo\nthree\n',
})),
textwrap.dedent('''\
--- before: somefile.txt
+++ after: generated from template somefile.j2
@@ -1,3 +1,3 @@
one
two
-three
\\ No newline at end of file
+three
'''))
def test_no_trailing_newline_after(self):
self.assertMultiLineEqual(
self._strip_color(self.cb._get_diff({
'before_header': 'somefile.txt',
'after_header': 'generated from template somefile.j2',
'before': 'one\ntwo\nthree\n',
'after': 'one\ntwo\nthree',
})),
textwrap.dedent('''\
--- before: somefile.txt
+++ after: generated from template somefile.j2
@@ -1,3 +1,3 @@
one
two
-three
+three
\\ No newline at end of file
'''))
def test_no_trailing_newline_both(self):
self.assertMultiLineEqual(
self.cb._get_diff({
'before_header': 'somefile.txt',
'after_header': 'generated from template somefile.j2',
'before': 'one\ntwo\nthree',
'after': 'one\ntwo\nthree',
}),
'')
def test_no_trailing_newline_both_with_some_changes(self):
self.assertMultiLineEqual(
self._strip_color(self.cb._get_diff({
'before_header': 'somefile.txt',
'after_header': 'generated from template somefile.j2',
'before': 'one\ntwo\nthree',
'after': 'one\nfive\nthree',
})),
textwrap.dedent('''\
--- before: somefile.txt
+++ after: generated from template somefile.j2
@@ -1,3 +1,3 @@
one
-two
+five
three
\\ No newline at end of file
'''))
def test_diff_dicts(self):
self.assertMultiLineEqual(
self._strip_color(self.cb._get_diff({
'before': dict(one=1, two=2, three=3),
'after': dict(one=1, three=3, four=4),
})),
textwrap.dedent('''\
--- before
+++ after
@@ -1,5 +1,5 @@
{
+ "four": 4,
"one": 1,
- "three": 3,
- "two": 2
+ "three": 3
}
'''))
class TestCallbackOnMethods(unittest.TestCase):
def _find_on_methods(self, callback):
cb_dir = dir(callback)
method_names = [x for x in cb_dir if '_on_' in x]
methods = [getattr(callback, mn) for mn in method_names]
return methods
def test_are_methods(self):
cb = CallbackBase()
for method in self._find_on_methods(cb):
self.assertIsInstance(method, types.MethodType)
def test_on_any(self):
cb = CallbackBase()
cb.v2_on_any('whatever', some_keyword='blippy')
cb.on_any('whatever', some_keyword='blippy')
| gpl-3.0 |
dsfsdgsbngfggb/odoo | addons/payment_authorize/models/authorize.py | 201 | 6963 | # -*- coding: utf-'8' "-*-"
import hashlib
import hmac
import logging
import time
import urlparse
from openerp import api, fields, models
from openerp.addons.payment.models.payment_acquirer import ValidationError
from openerp.addons.payment_authorize.controllers.main import AuthorizeController
from openerp.tools.float_utils import float_compare
_logger = logging.getLogger(__name__)
class PaymentAcquirerAuthorize(models.Model):
_inherit = 'payment.acquirer'
def _get_authorize_urls(self, environment):
""" Authorize URLs """
if environment == 'prod':
return {'authorize_form_url': 'https://secure.authorize.net/gateway/transact.dll'}
else:
return {'authorize_form_url': 'https://test.authorize.net/gateway/transact.dll'}
@api.model
def _get_providers(self):
providers = super(PaymentAcquirerAuthorize, self)._get_providers()
providers.append(['authorize', 'Authorize.Net'])
return providers
authorize_login = fields.Char(string='API Login Id', required_if_provider='authorize')
authorize_transaction_key = fields.Char(string='API Transaction Key', required_if_provider='authorize')
def _authorize_generate_hashing(self, values):
data = '^'.join([
values['x_login'],
values['x_fp_sequence'],
values['x_fp_timestamp'],
values['x_amount'],
values['x_currency_code']])
return hmac.new(str(values['x_trans_key']), data, hashlib.md5).hexdigest()
@api.multi
def authorize_form_generate_values(self, partner_values, tx_values):
self.ensure_one()
base_url = self.env['ir.config_parameter'].get_param('web.base.url')
authorize_tx_values = dict(tx_values)
temp_authorize_tx_values = {
'x_login': self.authorize_login,
'x_trans_key': self.authorize_transaction_key,
'x_amount': str(tx_values['amount']),
'x_show_form': 'PAYMENT_FORM',
'x_type': 'AUTH_CAPTURE',
'x_method': 'CC',
'x_fp_sequence': '%s%s' % (self.id, int(time.time())),
'x_version': '3.1',
'x_relay_response': 'TRUE',
'x_fp_timestamp': str(int(time.time())),
'x_relay_url': '%s' % urlparse.urljoin(base_url, AuthorizeController._return_url),
'x_cancel_url': '%s' % urlparse.urljoin(base_url, AuthorizeController._cancel_url),
'x_currency_code': tx_values['currency'] and tx_values['currency'].name or '',
'address': partner_values['address'],
'city': partner_values['city'],
'country': partner_values['country'] and partner_values['country'].name or '',
'email': partner_values['email'],
'zip': partner_values['zip'],
'first_name': partner_values['first_name'],
'last_name': partner_values['last_name'],
'phone': partner_values['phone'],
'state': partner_values.get('state') and partner_values['state'].name or '',
}
temp_authorize_tx_values['returndata'] = authorize_tx_values.pop('return_url', '')
temp_authorize_tx_values['x_fp_hash'] = self._authorize_generate_hashing(temp_authorize_tx_values)
authorize_tx_values.update(temp_authorize_tx_values)
return partner_values, authorize_tx_values
@api.multi
def authorize_get_form_action_url(self):
self.ensure_one()
return self._get_authorize_urls(self.environment)['authorize_form_url']
class TxAuthorize(models.Model):
_inherit = 'payment.transaction'
authorize_txnid = fields.Char(string='Transaction ID')
_authorize_valid_tx_status = 1
_authorize_pending_tx_status = 4
_authorize_cancel_tx_status = 2
# --------------------------------------------------
# FORM RELATED METHODS
# --------------------------------------------------
@api.model
def _authorize_form_get_tx_from_data(self, data):
""" Given a data dict coming from authorize, verify it and find the related
transaction record. """
reference, trans_id, fingerprint = data.get('x_invoice_num'), data.get('x_trans_id'), data.get('x_MD5_Hash')
if not reference or not trans_id or not fingerprint:
error_msg = 'Authorize: received data with missing reference (%s) or trans_id (%s) or fingerprint (%s)' % (reference, trans_id, fingerprint)
_logger.error(error_msg)
raise ValidationError(error_msg)
tx = self.search([('reference', '=', reference)])
if not tx or len(tx) > 1:
error_msg = 'Authorize: received data for reference %s' % (reference)
if not tx:
error_msg += '; no order found'
else:
error_msg += '; multiple order found'
_logger.error(error_msg)
raise ValidationError(error_msg)
return tx[0]
@api.model
def _authorize_form_get_invalid_parameters(self, tx, data):
invalid_parameters = []
if tx.authorize_txnid and data.get('x_trans_id') != tx.authorize_txnid:
invalid_parameters.append(('Transaction Id', data.get('x_trans_id'), tx.authorize_txnid))
# check what is buyed
if float_compare(float(data.get('x_amount', '0.0')), tx.amount, 2) != 0:
invalid_parameters.append(('Amount', data.get('x_amount'), '%.2f' % tx.amount))
return invalid_parameters
@api.model
def _authorize_form_validate(self, tx, data):
if tx.state == 'done':
_logger.warning('Authorize: trying to validate an already validated tx (ref %s)' % tx.reference)
return True
status_code = int(data.get('x_response_code', '0'))
if status_code == self._authorize_valid_tx_status:
tx.write({
'state': 'done',
'authorize_txnid': data.get('x_trans_id'),
'acquirer_reference': data['x_invoice_num'],
})
return True
elif status_code == self._authorize_pending_tx_status:
tx.write({
'state': 'pending',
'authorize_txnid': data.get('x_trans_id'),
'acquirer_reference': data['x_invoice_num'],
})
return True
elif status_code == self._authorize_cancel_tx_status:
tx.write({
'state': 'cancel',
'authorize_txnid': data.get('x_trans_id'),
'acquirer_reference': data['x_invoice_num'],
})
return True
else:
error = data.get('x_response_reason_text')
_logger.info(error)
tx.write({
'state': 'error',
'state_message': error,
'authorize_txnid': data.get('x_trans_id'),
'acquirer_reference': data['x_invoice_num'],
})
return False
| agpl-3.0 |
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