repo_name stringlengths 6 100 | path stringlengths 4 294 | copies stringlengths 1 5 | size stringlengths 4 6 | content stringlengths 606 896k | license stringclasses 15
values |
|---|---|---|---|---|---|
acid1789/bitcoin | contrib/seeds/generate-seeds.py | 115 | 4377 | #!/usr/bin/python
# Copyright (c) 2014 Wladmir J. van der Laan
# Distributed under the MIT software license, see the accompanying
# file COPYING or http://www.opensource.org/licenses/mit-license.php.
'''
Script to generate list of seed nodes for chainparams.cpp.
This script expects two text files in the directory that is passed as an
argument:
nodes_main.txt
nodes_test.txt
These files must consist of lines in the format
<ip>
<ip>:<port>
[<ipv6>]
[<ipv6>]:<port>
<onion>.onion
0xDDBBCCAA (IPv4 little-endian old pnSeeds format)
The output will be two data structures with the peers in binary format:
static SeedSpec6 pnSeed6_main[]={
...
}
static SeedSpec6 pnSeed6_test[]={
...
}
These should be pasted into `src/chainparamsseeds.h`.
'''
from __future__ import print_function, division
from base64 import b32decode
from binascii import a2b_hex
import sys, os
import re
# ipv4 in ipv6 prefix
pchIPv4 = bytearray([0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0xff, 0xff])
# tor-specific ipv6 prefix
pchOnionCat = bytearray([0xFD,0x87,0xD8,0x7E,0xEB,0x43])
def name_to_ipv6(addr):
if len(addr)>6 and addr.endswith('.onion'):
vchAddr = b32decode(addr[0:-6], True)
if len(vchAddr) != 16-len(pchOnionCat):
raise ValueError('Invalid onion %s' % s)
return pchOnionCat + vchAddr
elif '.' in addr: # IPv4
return pchIPv4 + bytearray((int(x) for x in addr.split('.')))
elif ':' in addr: # IPv6
sub = [[], []] # prefix, suffix
x = 0
addr = addr.split(':')
for i,comp in enumerate(addr):
if comp == '':
if i == 0 or i == (len(addr)-1): # skip empty component at beginning or end
continue
x += 1 # :: skips to suffix
assert(x < 2)
else: # two bytes per component
val = int(comp, 16)
sub[x].append(val >> 8)
sub[x].append(val & 0xff)
nullbytes = 16 - len(sub[0]) - len(sub[1])
assert((x == 0 and nullbytes == 0) or (x == 1 and nullbytes > 0))
return bytearray(sub[0] + ([0] * nullbytes) + sub[1])
elif addr.startswith('0x'): # IPv4-in-little-endian
return pchIPv4 + bytearray(reversed(a2b_hex(addr[2:])))
else:
raise ValueError('Could not parse address %s' % addr)
def parse_spec(s, defaultport):
match = re.match('\[([0-9a-fA-F:]+)\](?::([0-9]+))?$', s)
if match: # ipv6
host = match.group(1)
port = match.group(2)
elif s.count(':') > 1: # ipv6, no port
host = s
port = ''
else:
(host,_,port) = s.partition(':')
if not port:
port = defaultport
else:
port = int(port)
host = name_to_ipv6(host)
return (host,port)
def process_nodes(g, f, structname, defaultport):
g.write('static SeedSpec6 %s[] = {\n' % structname)
first = True
for line in f:
comment = line.find('#')
if comment != -1:
line = line[0:comment]
line = line.strip()
if not line:
continue
if not first:
g.write(',\n')
first = False
(host,port) = parse_spec(line, defaultport)
hoststr = ','.join(('0x%02x' % b) for b in host)
g.write(' {{%s}, %i}' % (hoststr, port))
g.write('\n};\n')
def main():
if len(sys.argv)<2:
print(('Usage: %s <path_to_nodes_txt>' % sys.argv[0]), file=sys.stderr)
exit(1)
g = sys.stdout
indir = sys.argv[1]
g.write('#ifndef BITCOIN_CHAINPARAMSSEEDS_H\n')
g.write('#define BITCOIN_CHAINPARAMSSEEDS_H\n')
g.write('/**\n')
g.write(' * List of fixed seed nodes for the bitcoin network\n')
g.write(' * AUTOGENERATED by contrib/seeds/generate-seeds.py\n')
g.write(' *\n')
g.write(' * Each line contains a 16-byte IPv6 address and a port.\n')
g.write(' * IPv4 as well as onion addresses are wrapped inside a IPv6 address accordingly.\n')
g.write(' */\n')
with open(os.path.join(indir,'nodes_main.txt'),'r') as f:
process_nodes(g, f, 'pnSeed6_main', 8333)
g.write('\n')
with open(os.path.join(indir,'nodes_test.txt'),'r') as f:
process_nodes(g, f, 'pnSeed6_test', 18333)
g.write('#endif // BITCOIN_CHAINPARAMSSEEDS_H\n')
if __name__ == '__main__':
main()
| mit |
karvenka/sp17-i524 | project/S17-IR-P014/code/delay.py | 15 | 5276 | import sys
import csv
import sip
#import org.apache.log4j.{Level, Logger}
import matplotlib
#matplotlib.user('agg')
import matplotlib.pyplot as plt
plt.switch_backend('agg')
from matplotlib import rcParams
rcParams.update({'figure.autolayout': True})
from pyspark import SparkContext, SparkConf
from datetime import datetime
from operator import add, itemgetter
from collections import namedtuple
from datetime import datetime
import os
import time
from StringIO import StringIO
#Defining the fields, Creating a Flights class with the following fields as a tuple
#Each row is converted into a list
timestarted = time.time()
fields = ('date', 'airline', 'flightnum', 'origin', 'dest', 'dep',
'dep_delay', 'arv', 'arv_delay', 'airtime', 'distance')
Flight = namedtuple('Flight', fields, verbose=True)
DATE_FMT = "%Y-%m-%d"
TIME_FMT = "%H%M"
# User Defined Functions
def toCSVLine(data):
return ','.join(str(d) for d in data)
def split(line):
reader = csv.reader(StringIO(line))
return reader.next()
def parse(row):
row[0] = datetime.strptime(row[0], DATE_FMT).time()
row[5] = datetime.strptime(row[5], TIME_FMT).time()
row[6] = float(row[6])
row[7] = datetime.strptime(row[7], TIME_FMT).time()
row[8] = float(row[8])
row[9] = float(row[9])
row[10] = float(row[10])
return Flight(*row[:11])
def notHeader(row):
return "Description" not in row
def plot(airlinesdelays):
airlines = [d[0] for d in airlinesdelays]
minutes = [d[1] for d in airlinesdelays]
index = list(xrange(len(airlines)))
#Above we retrieved the respective columns from the list
#Here we mention the plot as a horizontal bar plot
fig, axe = plt.subplots()
bars = axe.barh(index, minutes)
# Add the total minutes to the right
for idx, air, min in zip(index, airlines, minutes):
if min > 0:
bars[idx].set_color('#d9230f')
axe.annotate(" %0.0f min" % min, xy=(min+1, idx+0.5), va='center')
else:
bars[idx].set_color('#469408')
axe.annotate(" %0.0f min" % min, xy=(10, idx+0.5), va='center')
# Set the ticks
ticks = plt.yticks([idx+ 0.5 for idx in index], airlines)
xt = plt.xticks()[0]
plt.xticks(xt, [' '] * len(xt))
# minimize chart junk
plt.grid(axis = 'x', color ='white', linestyle='-')
plt.title('Total Minutes Delayed per Airline')
plt.savefig('airlines.png')
#airlines.filter(notHeader).take(10)
#main method is the entry point for the following program
if __name__ == "__main__":
conf = SparkConf().setAppName("average")
sc = SparkContext(conf=conf)
#setting log level to error
# val rootLogger = Logger.getRootLogger()
# rootLogger.setLevel(Level.ERROR)
#importing data from HDFS for performing analysis
airlines = sc.textFile(sys.argv[1])
# airlines = sc.textFile("hdfs://192.168.1.8:8020/fltdata/airlines.csv")
flights = sc.textFile(sys.argv[2])
airports =sc.textFile(sys.argv[3])
airlinesParsed = dict(airlines.map(split).collect())
airportsParsed= airports.filter(notHeader).map(split)
# print "without header and spliting up", airlines.take(10)
# print "without header and spliting up", airlines.take(10)
flightsParsed= flights.map(lambda x: x.split(',')).map(parse)
#print "The average delay is "+str(sumCount[0]/float(sumCount[1]))
airportDelays = flightsParsed.map(lambda x: (x.origin,x.dep_delay))
# First find the total delay per airport
airportTotalDelay=airportDelays.reduceByKey(lambda x,y:x+y)
# Find the count per airport
airportCount=airportDelays.mapValues(lambda x:1).reduceByKey(lambda x,y:x+y)
# Join to have the sum, count in 1 RDD
airportSumCount=airportTotalDelay.join(airportCount)
# Compute avg delay per airport
airportAvgDelay=airportSumCount.mapValues(lambda x : x[0]/float(x[1]))
airportDelay = airportAvgDelay.sortBy(lambda x:-x[1])
print "", airportDelay.take(10)
airportLookup=airportsParsed.collectAsMap()
#airlineLookup=airlinesParsed.collectAsMap()
airline_lookup = sc.broadcast(airlinesParsed)
airlinesdelays = flightsParsed.map(lambda f: (airline_lookup.value[f.airline],add(f.dep_delay, f.arv_delay)))
airlinesdelays = delays.reduceByKey(add).collect()
airlinesdelays = sorted(delays, key=itemgetter(1))
#tenairlines = delays.map(toCSVLine)
ten = airportAvgDelay.map(lambda x: (airportLookup[x[0]],x[1]))
#print "", ten.take(10)
for d in airlinesdelays:
print "%0.0f minutes delayed\t%s" % (d[1], d[0])
airportBC=sc.broadcast(airportLookup)
topTenAirportsWithDelays = airportAvgDelay.map(lambda x: (airportBC.value[x[0]],x[1])).sortBy(lambda x:-x[1])
lines = topTenAirportsWithDelays.take(10)
topten = "/home/hadoop/"
tenairlines = "/home/hadoop/"
#For collecting the outputs into csv files
with open('topten', "w") as output:
writer = csv.writer(output, lineterminator='\n')
for val in lines:
writer.writerows([val])
with open('tenairlines',"w") as output:
writer = csv.writer(output, lineterminator='\n')
for val in delays:
writer.writerows([val])
plot(airlinesdelays)
#Final time taken will be calculated here
timetaken = time.time()-timestarted
print "", timetaken
| apache-2.0 |
Mozilla-TWQA/mozMinions | tests/test_kevin.py | 1 | 1799 | #!/usr/bin/python
__author__ = 'shako'
from moz_minions.kevin import MtbfToRaptorMinion
from b2g_util.util.adb_helper import AdbWrapper
testdata = {'name': "mtbf",
'path': "/home/shako/PycharmProjects/mozMinions/conf/test.json",
'output': {'dirpath': 'output',
'file': "unittest"},
'serial': "",
'job_info': {
'jobname': 'flamekk.vmaster.moztwlab01.512',
'seriesname': 'mtbf',
'pid': 18845,
'program': "chrome",
'host_name': "mtbf-10",
'port_no': 8086,
'user_name': "xxxxxx",
'pwd': "xxxxxx",
'database_name': "raptor"
}}
# FIXME: with following workaround we still need at least one device connected
devices = AdbWrapper.adb_devices().keys()
testdata['serial'] = devices[0]
mini = MtbfToRaptorMinion(**testdata)
def test_generate_raptor_mtbf_data():
data = mini.output_data['mtbf']['data'] = mini.generate_raptor_mtbf_data()
assert(data['mtbf'][0]['deviceId'] == testdata['serial'])
def test_generate_raptor_event_data():
mini.output_data['events']['data'] = mini.generate_raptor_event_data(
mini.output_data['mtbf']['data'])
data = mini.output_data['events']['data']
assert(data['events'][0]['device']
== testdata['job_info']['jobname'].split(".")[0])
def test_upload_raptor_data():
mini.upload_raptor_data(mini.output_data,
mini.conf['host_name'],
mini.conf['port_no'],
mini.conf['user_name'],
mini.conf['pwd'],
mini.conf['database_name'])
def test_flow():
mini._work()
| mpl-2.0 |
DepthDeluxe/ansible | lib/ansible/modules/network/net_user.py | 20 | 4964 | #!/usr/bin/python
# -*- coding: utf-8 -*-
# (c) 2017, Ansible by Red Hat, inc
#
# This file is part of Ansible by Red Hat
#
# 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_METADATA = {'metadata_version': '1.0',
'status': ['preview'],
'supported_by': 'core'}
DOCUMENTATION = """
---
module: net_user
version_added: "2.4"
author: "Trishna Guha (@trishnag)"
short_description: Manage the collection of local users on network device
description:
- This module provides declarative management of the local usernames
configured on network devices. It allows playbooks to manage
either individual usernames or the collection of usernames in the
current running config. It also supports purging usernames from the
configuration that are not explicitly defined.
options:
collection:
description:
- The set of username objects to be configured on the remote
network device. The list entries can either be the username
or a hash of username and properties. This argument is mutually
exclusive with the C(name) argument.
name:
description:
- The username to be configured on the remote network device.
This argument accepts a string value and is mutually exclusive
with the C(collection) argument.
Please note that this option is not same as C(provider username).
password:
description:
- The password to be configured on the remote network device. The
password needs to be provided in clear and it will be encrypted
on the device.
Please note that this option is not same as C(provider password).
update_password:
description:
- Since passwords are encrypted in the device running config, this
argument will instruct the module when to change the password. When
set to C(always), the password will always be updated in the device
and when set to C(on_create) the password will be updated only if
the username is created.
default: always
choices: ['on_create', 'always']
privilege:
description:
- The C(privilege) argument configures the privilege level of the
user when logged into the system. This argument accepts integer
values in the range of 1 to 15.
role:
description:
- Configures the role for the username in the
device running configuration. The argument accepts a string value
defining the role name. This argument does not check if the role
has been configured on the device.
sshkey:
description:
- Specifies the SSH public key to configure
for the given username. This argument accepts a valid SSH key value.
nopassword:
description:
- Defines the username without assigning
a password. This will allow the user to login to the system
without being authenticated by a password.
type: bool
purge:
description:
- Instructs the module to consider the
resource definition absolute. It will remove any previously
configured usernames on the device with the exception of the
`admin` user (the current defined set of users).
type: bool
default: false
state:
description:
- Configures the state of the username definition
as it relates to the device operational configuration. When set
to I(present), the username(s) should be configured in the device active
configuration and when set to I(absent) the username(s) should not be
in the device active configuration
default: present
choices: ['present', 'absent']
"""
EXAMPLES = """
- name: create a new user
net_user:
name: ansible
sshkey: "{{ lookup('file', '~/.ssh/id_rsa.pub') }}"
state: present
- name: remove all users except admin
net_user:
purge: yes
- name: set multiple users to privilege level 15
net_user:
collection:
- name: netop
- name: netend
privilege: 15
state: present
- name: Change Password for User netop
net_user:
name: netop
password: "{{ new_password }}"
update_password: always
state: present
"""
RETURN = """
commands:
description: The list of configuration mode commands to send to the device
returned: always
type: list
sample:
- username ansible secret password
- username admin secret admin
"""
| gpl-3.0 |
a270443177/cos-python3-sdk-v4 | qcloud_cos/cos_common.py | 2 | 7092 | # -*- coding: utf-8 -*-
from __future__ import print_function
import struct
import io
try:
range = xrange
except NameError:
pass
def _left_rotate(n, b):
"""Left rotate a 32-bit integer n by b bits."""
return ((n << b) | (n >> (32 - b))) & 0xffffffff
def _process_chunk(chunk, h0, h1, h2, h3, h4):
"""Process a chunk of data and return the new digest variables."""
assert len(chunk) == 64
w = [0] * 80
# Break chunk into sixteen 4-byte big-endian words w[i]
for i in range(16):
w[i] = struct.unpack(b'>I', chunk[i * 4:i * 4 + 4])[0]
# Extend the sixteen 4-byte words into eighty 4-byte words
for i in range(16, 80):
w[i] = _left_rotate(w[i - 3] ^ w[i - 8] ^ w[i - 14] ^ w[i - 16], 1)
# Initialize hash value for this chunk
a = h0
b = h1
c = h2
d = h3
e = h4
for i in range(80):
if 0 <= i <= 19:
# Use alternative 1 for f from FIPS PB 180-1 to avoid bitwise not
f = d ^ (b & (c ^ d))
k = 0x5A827999
elif 20 <= i <= 39:
f = b ^ c ^ d
k = 0x6ED9EBA1
elif 40 <= i <= 59:
f = (b & c) | (b & d) | (c & d)
k = 0x8F1BBCDC
elif 60 <= i <= 79:
f = b ^ c ^ d
k = 0xCA62C1D6
a, b, c, d, e = ((_left_rotate(a, 5) + f + e + k + w[i]) & 0xffffffff,
a, _left_rotate(b, 30), c, d)
# Add this chunk's hash to result so far
h0 = (h0 + a) & 0xffffffff
h1 = (h1 + b) & 0xffffffff
h2 = (h2 + c) & 0xffffffff
h3 = (h3 + d) & 0xffffffff
h4 = (h4 + e) & 0xffffffff
return h0, h1, h2, h3, h4
class Sha1Hash(object):
"""A class that mimics that hashlib api and implements the SHA-1 algorithm."""
name = 'python-sha1'
digest_size = 20
block_size = 64
def __init__(self):
# Initial digest variables
self._h = (
0x67452301,
0xEFCDAB89,
0x98BADCFE,
0x10325476,
0xC3D2E1F0,
)
# bytes object with 0 <= len < 64 used to store the end of the message
# if the message length is not congruent to 64
self._unprocessed = b''
# Length in bytes of all data that has been processed so far
self._message_byte_length = 0
def update(self, arg):
"""Update the current digest.
This may be called repeatedly, even after calling digest or hexdigest.
Arguments:
arg: bytes, bytearray, or BytesIO object to read from.
"""
if isinstance(arg, (bytes, bytearray)):
arg = io.BytesIO(arg)
# Try to build a chunk out of the unprocessed data, if any
chunk = self._unprocessed + arg.read(64 - len(self._unprocessed))
# Read the rest of the data, 64 bytes at a time
while len(chunk) == 64:
self._h = _process_chunk(chunk, *self._h)
self._message_byte_length += 64
chunk = arg.read(64)
self._unprocessed = chunk
return self
def digest(self):
"""Produce the final hash value (big-endian) as a bytes object"""
return b''.join(struct.pack(b'>I', h) for h in self._produce_digest())
def hexdigest(self):
"""Produce the final hash value (big-endian) as a hex string"""
return '%08x%08x%08x%08x%08x' % self._produce_digest()
def inner_digest(self):
tmp = struct.unpack(">5I", struct.pack("<5I", *self._h))
return '%08x%08x%08x%08x%08x' % tmp
def _produce_digest(self):
"""Return finalized digest variables for the data processed so far."""
# Pre-processing:
message = self._unprocessed
message_byte_length = self._message_byte_length + len(message)
# append the bit '1' to the message
message += b'\x80'
# append 0 <= k < 512 bits '0', so that the resulting message length (in bytes)
# is congruent to 56 (mod 64)
message += b'\x00' * ((56 - (message_byte_length + 1) % 64) % 64)
# append length of message (before pre-processing), in bits, as 64-bit big-endian integer
message_bit_length = message_byte_length * 8
message += struct.pack(b'>Q', message_bit_length)
# Process the final chunk
# At this point, the length of the message is either 64 or 128 bytes.
h = _process_chunk(message[:64], *self._h)
if len(message) == 64:
return h
return _process_chunk(message[64:], *h)
def sha1(data):
"""SHA-1 Hashing Function
A custom SHA-1 hashing function implemented entirely in Python.
Arguments:
data: A bytes or BytesIO object containing the input message to hash.
Returns:
A hex SHA-1 digest of the input message.
"""
return Sha1Hash().update(data).hexdigest()
class Sha1Util(object):
@staticmethod
def get_sha1_by_slice(file_name, slice_size):
""" Get SHA array based on Qcloud Slice Upload Interface
:param file_name: local file path
:param slice_size: slice size in bit
:return: sha array like [{“offset”:0, “datalen”:1024,”datasha”:”aaa”}, {}, {}]
"""
from os import path
with open(file_name, 'rb') as f:
result = []
file_size = path.getsize(file_name)
sha1_obj = Sha1Hash()
for current_offset in range(0, file_size, slice_size):
data_length = min(slice_size, file_size - current_offset)
sha1_obj.update(f.read(data_length))
sha1_val = sha1_obj.inner_digest()
result.append({"offset": current_offset, "datalen": data_length, "datasha": sha1_val})
result[-1]['datasha'] = sha1_obj.hexdigest()
return result
if __name__ == '__main__':
# Imports required for command line parsing. No need for these elsewhere
import argparse
import sys
import os
# Parse the incoming arguments
parser = argparse.ArgumentParser()
parser.add_argument('input', nargs='?',
help='input file or message to hash')
args = parser.parse_args()
data = None
if args.input is None:
# No argument given, assume message comes from standard input
try:
# sys.stdin is opened in text mode, which can change line endings,
# leading to incorrect results. Detach fixes this issue, but it's
# new in Python 3.1
data = sys.stdin.detach()
except AttributeError:
# Linux ans OSX both use \n line endings, so only windows is a
# problem.
if sys.platform == "win32":
import msvcrt
msvcrt.setmode(sys.stdin.fileno(), os.O_BINARY)
data = sys.stdin
elif os.path.isfile(args.input):
# An argument is given and it's a valid file. Read it
data = open(args.input, 'rb')
else:
data = args.input
# Show the final digest
print('sha1-digest:', sha1(data))
| apache-2.0 |
dfroger/alot | alot/foreign/urwidtrees/example3.collapse.py | 3 | 1764 | #!/usr/bin/python
# Copyright (C) 2013 Patrick Totzke <patricktotzke@gmail.com>
# This file is released under the GNU GPL, version 3 or a later revision.
from example1 import construct_example_tree, palette # example data
from decoration import CollapsibleIndentedTree # for Decoration
from widgets import TreeBox
import urwid
if __name__ == "__main__":
# get some SimpleTree
stree = construct_example_tree()
# Use (subclasses of) the wrapper decoration.CollapsibleTree to construct a
# tree where collapsible subtrees. Apart from the original tree, these take
# a callable `is_collapsed` that defines initial collapsed-status if a
# given position.
# We want all grandchildren collapsed initially
if_grandchild = lambda pos: stree.depth(pos) > 1
# We use CollapsibleIndentedTree around the original example tree.
# This uses Indentation to indicate the tree structure and squeezes in
# text-icons to indicate the collapsed status.
# Also try CollapsibleTree or CollapsibleArrowTree..
tree = CollapsibleIndentedTree(stree,
is_collapsed=if_grandchild,
icon_focussed_att='focus',
# indent=6,
# childbar_offset=1,
# icon_frame_left_char=None,
# icon_frame_right_char=None,
# icon_expanded_char='-',
# icon_collapsed_char='+',
)
# put the tree into a treebox
treebox = TreeBox(tree)
rootwidget = urwid.AttrMap(treebox, 'body')
urwid.MainLoop(rootwidget, palette).run() # go
| gpl-3.0 |
mariopro/youtube-dl | test/helper.py | 29 | 8457 | from __future__ import unicode_literals
import errno
import io
import hashlib
import json
import os.path
import re
import types
import sys
import youtube_dl.extractor
from youtube_dl import YoutubeDL
from youtube_dl.utils import (
compat_str,
preferredencoding,
write_string,
)
def get_params(override=None):
PARAMETERS_FILE = os.path.join(os.path.dirname(os.path.abspath(__file__)),
"parameters.json")
with io.open(PARAMETERS_FILE, encoding='utf-8') as pf:
parameters = json.load(pf)
if override:
parameters.update(override)
return parameters
def try_rm(filename):
""" Remove a file if it exists """
try:
os.remove(filename)
except OSError as ose:
if ose.errno != errno.ENOENT:
raise
def report_warning(message):
'''
Print the message to stderr, it will be prefixed with 'WARNING:'
If stderr is a tty file the 'WARNING:' will be colored
'''
if sys.stderr.isatty() and os.name != 'nt':
_msg_header = '\033[0;33mWARNING:\033[0m'
else:
_msg_header = 'WARNING:'
output = '%s %s\n' % (_msg_header, message)
if 'b' in getattr(sys.stderr, 'mode', '') or sys.version_info[0] < 3:
output = output.encode(preferredencoding())
sys.stderr.write(output)
class FakeYDL(YoutubeDL):
def __init__(self, override=None):
# Different instances of the downloader can't share the same dictionary
# some test set the "sublang" parameter, which would break the md5 checks.
params = get_params(override=override)
super(FakeYDL, self).__init__(params, auto_init=False)
self.result = []
def to_screen(self, s, skip_eol=None):
print(s)
def trouble(self, s, tb=None):
raise Exception(s)
def download(self, x):
self.result.append(x)
def expect_warning(self, regex):
# Silence an expected warning matching a regex
old_report_warning = self.report_warning
def report_warning(self, message):
if re.match(regex, message):
return
old_report_warning(message)
self.report_warning = types.MethodType(report_warning, self)
def gettestcases(include_onlymatching=False):
for ie in youtube_dl.extractor.gen_extractors():
for tc in ie.get_testcases(include_onlymatching):
yield tc
md5 = lambda s: hashlib.md5(s.encode('utf-8')).hexdigest()
def expect_info_dict(self, got_dict, expected_dict):
for info_field, expected in expected_dict.items():
if isinstance(expected, compat_str) and expected.startswith('re:'):
got = got_dict.get(info_field)
match_str = expected[len('re:'):]
match_rex = re.compile(match_str)
self.assertTrue(
isinstance(got, compat_str),
'Expected a %s object, but got %s for field %s' % (
compat_str.__name__, type(got).__name__, info_field))
self.assertTrue(
match_rex.match(got),
'field %s (value: %r) should match %r' % (info_field, got, match_str))
elif isinstance(expected, compat_str) and expected.startswith('startswith:'):
got = got_dict.get(info_field)
start_str = expected[len('startswith:'):]
self.assertTrue(
isinstance(got, compat_str),
'Expected a %s object, but got %s for field %s' % (
compat_str.__name__, type(got).__name__, info_field))
self.assertTrue(
got.startswith(start_str),
'field %s (value: %r) should start with %r' % (info_field, got, start_str))
elif isinstance(expected, compat_str) and expected.startswith('contains:'):
got = got_dict.get(info_field)
contains_str = expected[len('contains:'):]
self.assertTrue(
isinstance(got, compat_str),
'Expected a %s object, but got %s for field %s' % (
compat_str.__name__, type(got).__name__, info_field))
self.assertTrue(
contains_str in got,
'field %s (value: %r) should contain %r' % (info_field, got, contains_str))
elif isinstance(expected, type):
got = got_dict.get(info_field)
self.assertTrue(isinstance(got, expected),
'Expected type %r for field %s, but got value %r of type %r' % (expected, info_field, got, type(got)))
else:
if isinstance(expected, compat_str) and expected.startswith('md5:'):
got = 'md5:' + md5(got_dict.get(info_field))
elif isinstance(expected, compat_str) and expected.startswith('mincount:'):
got = got_dict.get(info_field)
self.assertTrue(
isinstance(got, list),
'Expected field %s to be a list, but it is of type %s' % (
info_field, type(got).__name__))
expected_num = int(expected.partition(':')[2])
assertGreaterEqual(
self, len(got), expected_num,
'Expected %d items in field %s, but only got %d' % (
expected_num, info_field, len(got)
)
)
continue
else:
got = got_dict.get(info_field)
self.assertEqual(expected, got,
'invalid value for field %s, expected %r, got %r' % (info_field, expected, got))
# Check for the presence of mandatory fields
if got_dict.get('_type') not in ('playlist', 'multi_video'):
for key in ('id', 'url', 'title', 'ext'):
self.assertTrue(got_dict.get(key), 'Missing mandatory field %s' % key)
# Check for mandatory fields that are automatically set by YoutubeDL
for key in ['webpage_url', 'extractor', 'extractor_key']:
self.assertTrue(got_dict.get(key), 'Missing field: %s' % key)
# Are checkable fields missing from the test case definition?
test_info_dict = dict((key, value if not isinstance(value, compat_str) or len(value) < 250 else 'md5:' + md5(value))
for key, value in got_dict.items()
if value and key in ('id', 'title', 'description', 'uploader', 'upload_date', 'timestamp', 'uploader_id', 'location'))
missing_keys = set(test_info_dict.keys()) - set(expected_dict.keys())
if missing_keys:
def _repr(v):
if isinstance(v, compat_str):
return "'%s'" % v.replace('\\', '\\\\').replace("'", "\\'").replace('\n', '\\n')
else:
return repr(v)
info_dict_str = ''
if len(missing_keys) != len(expected_dict):
info_dict_str += ''.join(
' %s: %s,\n' % (_repr(k), _repr(v))
for k, v in test_info_dict.items() if k not in missing_keys)
if info_dict_str:
info_dict_str += '\n'
info_dict_str += ''.join(
' %s: %s,\n' % (_repr(k), _repr(test_info_dict[k]))
for k in missing_keys)
write_string(
'\n\'info_dict\': {\n' + info_dict_str + '},\n', out=sys.stderr)
self.assertFalse(
missing_keys,
'Missing keys in test definition: %s' % (
', '.join(sorted(missing_keys))))
def assertRegexpMatches(self, text, regexp, msg=None):
if hasattr(self, 'assertRegexp'):
return self.assertRegexp(text, regexp, msg)
else:
m = re.match(regexp, text)
if not m:
note = 'Regexp didn\'t match: %r not found' % (regexp)
if len(text) < 1000:
note += ' in %r' % text
if msg is None:
msg = note
else:
msg = note + ', ' + msg
self.assertTrue(m, msg)
def assertGreaterEqual(self, got, expected, msg=None):
if not (got >= expected):
if msg is None:
msg = '%r not greater than or equal to %r' % (got, expected)
self.assertTrue(got >= expected, msg)
def expect_warnings(ydl, warnings_re):
real_warning = ydl.report_warning
def _report_warning(w):
if not any(re.search(w_re, w) for w_re in warnings_re):
real_warning(w)
ydl.report_warning = _report_warning
| unlicense |
GaretJax/csat | csat/acquisition/migrations/0013_auto__add_field_acquisitionsessionconfig_dark_thumbnail.py | 1 | 3962 | # -*- 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 field 'AcquisitionSessionConfig.dark_thumbnail'
db.add_column(u'acquisition_acquisitionsessionconfig', 'dark_thumbnail',
self.gf('django.db.models.fields.BooleanField')(default=False),
keep_default=False)
def backwards(self, orm):
# Deleting field 'AcquisitionSessionConfig.dark_thumbnail'
db.delete_column(u'acquisition_acquisitionsessionconfig', 'dark_thumbnail')
models = {
u'acquisition.acquisitionsessionconfig': {
'Meta': {'ordering': "['created']", 'object_name': 'AcquisitionSessionConfig'},
'completed': ('django.db.models.fields.DateTimeField', [], {'null': 'True', 'blank': 'True'}),
'created': ('django.db.models.fields.DateTimeField', [], {'auto_now_add': 'True', 'blank': 'True'}),
'dark_thumbnail': ('django.db.models.fields.BooleanField', [], {'default': 'False'}),
'description': ('django.db.models.fields.TextField', [], {'blank': 'True'}),
'graph': ('django.db.models.fields.files.FileField', [], {'max_length': '100', 'null': 'True', 'blank': 'True'}),
u'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '64'}),
'started': ('django.db.models.fields.DateTimeField', [], {'null': 'True', 'blank': 'True'}),
'temporary': ('django.db.models.fields.BooleanField', [], {'default': 'False'}),
'thumbnail': ('django.db.models.fields.files.ImageField', [], {'max_length': '100', 'null': 'True', 'blank': 'True'})
},
u'acquisition.datacollectorconfig': {
'Meta': {'object_name': 'DataCollectorConfig'},
'completed': ('django.db.models.fields.DateTimeField', [], {'null': 'True', 'blank': 'True'}),
'configurator': ('django.db.models.fields.CharField', [], {'max_length': '44'}),
'graph': ('django.db.models.fields.files.FileField', [], {'max_length': '100', 'null': 'True', 'blank': 'True'}),
u'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'output': ('django.db.models.fields.files.FileField', [], {'max_length': '100', 'null': 'True', 'blank': 'True'}),
'polymorphic_ctype': ('django.db.models.fields.related.ForeignKey', [], {'related_name': "u'polymorphic_acquisition.datacollectorconfig_set'", 'null': 'True', 'to': u"orm['contenttypes.ContentType']"}),
'result_id': ('django.db.models.fields.CharField', [], {'max_length': '64', 'null': 'True', 'blank': 'True'}),
'running_instance_id': ('django.db.models.fields.CharField', [], {'max_length': '128', 'null': 'True', 'blank': 'True'}),
'session_config': ('django.db.models.fields.related.ForeignKey', [], {'related_name': "'collectors'", 'to': u"orm['acquisition.AcquisitionSessionConfig']"}),
'started': ('django.db.models.fields.DateTimeField', [], {'null': 'True', 'blank': 'True'}),
'status': ('django.db.models.fields.PositiveSmallIntegerField', [], {'default': '0'})
},
u'contenttypes.contenttype': {
'Meta': {'ordering': "('name',)", 'unique_together': "(('app_label', 'model'),)", 'object_name': 'ContentType', 'db_table': "'django_content_type'"},
'app_label': ('django.db.models.fields.CharField', [], {'max_length': '100'}),
u'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'model': ('django.db.models.fields.CharField', [], {'max_length': '100'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '100'})
}
}
complete_apps = ['acquisition'] | mit |
bassosimone/yaml-cpp | test/gmock-1.7.0/gtest/test/gtest_break_on_failure_unittest.py | 2140 | 7339 | #!/usr/bin/env python
#
# Copyright 2006, 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.
"""Unit test for Google Test's break-on-failure mode.
A user can ask Google Test to seg-fault when an assertion fails, using
either the GTEST_BREAK_ON_FAILURE environment variable or the
--gtest_break_on_failure flag. This script tests such functionality
by invoking gtest_break_on_failure_unittest_ (a program written with
Google Test) with different environments and command line flags.
"""
__author__ = 'wan@google.com (Zhanyong Wan)'
import gtest_test_utils
import os
import sys
# Constants.
IS_WINDOWS = os.name == 'nt'
# The environment variable for enabling/disabling the break-on-failure mode.
BREAK_ON_FAILURE_ENV_VAR = 'GTEST_BREAK_ON_FAILURE'
# The command line flag for enabling/disabling the break-on-failure mode.
BREAK_ON_FAILURE_FLAG = 'gtest_break_on_failure'
# The environment variable for enabling/disabling the throw-on-failure mode.
THROW_ON_FAILURE_ENV_VAR = 'GTEST_THROW_ON_FAILURE'
# The environment variable for enabling/disabling the catch-exceptions mode.
CATCH_EXCEPTIONS_ENV_VAR = 'GTEST_CATCH_EXCEPTIONS'
# Path to the gtest_break_on_failure_unittest_ program.
EXE_PATH = gtest_test_utils.GetTestExecutablePath(
'gtest_break_on_failure_unittest_')
environ = gtest_test_utils.environ
SetEnvVar = gtest_test_utils.SetEnvVar
# Tests in this file run a Google-Test-based test program and expect it
# to terminate prematurely. Therefore they are incompatible with
# the premature-exit-file protocol by design. Unset the
# premature-exit filepath to prevent Google Test from creating
# the file.
SetEnvVar(gtest_test_utils.PREMATURE_EXIT_FILE_ENV_VAR, None)
def Run(command):
"""Runs a command; returns 1 if it was killed by a signal, or 0 otherwise."""
p = gtest_test_utils.Subprocess(command, env=environ)
if p.terminated_by_signal:
return 1
else:
return 0
# The tests.
class GTestBreakOnFailureUnitTest(gtest_test_utils.TestCase):
"""Tests using the GTEST_BREAK_ON_FAILURE environment variable or
the --gtest_break_on_failure flag to turn assertion failures into
segmentation faults.
"""
def RunAndVerify(self, env_var_value, flag_value, expect_seg_fault):
"""Runs gtest_break_on_failure_unittest_ and verifies that it does
(or does not) have a seg-fault.
Args:
env_var_value: value of the GTEST_BREAK_ON_FAILURE environment
variable; None if the variable should be unset.
flag_value: value of the --gtest_break_on_failure flag;
None if the flag should not be present.
expect_seg_fault: 1 if the program is expected to generate a seg-fault;
0 otherwise.
"""
SetEnvVar(BREAK_ON_FAILURE_ENV_VAR, env_var_value)
if env_var_value is None:
env_var_value_msg = ' is not set'
else:
env_var_value_msg = '=' + env_var_value
if flag_value is None:
flag = ''
elif flag_value == '0':
flag = '--%s=0' % BREAK_ON_FAILURE_FLAG
else:
flag = '--%s' % BREAK_ON_FAILURE_FLAG
command = [EXE_PATH]
if flag:
command.append(flag)
if expect_seg_fault:
should_or_not = 'should'
else:
should_or_not = 'should not'
has_seg_fault = Run(command)
SetEnvVar(BREAK_ON_FAILURE_ENV_VAR, None)
msg = ('when %s%s, an assertion failure in "%s" %s cause a seg-fault.' %
(BREAK_ON_FAILURE_ENV_VAR, env_var_value_msg, ' '.join(command),
should_or_not))
self.assert_(has_seg_fault == expect_seg_fault, msg)
def testDefaultBehavior(self):
"""Tests the behavior of the default mode."""
self.RunAndVerify(env_var_value=None,
flag_value=None,
expect_seg_fault=0)
def testEnvVar(self):
"""Tests using the GTEST_BREAK_ON_FAILURE environment variable."""
self.RunAndVerify(env_var_value='0',
flag_value=None,
expect_seg_fault=0)
self.RunAndVerify(env_var_value='1',
flag_value=None,
expect_seg_fault=1)
def testFlag(self):
"""Tests using the --gtest_break_on_failure flag."""
self.RunAndVerify(env_var_value=None,
flag_value='0',
expect_seg_fault=0)
self.RunAndVerify(env_var_value=None,
flag_value='1',
expect_seg_fault=1)
def testFlagOverridesEnvVar(self):
"""Tests that the flag overrides the environment variable."""
self.RunAndVerify(env_var_value='0',
flag_value='0',
expect_seg_fault=0)
self.RunAndVerify(env_var_value='0',
flag_value='1',
expect_seg_fault=1)
self.RunAndVerify(env_var_value='1',
flag_value='0',
expect_seg_fault=0)
self.RunAndVerify(env_var_value='1',
flag_value='1',
expect_seg_fault=1)
def testBreakOnFailureOverridesThrowOnFailure(self):
"""Tests that gtest_break_on_failure overrides gtest_throw_on_failure."""
SetEnvVar(THROW_ON_FAILURE_ENV_VAR, '1')
try:
self.RunAndVerify(env_var_value=None,
flag_value='1',
expect_seg_fault=1)
finally:
SetEnvVar(THROW_ON_FAILURE_ENV_VAR, None)
if IS_WINDOWS:
def testCatchExceptionsDoesNotInterfere(self):
"""Tests that gtest_catch_exceptions doesn't interfere."""
SetEnvVar(CATCH_EXCEPTIONS_ENV_VAR, '1')
try:
self.RunAndVerify(env_var_value='1',
flag_value='1',
expect_seg_fault=1)
finally:
SetEnvVar(CATCH_EXCEPTIONS_ENV_VAR, None)
if __name__ == '__main__':
gtest_test_utils.Main()
| mit |
RueLaLaTech/savory-pie | savory_pie/tests/django/test_integration.py | 2 | 1503 | try:
import ujson as json
except ImportError:
from warnings import warn
warn('Using plain JSON instead of uJSON, performance may be degraded.')
import json
import unittest
from mock import Mock
from savory_pie.resources import APIResource
from savory_pie.django import resources, fields
from savory_pie.tests.django import mock_orm
from savory_pie.tests.django.mock_request import savory_dispatch
class User(mock_orm.Model):
pass
# Need to mock early, QuerySetResource "rightly" assumes it can call all immediately.
User.objects.all = Mock(return_value=mock_orm.QuerySet(
User(pk=1, name='Alice', age=31),
User(pk=2, name='Bob', age=20)
))
class UserResource(resources.ModelResource):
parent_resource_path = 'users'
model_class = User
fields = [
fields.AttributeField(attribute='name', type=str),
fields.AttributeField(attribute='age', type=int)
]
class UserQuerySetResource(resources.QuerySetResource):
resource_class = UserResource
api_resource = APIResource()
api_resource.register_class(UserQuerySetResource)
class IntegrationTest(unittest.TestCase):
def test_get_success(self):
response = savory_dispatch(api_resource, method='GET', resource_path='users/1')
self.assertEqual(response.status_code, 200)
self.assertEqual(
json.loads(response.content),
{u'resourceUri': u'http://localhost/api/users/1',
u'age': 31,
u'name': 'Alice'}
)
| mit |
eviljeff/zamboni | mkt/submit/serializers.py | 13 | 3772 | import json
from django.core.urlresolvers import reverse
from rest_framework import serializers
import mkt
from mkt.access import acl
from mkt.api.fields import ReverseChoiceField
from mkt.files.models import FileUpload
from mkt.webapps.models import Preview, Webapp
class AppStatusSerializer(serializers.ModelSerializer):
status = ReverseChoiceField(choices_dict=mkt.STATUS_CHOICES_API,
required=False)
disabled_by_user = serializers.BooleanField(required=False)
allowed_statuses = {
# You can push to the pending queue.
mkt.STATUS_NULL: [mkt.STATUS_PENDING],
# Approved apps can be public or unlisted.
mkt.STATUS_APPROVED: [mkt.STATUS_PUBLIC, mkt.STATUS_UNLISTED],
# Public apps can choose to become private (APPROVED) or unlisted.
mkt.STATUS_PUBLIC: [mkt.STATUS_APPROVED, mkt.STATUS_UNLISTED],
# Unlisted apps can become private or public.
mkt.STATUS_UNLISTED: [mkt.STATUS_APPROVED, mkt.STATUS_PUBLIC],
}
class Meta:
model = Webapp
fields = ('status', 'disabled_by_user')
def validate_status(self, attrs, source):
if not self.object:
raise serializers.ValidationError(u'Error getting app.')
if source not in attrs:
return attrs
# Admins can change any status, skip validation for them.
# It's dangerous, but with great powers comes great responsability.
if ('request' in self.context and self.context['request'].user and
acl.action_allowed(self.context['request'], 'Admin', '%')):
return attrs
# An incomplete app's status can not be changed.
if not self.object.is_fully_complete():
raise serializers.ValidationError(
self.object.completion_error_msgs())
# Only some specific changes are possible depending on the app current
# status.
if (self.object.status not in self.allowed_statuses or
attrs[source] not in
self.allowed_statuses[self.object.status]):
raise serializers.ValidationError(
'App status can not be changed to the one you specified.')
return attrs
class FileUploadSerializer(serializers.ModelSerializer):
id = serializers.CharField(source='pk', read_only=True)
processed = serializers.BooleanField(read_only=True)
class Meta:
model = FileUpload
fields = ('id', 'processed', 'valid', 'validation')
def transform_validation(self, obj, value):
return json.loads(value) if value else value
class PreviewSerializer(serializers.ModelSerializer):
filetype = serializers.CharField()
id = serializers.IntegerField(source='pk')
image_url = serializers.CharField(read_only=True)
resource_uri = serializers.SerializerMethodField('get_resource_uri')
thumbnail_url = serializers.CharField(read_only=True)
class Meta:
model = Preview
fields = ['filetype', 'image_url', 'id', 'resource_uri',
'thumbnail_url']
def get_resource_uri(self, obj):
if obj:
return reverse('app-preview-detail', kwargs={'pk': obj})
class SimplePreviewSerializer(PreviewSerializer):
class Meta(PreviewSerializer.Meta):
fields = ['filetype', 'id', 'image_url', 'thumbnail_url']
class FeedPreviewESSerializer(PreviewSerializer):
"""
Preview serializer for feed where we want to know the image orientation to
scale feed app tiles appropriately.
"""
id = serializers.IntegerField(source='id')
thumbnail_size = serializers.Field(source='thumbnail_size')
class Meta(PreviewSerializer.Meta):
fields = ['id', 'thumbnail_size', 'thumbnail_url']
| bsd-3-clause |
emonty/ansible-modules-core | cloud/rackspace/rax_meta.py | 51 | 5142 | #!/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
DOCUMENTATION = '''
---
module: rax_meta
short_description: Manipulate metadata for Rackspace Cloud Servers
description:
- Manipulate metadata for Rackspace Cloud Servers
version_added: 1.7
options:
address:
description:
- Server IP address to modify metadata for, will match any IP assigned to
the server
id:
description:
- Server ID to modify metadata for
name:
description:
- Server name to modify metadata for
default: null
meta:
description:
- A hash of metadata to associate with the instance
default: null
author: "Matt Martz (@sivel)"
extends_documentation_fragment: rackspace.openstack
'''
EXAMPLES = '''
- name: Set metadata for a server
hosts: all
gather_facts: False
tasks:
- name: Set metadata
local_action:
module: rax_meta
credentials: ~/.raxpub
name: "{{ inventory_hostname }}"
region: DFW
meta:
group: primary_group
groups:
- group_two
- group_three
app: my_app
- name: Clear metadata
local_action:
module: rax_meta
credentials: ~/.raxpub
name: "{{ inventory_hostname }}"
region: DFW
'''
try:
import pyrax
HAS_PYRAX = True
except ImportError:
HAS_PYRAX = False
def rax_meta(module, address, name, server_id, meta):
changed = False
cs = pyrax.cloudservers
if cs is None:
module.fail_json(msg='Failed to instantiate client. This '
'typically indicates an invalid region or an '
'incorrectly capitalized region name.')
search_opts = {}
if name:
search_opts = dict(name='^%s$' % name)
try:
servers = cs.servers.list(search_opts=search_opts)
except Exception as e:
module.fail_json(msg='%s' % e.message)
elif address:
servers = []
try:
for server in cs.servers.list():
for addresses in server.networks.values():
if address in addresses:
servers.append(server)
break
except Exception as e:
module.fail_json(msg='%s' % e.message)
elif server_id:
servers = []
try:
servers.append(cs.servers.get(server_id))
except Exception as e:
pass
if len(servers) > 1:
module.fail_json(msg='Multiple servers found matching provided '
'search parameters')
elif not servers:
module.fail_json(msg='Failed to find a server matching provided '
'search parameters')
# Normalize and ensure all metadata values are strings
for k, v in meta.items():
if isinstance(v, list):
meta[k] = ','.join(['%s' % i for i in v])
elif isinstance(v, dict):
meta[k] = json.dumps(v)
elif not isinstance(v, basestring):
meta[k] = '%s' % v
server = servers[0]
if server.metadata == meta:
changed = False
else:
changed = True
removed = set(server.metadata.keys()).difference(meta.keys())
cs.servers.delete_meta(server, list(removed))
cs.servers.set_meta(server, meta)
server.get()
module.exit_json(changed=changed, meta=server.metadata)
def main():
argument_spec = rax_argument_spec()
argument_spec.update(
dict(
address=dict(),
id=dict(),
name=dict(),
meta=dict(type='dict', default=dict()),
)
)
module = AnsibleModule(
argument_spec=argument_spec,
required_together=rax_required_together(),
mutually_exclusive=[['address', 'id', 'name']],
required_one_of=[['address', 'id', 'name']],
)
if not HAS_PYRAX:
module.fail_json(msg='pyrax is required for this module')
address = module.params.get('address')
server_id = module.params.get('id')
name = module.params.get('name')
meta = module.params.get('meta')
setup_rax_module(module, pyrax)
rax_meta(module, address, name, server_id, meta)
# import module snippets
from ansible.module_utils.basic import *
from ansible.module_utils.rax import *
### invoke the module
main()
| gpl-3.0 |
uniphil/heroku-buildpack-pythonsass | vendor/setuptools-2.1/setuptools/command/install_egg_info.py | 357 | 3833 | from setuptools import Command
from setuptools.archive_util import unpack_archive
from distutils import log, dir_util
import os, shutil, pkg_resources
class install_egg_info(Command):
"""Install an .egg-info directory for the package"""
description = "Install an .egg-info directory for the package"
user_options = [
('install-dir=', 'd', "directory to install to"),
]
def initialize_options(self):
self.install_dir = None
def finalize_options(self):
self.set_undefined_options('install_lib',('install_dir','install_dir'))
ei_cmd = self.get_finalized_command("egg_info")
basename = pkg_resources.Distribution(
None, None, ei_cmd.egg_name, ei_cmd.egg_version
).egg_name()+'.egg-info'
self.source = ei_cmd.egg_info
self.target = os.path.join(self.install_dir, basename)
self.outputs = [self.target]
def run(self):
self.run_command('egg_info')
target = self.target
if os.path.isdir(self.target) and not os.path.islink(self.target):
dir_util.remove_tree(self.target, dry_run=self.dry_run)
elif os.path.exists(self.target):
self.execute(os.unlink,(self.target,),"Removing "+self.target)
if not self.dry_run:
pkg_resources.ensure_directory(self.target)
self.execute(self.copytree, (),
"Copying %s to %s" % (self.source, self.target)
)
self.install_namespaces()
def get_outputs(self):
return self.outputs
def copytree(self):
# Copy the .egg-info tree to site-packages
def skimmer(src,dst):
# filter out source-control directories; note that 'src' is always
# a '/'-separated path, regardless of platform. 'dst' is a
# platform-specific path.
for skip in '.svn/','CVS/':
if src.startswith(skip) or '/'+skip in src:
return None
self.outputs.append(dst)
log.debug("Copying %s to %s", src, dst)
return dst
unpack_archive(self.source, self.target, skimmer)
def install_namespaces(self):
nsp = self._get_all_ns_packages()
if not nsp: return
filename,ext = os.path.splitext(self.target)
filename += '-nspkg.pth'; self.outputs.append(filename)
log.info("Installing %s",filename)
if not self.dry_run:
f = open(filename,'wt')
for pkg in nsp:
# ensure pkg is not a unicode string under Python 2.7
pkg = str(pkg)
pth = tuple(pkg.split('.'))
trailer = '\n'
if '.' in pkg:
trailer = (
"; m and setattr(sys.modules[%r], %r, m)\n"
% ('.'.join(pth[:-1]), pth[-1])
)
f.write(
"import sys,types,os; "
"p = os.path.join(sys._getframe(1).f_locals['sitedir'], "
"*%(pth)r); "
"ie = os.path.exists(os.path.join(p,'__init__.py')); "
"m = not ie and "
"sys.modules.setdefault(%(pkg)r,types.ModuleType(%(pkg)r)); "
"mp = (m or []) and m.__dict__.setdefault('__path__',[]); "
"(p not in mp) and mp.append(p)%(trailer)s"
% locals()
)
f.close()
def _get_all_ns_packages(self):
nsp = {}
for pkg in self.distribution.namespace_packages or []:
pkg = pkg.split('.')
while pkg:
nsp['.'.join(pkg)] = 1
pkg.pop()
nsp=list(nsp)
nsp.sort() # set up shorter names first
return nsp
| mit |
apagac/cfme_tests | cfme/utils/datafile.py | 5 | 2305 | """datafile functions, to help reliably datafiles from the data directory."""
import os
from string import Template
from tempfile import NamedTemporaryFile
from jinja2 import Environment
from jinja2 import FileSystemLoader
from cfme.utils.path import template_path
def load_data_file(filename, replacements=None):
"""Opens the given filename, returning a file object
Args:
filename: If a base_path string is passed, filename will be loaded from there
replacements: If a replacements mapping is passed, the loaded file is assumed to
be a `template <http://docs.python.org/2/library/string.html#template-strings>`_.
In this case the replacements mapping will be used in that template's subsitute method.
Returns: A file object.
"""
if replacements is None:
return open(filename)
else:
with open(filename) as template_file:
template = Template(template_file.read())
output = template.substitute(replacements)
outfile = NamedTemporaryFile(mode="w+")
outfile.write(output)
outfile.flush()
outfile.seek(0)
return outfile
def data_path_for_filename(filename, base_path, testmod_path=None):
""" Returns the data path for a given file name"""
if testmod_path:
# remove the base path from testmod path
test_path_fragment = testmod_path[len(base_path):]
# remove the .py extension
test_path_fragment = test_path_fragment.rsplit('.py', 1)[0]
# remove the tests dir (really just the first occurance of 'tests')
test_path_fragment = test_path_fragment.replace('tests', '', 1)
# clean up any extraneous slashes or spaces
test_path_fragment = test_path_fragment.strip('/ ').replace('//', '/')
# put it all back together, getting the absolute fs path to filename
# in the data dir related to testmod_path
new_path = os.path.join(base_path, 'data', test_path_fragment, filename)
else:
# No testmod_path? Well that's a lot easier!
# Just join it with the data root, minus its leading slash
new_path = os.path.join(base_path, 'data', filename)
return new_path
template_env = Environment(
loader=FileSystemLoader(template_path.strpath)
)
| gpl-2.0 |
Carnon/nlp | TextClassify/textclassify/textdata.py | 1 | 2565 | import os
import codecs
import re
import jieba
import numpy as np
from tqdm import tqdm
from tensorflow.contrib import learn
from sklearn.preprocessing import OneHotEncoder
from sklearn.preprocessing import LabelEncoder
class TextData(object):
def __init__(self,args):
self.args = args
corpus_dir = self.args.corpus_dir
self.load_data(corpus_dir)
def load_data(self,corpus_dir):
self.text = []
self.label = []
self.label_name = {}
self.max_doc_len = 0
self.label_num = 0
self.vocab_size = 0
raw_text = []
raw_label = []
tag_list = os.listdir(corpus_dir)
for tag in tqdm(tag_list,desc='load_data',leave=False):
data_path = os.path.join(corpus_dir,tag)
for data_file in os.listdir(data_path):
file_name = os.path.join(data_path,data_file)
with codecs.open(file_name,'r',encoding='utf-8') as fr_raw:
raw_content = fr_raw.read()
text_word = [word for word in jieba.cut(raw_content) if re.match(u".*[\u4e00-\u9fa5]+", word)]
if text_word.__len__() < self.args.max_doc_len:
raw_text.append(text_word)
raw_label.append(tag)
labelEncode = LabelEncoder()
num_label = labelEncode.fit_transform(raw_label)
self.label = OneHotEncoder(sparse=False).fit_transform(np.reshape(num_label,[-1,1]))
self.label_num = len(labelEncode.classes_)
#self.max_doc_len = max([len(doc) for doc in raw_text])
self.max_doc_len = self.args.max_doc_len
vocab_processor = learn.preprocessing.VocabularyProcessor(self.max_doc_len,tokenizer_fn=tokenizer_fn)
self.text = np.array(list(vocab_processor.fit_transform(raw_text)))
self.vocab_size = len(vocab_processor.vocabulary_)
def shuffle_data(self):
np.random.seed(3)
shuffled = np.random.permutation(np.arange(len(self.label)))
self.text = self.text[shuffled]
self.label = self.label[shuffled]
def get_batches(self):
self.shuffle_data()
sample_size = len(self.text)
batch_size = self.args.batch_size
for i in range(0,sample_size,batch_size):
yield self.text[i:min(i+batch_size,sample_size)],self.label[i:min(i+batch_size,sample_size)]
#chinese cut word has completed instead of tensorflow cut word that cannt support chinese word
def tokenizer_fn(iterator):
for value in iterator:
yield value
| apache-2.0 |
w1ll1am23/home-assistant | homeassistant/components/screenlogic/switch.py | 3 | 1966 | """Support for a ScreenLogic 'circuit' switch."""
import logging
from screenlogicpy.const import ON_OFF
from homeassistant.components.switch import SwitchEntity
from . import ScreenlogicEntity
from .const import DOMAIN
_LOGGER = logging.getLogger(__name__)
async def async_setup_entry(hass, config_entry, async_add_entities):
"""Set up entry."""
entities = []
data = hass.data[DOMAIN][config_entry.entry_id]
coordinator = data["coordinator"]
for switch in data["devices"]["switch"]:
entities.append(ScreenLogicSwitch(coordinator, switch))
async_add_entities(entities)
class ScreenLogicSwitch(ScreenlogicEntity, SwitchEntity):
"""ScreenLogic switch entity."""
@property
def name(self):
"""Get the name of the switch."""
return f"{self.gateway_name} {self.circuit['name']}"
@property
def is_on(self) -> bool:
"""Get whether the switch is in on state."""
return self.circuit["value"] == 1
async def async_turn_on(self, **kwargs) -> None:
"""Send the ON command."""
return await self._async_set_circuit(ON_OFF.ON)
async def async_turn_off(self, **kwargs) -> None:
"""Send the OFF command."""
return await self._async_set_circuit(ON_OFF.OFF)
async def _async_set_circuit(self, circuit_value) -> None:
async with self.coordinator.api_lock:
success = await self.hass.async_add_executor_job(
self.gateway.set_circuit, self._data_key, circuit_value
)
if success:
_LOGGER.debug("Turn %s %s", self._data_key, circuit_value)
await self.coordinator.async_request_refresh()
else:
_LOGGER.warning(
"Failed to set_circuit %s %s", self._data_key, circuit_value
)
@property
def circuit(self):
"""Shortcut to access the circuit."""
return self.coordinator.data["circuits"][self._data_key]
| apache-2.0 |
s3nk4s/flaskTutorials | FlaskApp/FlaskApp/venv/local/lib/python2.7/site-packages/setuptools/command/build_ext.py | 125 | 11983 | from distutils.command.build_ext import build_ext as _du_build_ext
try:
# Attempt to use Pyrex for building extensions, if available
from Pyrex.Distutils.build_ext import build_ext as _build_ext
except ImportError:
_build_ext = _du_build_ext
import os
import sys
from distutils.file_util import copy_file
from setuptools.extension import Library
from distutils.ccompiler import new_compiler
from distutils.sysconfig import customize_compiler
try:
# Python 2.7 or >=3.2
from sysconfig import _CONFIG_VARS
except ImportError:
from distutils.sysconfig import get_config_var
get_config_var("LDSHARED") # make sure _config_vars is initialized
del get_config_var
from distutils.sysconfig import _config_vars as _CONFIG_VARS
from distutils import log
from distutils.errors import DistutilsError
have_rtld = False
use_stubs = False
libtype = 'shared'
if sys.platform == "darwin":
use_stubs = True
elif os.name != 'nt':
try:
from dl import RTLD_NOW
have_rtld = True
use_stubs = True
except ImportError:
pass
def if_dl(s):
if have_rtld:
return s
return ''
class build_ext(_build_ext):
def run(self):
"""Build extensions in build directory, then copy if --inplace"""
old_inplace, self.inplace = self.inplace, 0
_build_ext.run(self)
self.inplace = old_inplace
if old_inplace:
self.copy_extensions_to_source()
def copy_extensions_to_source(self):
build_py = self.get_finalized_command('build_py')
for ext in self.extensions:
fullname = self.get_ext_fullname(ext.name)
filename = self.get_ext_filename(fullname)
modpath = fullname.split('.')
package = '.'.join(modpath[:-1])
package_dir = build_py.get_package_dir(package)
dest_filename = os.path.join(package_dir,os.path.basename(filename))
src_filename = os.path.join(self.build_lib,filename)
# Always copy, even if source is older than destination, to ensure
# that the right extensions for the current Python/platform are
# used.
copy_file(
src_filename, dest_filename, verbose=self.verbose,
dry_run=self.dry_run
)
if ext._needs_stub:
self.write_stub(package_dir or os.curdir, ext, True)
if _build_ext is not _du_build_ext and not hasattr(_build_ext,'pyrex_sources'):
# Workaround for problems using some Pyrex versions w/SWIG and/or 2.4
def swig_sources(self, sources, *otherargs):
# first do any Pyrex processing
sources = _build_ext.swig_sources(self, sources) or sources
# Then do any actual SWIG stuff on the remainder
return _du_build_ext.swig_sources(self, sources, *otherargs)
def get_ext_filename(self, fullname):
filename = _build_ext.get_ext_filename(self,fullname)
if fullname in self.ext_map:
ext = self.ext_map[fullname]
if isinstance(ext,Library):
fn, ext = os.path.splitext(filename)
return self.shlib_compiler.library_filename(fn,libtype)
elif use_stubs and ext._links_to_dynamic:
d,fn = os.path.split(filename)
return os.path.join(d,'dl-'+fn)
return filename
def initialize_options(self):
_build_ext.initialize_options(self)
self.shlib_compiler = None
self.shlibs = []
self.ext_map = {}
def finalize_options(self):
_build_ext.finalize_options(self)
self.extensions = self.extensions or []
self.check_extensions_list(self.extensions)
self.shlibs = [ext for ext in self.extensions
if isinstance(ext, Library)]
if self.shlibs:
self.setup_shlib_compiler()
for ext in self.extensions:
ext._full_name = self.get_ext_fullname(ext.name)
for ext in self.extensions:
fullname = ext._full_name
self.ext_map[fullname] = ext
# distutils 3.1 will also ask for module names
# XXX what to do with conflicts?
self.ext_map[fullname.split('.')[-1]] = ext
ltd = ext._links_to_dynamic = \
self.shlibs and self.links_to_dynamic(ext) or False
ext._needs_stub = ltd and use_stubs and not isinstance(ext,Library)
filename = ext._file_name = self.get_ext_filename(fullname)
libdir = os.path.dirname(os.path.join(self.build_lib,filename))
if ltd and libdir not in ext.library_dirs:
ext.library_dirs.append(libdir)
if ltd and use_stubs and os.curdir not in ext.runtime_library_dirs:
ext.runtime_library_dirs.append(os.curdir)
def setup_shlib_compiler(self):
compiler = self.shlib_compiler = new_compiler(
compiler=self.compiler, dry_run=self.dry_run, force=self.force
)
if sys.platform == "darwin":
tmp = _CONFIG_VARS.copy()
try:
# XXX Help! I don't have any idea whether these are right...
_CONFIG_VARS['LDSHARED'] = "gcc -Wl,-x -dynamiclib -undefined dynamic_lookup"
_CONFIG_VARS['CCSHARED'] = " -dynamiclib"
_CONFIG_VARS['SO'] = ".dylib"
customize_compiler(compiler)
finally:
_CONFIG_VARS.clear()
_CONFIG_VARS.update(tmp)
else:
customize_compiler(compiler)
if self.include_dirs is not None:
compiler.set_include_dirs(self.include_dirs)
if self.define is not None:
# 'define' option is a list of (name,value) tuples
for (name,value) in self.define:
compiler.define_macro(name, value)
if self.undef is not None:
for macro in self.undef:
compiler.undefine_macro(macro)
if self.libraries is not None:
compiler.set_libraries(self.libraries)
if self.library_dirs is not None:
compiler.set_library_dirs(self.library_dirs)
if self.rpath is not None:
compiler.set_runtime_library_dirs(self.rpath)
if self.link_objects is not None:
compiler.set_link_objects(self.link_objects)
# hack so distutils' build_extension() builds a library instead
compiler.link_shared_object = link_shared_object.__get__(compiler)
def get_export_symbols(self, ext):
if isinstance(ext,Library):
return ext.export_symbols
return _build_ext.get_export_symbols(self,ext)
def build_extension(self, ext):
_compiler = self.compiler
try:
if isinstance(ext,Library):
self.compiler = self.shlib_compiler
_build_ext.build_extension(self,ext)
if ext._needs_stub:
self.write_stub(
self.get_finalized_command('build_py').build_lib, ext
)
finally:
self.compiler = _compiler
def links_to_dynamic(self, ext):
"""Return true if 'ext' links to a dynamic lib in the same package"""
# XXX this should check to ensure the lib is actually being built
# XXX as dynamic, and not just using a locally-found version or a
# XXX static-compiled version
libnames = dict.fromkeys([lib._full_name for lib in self.shlibs])
pkg = '.'.join(ext._full_name.split('.')[:-1]+[''])
for libname in ext.libraries:
if pkg+libname in libnames: return True
return False
def get_outputs(self):
outputs = _build_ext.get_outputs(self)
optimize = self.get_finalized_command('build_py').optimize
for ext in self.extensions:
if ext._needs_stub:
base = os.path.join(self.build_lib, *ext._full_name.split('.'))
outputs.append(base+'.py')
outputs.append(base+'.pyc')
if optimize:
outputs.append(base+'.pyo')
return outputs
def write_stub(self, output_dir, ext, compile=False):
log.info("writing stub loader for %s to %s",ext._full_name, output_dir)
stub_file = os.path.join(output_dir, *ext._full_name.split('.'))+'.py'
if compile and os.path.exists(stub_file):
raise DistutilsError(stub_file+" already exists! Please delete.")
if not self.dry_run:
f = open(stub_file,'w')
f.write(
'\n'.join([
"def __bootstrap__():",
" global __bootstrap__, __file__, __loader__",
" import sys, os, pkg_resources, imp"+if_dl(", dl"),
" __file__ = pkg_resources.resource_filename(__name__,%r)"
% os.path.basename(ext._file_name),
" del __bootstrap__",
" if '__loader__' in globals():",
" del __loader__",
if_dl(" old_flags = sys.getdlopenflags()"),
" old_dir = os.getcwd()",
" try:",
" os.chdir(os.path.dirname(__file__))",
if_dl(" sys.setdlopenflags(dl.RTLD_NOW)"),
" imp.load_dynamic(__name__,__file__)",
" finally:",
if_dl(" sys.setdlopenflags(old_flags)"),
" os.chdir(old_dir)",
"__bootstrap__()",
"" # terminal \n
])
)
f.close()
if compile:
from distutils.util import byte_compile
byte_compile([stub_file], optimize=0,
force=True, dry_run=self.dry_run)
optimize = self.get_finalized_command('install_lib').optimize
if optimize > 0:
byte_compile([stub_file], optimize=optimize,
force=True, dry_run=self.dry_run)
if os.path.exists(stub_file) and not self.dry_run:
os.unlink(stub_file)
if use_stubs or os.name=='nt':
# Build shared libraries
#
def link_shared_object(self, objects, output_libname, output_dir=None,
libraries=None, library_dirs=None, runtime_library_dirs=None,
export_symbols=None, debug=0, extra_preargs=None,
extra_postargs=None, build_temp=None, target_lang=None):
self.link(
self.SHARED_LIBRARY, objects, output_libname,
output_dir, libraries, library_dirs, runtime_library_dirs,
export_symbols, debug, extra_preargs, extra_postargs,
build_temp, target_lang
)
else:
# Build static libraries everywhere else
libtype = 'static'
def link_shared_object(self, objects, output_libname, output_dir=None,
libraries=None, library_dirs=None, runtime_library_dirs=None,
export_symbols=None, debug=0, extra_preargs=None,
extra_postargs=None, build_temp=None, target_lang=None):
# XXX we need to either disallow these attrs on Library instances,
# or warn/abort here if set, or something...
#libraries=None, library_dirs=None, runtime_library_dirs=None,
#export_symbols=None, extra_preargs=None, extra_postargs=None,
#build_temp=None
assert output_dir is None # distutils build_ext doesn't pass this
output_dir,filename = os.path.split(output_libname)
basename, ext = os.path.splitext(filename)
if self.library_filename("x").startswith('lib'):
# strip 'lib' prefix; this is kludgy if some platform uses
# a different prefix
basename = basename[3:]
self.create_static_lib(
objects, basename, output_dir, debug, target_lang
)
| mit |
openmb/stb-gui | lib/python/Plugins/Extensions/DVDBurn/ProjectSettings.py | 11 | 11069 | from Screens.Screen import Screen
from Screens.MessageBox import MessageBox
from Screens.HelpMenu import HelpableScreen
from Components.ActionMap import ActionMap
from Components.Sources.List import List
from Components.Sources.StaticText import StaticText
from Components.FileList import FileList
from Tools.Directories import fileExists, resolveFilename, SCOPE_PLUGINS, SCOPE_FONTS, SCOPE_HDD
from Components.config import config, getConfigListEntry
from Components.ConfigList import ConfigListScreen
class FileBrowser(Screen, HelpableScreen):
def __init__(self, session, scope, configRef):
Screen.__init__(self, session)
# for the skin: first try FileBrowser_DVDBurn, then FileBrowser, this allows individual skinning
self.skinName = ["FileBrowser_DVDBurn", "FileBrowser" ]
HelpableScreen.__init__(self)
self.scope = scope
pattern = ""
self.configRef = configRef
currDir = "/"
if self.scope == "project":
currDir = self.getDir()
pattern = "(?i)^.*\.(ddvdp\.xml)"
elif self.scope == "menutemplate":
currDir = self.getDir()
pattern = "(?i)^.*\.(ddvdm\.xml)"
if self.scope == "menubg":
currDir = self.getDir(configRef.getValue())
pattern = "(?i)^.*\.(jpeg|jpg|jpe|png|bmp)"
elif self.scope == "menuaudio":
currDir = self.getDir(configRef.getValue())
pattern = "(?i)^.*\.(mp2|m2a|ac3)"
elif self.scope == "vmgm":
currDir = self.getDir(configRef.getValue())
pattern = "(?i)^.*\.(mpg|mpeg)"
elif self.scope == "font_face":
currDir = self.getDir(configRef.getValue(), resolveFilename(SCOPE_FONTS))
pattern = "(?i)^.*\.(ttf)"
elif self.scope == "isopath":
currDir = configRef.getValue()
elif self.scope == "image":
currDir = resolveFilename(SCOPE_HDD)
pattern = "(?i)^.*\.(iso)"
self.filelist = FileList(currDir, matchingPattern=pattern)
self["filelist"] = self.filelist
self["FilelistActions"] = ActionMap(["SetupActions"],
{
"save": self.ok,
"ok": self.ok,
"cancel": self.exit
})
self["key_red"] = StaticText(_("Cancel"))
self["key_green"] = StaticText(_("OK"))
self.onLayoutFinish.append(self.layoutFinished)
def layoutFinished(self):
self.setTitle(_("DVD file browser"))
def getDir(self, currentVal=None, defaultDir=None):
if currentVal:
return (currentVal.rstrip("/").rsplit("/",1))[0]
return defaultDir or (resolveFilename(SCOPE_PLUGINS)+"Extensions/DVDBurn/")
def ok(self):
if self.filelist.canDescent():
self.filelist.descent()
if self.scope == "image":
path = self["filelist"].getCurrentDirectory() or ""
if fileExists(path+"VIDEO_TS"):
self.close(path,self.scope,self.configRef)
else:
ret = self["filelist"].getCurrentDirectory() + '/' + self["filelist"].getFilename()
self.close(ret,self.scope,self.configRef)
def exit(self):
if self.scope == "isopath":
self.close(self["filelist"].getCurrentDirectory(),self.scope,self.configRef)
self.close(None,False,None)
class ProjectSettings(Screen,ConfigListScreen):
skin = """
<screen name="ProjectSettings" position="center,center" size="560,440" title="Collection settings" >
<ePixmap pixmap="skin_default/buttons/red.png" position="0,0" size="140,40" alphatest="on" />
<ePixmap pixmap="skin_default/buttons/green.png" position="140,0" size="140,40" alphatest="on" />
<ePixmap pixmap="skin_default/buttons/yellow.png" position="280,0" size="140,40" alphatest="on" />
<ePixmap pixmap="skin_default/buttons/blue.png" position="420,0" size="140,40" alphatest="on" />
<widget source="key_red" render="Label" position="0,0" zPosition="1" size="140,40" font="Regular;19" halign="center" valign="center" backgroundColor="#9f1313" transparent="1" />
<widget source="key_green" render="Label" position="140,0" zPosition="1" size="140,40" font="Regular;19" halign="center" valign="center" backgroundColor="#1f771f" transparent="1" />
<widget source="key_yellow" render="Label" position="280,0" zPosition="1" size="140,40" font="Regular;19" halign="center" valign="center" backgroundColor="#a08500" transparent="1" />
<widget source="key_blue" render="Label" position="420,0" zPosition="1" size="140,40" font="Regular;19" halign="center" valign="center" backgroundColor="#18188b" transparent="1" />
<widget name="config" position="5,50" size="550,276" scrollbarMode="showOnDemand" />
<ePixmap pixmap="skin_default/div-h.png" position="0,350" zPosition="1" size="560,2" />
<widget source="info" render="Label" position="10,360" size="550,80" font="Regular;18" halign="center" valign="center" />
</screen>"""
def __init__(self, session, project = None):
Screen.__init__(self, session)
self.project = project
self["key_red"] = StaticText(_("Cancel"))
self["key_green"] = StaticText(_("OK"))
self["key_yellow"] = StaticText(_("Load"))
if config.usage.setup_level.index >= 2: # expert+
self["key_blue"] = StaticText(_("Save"))
else:
self["key_blue"] = StaticText()
if config.usage.setup_level.index >= 2: # expert+
infotext = _("Available format variables") + ":\n$i=" + _("Track") + ", $t=" + _("Title") + ", $d=" + _("Description") + ", $l=" + _("length") + ", $c=" + _("chapters") + ",\n" + _("Record") + " $T=" + _("Begin time") + ", $Y=" + _("Year") + ", $M=" + _("month") + ", $D=" + _("day") + ",\n$A=" + _("audio tracks") + ", $C=" + _("Channel") + ", $f=" + _("filename")
else:
infotext = ""
self["info"] = StaticText(infotext)
self.keydict = {}
self.settings = project.settings
ConfigListScreen.__init__(self, [])
self.initConfigList()
self["setupActions"] = ActionMap(["SetupActions", "ColorActions"],
{
"green": self.exit,
"red": self.cancel,
"blue": self.saveProject,
"yellow": self.loadProject,
"cancel": self.cancel,
"ok": self.ok,
}, -2)
self.onLayoutFinish.append(self.layoutFinished)
def layoutFinished(self):
self.setTitle(_("Collection settings"))
def changedConfigList(self):
key = self.keydict[self["config"].getCurrent()[1]]
if key == "authormode" or key == "output":
self.initConfigList()
def initConfigList(self):
authormode = self.settings.authormode.getValue()
output = self.settings.output.getValue()
self.list = []
self.list.append(getConfigListEntry(_("Collection name"), self.settings.name))
self.list.append(getConfigListEntry(_("Authoring mode"), self.settings.authormode))
self.list.append(getConfigListEntry(_("Output"), self.settings.output))
if output == "iso":
self.list.append(getConfigListEntry(_("ISO path"), self.settings.isopath))
if authormode.startswith("menu"):
self.list.append(getConfigListEntry(_("Menu")+' '+_("template file"), self.settings.menutemplate))
if config.usage.setup_level.index >= 2: # expert+
self.list.append(getConfigListEntry(_("Menu")+' '+_("Title"), self.project.menutemplate.settings.titleformat))
self.list.append(getConfigListEntry(_("Menu")+' '+_("Subtitles"), self.project.menutemplate.settings.subtitleformat))
self.list.append(getConfigListEntry(_("Menu")+' '+_("background image"), self.project.menutemplate.settings.menubg))
self.list.append(getConfigListEntry(_("Menu")+' '+_("Language selection"), self.project.menutemplate.settings.menulang))
#self.list.append(getConfigListEntry(_("Menu")+' '+_("headline")+' '+_("color"), self.settings.color_headline))
#self.list.append(getConfigListEntry(_("Menu")+' '+_("text")+' '+_("color"), self.settings.color_button))
#self.list.append(getConfigListEntry(_("Menu")+' '+_("highlighted button")+' '+_("color"), self.settings.color_highlight))
#self.list.append(getConfigListEntry(_("Menu")+' '+_("font face"), self.settings.font_face))
#self.list.append(getConfigListEntry(_("Font size")+' ('+_("headline")+', '+_("Title")+', '+_("Subtitles")+')', self.settings.font_size))
#self.list.append(getConfigListEntry(_("Menu")+' '+_("spaces (top, between rows, left)"), self.settings.space))
#self.list.append(getConfigListEntry(_("Menu")+' '+_("Audio"), self.settings.menuaudio))
if config.usage.setup_level.index >= 2: # expert+
if authormode != "data_ts":
self.list.append(getConfigListEntry(_("Titleset mode"), self.settings.titlesetmode))
if self.settings.titlesetmode.getValue() == "single" or authormode == "just_linked":
self.list.append(getConfigListEntry(_("VMGM (intro trailer)"), self.settings.vmgm))
else:
self.list.append(getConfigListEntry(_("DVD data format"), self.settings.dataformat))
self["config"].setList(self.list)
self.keydict = {}
for key, val in self.settings.dict().iteritems():
self.keydict[val] = key
for key, val in self.project.menutemplate.settings.dict().iteritems():
self.keydict[val] = key
def keyLeft(self):
ConfigListScreen.keyLeft(self)
key = self.keydict[self["config"].getCurrent()[1]]
if key == "authormode" or key == "output" or key=="titlesetmode":
self.initConfigList()
def keyRight(self):
ConfigListScreen.keyRight(self)
key = self.keydict[self["config"].getCurrent()[1]]
if key == "authormode" or key == "output" or key=="titlesetmode":
self.initConfigList()
def exit(self):
self.applySettings()
self.close(True)
def applySettings(self):
for x in self["config"].list:
x[1].save()
def ok(self):
key = self.keydict[self["config"].getCurrent()[1]]
from DVDProject import ConfigFilename
if type(self["config"].getCurrent()[1]) == ConfigFilename:
self.session.openWithCallback(self.FileBrowserClosed, FileBrowser, key, self["config"].getCurrent()[1])
def cancel(self):
self.close(False)
def loadProject(self):
self.session.openWithCallback(self.FileBrowserClosed, FileBrowser, "project", self.settings)
def saveProject(self):
if config.usage.setup_level.index >= 2: # expert+
self.applySettings()
ret = self.project.saveProject(resolveFilename(SCOPE_PLUGINS)+"Extensions/DVDBurn/")
if ret.startswith:
text = _("Save")+' '+_('OK')+':\n'+ret
self.session.open(MessageBox,text,type = MessageBox.TYPE_INFO)
else:
text = _("Save")+' '+_('Error')
self.session.open(MessageBox,text,type = MessageBox.TYPE_ERROR)
def FileBrowserClosed(self, path, scope, configRef):
if scope == "menutemplate":
if self.project.menutemplate.loadTemplate(path):
print "[ProjectSettings] menu template loaded"
configRef.setValue(path)
self.initConfigList()
else:
self.session.open(MessageBox,self.project.error,MessageBox.TYPE_ERROR)
elif scope == "project":
self.path = path
print "len(self.titles)", len(self.project.titles)
if len(self.project.titles):
self.session.openWithCallback(self.askLoadCB, MessageBox,text = _("Your current collection will get lost!") + "\n" + _("Do you want to restore your settings?"), type = MessageBox.TYPE_YESNO)
else:
self.askLoadCB(True)
elif scope:
configRef.setValue(path)
self.initConfigList()
def askLoadCB(self, answer):
if answer is not None and answer:
if self.project.loadProject(self.path):
self.initConfigList()
else:
self.session.open(MessageBox,self.project.error,MessageBox.TYPE_ERROR)
| gpl-2.0 |
argonemyth/sentry | src/sentry/utils/sqlparser.py | 36 | 1072 | """
sentry.utils.sqlparser
~~~~~~~~~~~~~~~~~~~~~~
:copyright: (c) 2010 by the Sentry Team, see AUTHORS for more details.
:license: BSD, see LICENSE for more details.
"""
from __future__ import absolute_import
from sqlparse import engine
from sqlparse import filters
from sqlparse import tokens as T
class ValueFilter(filters.TokenFilter):
include = (T.String, T.Number)
exclude = (T.String.Symbol,)
def process(self, stack, stream):
for ttype, value in stream:
parent = ttype
while parent:
if parent in self.exclude:
break
if parent in self.include:
value = '?'
break
if ttype.parent == parent:
parent = None
else:
parent = ttype.parent
yield ttype, value
def parse(query):
stack = engine.FilterStack()
stack.preprocess.append(ValueFilter())
stack.postprocess.append(filters.SerializerUnicode())
return ''.join(stack.run(query))
| bsd-3-clause |
pcengines/seabios | scripts/layoutrom.py | 3 | 27113 | #!/usr/bin/env python
# Script to analyze code and arrange ld sections.
#
# Copyright (C) 2008-2014 Kevin O'Connor <kevin@koconnor.net>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import operator
import sys
# LD script headers/trailers
COMMONHEADER = """
/* DO NOT EDIT! This is an autogenerated file. See scripts/layoutrom.py. */
OUTPUT_FORMAT("elf32-i386")
OUTPUT_ARCH("i386")
SECTIONS
{
"""
COMMONTRAILER = """
/* Discard regular data sections to force a link error if
* code attempts to access data not marked with VAR16 (or other
* appropriate macro)
*/
/DISCARD/ : {
*(.text*) *(.data*) *(.bss*) *(.rodata*)
*(COMMON) *(.discard*) *(.eh_frame) *(.note*)
}
}
"""
######################################################################
# Determine section locations
######################################################################
# Align 'pos' up to 'alignbytes' offset
def alignpos(pos, alignbytes):
mask = alignbytes - 1
return (pos + mask) & ~mask
# Align 'pos' down to 'alignbytes' offset
def aligndown(pos, alignbytes):
mask = alignbytes - 1
return pos & ~mask
# Determine the final addresses for a list of sections that end at an
# address.
def setSectionsStart(sections, endaddr, minalign=1, segoffset=0):
totspace = 0
for section in sections:
minalign = max(minalign, section.align)
totspace = alignpos(totspace, section.align) + section.size
startaddr = int((endaddr - totspace) / minalign) * minalign
curaddr = startaddr
for section in sections:
curaddr = alignpos(curaddr, section.align)
section.finalloc = curaddr
section.finalsegloc = curaddr - segoffset
curaddr += section.size
return startaddr, minalign
# The 16bit code can't exceed 64K of space.
BUILD_BIOS_ADDR = 0xf0000
BUILD_BIOS_SIZE = 0x10000
BUILD_ROM_START = 0xc0000
BUILD_LOWRAM_END = 0xa0000
# Space to reserve in f-segment for dynamic allocations
BUILD_MIN_BIOSTABLE = 2048
# Layout the 16bit code. This ensures sections with fixed offset
# requirements are placed in the correct location. It also places the
# 16bit code as high as possible in the f-segment.
def fitSections(sections, fillsections):
# fixedsections = [(addr, section), ...]
fixedsections = []
for section in sections:
if section.name.startswith('.fixedaddr.'):
addr = int(section.name[11:], 16)
section.finalloc = addr + BUILD_BIOS_ADDR
section.finalsegloc = addr
fixedsections.append((addr, section))
if section.align != 1:
print("Error: Fixed section %s has non-zero alignment (%d)" % (
section.name, section.align))
sys.exit(1)
fixedsections.sort(key=operator.itemgetter(0))
firstfixed = fixedsections[0][0]
# Find freespace in fixed address area
# fixedAddr = [(freespace, section), ...]
fixedAddr = []
for i in range(len(fixedsections)):
fixedsectioninfo = fixedsections[i]
addr, section = fixedsectioninfo
if i == len(fixedsections) - 1:
nextaddr = BUILD_BIOS_SIZE
else:
nextaddr = fixedsections[i+1][0]
avail = nextaddr - addr - section.size
fixedAddr.append((avail, section))
fixedAddr.sort(key=operator.itemgetter(0))
# Attempt to fit other sections into fixed area
canrelocate = [(section.size, section.align, section.name, section)
for section in fillsections]
canrelocate.sort()
canrelocate = [section for size, align, name, section in canrelocate]
totalused = 0
for freespace, fixedsection in fixedAddr:
addpos = fixedsection.finalsegloc + fixedsection.size
totalused += fixedsection.size
nextfixedaddr = addpos + freespace
# print("Filling section %x uses %d, next=%x, available=%d" % (
# fixedsection.finalloc, fixedsection.size, nextfixedaddr, freespace))
while 1:
canfit = None
for fitsection in canrelocate:
if addpos + fitsection.size > nextfixedaddr:
# Can't fit and nothing else will fit.
break
fitnextaddr = alignpos(addpos, fitsection.align) + fitsection.size
# print("Test %s - %x vs %x" % (
# fitsection.name, fitnextaddr, nextfixedaddr))
if fitnextaddr > nextfixedaddr:
# This item can't fit.
continue
canfit = (fitnextaddr, fitsection)
if canfit is None:
break
# Found a section that can fit.
fitnextaddr, fitsection = canfit
canrelocate.remove(fitsection)
fitsection.finalloc = addpos + BUILD_BIOS_ADDR
fitsection.finalsegloc = addpos
addpos = fitnextaddr
totalused += fitsection.size
# print(" Adding %s (size %d align %d) pos=%x avail=%d" % (
# fitsection[2], fitsection[0], fitsection[1]
# , fitnextaddr, nextfixedaddr - fitnextaddr))
# Report stats
total = BUILD_BIOS_SIZE-firstfixed
slack = total - totalused
print ("Fixed space: 0x%x-0x%x total: %d slack: %d"
" Percent slack: %.1f%%" % (
firstfixed, BUILD_BIOS_SIZE, total, slack,
(float(slack) / total) * 100.0))
return firstfixed + BUILD_BIOS_ADDR
# Return the subset of sections with a given category
def getSectionsCategory(sections, category):
return [section for section in sections if section.category == category]
# Return the subset of sections with a given fileid
def getSectionsFileid(sections, fileid):
return [section for section in sections if section.fileid == fileid]
# Return the subset of sections with a given name prefix
def getSectionsPrefix(sections, prefix):
return [section for section in sections
if section.name.startswith(prefix)]
# The sections (and associated information) to be placed in output rom
class LayoutInfo:
sections = None
config = None
genreloc = None
sec32init_start = sec32init_end = sec32init_align = None
sec32low_start = sec32low_end = None
zonelow_base = final_sec32low_start = None
zonefseg_start = zonefseg_end = None
final_readonly_start = None
varlowsyms = entrysym = None
# Determine final memory addresses for sections
def doLayout(sections, config, genreloc):
li = LayoutInfo()
li.config = config
li.sections = sections
li.genreloc = genreloc
# Determine 16bit positions
sections16 = getSectionsCategory(sections, '16')
textsections = getSectionsPrefix(sections16, '.text.')
rodatasections = getSectionsPrefix(sections16, '.rodata')
datasections = getSectionsPrefix(sections16, '.data16.')
fixedsections = getSectionsCategory(sections, 'fixed')
firstfixed = fitSections(fixedsections, textsections)
remsections = [s for s in textsections+rodatasections+datasections
if s.finalloc is None]
sec16_start, sec16_align = setSectionsStart(
remsections, firstfixed, segoffset=BUILD_BIOS_ADDR)
# Determine 32seg positions
sections32seg = getSectionsCategory(sections, '32seg')
textsections = getSectionsPrefix(sections32seg, '.text.')
rodatasections = getSectionsPrefix(sections32seg, '.rodata')
datasections = getSectionsPrefix(sections32seg, '.data32seg.')
sec32seg_start, sec32seg_align = setSectionsStart(
textsections + rodatasections + datasections, sec16_start
, segoffset=BUILD_BIOS_ADDR)
# Determine 32bit "fseg memory" data positions
sections32textfseg = getSectionsCategory(sections, '32textfseg')
sec32textfseg_start, sec32textfseg_align = setSectionsStart(
sections32textfseg, sec32seg_start, 16)
sections32fseg = getSectionsCategory(sections, '32fseg')
sec32fseg_start, sec32fseg_align = setSectionsStart(
sections32fseg, sec32textfseg_start, 16
, segoffset=BUILD_BIOS_ADDR)
# Determine 32flat runtime positions
sections32flat = getSectionsCategory(sections, '32flat')
textsections = getSectionsPrefix(sections32flat, '.text.')
rodatasections = getSectionsPrefix(sections32flat, '.rodata')
datasections = getSectionsPrefix(sections32flat, '.data.')
bsssections = getSectionsPrefix(sections32flat, '.bss.')
sec32flat_start, sec32flat_align = setSectionsStart(
textsections + rodatasections + datasections + bsssections
, sec32fseg_start, 16)
# Determine 32flat init positions
sections32init = getSectionsCategory(sections, '32init')
init32_textsections = getSectionsPrefix(sections32init, '.text.')
init32_rodatasections = getSectionsPrefix(sections32init, '.rodata')
init32_datasections = getSectionsPrefix(sections32init, '.data.')
init32_bsssections = getSectionsPrefix(sections32init, '.bss.')
sec32init_start, sec32init_align = setSectionsStart(
init32_textsections + init32_rodatasections
+ init32_datasections + init32_bsssections
, sec32flat_start, 16)
# Determine location of ZoneFSeg memory.
zonefseg_end = sec32flat_start
if not genreloc:
zonefseg_end = sec32init_start
zonefseg_start = BUILD_BIOS_ADDR
if zonefseg_start + BUILD_MIN_BIOSTABLE > zonefseg_end:
# Not enough ZoneFSeg space - force a minimum space.
zonefseg_end = sec32fseg_start
zonefseg_start = zonefseg_end - BUILD_MIN_BIOSTABLE
sec32flat_start, sec32flat_align = setSectionsStart(
textsections + rodatasections + datasections + bsssections
, zonefseg_start, 16)
sec32init_start, sec32init_align = setSectionsStart(
init32_textsections + init32_rodatasections
+ init32_datasections + init32_bsssections
, sec32flat_start, 16)
li.sec32init_start = sec32init_start
li.sec32init_end = sec32flat_start
li.sec32init_align = sec32init_align
final_readonly_start = min(BUILD_BIOS_ADDR, sec32flat_start)
if not genreloc:
final_readonly_start = min(BUILD_BIOS_ADDR, sec32init_start)
li.zonefseg_start = zonefseg_start
li.zonefseg_end = zonefseg_end
li.final_readonly_start = final_readonly_start
# Determine "low memory" data positions
sections32low = getSectionsCategory(sections, '32low')
sec32low_end = sec32init_start
if config.get('CONFIG_MALLOC_UPPERMEMORY'):
final_sec32low_end = final_readonly_start
zonelow_base = final_sec32low_end - 64*1024
zonelow_base = max(BUILD_ROM_START, alignpos(zonelow_base, 2*1024))
else:
final_sec32low_end = BUILD_LOWRAM_END
zonelow_base = final_sec32low_end - 64*1024
relocdelta = final_sec32low_end - sec32low_end
li.sec32low_start, sec32low_align = setSectionsStart(
sections32low, sec32low_end, 16
, segoffset=zonelow_base - relocdelta)
li.sec32low_end = sec32low_end
li.zonelow_base = zonelow_base
li.final_sec32low_start = li.sec32low_start + relocdelta
# Print statistics
size16 = BUILD_BIOS_ADDR + BUILD_BIOS_SIZE - sec16_start
size32seg = sec16_start - sec32seg_start
size32textfseg = sec32seg_start - sec32textfseg_start
size32fseg = sec32textfseg_start - sec32fseg_start
size32flat = sec32fseg_start - sec32flat_start
size32init = sec32flat_start - sec32init_start
sizelow = li.sec32low_end - li.sec32low_start
print("16bit size: %d" % size16)
print("32bit segmented size: %d" % size32seg)
print("32bit flat size: %d" % (size32flat + size32textfseg))
print("32bit flat init size: %d" % size32init)
print("Lowmem size: %d" % sizelow)
print("f-segment var size: %d" % size32fseg)
return li
######################################################################
# Linker script output
######################################################################
# Write LD script includes for the given cross references
def outXRefs(sections, useseg=0, exportsyms=[], forcedelta=0):
xrefs = dict([(symbol.name, symbol) for symbol in exportsyms])
out = ""
for section in sections:
for reloc in section.relocs:
symbol = reloc.symbol
if (symbol.section is not None
and (symbol.section.fileid != section.fileid
or symbol.name != reloc.symbolname)):
xrefs[reloc.symbolname] = symbol
for symbolname, symbol in xrefs.items():
loc = symbol.section.finalloc
if useseg:
loc = symbol.section.finalsegloc
out += "%s = 0x%x ;\n" % (symbolname, loc + forcedelta + symbol.offset)
return out
# Write LD script includes for the given sections
def outSections(sections, useseg=0):
out = ""
for section in sections:
loc = section.finalloc
if useseg:
loc = section.finalsegloc
out += "%s 0x%x : { *(%s) }\n" % (section.name, loc, section.name)
return out
# Write LD script includes for the given sections using relative offsets
def outRelSections(sections, startsym, useseg=0):
sections = [(section.finalloc, section) for section in sections
if section.finalloc is not None]
sections.sort(key=operator.itemgetter(0))
out = ""
for addr, section in sections:
loc = section.finalloc
if useseg:
loc = section.finalsegloc
out += ". = ( 0x%x - %s ) ;\n" % (loc, startsym)
if section.name in ('.rodata.str1.1', '.rodata'):
out += "_rodata%s = . ;\n" % (section.fileid,)
out += "*%s.*(%s)\n" % (section.fileid, section.name)
return out
# Build linker script output for a list of relocations.
def strRelocs(outname, outrel, relocs):
relocs.sort()
return (" %s_start = ABSOLUTE(.) ;\n" % (outname,)
+ "".join(["LONG(0x%x - %s)\n" % (pos, outrel)
for pos in relocs])
+ " %s_end = ABSOLUTE(.) ;\n" % (outname,))
# Find relocations to the given sections
def getRelocs(sections, tosection, type=None):
return [section.finalloc + reloc.offset
for section in sections
for reloc in section.relocs
if (reloc.symbol.section in tosection
and (type is None or reloc.type == type))]
# Output the linker scripts for all required sections.
def writeLinkerScripts(li, out16, out32seg, out32flat):
# Write 16bit linker script
filesections16 = getSectionsFileid(li.sections, '16')
out = outXRefs(filesections16, useseg=1) + """
zonelow_base = 0x%x ;
_zonelow_seg = 0x%x ;
%s
""" % (li.zonelow_base,
int(li.zonelow_base / 16),
outSections(filesections16, useseg=1))
outfile = open(out16, 'w')
outfile.write(COMMONHEADER + out + COMMONTRAILER)
outfile.close()
# Write 32seg linker script
filesections32seg = getSectionsFileid(li.sections, '32seg')
out = (outXRefs(filesections32seg, useseg=1)
+ outSections(filesections32seg, useseg=1))
outfile = open(out32seg, 'w')
outfile.write(COMMONHEADER + out + COMMONTRAILER)
outfile.close()
# Write 32flat linker script
sec32all_start = li.sec32low_start
relocstr = ""
if li.genreloc:
# Generate relocations
initsections = dict([
(s, 1) for s in getSectionsCategory(li.sections, '32init')])
noninitsections = dict([(s, 1) for s in li.sections
if s not in initsections])
absrelocs = getRelocs(initsections, initsections, type='R_386_32')
relrelocs = getRelocs(initsections, noninitsections, type='R_386_PC32')
initrelocs = getRelocs(noninitsections, initsections)
relocstr = (strRelocs("_reloc_abs", "code32init_start", absrelocs)
+ strRelocs("_reloc_rel", "code32init_start", relrelocs)
+ strRelocs("_reloc_init", "code32flat_start", initrelocs))
numrelocs = len(absrelocs + relrelocs + initrelocs)
sec32all_start -= numrelocs * 4
filesections32flat = getSectionsFileid(li.sections, '32flat')
out = outXRefs([], exportsyms=li.varlowsyms
, forcedelta=li.final_sec32low_start-li.sec32low_start)
multiboot_header = ""
if li.config.get('CONFIG_MULTIBOOT'):
multiboot_header = "LONG(0x1BADB002) LONG(0) LONG(-0x1BADB002)"
sec32all_start -= 3 * 4
sec32all_align = max([section.align for section in li.sections])
sec32all_start = aligndown(sec32all_start, sec32all_align)
out += outXRefs(filesections32flat, exportsyms=[li.entrysym]) + """
_reloc_min_align = 0x%x ;
zonefseg_start = 0x%x ;
zonefseg_end = 0x%x ;
zonelow_base = 0x%x ;
final_varlow_start = 0x%x ;
final_readonly_start = 0x%x ;
varlow_start = 0x%x ;
varlow_end = 0x%x ;
code32init_start = 0x%x ;
code32init_end = 0x%x ;
code32flat_start = 0x%x ;
.text code32flat_start : {
%s
%s
%s
code32flat_end = ABSOLUTE(.) ;
} :text
""" % (li.sec32init_align,
li.zonefseg_start,
li.zonefseg_end,
li.zonelow_base,
li.final_sec32low_start,
li.final_readonly_start,
li.sec32low_start,
li.sec32low_end,
li.sec32init_start,
li.sec32init_end,
sec32all_start,
multiboot_header,
relocstr,
outRelSections(li.sections, 'code32flat_start'))
out = COMMONHEADER + out + COMMONTRAILER + """
ENTRY(%s)
PHDRS
{
text PT_LOAD AT ( code32flat_start ) ;
}
""" % (li.entrysym.name,)
outfile = open(out32flat, 'w')
outfile.write(out)
outfile.close()
######################################################################
# Detection of unused sections and init sections
######################################################################
# Visit all sections reachable from a given set of start sections
def findReachable(anchorsections, checkreloc, data):
anchorsections = dict([(section, []) for section in anchorsections])
pending = list(anchorsections)
while pending:
section = pending.pop()
for reloc in section.relocs:
chain = anchorsections[section] + [section.name]
if not checkreloc(reloc, section, data, chain):
continue
nextsection = reloc.symbol.section
if nextsection not in anchorsections:
anchorsections[nextsection] = chain
pending.append(nextsection)
return anchorsections
# Find "runtime" sections (ie, not init only sections).
def checkRuntime(reloc, rsection, data, chain):
section = reloc.symbol.section
if section is None or '.init.' in section.name:
return 0
if '.data.varinit.' in section.name:
print("ERROR: %s is VARVERIFY32INIT but used from %s" % (
section.name, chain))
sys.exit(1)
return 1
# Find and keep the section associated with a symbol (if available).
def checkKeepSym(reloc, syms, fileid, isxref):
symbolname = reloc.symbolname
mustbecfunc = symbolname.startswith('_cfunc')
if mustbecfunc:
symprefix = '_cfunc' + fileid + '_'
if not symbolname.startswith(symprefix):
return 0
symbolname = symbolname[len(symprefix):]
symbol = syms.get(symbolname)
if (symbol is None or symbol.section is None
or symbol.section.name.startswith('.discard.')):
return 0
isdestcfunc = (symbol.section.name.startswith('.text.')
and not symbol.section.name.startswith('.text.asm.'))
if ((mustbecfunc and not isdestcfunc)
or (not mustbecfunc and isdestcfunc and isxref)):
return 0
reloc.symbol = symbol
return 1
# Resolve a relocation and check if it should be kept in the final binary.
def checkKeep(reloc, section, symbols, chain):
ret = checkKeepSym(reloc, symbols[section.fileid], section.fileid, 0)
if ret:
return ret
# Not in primary sections - it may be a cross 16/32 reference
for fileid in ('16', '32seg', '32flat'):
if fileid != section.fileid:
ret = checkKeepSym(reloc, symbols[fileid], fileid, 1)
if ret:
return ret
return 0
######################################################################
# Startup and input parsing
######################################################################
class Section:
name = size = alignment = fileid = relocs = None
finalloc = finalsegloc = category = None
class Reloc:
offset = type = symbolname = symbol = None
class Symbol:
name = offset = section = None
# Read in output from objdump
def parseObjDump(file, fileid):
# sections = [section, ...]
sections = []
sectionmap = {}
# symbols[symbolname] = symbol
symbols = {}
state = None
for line in file.readlines():
line = line.rstrip()
if line == 'Sections:':
state = 'section'
continue
if line == 'SYMBOL TABLE:':
state = 'symbol'
continue
if line.startswith('RELOCATION RECORDS FOR ['):
sectionname = line[24:-2]
if sectionname.startswith('.debug_'):
# Skip debugging sections (to reduce parsing time)
state = None
continue
state = 'reloc'
relocsection = sectionmap[sectionname]
continue
if state == 'section':
try:
idx, name, size, vma, lma, fileoff, align = line.split()
if align[:3] != '2**':
continue
section = Section()
section.name = name
section.size = int(size, 16)
section.align = 2**int(align[3:])
section.fileid = fileid
section.relocs = []
sections.append(section)
sectionmap[name] = section
except ValueError:
pass
continue
if state == 'symbol':
try:
parts = line[17:].split()
if len(parts) == 3:
sectionname, size, name = parts
elif len(parts) == 4 and parts[2] == '.hidden':
sectionname, size, hidden, name = parts
else:
continue
symbol = Symbol()
symbol.size = int(size, 16)
symbol.offset = int(line[:8], 16)
symbol.name = name
symbol.section = sectionmap.get(sectionname)
symbols[name] = symbol
except ValueError:
pass
continue
if state == 'reloc':
try:
off, type, symbolname = line.split()
reloc = Reloc()
reloc.offset = int(off, 16)
reloc.type = type
reloc.symbolname = symbolname
reloc.symbol = symbols.get(symbolname)
if reloc.symbol is None:
# Some binutils (2.20.1) give section name instead
# of a symbol - create a dummy symbol.
reloc.symbol = symbol = Symbol()
symbol.size = 0
symbol.offset = 0
symbol.name = symbolname
symbol.section = sectionmap.get(symbolname)
symbols[symbolname] = symbol
relocsection.relocs.append(reloc)
except ValueError:
pass
return sections, symbols
# Parser for constants in simple C header files.
def scanconfig(file):
f = open(file, 'r')
opts = {}
for l in f.readlines():
parts = l.split()
if len(parts) != 3:
continue
if parts[0] != '#define':
continue
value = parts[2]
if value.isdigit() or (value.startswith('0x') and value[2:].isdigit()):
value = int(value, 0)
opts[parts[1]] = value
return opts
def main():
# Get output name
in16, in32seg, in32flat, cfgfile, out16, out32seg, out32flat = sys.argv[1:]
# Read in the objdump information
infile16 = open(in16, 'r')
infile32seg = open(in32seg, 'r')
infile32flat = open(in32flat, 'r')
# infoX = (sections, symbols)
info16 = parseObjDump(infile16, '16')
info32seg = parseObjDump(infile32seg, '32seg')
info32flat = parseObjDump(infile32flat, '32flat')
# Read kconfig config file
config = scanconfig(cfgfile)
# Figure out which sections to keep.
allsections = info16[0] + info32seg[0] + info32flat[0]
symbols = {'16': info16[1], '32seg': info32seg[1], '32flat': info32flat[1]}
if config.get('CONFIG_COREBOOT'):
entrysym = symbols['16'].get('entry_elf')
elif config.get('CONFIG_CSM'):
entrysym = symbols['16'].get('entry_csm')
else:
entrysym = symbols['16'].get('reset_vector')
anchorsections = [entrysym.section] + [
section for section in allsections
if section.name.startswith('.fixedaddr.')]
keepsections = findReachable(anchorsections, checkKeep, symbols)
sections = [section for section in allsections if section in keepsections]
# Separate 32bit flat into runtime, init, and special variable parts
anchorsections = [
section for section in sections
if ('.data.varlow.' in section.name or '.data.varfseg.' in section.name
or '.fixedaddr.' in section.name or '.runtime.' in section.name)]
runtimesections = findReachable(anchorsections, checkRuntime, None)
for section in sections:
if section.name.startswith('.data.varlow.'):
section.category = '32low'
elif section.name.startswith('.data.varfseg.'):
section.category = '32fseg'
elif section.name.startswith('.text.32fseg.'):
section.category = '32textfseg'
elif section.name.startswith('.fixedaddr.'):
section.category = 'fixed'
elif section.fileid == '32flat' and section not in runtimesections:
section.category = '32init'
else:
section.category = section.fileid
# Determine the final memory locations of each kept section.
genreloc = '_reloc_abs_start' in symbols['32flat']
li = doLayout(sections, config, genreloc)
# Exported symbols
li.varlowsyms = [symbol for symbol in symbols['32flat'].values()
if (symbol.section is not None
and symbol.section.finalloc is not None
and '.data.varlow.' in symbol.section.name
and symbol.name != symbol.section.name)]
li.entrysym = entrysym
# Write out linker script files.
writeLinkerScripts(li, out16, out32seg, out32flat)
if __name__ == '__main__':
main()
| lgpl-3.0 |
bear/gae-deploy-test | lib/werkzeug/contrib/lint.py | 318 | 12282 | # -*- coding: utf-8 -*-
"""
werkzeug.contrib.lint
~~~~~~~~~~~~~~~~~~~~~
.. versionadded:: 0.5
This module provides a middleware that performs sanity checks of the WSGI
application. It checks that :pep:`333` is properly implemented and warns
on some common HTTP errors such as non-empty responses for 304 status
codes.
This module provides a middleware, the :class:`LintMiddleware`. Wrap your
application with it and it will warn about common problems with WSGI and
HTTP while your application is running.
It's strongly recommended to use it during development.
:copyright: (c) 2013 by the Werkzeug Team, see AUTHORS for more details.
:license: BSD, see LICENSE for more details.
"""
from urlparse import urlparse
from warnings import warn
from werkzeug.datastructures import Headers
from werkzeug.http import is_entity_header
from werkzeug.wsgi import FileWrapper
from werkzeug._compat import string_types
class WSGIWarning(Warning):
"""Warning class for WSGI warnings."""
class HTTPWarning(Warning):
"""Warning class for HTTP warnings."""
def check_string(context, obj, stacklevel=3):
if type(obj) is not str:
warn(WSGIWarning('%s requires bytestrings, got %s' %
(context, obj.__class__.__name__)))
class InputStream(object):
def __init__(self, stream):
self._stream = stream
def read(self, *args):
if len(args) == 0:
warn(WSGIWarning('wsgi does not guarantee an EOF marker on the '
'input stream, thus making calls to '
'wsgi.input.read() unsafe. Conforming servers '
'may never return from this call.'),
stacklevel=2)
elif len(args) != 1:
warn(WSGIWarning('too many parameters passed to wsgi.input.read()'),
stacklevel=2)
return self._stream.read(*args)
def readline(self, *args):
if len(args) == 0:
warn(WSGIWarning('Calls to wsgi.input.readline() without arguments'
' are unsafe. Use wsgi.input.read() instead.'),
stacklevel=2)
elif len(args) == 1:
warn(WSGIWarning('wsgi.input.readline() was called with a size hint. '
'WSGI does not support this, although it\'s available '
'on all major servers.'),
stacklevel=2)
else:
raise TypeError('too many arguments passed to wsgi.input.readline()')
return self._stream.readline(*args)
def __iter__(self):
try:
return iter(self._stream)
except TypeError:
warn(WSGIWarning('wsgi.input is not iterable.'), stacklevel=2)
return iter(())
def close(self):
warn(WSGIWarning('application closed the input stream!'),
stacklevel=2)
self._stream.close()
class ErrorStream(object):
def __init__(self, stream):
self._stream = stream
def write(self, s):
check_string('wsgi.error.write()', s)
self._stream.write(s)
def flush(self):
self._stream.flush()
def writelines(self, seq):
for line in seq:
self.write(seq)
def close(self):
warn(WSGIWarning('application closed the error stream!'),
stacklevel=2)
self._stream.close()
class GuardedWrite(object):
def __init__(self, write, chunks):
self._write = write
self._chunks = chunks
def __call__(self, s):
check_string('write()', s)
self._write.write(s)
self._chunks.append(len(s))
class GuardedIterator(object):
def __init__(self, iterator, headers_set, chunks):
self._iterator = iterator
self._next = iter(iterator).next
self.closed = False
self.headers_set = headers_set
self.chunks = chunks
def __iter__(self):
return self
def next(self):
if self.closed:
warn(WSGIWarning('iterated over closed app_iter'),
stacklevel=2)
rv = self._next()
if not self.headers_set:
warn(WSGIWarning('Application returned before it '
'started the response'), stacklevel=2)
check_string('application iterator items', rv)
self.chunks.append(len(rv))
return rv
def close(self):
self.closed = True
if hasattr(self._iterator, 'close'):
self._iterator.close()
if self.headers_set:
status_code, headers = self.headers_set
bytes_sent = sum(self.chunks)
content_length = headers.get('content-length', type=int)
if status_code == 304:
for key, value in headers:
key = key.lower()
if key not in ('expires', 'content-location') and \
is_entity_header(key):
warn(HTTPWarning('entity header %r found in 304 '
'response' % key))
if bytes_sent:
warn(HTTPWarning('304 responses must not have a body'))
elif 100 <= status_code < 200 or status_code == 204:
if content_length != 0:
warn(HTTPWarning('%r responses must have an empty '
'content length') % status_code)
if bytes_sent:
warn(HTTPWarning('%r responses must not have a body' %
status_code))
elif content_length is not None and content_length != bytes_sent:
warn(WSGIWarning('Content-Length and the number of bytes '
'sent to the client do not match.'))
def __del__(self):
if not self.closed:
try:
warn(WSGIWarning('Iterator was garbage collected before '
'it was closed.'))
except Exception:
pass
class LintMiddleware(object):
"""This middleware wraps an application and warns on common errors.
Among other thing it currently checks for the following problems:
- invalid status codes
- non-bytestrings sent to the WSGI server
- strings returned from the WSGI application
- non-empty conditional responses
- unquoted etags
- relative URLs in the Location header
- unsafe calls to wsgi.input
- unclosed iterators
Detected errors are emitted using the standard Python :mod:`warnings`
system and usually end up on :data:`stderr`.
::
from werkzeug.contrib.lint import LintMiddleware
app = LintMiddleware(app)
:param app: the application to wrap
"""
def __init__(self, app):
self.app = app
def check_environ(self, environ):
if type(environ) is not dict:
warn(WSGIWarning('WSGI environment is not a standard python dict.'),
stacklevel=4)
for key in ('REQUEST_METHOD', 'SERVER_NAME', 'SERVER_PORT',
'wsgi.version', 'wsgi.input', 'wsgi.errors',
'wsgi.multithread', 'wsgi.multiprocess',
'wsgi.run_once'):
if key not in environ:
warn(WSGIWarning('required environment key %r not found'
% key), stacklevel=3)
if environ['wsgi.version'] != (1, 0):
warn(WSGIWarning('environ is not a WSGI 1.0 environ'),
stacklevel=3)
script_name = environ.get('SCRIPT_NAME', '')
if script_name and script_name[:1] != '/':
warn(WSGIWarning('SCRIPT_NAME does not start with a slash: %r'
% script_name), stacklevel=3)
path_info = environ.get('PATH_INFO', '')
if path_info[:1] != '/':
warn(WSGIWarning('PATH_INFO does not start with a slash: %r'
% path_info), stacklevel=3)
def check_start_response(self, status, headers, exc_info):
check_string('status', status)
status_code = status.split(None, 1)[0]
if len(status_code) != 3 or not status_code.isdigit():
warn(WSGIWarning('Status code must be three digits'), stacklevel=3)
if len(status) < 4 or status[3] != ' ':
warn(WSGIWarning('Invalid value for status %r. Valid '
'status strings are three digits, a space '
'and a status explanation'), stacklevel=3)
status_code = int(status_code)
if status_code < 100:
warn(WSGIWarning('status code < 100 detected'), stacklevel=3)
if type(headers) is not list:
warn(WSGIWarning('header list is not a list'), stacklevel=3)
for item in headers:
if type(item) is not tuple or len(item) != 2:
warn(WSGIWarning('Headers must tuple 2-item tuples'),
stacklevel=3)
name, value = item
if type(name) is not str or type(value) is not str:
warn(WSGIWarning('header items must be strings'),
stacklevel=3)
if name.lower() == 'status':
warn(WSGIWarning('The status header is not supported due to '
'conflicts with the CGI spec.'),
stacklevel=3)
if exc_info is not None and not isinstance(exc_info, tuple):
warn(WSGIWarning('invalid value for exc_info'), stacklevel=3)
headers = Headers(headers)
self.check_headers(headers)
return status_code, headers
def check_headers(self, headers):
etag = headers.get('etag')
if etag is not None:
if etag.startswith('w/'):
etag = etag[2:]
if not (etag[:1] == etag[-1:] == '"'):
warn(HTTPWarning('unquoted etag emitted.'), stacklevel=4)
location = headers.get('location')
if location is not None:
if not urlparse(location).netloc:
warn(HTTPWarning('absolute URLs required for location header'),
stacklevel=4)
def check_iterator(self, app_iter):
if isinstance(app_iter, string_types):
warn(WSGIWarning('application returned string. Response will '
'send character for character to the client '
'which will kill the performance. Return a '
'list or iterable instead.'), stacklevel=3)
def __call__(self, *args, **kwargs):
if len(args) != 2:
warn(WSGIWarning('Two arguments to WSGI app required'), stacklevel=2)
if kwargs:
warn(WSGIWarning('No keyword arguments to WSGI app allowed'),
stacklevel=2)
environ, start_response = args
self.check_environ(environ)
environ['wsgi.input'] = InputStream(environ['wsgi.input'])
environ['wsgi.errors'] = ErrorStream(environ['wsgi.errors'])
# hook our own file wrapper in so that applications will always
# iterate to the end and we can check the content length
environ['wsgi.file_wrapper'] = FileWrapper
headers_set = []
chunks = []
def checking_start_response(*args, **kwargs):
if len(args) not in (2, 3):
warn(WSGIWarning('Invalid number of arguments: %s, expected '
'2 or 3' % len(args), stacklevel=2))
if kwargs:
warn(WSGIWarning('no keyword arguments allowed.'))
status, headers = args[:2]
if len(args) == 3:
exc_info = args[2]
else:
exc_info = None
headers_set[:] = self.check_start_response(status, headers,
exc_info)
return GuardedWrite(start_response(status, headers, exc_info),
chunks)
app_iter = self.app(environ, checking_start_response)
self.check_iterator(app_iter)
return GuardedIterator(app_iter, headers_set, chunks)
| apache-2.0 |
ahmadshahwan/cohorte-runtime | python/src/lib/python/unidecode/x0d3.py | 253 | 4705 | data = (
'tim', # 0x00
'tib', # 0x01
'tibs', # 0x02
'tis', # 0x03
'tiss', # 0x04
'ting', # 0x05
'tij', # 0x06
'tic', # 0x07
'tik', # 0x08
'tit', # 0x09
'tip', # 0x0a
'tih', # 0x0b
'pa', # 0x0c
'pag', # 0x0d
'pagg', # 0x0e
'pags', # 0x0f
'pan', # 0x10
'panj', # 0x11
'panh', # 0x12
'pad', # 0x13
'pal', # 0x14
'palg', # 0x15
'palm', # 0x16
'palb', # 0x17
'pals', # 0x18
'palt', # 0x19
'palp', # 0x1a
'palh', # 0x1b
'pam', # 0x1c
'pab', # 0x1d
'pabs', # 0x1e
'pas', # 0x1f
'pass', # 0x20
'pang', # 0x21
'paj', # 0x22
'pac', # 0x23
'pak', # 0x24
'pat', # 0x25
'pap', # 0x26
'pah', # 0x27
'pae', # 0x28
'paeg', # 0x29
'paegg', # 0x2a
'paegs', # 0x2b
'paen', # 0x2c
'paenj', # 0x2d
'paenh', # 0x2e
'paed', # 0x2f
'pael', # 0x30
'paelg', # 0x31
'paelm', # 0x32
'paelb', # 0x33
'paels', # 0x34
'paelt', # 0x35
'paelp', # 0x36
'paelh', # 0x37
'paem', # 0x38
'paeb', # 0x39
'paebs', # 0x3a
'paes', # 0x3b
'paess', # 0x3c
'paeng', # 0x3d
'paej', # 0x3e
'paec', # 0x3f
'paek', # 0x40
'paet', # 0x41
'paep', # 0x42
'paeh', # 0x43
'pya', # 0x44
'pyag', # 0x45
'pyagg', # 0x46
'pyags', # 0x47
'pyan', # 0x48
'pyanj', # 0x49
'pyanh', # 0x4a
'pyad', # 0x4b
'pyal', # 0x4c
'pyalg', # 0x4d
'pyalm', # 0x4e
'pyalb', # 0x4f
'pyals', # 0x50
'pyalt', # 0x51
'pyalp', # 0x52
'pyalh', # 0x53
'pyam', # 0x54
'pyab', # 0x55
'pyabs', # 0x56
'pyas', # 0x57
'pyass', # 0x58
'pyang', # 0x59
'pyaj', # 0x5a
'pyac', # 0x5b
'pyak', # 0x5c
'pyat', # 0x5d
'pyap', # 0x5e
'pyah', # 0x5f
'pyae', # 0x60
'pyaeg', # 0x61
'pyaegg', # 0x62
'pyaegs', # 0x63
'pyaen', # 0x64
'pyaenj', # 0x65
'pyaenh', # 0x66
'pyaed', # 0x67
'pyael', # 0x68
'pyaelg', # 0x69
'pyaelm', # 0x6a
'pyaelb', # 0x6b
'pyaels', # 0x6c
'pyaelt', # 0x6d
'pyaelp', # 0x6e
'pyaelh', # 0x6f
'pyaem', # 0x70
'pyaeb', # 0x71
'pyaebs', # 0x72
'pyaes', # 0x73
'pyaess', # 0x74
'pyaeng', # 0x75
'pyaej', # 0x76
'pyaec', # 0x77
'pyaek', # 0x78
'pyaet', # 0x79
'pyaep', # 0x7a
'pyaeh', # 0x7b
'peo', # 0x7c
'peog', # 0x7d
'peogg', # 0x7e
'peogs', # 0x7f
'peon', # 0x80
'peonj', # 0x81
'peonh', # 0x82
'peod', # 0x83
'peol', # 0x84
'peolg', # 0x85
'peolm', # 0x86
'peolb', # 0x87
'peols', # 0x88
'peolt', # 0x89
'peolp', # 0x8a
'peolh', # 0x8b
'peom', # 0x8c
'peob', # 0x8d
'peobs', # 0x8e
'peos', # 0x8f
'peoss', # 0x90
'peong', # 0x91
'peoj', # 0x92
'peoc', # 0x93
'peok', # 0x94
'peot', # 0x95
'peop', # 0x96
'peoh', # 0x97
'pe', # 0x98
'peg', # 0x99
'pegg', # 0x9a
'pegs', # 0x9b
'pen', # 0x9c
'penj', # 0x9d
'penh', # 0x9e
'ped', # 0x9f
'pel', # 0xa0
'pelg', # 0xa1
'pelm', # 0xa2
'pelb', # 0xa3
'pels', # 0xa4
'pelt', # 0xa5
'pelp', # 0xa6
'pelh', # 0xa7
'pem', # 0xa8
'peb', # 0xa9
'pebs', # 0xaa
'pes', # 0xab
'pess', # 0xac
'peng', # 0xad
'pej', # 0xae
'pec', # 0xaf
'pek', # 0xb0
'pet', # 0xb1
'pep', # 0xb2
'peh', # 0xb3
'pyeo', # 0xb4
'pyeog', # 0xb5
'pyeogg', # 0xb6
'pyeogs', # 0xb7
'pyeon', # 0xb8
'pyeonj', # 0xb9
'pyeonh', # 0xba
'pyeod', # 0xbb
'pyeol', # 0xbc
'pyeolg', # 0xbd
'pyeolm', # 0xbe
'pyeolb', # 0xbf
'pyeols', # 0xc0
'pyeolt', # 0xc1
'pyeolp', # 0xc2
'pyeolh', # 0xc3
'pyeom', # 0xc4
'pyeob', # 0xc5
'pyeobs', # 0xc6
'pyeos', # 0xc7
'pyeoss', # 0xc8
'pyeong', # 0xc9
'pyeoj', # 0xca
'pyeoc', # 0xcb
'pyeok', # 0xcc
'pyeot', # 0xcd
'pyeop', # 0xce
'pyeoh', # 0xcf
'pye', # 0xd0
'pyeg', # 0xd1
'pyegg', # 0xd2
'pyegs', # 0xd3
'pyen', # 0xd4
'pyenj', # 0xd5
'pyenh', # 0xd6
'pyed', # 0xd7
'pyel', # 0xd8
'pyelg', # 0xd9
'pyelm', # 0xda
'pyelb', # 0xdb
'pyels', # 0xdc
'pyelt', # 0xdd
'pyelp', # 0xde
'pyelh', # 0xdf
'pyem', # 0xe0
'pyeb', # 0xe1
'pyebs', # 0xe2
'pyes', # 0xe3
'pyess', # 0xe4
'pyeng', # 0xe5
'pyej', # 0xe6
'pyec', # 0xe7
'pyek', # 0xe8
'pyet', # 0xe9
'pyep', # 0xea
'pyeh', # 0xeb
'po', # 0xec
'pog', # 0xed
'pogg', # 0xee
'pogs', # 0xef
'pon', # 0xf0
'ponj', # 0xf1
'ponh', # 0xf2
'pod', # 0xf3
'pol', # 0xf4
'polg', # 0xf5
'polm', # 0xf6
'polb', # 0xf7
'pols', # 0xf8
'polt', # 0xf9
'polp', # 0xfa
'polh', # 0xfb
'pom', # 0xfc
'pob', # 0xfd
'pobs', # 0xfe
'pos', # 0xff
)
| apache-2.0 |
ejpbruel/servo | tests/wpt/web-platform-tests/tools/manifest/tests/test_manifest.py | 33 | 1660 | from .. import manifest, item as manifestitem, sourcefile
def test_local_reftest_add():
m = manifest.Manifest()
s = sourcefile.SourceFile("/", "test", "/")
test = manifestitem.RefTest(s, "/test", [("/ref", "==")])
m.local_changes.add(test)
assert list(m) == [(test.path, {test})]
def test_local_reftest_delete_path():
m = manifest.Manifest()
s = sourcefile.SourceFile("/", "test", "/")
test = manifestitem.RefTest(s, "/test", [("/ref", "==")])
m.add(test)
m.local_changes.add_deleted(test.path)
assert list(m) == []
def test_local_reftest_adjusted():
m = manifest.Manifest()
s = sourcefile.SourceFile("/", "test", "/")
test = manifestitem.RefTest(s, "/test", [("/ref", "==")])
m.add(test)
assert list(m) == [(test.path, {test})]
assert m.compute_reftests({test.path: {test}}) == {test}
test_1 = manifestitem.RefTest(s, "/test-1", [("/test", "==")])
m.local_changes.add(test_1)
assert m.compute_reftests({test.path: {test}, test_1.path: {test_1}}) == {test_1}
m.local_changes._deleted_reftests[test.path] = {test}
assert list(m) == [(test_1.path, {test_1})]
def test_manifest_to_json():
m = manifest.Manifest()
s = sourcefile.SourceFile("/", "test", "/")
test = manifestitem.RefTest(s, "/test", [("/ref", "==")])
m.add(test)
test_1 = manifestitem.RefTest(s, "/test-1", [("/test", "==")])
m.local_changes.add(test_1)
m.local_changes._deleted_reftests[test.path] = {test}
json_str = m.to_json()
loaded = manifest.Manifest.from_json("/", json_str)
assert list(loaded) == list(m)
assert loaded.to_json() == json_str
| mpl-2.0 |
konefalg/whylog | whylog/tests/tests_log_reader/__init__.py | 4 | 7710 | import os.path
from unittest import TestCase
import six
import yaml
from generator import generate, generator
from whylog.config import YamlConfig
from whylog.config.consts import DEFAULT_LOG_TYPE
from whylog.config.investigation_plan import LineSource
from whylog.config.parser_name_generator import ParserNameGenerator
from whylog.constraints.verifier import InvestigationResult
from whylog.front.utils import FrontInput
from whylog.log_reader import LogReader
from whylog.tests.tests_log_reader.constants import TestPaths
from whylog.tests.utils import ConfigPathFactory
path_test_files = ['whylog', 'tests', 'tests_log_reader', 'test_files']
test_names = (
'001_most_basic',
# '002_match_latest',
'003_match_time_range',
# '005_match_tree',
'006_match_parameter',
'007_match_or',
'008_match_and',
'009_match_negation',
'010_multiple_files',
'011_different_entry',
# '012_multiple_rulebooks',
# '013_match_and_incomplete',
) # yapf: disable
@generator
class TestBasic(TestCase):
def _get_cause_line_number(self, file_path):
"""
returns number of line that should be used as get_causes input
according to information contained in 'input.txt' file
"""
# it is reduced by 1 because auxiliary functions below use numerating from 0
return int(open(file_path).readline().split(":")[1].rstrip('\n')) - 1
def _get_starting_file_name(self, input_info_file_path):
return open(input_info_file_path).readline().split(":")[0].rstrip('\n')
def _get_concrete_line_from_file(self, file_path, line_num):
return [line.rstrip('\n') for line in open(file_path)][line_num]
def _deduce_line_offset(self, file_path, line_no):
""" returns offset of line 'line_no' in file 'file_path' """
return sum([len(line) for line in open(file_path)][0:line_no])
def _deduce_line_offset_by_unique_content(self, file_path, line_content):
all_lines = [line.rstrip('\n') for line in open(file_path)]
try:
line_no = all_lines.index(line_content)
except ValueError:
raise ValueError("Not found line '%s' in file '%s'" % (line_content, file_path))
return self._deduce_line_offset(file_path, line_no)
def _get_last_line_from_file(self, file_path):
return [line.rstrip('\n') for line in open(file_path)][-1]
def _investigation_results_from_yaml(self, yaml_file, real_log_file):
file_content = yaml.load(open(yaml_file))
results = []
for result in file_content:
causes = [
FrontInput(
self._deduce_line_offset_by_unique_content(real_log_file, line_str), line_str,
LineSource("localhost", real_log_file)
) for line_str in result['causes']
] # yapf: disable
results.append(InvestigationResult(causes, result['constraints'], result['linkage']))
return results
@classmethod
def _check_results(cls, results, expected_results):
# action and checking the result
assert results
assert len(results) == len(expected_results)
for got, real in six.moves.zip(results, expected_results):
assert got.lines == real.lines
for constr_got, constr_real in zip(got.constraints, real.constraints):
assert constr_got['name'] == constr_real['name']
@classmethod
def _prepare_files_path(cls, test_name):
# paths files setup
prefix_path = os.path.join(*TestPaths.path_test_files)
path = os.path.join(prefix_path, test_name)
input_path = os.path.join(path, 'input.txt')
# output_path = os.path.join(path, 'expected_output.txt') # FIXME is it really unnecessary?
original_log_file = os.path.join(path, 'node_1.log')
result_log_file = original_log_file
if test_name == "010_multiple_files":
result_log_file = os.path.join(path, 'node_2.log')
if test_name == "011_different_entry":
result_log_file = os.path.join(path, 'node_3.log')
results_yaml_file = os.path.join(path, 'investigation_results.yaml')
return input_path, original_log_file, path, result_log_file, results_yaml_file
def _gather_effect_line_data(self, input_path, original_log_file):
# gathering information about effect line
line_number = self._get_cause_line_number(input_path)
line_content = self._get_concrete_line_from_file(original_log_file, line_number)
effect_line_offset = self._deduce_line_offset(original_log_file, line_number)
return effect_line_offset, line_content
@generate(*test_names)
def test_one(self, test_name):
input_path, original_log_file, path, result_log_file, results_yaml_file = self._prepare_files_path(
test_name
)
effect_line_offset, line_content = self._gather_effect_line_data(
input_path, original_log_file
)
# preparing Whylog structures, normally prepared by Front
whylog_config = YamlConfig(*ConfigPathFactory.get_path_to_config_files(path))
log_reader = LogReader(whylog_config)
effect_line = FrontInput(
effect_line_offset, line_content,
LineSource('localhost', os.path.join(path, self._get_starting_file_name(input_path)))
)
results = log_reader.get_causes(effect_line)
expected_results = self._investigation_results_from_yaml(results_yaml_file, result_log_file)
self._check_results(results, expected_results)
@generate(*test_names)
def test_temporary_file_assign_to_logtype(self, test_name):
input_path, original_log_file, path, result_log_file, results_yaml_file = self._prepare_files_path(
test_name
)
effect_line_offset, line_content = self._gather_effect_line_data(
input_path, original_log_file
)
whylog_config = self._prepare_config(path)
log_reader = LogReader(whylog_config)
effect_line = FrontInput(
effect_line_offset, line_content,
LineSource('localhost', os.path.join(path, self._get_starting_file_name(input_path)))
)
node1_source = LineSource('localhost', os.path.join(path, 'node_1.log'))
node2_source = LineSource('localhost', os.path.join(path, 'node_2.log'))
node3_source = LineSource('localhost', os.path.join(path, 'node_3.log'))
temp_assign = {DEFAULT_LOG_TYPE: [node1_source]}
if test_name == "010_multiple_files":
temp_assign = {DEFAULT_LOG_TYPE: [node1_source, node2_source]}
if test_name == "011_different_entry":
temp_assign = {DEFAULT_LOG_TYPE: [node1_source, node2_source, node3_source]}
results = log_reader.get_causes(effect_line, temp_assign)
expected_results = self._investigation_results_from_yaml(results_yaml_file, result_log_file)
self._check_results(results, expected_results)
@classmethod
def _prepare_config(cls, path):
# preparing Whylog structures special for temporary assign file to log type test
whylog_config = YamlConfig(*ConfigPathFactory.get_path_to_config_files(path))
whylog_config._log_types = {"default": DEFAULT_LOG_TYPE}
for parser in six.itervalues(whylog_config._parsers):
parser.log_type = "default"
whylog_config._parser_name_generator = ParserNameGenerator(whylog_config._parsers)
whylog_config._parsers_grouped_by_log_type[
"default"
] = whylog_config._parsers_grouped_by_log_type.pop("test_log_type")
return whylog_config
| bsd-3-clause |
alex/django-debug-toolbar | debug_toolbar/utils/sqlparse/engine/__init__.py | 18 | 2339 | # Copyright (C) 2008 Andi Albrecht, albrecht.andi@gmail.com
#
# This module is part of python-sqlparse and is released under
# the BSD License: http://www.opensource.org/licenses/bsd-license.php.
"""filter"""
import re
from debug_toolbar.utils.sqlparse import lexer, SQLParseError
from debug_toolbar.utils.sqlparse.engine import grouping
from debug_toolbar.utils.sqlparse.engine.filter import StatementFilter
# XXX remove this when cleanup is complete
Filter = object
class FilterStack(object):
def __init__(self):
self.preprocess = []
self.stmtprocess = []
self.postprocess = []
self.split_statements = False
self._grouping = False
def _flatten(self, stream):
for token in stream:
if token.is_group():
for t in self._flatten(token.tokens):
yield t
else:
yield token
def enable_grouping(self):
self._grouping = True
def full_analyze(self):
self.enable_grouping()
def run(self, sql):
stream = lexer.tokenize(sql)
# Process token stream
if self.preprocess:
for filter_ in self.preprocess:
stream = filter_.process(self, stream)
if (self.stmtprocess or self.postprocess or self.split_statements
or self._grouping):
splitter = StatementFilter()
stream = splitter.process(self, stream)
if self._grouping:
def _group(stream):
for stmt in stream:
grouping.group(stmt)
yield stmt
stream = _group(stream)
if self.stmtprocess:
def _run(stream):
ret = []
for stmt in stream:
for filter_ in self.stmtprocess:
filter_.process(self, stmt)
ret.append(stmt)
return ret
stream = _run(stream)
if self.postprocess:
def _run(stream):
for stmt in stream:
stmt.tokens = list(self._flatten(stmt.tokens))
for filter_ in self.postprocess:
stmt = filter_.process(self, stmt)
yield stmt
stream = _run(stream)
return stream
| bsd-3-clause |
icomms/wqmanager | apps/aquatest_calendar/controller.py | 2 | 5546 | import eventCalBase
from samples.models import *
import calendar
class CalendarController(object):
"""Controller object for calendar"""
def __init__(self, day=1,q=0):
"""owner - owner of this calendar, day - day to shown"""
calendar.setfirstweekday(calendar.SUNDAY)
self.area = q
self.day = day
self.curr = None
self.db_cal = None
self.db_events = None
## database related operation (i.e. operation will sync with DB
def load(self, year, month):
"""load calendar with data from database"""
temp = filter_samples(0,month,year,0)
if temp: # either 1 record or no record , check models.py
self.db_cal = temp[0]
if self.area == 0:
self.db_events = filter_samples(0,month,year,self.area)
else:
self.db_events = filter_samples(0,month,year,self.area)
self.curr = eventCalBase.monthCalendar(self, year, month)
#put events to map a month
for db_e in self.db_events:
e = eventCalBase.event(db_e.id, db_e.taken_by,db_e.date_taken, db_e.sampling_point)
self.curr.addEvent(e, db_e.date_taken.day)
else:
self.curr = eventCalBase.monthCalendar(None,
year, month)
## functions used by template
def next(self):
"""return a tuple that contains next year and month"""
y = self.curr.year
m = self.curr.month
if m == 12:
m = 1
y += 1
else:
m += 1
return (y,m)
def prev(self):
"""return a tuple that contains previous year and month"""
y = self.curr.year
m = self.curr.month
if m == 1:
m = 12
y -= 1
else:
m -= 1
return (y,m)
def getWeekHeader(self):
"""return a list of week header"""
return calendar.weekheader(2).split()
def getMonthHeader(self):
"""return a tuple that contains abbv. month name and 4 digit year"""
return self.curr.getDate(1).strftime("%b"), self.curr.year
#put counts on the calendar
def getMonthCalendar(self):
"""return a matrix similar to calendar.monthCalendar(). Except
the element is replaced by (day, event exist,count)"""
res = []
for dayline in calendar.monthcalendar(self.curr.year, self.curr.month):
res_line = []
for day in dayline:
data = False
total = 0
abnormal = 0
if day in self.curr.events:
data = True
if self.area == 0:
a = filter_samples(day,self.curr.month,self.curr.year,0)
else:
a = filter_samples(day,self.curr.month,self.curr.year,self.area)
total = a.count()
#assigns td name to be used by css to put color
abnormal = get_normality(day,self.curr.month,self.curr.year)
res_line.append((day, data, total,abnormal))
res.append(res_line)
return res
def getDailyEvents(self):
"""return list of events for the day"""
return self.curr.getDailyEvents(self.day)
def hasDailyEvents(self):
"""return list of events for the day"""
return len(self.curr.getDailyEvents(self.day)) > 0
def getDayName(self):
result = 'th'
if self.day % 10 == 1 and self.day != 11:
result = 'st'
elif self.day % 10 == 2 and self.day != 12:
result = 'nd'
elif self.day % 10 == 3 and self.day != 13:
result = 'rd'
return result
#
#here is the database interaction
#
def filter_samples(day,month,year,area):
if area == 0 and month != 0 and day != 0:
a = Sample.objects.filter(date_taken__day = day,
date_taken__month = month,
date_taken__year = year)
elif area != 0 and day != 0:
a = Sample.objects.filter(date_taken__day = day,
date_taken__month = month,
date_taken__year = year,
sampling_point__wqmarea__id = area
)
elif day == 0 and area == 0:
a = Sample.objects.filter(date_taken__year=year, date_taken__month=month)
elif day ==0 and area != 0:
b = Sample.objects.filter(date_taken__year=year, date_taken__month=month)
a = b.filter(sampling_point__wqmarea = area)
return a
def get_normality(day,month,year):
samples = Sample.objects.filter(date_taken__day = day,
date_taken__month = month,
date_taken__year = year)
check = []
for sa in samples:
set = 0
resul = MeasuredValue.objects.filter(sample = sa)
for resu in resul:
a = NormalRange.objects.filter(value_rule__parameter = resu.parameter)
for kk in a:
#normal
if float(kk.minimum) <= float(resu.value) and float(resu.value) <= float(kk.maximum):
pass
else:#abnormal
set = set + 1
if set >= 1:
check.append(1)
#1 for 0 abnormal samples
#2 for 1 abnormal sample
#3 for more than 1 abnormal
if len(check) == 0:
normality = 1
elif len(check) == 1:
normality = 2
else:
normality = 3
return normality | bsd-3-clause |
elifesciences/elife-tools | elifetools/tests/fixtures/test_references_json/content_06_expected.py | 1 | 2157 | from collections import OrderedDict
expected = [
OrderedDict(
[
("type", u"journal"),
("id", u"bib12"),
(
"authors",
[
OrderedDict(
[
("type", "person"),
(
"name",
OrderedDict(
[
("preferred", u"Culumber ZW"),
("index", u"Culumber, ZW"),
]
),
),
]
),
OrderedDict(
[
("type", "person"),
(
"name",
OrderedDict(
[
("preferred", u"Ochoa OM"),
("index", u"Ochoa, OM"),
]
),
),
]
),
OrderedDict(
[
("type", "person"),
(
"name",
OrderedDict(
[
("preferred", u"Rosenthal GG"),
("index", u"Rosenthal, GG"),
]
),
),
]
),
],
),
(
"articleTitle",
u"Assortative mating and the maintenance of population structure in a natural hybrid zone",
),
("journal", u"American Naturalist"),
("pages", "In press"),
]
)
]
| mit |
supertom/ansible-modules-core | cloud/amazon/ec2_vpc_net.py | 21 | 10137 | #!/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/>.
DOCUMENTATION = '''
---
module: ec2_vpc_net
short_description: Configure AWS virtual private clouds
description:
- Create or terminate AWS virtual private clouds. This module has a dependency on python-boto.
version_added: "2.0"
author: Jonathan Davila (@defionscode)
options:
name:
description:
- The name to give your VPC. This is used in combination with the cidr_block paramater to determine if a VPC already exists.
required: yes
cidr_block:
description:
- The CIDR of the VPC
required: yes
tenancy:
description:
- Whether to be default or dedicated tenancy. This cannot be changed after the VPC has been created.
required: false
default: default
choices: [ 'default', 'dedicated' ]
dns_support:
description:
- Whether to enable AWS DNS support.
required: false
default: yes
choices: [ 'yes', 'no' ]
dns_hostnames:
description:
- Whether to enable AWS hostname support.
required: false
default: yes
choices: [ 'yes', 'no' ]
dhcp_opts_id:
description:
- the id of the DHCP options to use for this vpc
default: null
required: false
tags:
description:
- The tags you want attached to the VPC. This is independent of the name value, note if you pass a 'Name' key it would override the Name of the VPC if it's different.
default: None
required: false
aliases: [ 'resource_tags' ]
state:
description:
- The state of the VPC. Either absent or present.
default: present
required: false
choices: [ 'present', 'absent' ]
multi_ok:
description:
- By default the module will not create another VPC if there is another VPC with the same name and CIDR block. Specify this as true if you want duplicate VPCs created.
default: false
required: false
extends_documentation_fragment:
- aws
- ec2
'''
EXAMPLES = '''
# Note: These examples do not set authentication details, see the AWS Guide for details.
# Create a VPC with dedicate tenancy and a couple of tags
- ec2_vpc_net:
name: Module_dev2
cidr_block: 10.10.0.0/16
region: us-east-1
tags:
module: ec2_vpc_net
this: works
tenancy: dedicated
'''
try:
import boto
import boto.ec2
import boto.vpc
from boto.exception import BotoServerError
HAS_BOTO=True
except ImportError:
HAS_BOTO=False
def boto_exception(err):
'''generic error message handler'''
if hasattr(err, 'error_message'):
error = err.error_message
elif hasattr(err, 'message'):
error = err.message
else:
error = '%s: %s' % (Exception, err)
return error
def vpc_exists(module, vpc, name, cidr_block, multi):
"""Returns True or False in regards to the existence of a VPC. When supplied
with a CIDR, it will check for matching tags to determine if it is a match
otherwise it will assume the VPC does not exist and thus return false.
"""
matched_vpc = None
try:
matching_vpcs=vpc.get_all_vpcs(filters={'tag:Name' : name, 'cidr-block' : cidr_block})
except Exception as e:
e_msg=boto_exception(e)
module.fail_json(msg=e_msg)
if len(matching_vpcs) == 1:
matched_vpc = matching_vpcs[0]
elif len(matching_vpcs) > 1:
if multi:
module.fail_json(msg='Currently there are %d VPCs that have the same name and '
'CIDR block you specified. If you would like to create '
'the VPC anyway please pass True to the multi_ok param.' % len(matching_vpcs))
return matched_vpc
def update_vpc_tags(vpc, module, vpc_obj, tags, name):
if tags is None:
tags = dict()
tags.update({'Name': name})
try:
current_tags = dict((t.name, t.value) for t in vpc.get_all_tags(filters={'resource-id': vpc_obj.id}))
if cmp(tags, current_tags):
if not module.check_mode:
vpc.create_tags(vpc_obj.id, tags)
return True
else:
return False
except Exception as e:
e_msg=boto_exception(e)
module.fail_json(msg=e_msg)
def update_dhcp_opts(connection, module, vpc_obj, dhcp_id):
if vpc_obj.dhcp_options_id != dhcp_id:
if not module.check_mode:
connection.associate_dhcp_options(dhcp_id, vpc_obj.id)
return True
else:
return False
def get_vpc_values(vpc_obj):
if vpc_obj is not None:
vpc_values = vpc_obj.__dict__
if "region" in vpc_values:
vpc_values.pop("region")
if "item" in vpc_values:
vpc_values.pop("item")
if "connection" in vpc_values:
vpc_values.pop("connection")
return vpc_values
else:
return None
def main():
argument_spec=ec2_argument_spec()
argument_spec.update(dict(
name = dict(type='str', default=None, required=True),
cidr_block = dict(type='str', default=None, required=True),
tenancy = dict(choices=['default', 'dedicated'], default='default'),
dns_support = dict(type='bool', default=True),
dns_hostnames = dict(type='bool', default=True),
dhcp_opts_id = dict(type='str', default=None, required=False),
tags = dict(type='dict', required=False, default=None, aliases=['resource_tags']),
state = dict(choices=['present', 'absent'], default='present'),
multi_ok = dict(type='bool', default=False)
)
)
module = AnsibleModule(
argument_spec=argument_spec,
supports_check_mode=True
)
if not HAS_BOTO:
module.fail_json(msg='boto is required for this module')
name=module.params.get('name')
cidr_block=module.params.get('cidr_block')
tenancy=module.params.get('tenancy')
dns_support=module.params.get('dns_support')
dns_hostnames=module.params.get('dns_hostnames')
dhcp_id=module.params.get('dhcp_opts_id')
tags=module.params.get('tags')
state=module.params.get('state')
multi=module.params.get('multi_ok')
changed=False
region, ec2_url, aws_connect_params = get_aws_connection_info(module)
if region:
try:
connection = connect_to_aws(boto.vpc, region, **aws_connect_params)
except (boto.exception.NoAuthHandlerFound, AnsibleAWSError) as e:
module.fail_json(msg=str(e))
else:
module.fail_json(msg="region must be specified")
if dns_hostnames and not dns_support:
module.fail_json('In order to enable DNS Hostnames you must also enable DNS support')
if state == 'present':
# Check if VPC exists
vpc_obj = vpc_exists(module, connection, name, cidr_block, multi)
if vpc_obj is None:
try:
changed = True
if not module.check_mode:
vpc_obj = connection.create_vpc(cidr_block, instance_tenancy=tenancy)
else:
module.exit_json(changed=changed)
except BotoServerError as e:
module.fail_json(msg=e)
if dhcp_id is not None:
try:
if update_dhcp_opts(connection, module, vpc_obj, dhcp_id):
changed = True
except BotoServerError as e:
module.fail_json(msg=e)
if tags is not None or name is not None:
try:
if update_vpc_tags(connection, module, vpc_obj, tags, name):
changed = True
except BotoServerError as e:
module.fail_json(msg=e)
# Note: Boto currently doesn't currently provide an interface to ec2-describe-vpc-attribute
# which is needed in order to detect the current status of DNS options. For now we just update
# the attribute each time and is not used as a changed-factor.
try:
if not module.check_mode:
connection.modify_vpc_attribute(vpc_obj.id, enable_dns_support=dns_support)
connection.modify_vpc_attribute(vpc_obj.id, enable_dns_hostnames=dns_hostnames)
except BotoServerError as e:
e_msg=boto_exception(e)
module.fail_json(msg=e_msg)
if not module.check_mode:
# get the vpc obj again in case it has changed
try:
vpc_obj = connection.get_all_vpcs(vpc_obj.id)[0]
except BotoServerError as e:
e_msg=boto_exception(e)
module.fail_json(msg=e_msg)
module.exit_json(changed=changed, vpc=get_vpc_values(vpc_obj))
elif state == 'absent':
# Check if VPC exists
vpc_obj = vpc_exists(module, connection, name, cidr_block, multi)
if vpc_obj is not None:
try:
if not module.check_mode:
connection.delete_vpc(vpc_obj.id)
vpc_obj = None
changed = True
except BotoServerError as e:
e_msg = boto_exception(e)
module.fail_json(msg="%s. You may want to use the ec2_vpc_subnet, ec2_vpc_igw, "
"and/or ec2_vpc_route_table modules to ensure the other components are absent." % e_msg)
module.exit_json(changed=changed, vpc=get_vpc_values(vpc_obj))
# import module snippets
from ansible.module_utils.basic import *
from ansible.module_utils.ec2 import *
if __name__ == '__main__':
main()
| gpl-3.0 |
coxmediagroup/googleads-python-lib | examples/dfp/v201411/proposal_service/get_all_proposals.py | 4 | 1656 | #!/usr/bin/python
#
# Copyright 2014 Google Inc. 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.
"""This code example gets all proposals.
To create proposals, run create_proposals.py.
"""
__author__ = 'Nicholas Chen'
# Import appropriate modules from the client library.
from googleads import dfp
def main(client):
# Initialize appropriate service.
proposal_service = client.GetService('ProposalService', version='v201411')
# Create a filter statement.
statement = dfp.FilterStatement('ORDER BY id ASC')
# Get proposals by statement.
while True:
response = proposal_service.getProposalsByStatement(statement.ToStatement())
if 'results' in response:
# Display results.
for proposal in response['results']:
print ('Proposal with id \'%s\' and name \'%s\' was found.' % (
proposal['id'], proposal['name']))
statement.offset += dfp.SUGGESTED_PAGE_LIMIT
else:
break
print '\nNumber of results found: %s' % response['totalResultSetSize']
if __name__ == '__main__':
# Initialize client object.
dfp_client = dfp.DfpClient.LoadFromStorage()
main(dfp_client)
| apache-2.0 |
HiroIshikawa/21playground | flask-sample/hello/venv/lib/python3.5/site-packages/jinja2/_stringdefs.py | 990 | 404291 | # -*- 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.
"""
from jinja2._compat import unichr
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()
| mit |
yarikoptic/NiPy-OLD | examples/neurospin/demo_dmtx.py | 1 | 2005 | """ test code to make a design matrix
"""
import numpy as np
from nipy.neurospin.utils.design_matrix import dmtx_light
tr = 1.0
frametimes = np.linspace(0,127*tr,128)
conditions = [0,0,0,1,1,1,3,3,3]
onsets=[30,70,100,10,30,90,30,40,60]
hrf_model = 'Canonical'
motion = np.cumsum(np.random.randn(128,6),0)
add_reg_names = ['tx','ty','tz','rx','ry','rz']
#event-related design matrix
paradigm = np.vstack(([conditions, onsets])).T
x1,name1 = dmtx_light(frametimes, paradigm, drift_model='Polynomial',
drift_order=3, add_regs=motion, add_reg_names=add_reg_names)
# block design matrix
duration = 7*np.ones(9)
paradigm = np.vstack(([conditions, onsets, duration])).T
x2,name2 = dmtx_light(frametimes, paradigm, drift_model='Polynomial', drift_order=3)
# FIR model
paradigm = np.vstack(([conditions, onsets])).T
hrf_model = 'FIR'
x3,name3 = dmtx_light(frametimes, paradigm, hrf_model = 'FIR',
drift_model='Polynomial', drift_order=3,
fir_delays = range(1,6))
import matplotlib.pylab as mp
mp.figure()
mp.imshow(x1/np.sqrt(np.sum(x1**2,0)),interpolation='Nearest', aspect='auto')
mp.xlabel('conditions')
mp.ylabel('scan number')
if name1!=None:
mp.xticks(np.arange(len(name1)),name1,rotation=60,ha='right')
mp.subplots_adjust(top=0.95,bottom=0.25)
mp.title('Example of event-related design matrix')
mp.figure()
mp.imshow(x2/np.sqrt(np.sum(x2**2,0)),interpolation='Nearest', aspect='auto')
mp.xlabel('conditions')
mp.ylabel('scan number')
if name2!=None:
mp.xticks(np.arange(len(name2)),name2,rotation=60,ha='right')
mp.subplots_adjust(top=0.95,bottom=0.25)
mp.title('Example of block design matrix')
mp.figure()
mp.imshow(x3/np.sqrt(np.sum(x3**2,0)),interpolation='Nearest', aspect='auto')
mp.xlabel('conditions')
mp.ylabel('scan number')
if name3!=None:
mp.xticks(np.arange(len(name3)),name3,rotation=60,ha='right')
mp.subplots_adjust(top=0.95,bottom=0.25)
mp.title('Example of FIR design matrix')
mp.show()
| bsd-3-clause |
sarathid/Learning | Intro_to_ML/pca/eigenfaces.py | 9 | 4989 | """
===================================================
Faces recognition example using eigenfaces and SVMs
===================================================
The dataset used in this example is a preprocessed excerpt of the
"Labeled Faces in the Wild", aka LFW_:
http://vis-www.cs.umass.edu/lfw/lfw-funneled.tgz (233MB)
.. _LFW: http://vis-www.cs.umass.edu/lfw/
original source: http://scikit-learn.org/stable/auto_examples/applications/face_recognition.html
"""
print __doc__
from time import time
import logging
import pylab as pl
import numpy as np
from sklearn.cross_validation import train_test_split
from sklearn.datasets import fetch_lfw_people
from sklearn.grid_search import GridSearchCV
from sklearn.metrics import classification_report
from sklearn.metrics import confusion_matrix
from sklearn.decomposition import RandomizedPCA
from sklearn.svm import SVC
# Display progress logs on stdout
logging.basicConfig(level=logging.INFO, format='%(asctime)s %(message)s')
###############################################################################
# Download the data, if not already on disk and load it as numpy arrays
lfw_people = fetch_lfw_people(min_faces_per_person=70, resize=0.4)
# introspect the images arrays to find the shapes (for plotting)
n_samples, h, w = lfw_people.images.shape
np.random.seed(42)
# for machine learning we use the data directly (as relative pixel
# position info is ignored by this model)
X = lfw_people.data
n_features = X.shape[1]
# the label to predict is the id of the person
y = lfw_people.target
target_names = lfw_people.target_names
n_classes = target_names.shape[0]
print "Total dataset size:"
print "n_samples: %d" % n_samples
print "n_features: %d" % n_features
print "n_classes: %d" % n_classes
###############################################################################
# Split into a training and testing set
X_train, X_test, y_train, y_test = train_test_split(X, y, test_size=0.25, random_state=42)
###############################################################################
# Compute a PCA (eigenfaces) on the face dataset (treated as unlabeled
# dataset): unsupervised feature extraction / dimensionality reduction
n_components = 150
print "Extracting the top %d eigenfaces from %d faces" % (n_components, X_train.shape[0])
t0 = time()
pca = RandomizedPCA(n_components=n_components, whiten=True).fit(X_train)
print "done in %0.3fs" % (time() - t0)
eigenfaces = pca.components_.reshape((n_components, h, w))
print "Projecting the input data on the eigenfaces orthonormal basis"
t0 = time()
X_train_pca = pca.transform(X_train)
X_test_pca = pca.transform(X_test)
print "done in %0.3fs" % (time() - t0)
###############################################################################
# Train a SVM classification model
print "Fitting the classifier to the training set"
t0 = time()
param_grid = {
'C': [1e3, 5e3, 1e4, 5e4, 1e5],
'gamma': [0.0001, 0.0005, 0.001, 0.005, 0.01, 0.1],
}
# for sklearn version 0.16 or prior, the class_weight parameter value is 'auto'
clf = GridSearchCV(SVC(kernel='rbf', class_weight='balanced'), param_grid)
clf = clf.fit(X_train_pca, y_train)
print "done in %0.3fs" % (time() - t0)
print "Best estimator found by grid search:"
print clf.best_estimator_
###############################################################################
# Quantitative evaluation of the model quality on the test set
print "Predicting the people names on the testing set"
t0 = time()
y_pred = clf.predict(X_test_pca)
print "done in %0.3fs" % (time() - t0)
print classification_report(y_test, y_pred, target_names=target_names)
print confusion_matrix(y_test, y_pred, labels=range(n_classes))
###############################################################################
# Qualitative evaluation of the predictions using matplotlib
def plot_gallery(images, titles, h, w, n_row=3, n_col=4):
"""Helper function to plot a gallery of portraits"""
pl.figure(figsize=(1.8 * n_col, 2.4 * n_row))
pl.subplots_adjust(bottom=0, left=.01, right=.99, top=.90, hspace=.35)
for i in range(n_row * n_col):
pl.subplot(n_row, n_col, i + 1)
pl.imshow(images[i].reshape((h, w)), cmap=pl.cm.gray)
pl.title(titles[i], size=12)
pl.xticks(())
pl.yticks(())
# plot the result of the prediction on a portion of the test set
def title(y_pred, y_test, target_names, i):
pred_name = target_names[y_pred[i]].rsplit(' ', 1)[-1]
true_name = target_names[y_test[i]].rsplit(' ', 1)[-1]
return 'predicted: %s\ntrue: %s' % (pred_name, true_name)
prediction_titles = [title(y_pred, y_test, target_names, i)
for i in range(y_pred.shape[0])]
plot_gallery(X_test, prediction_titles, h, w)
# plot the gallery of the most significative eigenfaces
eigenface_titles = ["eigenface %d" % i for i in range(eigenfaces.shape[0])]
plot_gallery(eigenfaces, eigenface_titles, h, w)
pl.show()
| gpl-3.0 |
mtnbikenc/ansible-modules-extras | monitoring/sensu_subscription.py | 47 | 5171 | #!/usr/bin/python
# -*- coding: utf-8 -*-
# (c) 2014, Anders Ingemann <aim@secoya.dk>
#
# 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/>.
#
DOCUMENTATION = '''
---
module: sensu_subscription
short_description: Manage Sensu subscriptions
version_added: 2.2
description:
- Manage which I(sensu channels) a machine should subscribe to
options:
name:
description:
- The name of the channel
required: true
state:
description:
- Whether the machine should subscribe or unsubscribe from the channel
choices: [ 'present', 'absent' ]
required: false
default: present
path:
description:
- Path to the subscriptions json file
required: false
default: /etc/sensu/conf.d/subscriptions.json
backup:
description:
- Create a backup file (if yes), including the timestamp information so you
- can get the original file back if you somehow clobbered it incorrectly.
choices: [ 'yes', 'no' ]
required: false
default: no
requirements: [ ]
author: Anders Ingemann
'''
RETURN = '''
reasons:
description: the reasons why the moule changed or did not change something
returned: success
type: list
sample: ["channel subscription was absent and state is `present'"]
'''
EXAMPLES = '''
# Subscribe to the nginx channel
- name: subscribe to nginx checks
sensu_subscription: name=nginx
# Unsubscribe from the common checks channel
- name: unsubscribe from common checks
sensu_subscription: name=common state=absent
'''
def sensu_subscription(module, path, name, state='present', backup=False):
changed = False
reasons = []
try:
import json
except ImportError:
import simplejson as json
try:
config = json.load(open(path))
except IOError:
e = get_exception()
if e.errno is 2: # File not found, non-fatal
if state == 'absent':
reasons.append('file did not exist and state is `absent\'')
return changed, reasons
config = {}
else:
module.fail_json(msg=str(e))
except ValueError:
msg = '{path} contains invalid JSON'.format(path=path)
module.fail_json(msg=msg)
if 'client' not in config:
if state == 'absent':
reasons.append('`client\' did not exist and state is `absent\'')
return changed, reasons
config['client'] = {}
changed = True
reasons.append('`client\' did not exist')
if 'subscriptions' not in config['client']:
if state == 'absent':
reasons.append('`client.subscriptions\' did not exist and state is `absent\'')
return changed
config['client']['subscriptions'] = []
changed = True
reasons.append('`client.subscriptions\' did not exist')
if name not in config['client']['subscriptions']:
if state == 'absent':
reasons.append('channel subscription was absent')
return changed
config['client']['subscriptions'].append(name)
changed = True
reasons.append('channel subscription was absent and state is `present\'')
else:
if state == 'absent':
config['client']['subscriptions'].remove(name)
changed = True
reasons.append('channel subscription was present and state is `absent\'')
if changed and not module.check_mode:
if backup:
module.backup_local(path)
try:
open(path, 'w').write(json.dumps(config, indent=2) + '\n')
except IOError:
e = get_exception()
module.fail_json(msg='Failed to write to file %s: %s' % (path, str(e)))
return changed, reasons
def main():
arg_spec = {'name': {'type': 'str', 'required': True},
'path': {'type': 'str', 'default': '/etc/sensu/conf.d/subscriptions.json'},
'state': {'type': 'str', 'default': 'present', 'choices': ['present', 'absent']},
'backup': {'type': 'str', 'default': 'no', 'type': 'bool'},
}
module = AnsibleModule(argument_spec=arg_spec,
supports_check_mode=True)
path = module.params['path']
name = module.params['name']
state = module.params['state']
backup = module.params['backup']
changed, reasons = sensu_subscription(module, path, name, state, backup)
module.exit_json(path=path, name=name, changed=changed, msg='OK', reasons=reasons)
from ansible.module_utils.basic import *
if __name__ == '__main__':
main()
| gpl-3.0 |
skycucumber/xuemc | python/venv/lib/python2.7/site-packages/pbr/packaging.py | 5 | 23791 | # Copyright 2011 OpenStack LLC.
# Copyright 2012-2013 Hewlett-Packard Development Company, L.P.
# 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.
"""
Utilities with minimum-depends for use in setup.py
"""
from __future__ import unicode_literals
from distutils.command import install as du_install
from distutils import log
import email
import os
import re
import sys
import pkg_resources
from setuptools.command import develop
from setuptools.command import easy_install
from setuptools.command import egg_info
from setuptools.command import install
from setuptools.command import install_scripts
from setuptools.command import sdist
from pbr import extra_files
from pbr import git
from pbr import options
import pbr.pbr_json
from pbr import version
REQUIREMENTS_FILES = ('requirements.txt', 'tools/pip-requires')
TEST_REQUIREMENTS_FILES = ('test-requirements.txt', 'tools/test-requires')
def get_requirements_files():
files = os.environ.get("PBR_REQUIREMENTS_FILES")
if files:
return tuple(f.strip() for f in files.split(','))
# Returns a list composed of:
# - REQUIREMENTS_FILES with -py2 or -py3 in the name
# (e.g. requirements-py3.txt)
# - REQUIREMENTS_FILES
return (list(map(('-py' + str(sys.version_info[0])).join,
map(os.path.splitext, REQUIREMENTS_FILES)))
+ list(REQUIREMENTS_FILES))
def append_text_list(config, key, text_list):
"""Append a \n separated list to possibly existing value."""
new_value = []
current_value = config.get(key, "")
if current_value:
new_value.append(current_value)
new_value.extend(text_list)
config[key] = '\n'.join(new_value)
def _pip_install(links, requires, root=None, option_dict=dict()):
if options.get_boolean_option(
option_dict, 'skip_pip_install', 'SKIP_PIP_INSTALL'):
return
cmd = [sys.executable, '-m', 'pip.__init__', 'install']
if root:
cmd.append("--root=%s" % root)
for link in links:
cmd.append("-f")
cmd.append(link)
# NOTE(ociuhandu): popen on Windows does not accept unicode strings
git._run_shell_command(
cmd + requires,
throw_on_error=True, buffer=False, env=dict(PIP_USE_WHEEL=b"true"))
def _any_existing(file_list):
return [f for f in file_list if os.path.exists(f)]
# Get requirements from the first file that exists
def get_reqs_from_files(requirements_files):
for requirements_file in _any_existing(requirements_files):
with open(requirements_file, 'r') as fil:
return fil.read().split('\n')
return []
def parse_requirements(requirements_files=None):
if requirements_files is None:
requirements_files = get_requirements_files()
def egg_fragment(match):
# take a versioned egg fragment and return a
# versioned package requirement e.g.
# nova-1.2.3 becomes nova>=1.2.3
return re.sub(r'([\w.]+)-([\w.-]+)',
r'\1>=\2',
match.group(1))
requirements = []
for line in get_reqs_from_files(requirements_files):
# Ignore comments
if (not line.strip()) or line.startswith('#'):
continue
# Handle nested requirements files such as:
# -r other-requirements.txt
if line.startswith('-r'):
req_file = line.partition(' ')[2]
requirements += parse_requirements([req_file])
continue
try:
project_name = pkg_resources.Requirement.parse(line).project_name
except ValueError:
project_name = None
# For the requirements list, we need to inject only the portion
# after egg= so that distutils knows the package it's looking for
# such as:
# -e git://github.com/openstack/nova/master#egg=nova
# -e git://github.com/openstack/nova/master#egg=nova-1.2.3
if re.match(r'\s*-e\s+', line):
line = re.sub(r'\s*-e\s+.*#egg=(.*)$', egg_fragment, line)
# such as:
# http://github.com/openstack/nova/zipball/master#egg=nova
# http://github.com/openstack/nova/zipball/master#egg=nova-1.2.3
elif re.match(r'\s*https?:', line):
line = re.sub(r'\s*https?:.*#egg=(.*)$', egg_fragment, line)
# -f lines are for index locations, and don't get used here
elif re.match(r'\s*-f\s+', line):
line = None
reason = 'Index Location'
if line is not None:
requirements.append(line)
else:
log.info(
'[pbr] Excluding %s: %s' % (project_name, reason))
return requirements
def parse_dependency_links(requirements_files=None):
if requirements_files is None:
requirements_files = get_requirements_files()
dependency_links = []
# dependency_links inject alternate locations to find packages listed
# in requirements
for line in get_reqs_from_files(requirements_files):
# skip comments and blank lines
if re.match(r'(\s*#)|(\s*$)', line):
continue
# lines with -e or -f need the whole line, minus the flag
if re.match(r'\s*-[ef]\s+', line):
dependency_links.append(re.sub(r'\s*-[ef]\s+', '', line))
# lines that are only urls can go in unmolested
elif re.match(r'\s*https?:', line):
dependency_links.append(line)
return dependency_links
class LocalInstall(install.install):
"""Runs python setup.py install in a sensible manner.
Force a non-egg installed in the manner of
single-version-externally-managed, which allows us to install manpages
and config files.
Because non-egg installs bypass the depend processing machinery, we
need to do our own. Because easy_install is evil, just use pip to
process our requirements files directly, which means we don't have to
do crazy extra processing.
Bypass installation if --single-version-externally-managed is given,
so that behavior for packagers remains the same.
"""
command_name = 'install'
def run(self):
option_dict = self.distribution.get_option_dict('pbr')
if (not self.single_version_externally_managed
and self.distribution.install_requires):
_pip_install(
self.distribution.dependency_links,
self.distribution.install_requires, self.root,
option_dict=option_dict)
return du_install.install.run(self)
def _newer_requires_files(egg_info_dir):
"""Check to see if any of the requires files are newer than egg-info."""
for target, sources in (('requires.txt', get_requirements_files()),
('test-requires.txt', TEST_REQUIREMENTS_FILES)):
target_path = os.path.join(egg_info_dir, target)
for src in _any_existing(sources):
if (not os.path.exists(target_path) or
os.path.getmtime(target_path)
< os.path.getmtime(src)):
return True
return False
def _copy_test_requires_to(egg_info_dir):
"""Copy the requirements file to egg-info/test-requires.txt."""
with open(os.path.join(egg_info_dir, 'test-requires.txt'), 'w') as dest:
for source in _any_existing(TEST_REQUIREMENTS_FILES):
dest.write(open(source, 'r').read().rstrip('\n') + '\n')
class _PipInstallTestRequires(object):
"""Mixin class to install test-requirements.txt before running tests."""
def install_test_requirements(self):
links = parse_dependency_links(TEST_REQUIREMENTS_FILES)
if self.distribution.tests_require:
option_dict = self.distribution.get_option_dict('pbr')
_pip_install(
links, self.distribution.tests_require,
option_dict=option_dict)
def pre_run(self):
self.egg_name = pkg_resources.safe_name(self.distribution.get_name())
self.egg_info = "%s.egg-info" % pkg_resources.to_filename(
self.egg_name)
if (not os.path.exists(self.egg_info) or
_newer_requires_files(self.egg_info)):
ei_cmd = self.get_finalized_command('egg_info')
ei_cmd.run()
self.install_test_requirements()
_copy_test_requires_to(self.egg_info)
try:
from pbr import testr_command
class TestrTest(testr_command.Testr, _PipInstallTestRequires):
"""Make setup.py test do the right thing."""
command_name = 'test'
def run(self):
self.pre_run()
# Can't use super - base class old-style class
testr_command.Testr.run(self)
_have_testr = True
except ImportError:
_have_testr = False
def have_testr():
return _have_testr
try:
from nose import commands
class NoseTest(commands.nosetests, _PipInstallTestRequires):
"""Fallback test runner if testr is a no-go."""
command_name = 'test'
def run(self):
self.pre_run()
# Can't use super - base class old-style class
commands.nosetests.run(self)
_have_nose = True
except ImportError:
_have_nose = False
def have_nose():
return _have_nose
_script_text = """# PBR Generated from %(group)r
import sys
from %(module_name)s import %(import_target)s
if __name__ == "__main__":
sys.exit(%(invoke_target)s())
"""
def override_get_script_args(
dist, executable=os.path.normpath(sys.executable), is_wininst=False):
"""Override entrypoints console_script."""
header = easy_install.get_script_header("", executable, is_wininst)
for group in 'console_scripts', 'gui_scripts':
for name, ep in dist.get_entry_map(group).items():
if not ep.attrs or len(ep.attrs) > 2:
raise ValueError("Script targets must be of the form "
"'func' or 'Class.class_method'.")
script_text = _script_text % dict(
group=group,
module_name=ep.module_name,
import_target=ep.attrs[0],
invoke_target='.'.join(ep.attrs),
)
yield (name, header + script_text)
class LocalDevelop(develop.develop):
command_name = 'develop'
def install_wrapper_scripts(self, dist):
if sys.platform == 'win32':
return develop.develop.install_wrapper_scripts(self, dist)
if not self.exclude_scripts:
for args in override_get_script_args(dist):
self.write_script(*args)
class LocalInstallScripts(install_scripts.install_scripts):
"""Intercepts console scripts entry_points."""
command_name = 'install_scripts'
def run(self):
import distutils.command.install_scripts
self.run_command("egg_info")
if self.distribution.scripts:
# run first to set up self.outfiles
distutils.command.install_scripts.install_scripts.run(self)
else:
self.outfiles = []
if self.no_ep:
# don't install entry point scripts into .egg file!
return
ei_cmd = self.get_finalized_command("egg_info")
dist = pkg_resources.Distribution(
ei_cmd.egg_base,
pkg_resources.PathMetadata(ei_cmd.egg_base, ei_cmd.egg_info),
ei_cmd.egg_name, ei_cmd.egg_version,
)
bs_cmd = self.get_finalized_command('build_scripts')
executable = getattr(
bs_cmd, 'executable', easy_install.sys_executable)
is_wininst = getattr(
self.get_finalized_command("bdist_wininst"), '_is_running', False
)
if os.name != 'nt':
get_script_args = override_get_script_args
else:
get_script_args = easy_install.get_script_args
executable = '"%s"' % executable
for args in get_script_args(dist, executable, is_wininst):
self.write_script(*args)
class LocalManifestMaker(egg_info.manifest_maker):
"""Add any files that are in git and some standard sensible files."""
def _add_pbr_defaults(self):
for template_line in [
'include AUTHORS',
'include ChangeLog',
'exclude .gitignore',
'exclude .gitreview',
'global-exclude *.pyc'
]:
self.filelist.process_template_line(template_line)
def add_defaults(self):
option_dict = self.distribution.get_option_dict('pbr')
sdist.sdist.add_defaults(self)
self.filelist.append(self.template)
self.filelist.append(self.manifest)
self.filelist.extend(extra_files.get_extra_files())
should_skip = options.get_boolean_option(option_dict, 'skip_git_sdist',
'SKIP_GIT_SDIST')
if not should_skip:
rcfiles = git._find_git_files()
if rcfiles:
self.filelist.extend(rcfiles)
elif os.path.exists(self.manifest):
self.read_manifest()
ei_cmd = self.get_finalized_command('egg_info')
self._add_pbr_defaults()
self.filelist.include_pattern("*", prefix=ei_cmd.egg_info)
class LocalEggInfo(egg_info.egg_info):
"""Override the egg_info command to regenerate SOURCES.txt sensibly."""
command_name = 'egg_info'
def find_sources(self):
"""Generate SOURCES.txt only if there isn't one already.
If we are in an sdist command, then we always want to update
SOURCES.txt. If we are not in an sdist command, then it doesn't
matter one flip, and is actually destructive.
However, if we're in a git context, it's always the right thing to do
to recreate SOURCES.txt
"""
manifest_filename = os.path.join(self.egg_info, "SOURCES.txt")
if (not os.path.exists(manifest_filename) or
os.path.exists('.git') or
'sdist' in sys.argv):
log.info("[pbr] Processing SOURCES.txt")
mm = LocalManifestMaker(self.distribution)
mm.manifest = manifest_filename
mm.run()
self.filelist = mm.filelist
else:
log.info("[pbr] Reusing existing SOURCES.txt")
self.filelist = egg_info.FileList()
for entry in open(manifest_filename, 'r').read().split('\n'):
self.filelist.append(entry)
class LocalSDist(sdist.sdist):
"""Builds the ChangeLog and Authors files from VC first."""
command_name = 'sdist'
def run(self):
option_dict = self.distribution.get_option_dict('pbr')
changelog = git._iter_log_oneline(option_dict=option_dict)
if changelog:
changelog = git._iter_changelog(changelog)
git.write_git_changelog(option_dict=option_dict, changelog=changelog)
git.generate_authors(option_dict=option_dict)
# sdist.sdist is an old style class, can't use super()
sdist.sdist.run(self)
try:
from pbr import builddoc
_have_sphinx = True
# Import the symbols from their new home so the package API stays
# compatible.
LocalBuildDoc = builddoc.LocalBuildDoc
LocalBuildLatex = builddoc.LocalBuildLatex
except ImportError:
_have_sphinx = False
LocalBuildDoc = None
LocalBuildLatex = None
def have_sphinx():
return _have_sphinx
def _get_increment_kwargs(git_dir, tag):
"""Calculate the sort of semver increment needed from git history.
Every commit from HEAD to tag is consider for Sem-Ver metadata lines.
See the pbr docs for their syntax.
:return: a dict of kwargs for passing into SemanticVersion.increment.
"""
result = {}
if tag:
version_spec = tag + "..HEAD"
else:
version_spec = "HEAD"
changelog = git._run_git_command(['log', version_spec], git_dir)
header_len = len(' sem-ver:')
commands = [line[header_len:].strip() for line in changelog.split('\n')
if line.lower().startswith(' sem-ver:')]
symbols = set()
for command in commands:
symbols.update([symbol.strip() for symbol in command.split(',')])
def _handle_symbol(symbol, symbols, impact):
if symbol in symbols:
result[impact] = True
symbols.discard(symbol)
_handle_symbol('bugfix', symbols, 'patch')
_handle_symbol('feature', symbols, 'minor')
_handle_symbol('deprecation', symbols, 'minor')
_handle_symbol('api-break', symbols, 'major')
for symbol in symbols:
log.info('[pbr] Unknown Sem-Ver symbol %r' % symbol)
# We don't want patch in the kwargs since it is not a keyword argument -
# its the default minimum increment.
result.pop('patch', None)
return result
def _get_revno_and_last_tag(git_dir):
"""Return the commit data about the most recent tag.
We use git-describe to find this out, but if there are no
tags then we fall back to counting commits since the beginning
of time.
"""
changelog = git._iter_log_oneline(git_dir=git_dir)
row_count = 0
for row_count, (ignored, tag_set, ignored) in enumerate(changelog):
version_tags = set()
for tag in list(tag_set):
try:
version_tags.add(version.SemanticVersion.from_pip_string(tag))
except Exception:
pass
if version_tags:
return max(version_tags).release_string(), row_count
return "", row_count
def _get_version_from_git_target(git_dir, target_version):
"""Calculate a version from a target version in git_dir.
This is used for untagged versions only. A new version is calculated as
necessary based on git metadata - distance to tags, current hash, contents
of commit messages.
:param git_dir: The git directory we're working from.
:param target_version: If None, the last tagged version (or 0 if there are
no tags yet) is incremented as needed to produce an appropriate target
version following semver rules. Otherwise target_version is used as a
constraint - if semver rules would result in a newer version then an
exception is raised.
:return: A semver version object.
"""
tag, distance = _get_revno_and_last_tag(git_dir)
last_semver = version.SemanticVersion.from_pip_string(tag or '0')
if distance == 0:
new_version = last_semver
else:
new_version = last_semver.increment(
**_get_increment_kwargs(git_dir, tag))
if target_version is not None and new_version > target_version:
raise ValueError(
"git history requires a target version of %(new)s, but target "
"version is %(target)s" %
dict(new=new_version, target=target_version))
if distance == 0:
return last_semver
new_dev = new_version.to_dev(distance)
if target_version is not None:
target_dev = target_version.to_dev(distance)
if target_dev > new_dev:
return target_dev
return new_dev
def _get_version_from_git(pre_version=None):
"""Calculate a version string from git.
If the revision is tagged, return that. Otherwise calculate a semantic
version description of the tree.
The number of revisions since the last tag is included in the dev counter
in the version for untagged versions.
:param pre_version: If supplied use this as the target version rather than
inferring one from the last tag + commit messages.
"""
git_dir = git._run_git_functions()
if git_dir:
try:
tagged = git._run_git_command(
['describe', '--exact-match'], git_dir,
throw_on_error=True).replace('-', '.')
target_version = version.SemanticVersion.from_pip_string(tagged)
except Exception:
if pre_version:
# not released yet - use pre_version as the target
target_version = version.SemanticVersion.from_pip_string(
pre_version)
else:
# not released yet - just calculate from git history
target_version = None
result = _get_version_from_git_target(git_dir, target_version)
return result.release_string()
# If we don't know the version, return an empty string so at least
# the downstream users of the value always have the same type of
# object to work with.
try:
return unicode()
except NameError:
return ''
def _get_version_from_pkg_metadata(package_name):
"""Get the version from package metadata if present.
This looks for PKG-INFO if present (for sdists), and if not looks
for METADATA (for wheels) and failing that will return None.
"""
pkg_metadata_filenames = ['PKG-INFO', 'METADATA']
pkg_metadata = {}
for filename in pkg_metadata_filenames:
try:
pkg_metadata_file = open(filename, 'r')
except (IOError, OSError):
continue
try:
pkg_metadata = email.message_from_file(pkg_metadata_file)
except email.MessageError:
continue
# Check to make sure we're in our own dir
if pkg_metadata.get('Name', None) != package_name:
return None
return pkg_metadata.get('Version', None)
def get_version(package_name, pre_version=None):
"""Get the version of the project. First, try getting it from PKG-INFO or
METADATA, if it exists. If it does, that means we're in a distribution
tarball or that install has happened. Otherwise, if there is no PKG-INFO
or METADATA file, pull the version from git.
We do not support setup.py version sanity in git archive tarballs, nor do
we support packagers directly sucking our git repo into theirs. We expect
that a source tarball be made from our git repo - or that if someone wants
to make a source tarball from a fork of our repo with additional tags in it
that they understand and desire the results of doing that.
:param pre_version: The version field from setup.cfg - if set then this
version will be the next release.
"""
version = os.environ.get(
"PBR_VERSION",
os.environ.get("OSLO_PACKAGE_VERSION", None))
if version:
return version
version = _get_version_from_pkg_metadata(package_name)
if version:
return version
version = _get_version_from_git(pre_version)
# Handle http://bugs.python.org/issue11638
# version will either be an empty unicode string or a valid
# unicode version string, but either way it's unicode and needs to
# be encoded.
if sys.version_info[0] == 2:
version = version.encode('utf-8')
if version:
return version
raise Exception("Versioning for this project requires either an sdist"
" tarball, or access to an upstream git repository."
" Are you sure that git is installed?")
# This is added because pbr uses pbr to install itself. That means that
# any changes to the egg info writer entrypoints must be forward and
# backward compatible. This maintains the pbr.packaging.write_pbr_json
# path.
write_pbr_json = pbr.pbr_json.write_pbr_json
| gpl-2.0 |
grevutiu-gabriel/sympy | sympy/physics/quantum/tests/test_spin.py | 80 | 320440 | from __future__ import division
from sympy import cos, exp, expand, I, Matrix, pi, S, sin, sqrt, Sum, symbols
from sympy.abc import alpha, beta, gamma, j, m
from sympy.physics.quantum import hbar, represent, Commutator, InnerProduct
from sympy.physics.quantum.qapply import qapply
from sympy.physics.quantum.tensorproduct import TensorProduct
from sympy.physics.quantum.cg import CG
from sympy.physics.quantum.spin import (
Jx, Jy, Jz, Jplus, Jminus, J2,
JxBra, JyBra, JzBra,
JxKet, JyKet, JzKet,
JxKetCoupled, JyKetCoupled, JzKetCoupled,
couple, uncouple,
Rotation, WignerD
)
from sympy.utilities.pytest import raises, slow
j1, j2, j3, j4, m1, m2, m3, m4 = symbols('j1:5 m1:5')
j12, j13, j24, j34, j123, j134, mi, mi1, mp = symbols(
'j12 j13 j24 j34 j123 j134 mi mi1 mp')
def test_represent_spin_operators():
assert represent(Jx) == hbar*Matrix([[0, 1], [1, 0]])/2
assert represent(
Jx, j=1) == hbar*sqrt(2)*Matrix([[0, 1, 0], [1, 0, 1], [0, 1, 0]])/2
assert represent(Jy) == hbar*I*Matrix([[0, -1], [1, 0]])/2
assert represent(Jy, j=1) == hbar*I*sqrt(2)*Matrix([[0, -1, 0], [1,
0, -1], [0, 1, 0]])/2
assert represent(Jz) == hbar*Matrix([[1, 0], [0, -1]])/2
assert represent(
Jz, j=1) == hbar*Matrix([[1, 0, 0], [0, 0, 0], [0, 0, -1]])
def test_represent_spin_states():
# Jx basis
assert represent(JxKet(S(1)/2, S(1)/2), basis=Jx) == Matrix([1, 0])
assert represent(JxKet(S(1)/2, -S(1)/2), basis=Jx) == Matrix([0, 1])
assert represent(JxKet(1, 1), basis=Jx) == Matrix([1, 0, 0])
assert represent(JxKet(1, 0), basis=Jx) == Matrix([0, 1, 0])
assert represent(JxKet(1, -1), basis=Jx) == Matrix([0, 0, 1])
assert represent(
JyKet(S(1)/2, S(1)/2), basis=Jx) == Matrix([exp(-I*pi/4), 0])
assert represent(
JyKet(S(1)/2, -S(1)/2), basis=Jx) == Matrix([0, exp(I*pi/4)])
assert represent(JyKet(1, 1), basis=Jx) == Matrix([-I, 0, 0])
assert represent(JyKet(1, 0), basis=Jx) == Matrix([0, 1, 0])
assert represent(JyKet(1, -1), basis=Jx) == Matrix([0, 0, I])
assert represent(
JzKet(S(1)/2, S(1)/2), basis=Jx) == sqrt(2)*Matrix([-1, 1])/2
assert represent(
JzKet(S(1)/2, -S(1)/2), basis=Jx) == sqrt(2)*Matrix([-1, -1])/2
assert represent(JzKet(1, 1), basis=Jx) == Matrix([1, -sqrt(2), 1])/2
assert represent(JzKet(1, 0), basis=Jx) == sqrt(2)*Matrix([1, 0, -1])/2
assert represent(JzKet(1, -1), basis=Jx) == Matrix([1, sqrt(2), 1])/2
# Jy basis
assert represent(
JxKet(S(1)/2, S(1)/2), basis=Jy) == Matrix([exp(-3*I*pi/4), 0])
assert represent(
JxKet(S(1)/2, -S(1)/2), basis=Jy) == Matrix([0, exp(3*I*pi/4)])
assert represent(JxKet(1, 1), basis=Jy) == Matrix([I, 0, 0])
assert represent(JxKet(1, 0), basis=Jy) == Matrix([0, 1, 0])
assert represent(JxKet(1, -1), basis=Jy) == Matrix([0, 0, -I])
assert represent(JyKet(S(1)/2, S(1)/2), basis=Jy) == Matrix([1, 0])
assert represent(JyKet(S(1)/2, -S(1)/2), basis=Jy) == Matrix([0, 1])
assert represent(JyKet(1, 1), basis=Jy) == Matrix([1, 0, 0])
assert represent(JyKet(1, 0), basis=Jy) == Matrix([0, 1, 0])
assert represent(JyKet(1, -1), basis=Jy) == Matrix([0, 0, 1])
assert represent(
JzKet(S(1)/2, S(1)/2), basis=Jy) == sqrt(2)*Matrix([-1, I])/2
assert represent(
JzKet(S(1)/2, -S(1)/2), basis=Jy) == sqrt(2)*Matrix([I, -1])/2
assert represent(JzKet(1, 1), basis=Jy) == Matrix([1, -I*sqrt(2), -1])/2
assert represent(
JzKet(1, 0), basis=Jy) == Matrix([-sqrt(2)*I, 0, -sqrt(2)*I])/2
assert represent(JzKet(1, -1), basis=Jy) == Matrix([-1, -sqrt(2)*I, 1])/2
# Jz basis
assert represent(
JxKet(S(1)/2, S(1)/2), basis=Jz) == sqrt(2)*Matrix([1, 1])/2
assert represent(
JxKet(S(1)/2, -S(1)/2), basis=Jz) == sqrt(2)*Matrix([-1, 1])/2
assert represent(JxKet(1, 1), basis=Jz) == Matrix([1, sqrt(2), 1])/2
assert represent(JxKet(1, 0), basis=Jz) == sqrt(2)*Matrix([-1, 0, 1])/2
assert represent(JxKet(1, -1), basis=Jz) == Matrix([1, -sqrt(2), 1])/2
assert represent(
JyKet(S(1)/2, S(1)/2), basis=Jz) == sqrt(2)*Matrix([-1, -I])/2
assert represent(
JyKet(S(1)/2, -S(1)/2), basis=Jz) == sqrt(2)*Matrix([-I, -1])/2
assert represent(JyKet(1, 1), basis=Jz) == Matrix([1, sqrt(2)*I, -1])/2
assert represent(JyKet(1, 0), basis=Jz) == sqrt(2)*Matrix([I, 0, I])/2
assert represent(JyKet(1, -1), basis=Jz) == Matrix([-1, sqrt(2)*I, 1])/2
assert represent(JzKet(S(1)/2, S(1)/2), basis=Jz) == Matrix([1, 0])
assert represent(JzKet(S(1)/2, -S(1)/2), basis=Jz) == Matrix([0, 1])
assert represent(JzKet(1, 1), basis=Jz) == Matrix([1, 0, 0])
assert represent(JzKet(1, 0), basis=Jz) == Matrix([0, 1, 0])
assert represent(JzKet(1, -1), basis=Jz) == Matrix([0, 0, 1])
def test_represent_uncoupled_states():
# Jx basis
assert represent(TensorProduct(JxKet(S(1)/2, S(1)/2), JxKet(S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([1, 0, 0, 0])
assert represent(TensorProduct(JxKet(S(1)/2, S(1)/2), JxKet(S(1)/2, -S(1)/2)), basis=Jx) == \
Matrix([0, 1, 0, 0])
assert represent(TensorProduct(JxKet(S(1)/2, -S(1)/2), JxKet(S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, 0, 1, 0])
assert represent(TensorProduct(JxKet(S(1)/2, -S(1)/2), JxKet(S(1)/2, -S(1)/2)), basis=Jx) == \
Matrix([0, 0, 0, 1])
assert represent(TensorProduct(JyKet(S(1)/2, S(1)/2), JyKet(S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([-I, 0, 0, 0])
assert represent(TensorProduct(JyKet(S(1)/2, S(1)/2), JyKet(S(1)/2, -S(1)/2)), basis=Jx) == \
Matrix([0, 1, 0, 0])
assert represent(TensorProduct(JyKet(S(1)/2, -S(1)/2), JyKet(S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, 0, 1, 0])
assert represent(TensorProduct(JyKet(S(1)/2, -S(1)/2), JyKet(S(1)/2, -S(1)/2)), basis=Jx) == \
Matrix([0, 0, 0, I])
assert represent(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([S(1)/2, -S(1)/2, -S(1)/2, S(1)/2])
assert represent(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2)), basis=Jx) == \
Matrix([S(1)/2, S(1)/2, -S(1)/2, -S(1)/2])
assert represent(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([S(1)/2, -S(1)/2, S(1)/2, -S(1)/2])
assert represent(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2)), basis=Jx) == \
Matrix([S(1)/2, S(1)/2, S(1)/2, S(1)/2])
# Jy basis
assert represent(TensorProduct(JxKet(S(1)/2, S(1)/2), JxKet(S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([I, 0, 0, 0])
assert represent(TensorProduct(JxKet(S(1)/2, S(1)/2), JxKet(S(1)/2, -S(1)/2)), basis=Jy) == \
Matrix([0, 1, 0, 0])
assert represent(TensorProduct(JxKet(S(1)/2, -S(1)/2), JxKet(S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, 0, 1, 0])
assert represent(TensorProduct(JxKet(S(1)/2, -S(1)/2), JxKet(S(1)/2, -S(1)/2)), basis=Jy) == \
Matrix([0, 0, 0, -I])
assert represent(TensorProduct(JyKet(S(1)/2, S(1)/2), JyKet(S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([1, 0, 0, 0])
assert represent(TensorProduct(JyKet(S(1)/2, S(1)/2), JyKet(S(1)/2, -S(1)/2)), basis=Jy) == \
Matrix([0, 1, 0, 0])
assert represent(TensorProduct(JyKet(S(1)/2, -S(1)/2), JyKet(S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, 0, 1, 0])
assert represent(TensorProduct(JyKet(S(1)/2, -S(1)/2), JyKet(S(1)/2, -S(1)/2)), basis=Jy) == \
Matrix([0, 0, 0, 1])
assert represent(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([S(1)/2, -I/2, -I/2, -S(1)/2])
assert represent(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2)), basis=Jy) == \
Matrix([-I/2, S(1)/2, -S(1)/2, -I/2])
assert represent(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([-I/2, -S(1)/2, S(1)/2, -I/2])
assert represent(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2)), basis=Jy) == \
Matrix([-S(1)/2, -I/2, -I/2, S(1)/2])
# Jz basis
assert represent(TensorProduct(JxKet(S(1)/2, S(1)/2), JxKet(S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([S(1)/2, S(1)/2, S(1)/2, S(1)/2])
assert represent(TensorProduct(JxKet(S(1)/2, S(1)/2), JxKet(S(1)/2, -S(1)/2)), basis=Jz) == \
Matrix([-S(1)/2, S(1)/2, -S(1)/2, S(1)/2])
assert represent(TensorProduct(JxKet(S(1)/2, -S(1)/2), JxKet(S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([-S(1)/2, -S(1)/2, S(1)/2, S(1)/2])
assert represent(TensorProduct(JxKet(S(1)/2, -S(1)/2), JxKet(S(1)/2, -S(1)/2)), basis=Jz) == \
Matrix([S(1)/2, -S(1)/2, -S(1)/2, S(1)/2])
assert represent(TensorProduct(JyKet(S(1)/2, S(1)/2), JyKet(S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([S(1)/2, I/2, I/2, -S(1)/2])
assert represent(TensorProduct(JyKet(S(1)/2, S(1)/2), JyKet(S(1)/2, -S(1)/2)), basis=Jz) == \
Matrix([I/2, S(1)/2, -S(1)/2, I/2])
assert represent(TensorProduct(JyKet(S(1)/2, -S(1)/2), JyKet(S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([I/2, -S(1)/2, S(1)/2, I/2])
assert represent(TensorProduct(JyKet(S(1)/2, -S(1)/2), JyKet(S(1)/2, -S(1)/2)), basis=Jz) == \
Matrix([-S(1)/2, I/2, I/2, S(1)/2])
assert represent(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([1, 0, 0, 0])
assert represent(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2)), basis=Jz) == \
Matrix([0, 1, 0, 0])
assert represent(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([0, 0, 1, 0])
assert represent(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2)), basis=Jz) == \
Matrix([0, 0, 0, 1])
def test_represent_coupled_states():
# Jx basis
assert represent(JxKetCoupled(0, 0, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([1, 0, 0, 0])
assert represent(JxKetCoupled(1, 1, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, 1, 0, 0])
assert represent(JxKetCoupled(1, 0, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, 0, 1, 0])
assert represent(JxKetCoupled(1, -1, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, 0, 0, 1])
assert represent(JyKetCoupled(0, 0, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([1, 0, 0, 0])
assert represent(JyKetCoupled(1, 1, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, -I, 0, 0])
assert represent(JyKetCoupled(1, 0, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, 0, 1, 0])
assert represent(JyKetCoupled(1, -1, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, 0, 0, I])
assert represent(JzKetCoupled(0, 0, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([1, 0, 0, 0])
assert represent(JzKetCoupled(1, 1, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, S(1)/2, -sqrt(2)/2, S(1)/2])
assert represent(JzKetCoupled(1, 0, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, sqrt(2)/2, 0, -sqrt(2)/2])
assert represent(JzKetCoupled(1, -1, (S(1)/2, S(1)/2)), basis=Jx) == \
Matrix([0, S(1)/2, sqrt(2)/2, S(1)/2])
# Jy basis
assert represent(JxKetCoupled(0, 0, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([1, 0, 0, 0])
assert represent(JxKetCoupled(1, 1, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, I, 0, 0])
assert represent(JxKetCoupled(1, 0, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, 0, 1, 0])
assert represent(JxKetCoupled(1, -1, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, 0, 0, -I])
assert represent(JyKetCoupled(0, 0, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([1, 0, 0, 0])
assert represent(JyKetCoupled(1, 1, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, 1, 0, 0])
assert represent(JyKetCoupled(1, 0, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, 0, 1, 0])
assert represent(JyKetCoupled(1, -1, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, 0, 0, 1])
assert represent(JzKetCoupled(0, 0, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([1, 0, 0, 0])
assert represent(JzKetCoupled(1, 1, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, S(1)/2, -I*sqrt(2)/2, -S(1)/2])
assert represent(JzKetCoupled(1, 0, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, -I*sqrt(2)/2, 0, -I*sqrt(2)/2])
assert represent(JzKetCoupled(1, -1, (S(1)/2, S(1)/2)), basis=Jy) == \
Matrix([0, -S(1)/2, -I*sqrt(2)/2, S(1)/2])
# Jz basis
assert represent(JxKetCoupled(0, 0, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([1, 0, 0, 0])
assert represent(JxKetCoupled(1, 1, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([0, S(1)/2, sqrt(2)/2, S(1)/2])
assert represent(JxKetCoupled(1, 0, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([0, -sqrt(2)/2, 0, sqrt(2)/2])
assert represent(JxKetCoupled(1, -1, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([0, S(1)/2, -sqrt(2)/2, S(1)/2])
assert represent(JyKetCoupled(0, 0, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([1, 0, 0, 0])
assert represent(JyKetCoupled(1, 1, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([0, S(1)/2, I*sqrt(2)/2, -S(1)/2])
assert represent(JyKetCoupled(1, 0, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([0, I*sqrt(2)/2, 0, I*sqrt(2)/2])
assert represent(JyKetCoupled(1, -1, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([0, -S(1)/2, I*sqrt(2)/2, S(1)/2])
assert represent(JzKetCoupled(0, 0, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([1, 0, 0, 0])
assert represent(JzKetCoupled(1, 1, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([0, 1, 0, 0])
assert represent(JzKetCoupled(1, 0, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([0, 0, 1, 0])
assert represent(JzKetCoupled(1, -1, (S(1)/2, S(1)/2)), basis=Jz) == \
Matrix([0, 0, 0, 1])
def test_represent_rotation():
assert represent(Rotation(0, pi/2, 0)) == \
Matrix(
[[WignerD(
S(
1)/2, S(
1)/2, S(
1)/2, 0, pi/2, 0), WignerD(
S(1)/2, S(1)/2, -S(1)/2, 0, pi/2, 0)],
[WignerD(S(1)/2, -S(1)/2, S(1)/2, 0, pi/2, 0), WignerD(S(1)/2, -S(1)/2, -S(1)/2, 0, pi/2, 0)]])
assert represent(Rotation(0, pi/2, 0), doit=True) == \
Matrix([[sqrt(2)/2, -sqrt(2)/2],
[sqrt(2)/2, sqrt(2)/2]])
def test_rewrite_same():
# Rewrite to same basis
assert JxBra(1, 1).rewrite('Jx') == JxBra(1, 1)
assert JxBra(j, m).rewrite('Jx') == JxBra(j, m)
assert JxKet(1, 1).rewrite('Jx') == JxKet(1, 1)
assert JxKet(j, m).rewrite('Jx') == JxKet(j, m)
def test_rewrite_Bra():
# Numerical
assert JxBra(1, 1).rewrite('Jy') == -I*JyBra(1, 1)
assert JxBra(1, 0).rewrite('Jy') == JyBra(1, 0)
assert JxBra(1, -1).rewrite('Jy') == I*JyBra(1, -1)
assert JxBra(1, 1).rewrite(
'Jz') == JzBra(1, 1)/2 + JzBra(1, 0)/sqrt(2) + JzBra(1, -1)/2
assert JxBra(
1, 0).rewrite('Jz') == -sqrt(2)*JzBra(1, 1)/2 + sqrt(2)*JzBra(1, -1)/2
assert JxBra(1, -1).rewrite(
'Jz') == JzBra(1, 1)/2 - JzBra(1, 0)/sqrt(2) + JzBra(1, -1)/2
assert JyBra(1, 1).rewrite('Jx') == I*JxBra(1, 1)
assert JyBra(1, 0).rewrite('Jx') == JxBra(1, 0)
assert JyBra(1, -1).rewrite('Jx') == -I*JxBra(1, -1)
assert JyBra(1, 1).rewrite(
'Jz') == JzBra(1, 1)/2 - sqrt(2)*I*JzBra(1, 0)/2 - JzBra(1, -1)/2
assert JyBra(1, 0).rewrite(
'Jz') == -sqrt(2)*I*JzBra(1, 1)/2 - sqrt(2)*I*JzBra(1, -1)/2
assert JyBra(1, -1).rewrite(
'Jz') == -JzBra(1, 1)/2 - sqrt(2)*I*JzBra(1, 0)/2 + JzBra(1, -1)/2
assert JzBra(1, 1).rewrite(
'Jx') == JxBra(1, 1)/2 - sqrt(2)*JxBra(1, 0)/2 + JxBra(1, -1)/2
assert JzBra(
1, 0).rewrite('Jx') == sqrt(2)*JxBra(1, 1)/2 - sqrt(2)*JxBra(1, -1)/2
assert JzBra(1, -1).rewrite(
'Jx') == JxBra(1, 1)/2 + sqrt(2)*JxBra(1, 0)/2 + JxBra(1, -1)/2
assert JzBra(1, 1).rewrite(
'Jy') == JyBra(1, 1)/2 + sqrt(2)*I*JyBra(1, 0)/2 - JyBra(1, -1)/2
assert JzBra(1, 0).rewrite(
'Jy') == sqrt(2)*I*JyBra(1, 1)/2 + sqrt(2)*I*JyBra(1, -1)/2
assert JzBra(1, -1).rewrite(
'Jy') == -JyBra(1, 1)/2 + sqrt(2)*I*JyBra(1, 0)/2 + JyBra(1, -1)/2
# Symbolic
assert JxBra(j, m).rewrite('Jy') == Sum(
WignerD(j, mi, m, 3*pi/2, 0, 0) * JyBra(j, mi), (mi, -j, j))
assert JxBra(j, m).rewrite('Jz') == Sum(
WignerD(j, mi, m, 0, pi/2, 0) * JzBra(j, mi), (mi, -j, j))
assert JyBra(j, m).rewrite('Jx') == Sum(
WignerD(j, mi, m, 0, 0, pi/2) * JxBra(j, mi), (mi, -j, j))
assert JyBra(j, m).rewrite('Jz') == Sum(
WignerD(j, mi, m, 3*pi/2, -pi/2, pi/2) * JzBra(j, mi), (mi, -j, j))
assert JzBra(j, m).rewrite('Jx') == Sum(
WignerD(j, mi, m, 0, 3*pi/2, 0) * JxBra(j, mi), (mi, -j, j))
assert JzBra(j, m).rewrite('Jy') == Sum(
WignerD(j, mi, m, 3*pi/2, pi/2, pi/2) * JyBra(j, mi), (mi, -j, j))
def test_rewrite_Ket():
# Numerical
assert JxKet(1, 1).rewrite('Jy') == I*JyKet(1, 1)
assert JxKet(1, 0).rewrite('Jy') == JyKet(1, 0)
assert JxKet(1, -1).rewrite('Jy') == -I*JyKet(1, -1)
assert JxKet(1, 1).rewrite(
'Jz') == JzKet(1, 1)/2 + JzKet(1, 0)/sqrt(2) + JzKet(1, -1)/2
assert JxKet(
1, 0).rewrite('Jz') == -sqrt(2)*JzKet(1, 1)/2 + sqrt(2)*JzKet(1, -1)/2
assert JxKet(1, -1).rewrite(
'Jz') == JzKet(1, 1)/2 - JzKet(1, 0)/sqrt(2) + JzKet(1, -1)/2
assert JyKet(1, 1).rewrite('Jx') == -I*JxKet(1, 1)
assert JyKet(1, 0).rewrite('Jx') == JxKet(1, 0)
assert JyKet(1, -1).rewrite('Jx') == I*JxKet(1, -1)
assert JyKet(1, 1).rewrite(
'Jz') == JzKet(1, 1)/2 + sqrt(2)*I*JzKet(1, 0)/2 - JzKet(1, -1)/2
assert JyKet(1, 0).rewrite(
'Jz') == sqrt(2)*I*JzKet(1, 1)/2 + sqrt(2)*I*JzKet(1, -1)/2
assert JyKet(1, -1).rewrite(
'Jz') == -JzKet(1, 1)/2 + sqrt(2)*I*JzKet(1, 0)/2 + JzKet(1, -1)/2
assert JzKet(1, 1).rewrite(
'Jx') == JxKet(1, 1)/2 - sqrt(2)*JxKet(1, 0)/2 + JxKet(1, -1)/2
assert JzKet(
1, 0).rewrite('Jx') == sqrt(2)*JxKet(1, 1)/2 - sqrt(2)*JxKet(1, -1)/2
assert JzKet(1, -1).rewrite(
'Jx') == JxKet(1, 1)/2 + sqrt(2)*JxKet(1, 0)/2 + JxKet(1, -1)/2
assert JzKet(1, 1).rewrite(
'Jy') == JyKet(1, 1)/2 - sqrt(2)*I*JyKet(1, 0)/2 - JyKet(1, -1)/2
assert JzKet(1, 0).rewrite(
'Jy') == -sqrt(2)*I*JyKet(1, 1)/2 - sqrt(2)*I*JyKet(1, -1)/2
assert JzKet(1, -1).rewrite(
'Jy') == -JyKet(1, 1)/2 - sqrt(2)*I*JyKet(1, 0)/2 + JyKet(1, -1)/2
# Symbolic
assert JxKet(j, m).rewrite('Jy') == Sum(
WignerD(j, mi, m, 3*pi/2, 0, 0) * JyKet(j, mi), (mi, -j, j))
assert JxKet(j, m).rewrite('Jz') == Sum(
WignerD(j, mi, m, 0, pi/2, 0) * JzKet(j, mi), (mi, -j, j))
assert JyKet(j, m).rewrite('Jx') == Sum(
WignerD(j, mi, m, 0, 0, pi/2) * JxKet(j, mi), (mi, -j, j))
assert JyKet(j, m).rewrite('Jz') == Sum(
WignerD(j, mi, m, 3*pi/2, -pi/2, pi/2) * JzKet(j, mi), (mi, -j, j))
assert JzKet(j, m).rewrite('Jx') == Sum(
WignerD(j, mi, m, 0, 3*pi/2, 0) * JxKet(j, mi), (mi, -j, j))
assert JzKet(j, m).rewrite('Jy') == Sum(
WignerD(j, mi, m, 3*pi/2, pi/2, pi/2) * JyKet(j, mi), (mi, -j, j))
def test_rewrite_uncoupled_state():
# Numerical
assert TensorProduct(JyKet(1, 1), JxKet(
1, 1)).rewrite('Jx') == -I*TensorProduct(JxKet(1, 1), JxKet(1, 1))
assert TensorProduct(JyKet(1, 0), JxKet(
1, 1)).rewrite('Jx') == TensorProduct(JxKet(1, 0), JxKet(1, 1))
assert TensorProduct(JyKet(1, -1), JxKet(
1, 1)).rewrite('Jx') == I*TensorProduct(JxKet(1, -1), JxKet(1, 1))
assert TensorProduct(JzKet(1, 1), JxKet(1, 1)).rewrite('Jx') == \
TensorProduct(JxKet(1, -1), JxKet(1, 1))/2 - sqrt(2)*TensorProduct(JxKet(
1, 0), JxKet(1, 1))/2 + TensorProduct(JxKet(1, 1), JxKet(1, 1))/2
assert TensorProduct(JzKet(1, 0), JxKet(1, 1)).rewrite('Jx') == \
-sqrt(2)*TensorProduct(JxKet(1, -1), JxKet(1, 1))/2 + sqrt(
2)*TensorProduct(JxKet(1, 1), JxKet(1, 1))/2
assert TensorProduct(JzKet(1, -1), JxKet(1, 1)).rewrite('Jx') == \
TensorProduct(JxKet(1, -1), JxKet(1, 1))/2 + sqrt(2)*TensorProduct(JxKet(1, 0), JxKet(1, 1))/2 + TensorProduct(JxKet(1, 1), JxKet(1, 1))/2
assert TensorProduct(JxKet(1, 1), JyKet(
1, 1)).rewrite('Jy') == I*TensorProduct(JyKet(1, 1), JyKet(1, 1))
assert TensorProduct(JxKet(1, 0), JyKet(
1, 1)).rewrite('Jy') == TensorProduct(JyKet(1, 0), JyKet(1, 1))
assert TensorProduct(JxKet(1, -1), JyKet(
1, 1)).rewrite('Jy') == -I*TensorProduct(JyKet(1, -1), JyKet(1, 1))
assert TensorProduct(JzKet(1, 1), JyKet(1, 1)).rewrite('Jy') == \
-TensorProduct(JyKet(1, -1), JyKet(1, 1))/2 - sqrt(2)*I*TensorProduct(JyKet(1, 0), JyKet(1, 1))/2 + TensorProduct(JyKet(1, 1), JyKet(1, 1))/2
assert TensorProduct(JzKet(1, 0), JyKet(1, 1)).rewrite('Jy') == \
-sqrt(2)*I*TensorProduct(JyKet(1, -1), JyKet(
1, 1))/2 - sqrt(2)*I*TensorProduct(JyKet(1, 1), JyKet(1, 1))/2
assert TensorProduct(JzKet(1, -1), JyKet(1, 1)).rewrite('Jy') == \
TensorProduct(JyKet(1, -1), JyKet(1, 1))/2 - sqrt(2)*I*TensorProduct(JyKet(1, 0), JyKet(1, 1))/2 - TensorProduct(JyKet(1, 1), JyKet(1, 1))/2
assert TensorProduct(JxKet(1, 1), JzKet(1, 1)).rewrite('Jz') == \
TensorProduct(JzKet(1, -1), JzKet(1, 1))/2 + sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 + TensorProduct(JzKet(1, 1), JzKet(1, 1))/2
assert TensorProduct(JxKet(1, 0), JzKet(1, 1)).rewrite('Jz') == \
sqrt(2)*TensorProduct(JzKet(1, -1), JzKet(
1, 1))/2 - sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 1))/2
assert TensorProduct(JxKet(1, -1), JzKet(1, 1)).rewrite('Jz') == \
TensorProduct(JzKet(1, -1), JzKet(1, 1))/2 - sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 + TensorProduct(JzKet(1, 1), JzKet(1, 1))/2
assert TensorProduct(JyKet(1, 1), JzKet(1, 1)).rewrite('Jz') == \
-TensorProduct(JzKet(1, -1), JzKet(1, 1))/2 + sqrt(2)*I*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 + TensorProduct(JzKet(1, 1), JzKet(1, 1))/2
assert TensorProduct(JyKet(1, 0), JzKet(1, 1)).rewrite('Jz') == \
sqrt(2)*I*TensorProduct(JzKet(1, -1), JzKet(
1, 1))/2 + sqrt(2)*I*TensorProduct(JzKet(1, 1), JzKet(1, 1))/2
assert TensorProduct(JyKet(1, -1), JzKet(1, 1)).rewrite('Jz') == \
TensorProduct(JzKet(1, -1), JzKet(1, 1))/2 + sqrt(2)*I*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2 - TensorProduct(JzKet(1, 1), JzKet(1, 1))/2
# Symbolic
assert TensorProduct(JyKet(j1, m1), JxKet(j2, m2)).rewrite('Jy') == \
TensorProduct(JyKet(j1, m1), Sum(
WignerD(j2, mi, m2, 3*pi/2, 0, 0) * JyKet(j2, mi), (mi, -j2, j2)))
assert TensorProduct(JzKet(j1, m1), JxKet(j2, m2)).rewrite('Jz') == \
TensorProduct(JzKet(j1, m1), Sum(
WignerD(j2, mi, m2, 0, pi/2, 0) * JzKet(j2, mi), (mi, -j2, j2)))
assert TensorProduct(JxKet(j1, m1), JyKet(j2, m2)).rewrite('Jx') == \
TensorProduct(JxKet(j1, m1), Sum(
WignerD(j2, mi, m2, 0, 0, pi/2) * JxKet(j2, mi), (mi, -j2, j2)))
assert TensorProduct(JzKet(j1, m1), JyKet(j2, m2)).rewrite('Jz') == \
TensorProduct(JzKet(j1, m1), Sum(WignerD(
j2, mi, m2, 3*pi/2, -pi/2, pi/2) * JzKet(j2, mi), (mi, -j2, j2)))
assert TensorProduct(JxKet(j1, m1), JzKet(j2, m2)).rewrite('Jx') == \
TensorProduct(JxKet(j1, m1), Sum(
WignerD(j2, mi, m2, 0, 3*pi/2, 0) * JxKet(j2, mi), (mi, -j2, j2)))
assert TensorProduct(JyKet(j1, m1), JzKet(j2, m2)).rewrite('Jy') == \
TensorProduct(JyKet(j1, m1), Sum(WignerD(
j2, mi, m2, 3*pi/2, pi/2, pi/2) * JyKet(j2, mi), (mi, -j2, j2)))
def test_rewrite_coupled_state():
# Numerical
assert JyKetCoupled(0, 0, (S(1)/2, S(1)/2)).rewrite('Jx') == \
JxKetCoupled(0, 0, (S(1)/2, S(1)/2))
assert JyKetCoupled(1, 1, (S(1)/2, S(1)/2)).rewrite('Jx') == \
-I*JxKetCoupled(1, 1, (S(1)/2, S(1)/2))
assert JyKetCoupled(1, 0, (S(1)/2, S(1)/2)).rewrite('Jx') == \
JxKetCoupled(1, 0, (S(1)/2, S(1)/2))
assert JyKetCoupled(1, -1, (S(1)/2, S(1)/2)).rewrite('Jx') == \
I*JxKetCoupled(1, -1, (S(1)/2, S(1)/2))
assert JzKetCoupled(0, 0, (S(1)/2, S(1)/2)).rewrite('Jx') == \
JxKetCoupled(0, 0, (S(1)/2, S(1)/2))
assert JzKetCoupled(1, 1, (S(1)/2, S(1)/2)).rewrite('Jx') == \
JxKetCoupled(1, 1, (S(1)/2, S(1)/2))/2 - sqrt(2)*JxKetCoupled(1, 0, (
S(1)/2, S(1)/2))/2 + JxKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JzKetCoupled(1, 0, (S(1)/2, S(1)/2)).rewrite('Jx') == \
sqrt(2)*JxKetCoupled(1, 1, (S(
1)/2, S(1)/2))/2 - sqrt(2)*JxKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JzKetCoupled(1, -1, (S(1)/2, S(1)/2)).rewrite('Jx') == \
JxKetCoupled(1, 1, (S(1)/2, S(1)/2))/2 + sqrt(2)*JxKetCoupled(1, 0, (
S(1)/2, S(1)/2))/2 + JxKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JxKetCoupled(0, 0, (S(1)/2, S(1)/2)).rewrite('Jy') == \
JyKetCoupled(0, 0, (S(1)/2, S(1)/2))
assert JxKetCoupled(1, 1, (S(1)/2, S(1)/2)).rewrite('Jy') == \
I*JyKetCoupled(1, 1, (S(1)/2, S(1)/2))
assert JxKetCoupled(1, 0, (S(1)/2, S(1)/2)).rewrite('Jy') == \
JyKetCoupled(1, 0, (S(1)/2, S(1)/2))
assert JxKetCoupled(1, -1, (S(1)/2, S(1)/2)).rewrite('Jy') == \
-I*JyKetCoupled(1, -1, (S(1)/2, S(1)/2))
assert JzKetCoupled(0, 0, (S(1)/2, S(1)/2)).rewrite('Jy') == \
JyKetCoupled(0, 0, (S(1)/2, S(1)/2))
assert JzKetCoupled(1, 1, (S(1)/2, S(1)/2)).rewrite('Jy') == \
JyKetCoupled(1, 1, (S(1)/2, S(1)/2))/2 - I*sqrt(2)*JyKetCoupled(1, 0, (
S(1)/2, S(1)/2))/2 - JyKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JzKetCoupled(1, 0, (S(1)/2, S(1)/2)).rewrite('Jy') == \
-I*sqrt(2)*JyKetCoupled(1, 1, (S(1)/2, S(1)/2))/2 - I*sqrt(
2)*JyKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JzKetCoupled(1, -1, (S(1)/2, S(1)/2)).rewrite('Jy') == \
-JyKetCoupled(1, 1, (S(1)/2, S(1)/2))/2 - I*sqrt(2)*JyKetCoupled(1, 0, (S(1)/2, S(1)/2))/2 + JyKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JxKetCoupled(0, 0, (S(1)/2, S(1)/2)).rewrite('Jz') == \
JzKetCoupled(0, 0, (S(1)/2, S(1)/2))
assert JxKetCoupled(1, 1, (S(1)/2, S(1)/2)).rewrite('Jz') == \
JzKetCoupled(1, 1, (S(1)/2, S(1)/2))/2 + sqrt(2)*JzKetCoupled(1, 0, (
S(1)/2, S(1)/2))/2 + JzKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JxKetCoupled(1, 0, (S(1)/2, S(1)/2)).rewrite('Jz') == \
-sqrt(2)*JzKetCoupled(1, 1, (S(
1)/2, S(1)/2))/2 + sqrt(2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JxKetCoupled(1, -1, (S(1)/2, S(1)/2)).rewrite('Jz') == \
JzKetCoupled(1, 1, (S(1)/2, S(1)/2))/2 - sqrt(2)*JzKetCoupled(1, 0, (
S(1)/2, S(1)/2))/2 + JzKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JyKetCoupled(0, 0, (S(1)/2, S(1)/2)).rewrite('Jz') == \
JzKetCoupled(0, 0, (S(1)/2, S(1)/2))
assert JyKetCoupled(1, 1, (S(1)/2, S(1)/2)).rewrite('Jz') == \
JzKetCoupled(1, 1, (S(1)/2, S(1)/2))/2 + I*sqrt(2)*JzKetCoupled(1, 0, (
S(1)/2, S(1)/2))/2 - JzKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JyKetCoupled(1, 0, (S(1)/2, S(1)/2)).rewrite('Jz') == \
I*sqrt(2)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2))/2 + I*sqrt(
2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
assert JyKetCoupled(1, -1, (S(1)/2, S(1)/2)).rewrite('Jz') == \
-JzKetCoupled(1, 1, (S(1)/2, S(1)/2))/2 + I*sqrt(2)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2))/2 + JzKetCoupled(1, -1, (S(1)/2, S(1)/2))/2
# Symbolic
assert JyKetCoupled(j, m, (j1, j2)).rewrite('Jx') == \
Sum(WignerD(j, mi, m, 0, 0, pi/2) * JxKetCoupled(j, mi, (
j1, j2)), (mi, -j, j))
assert JzKetCoupled(j, m, (j1, j2)).rewrite('Jx') == \
Sum(WignerD(j, mi, m, 0, 3*pi/2, 0) * JxKetCoupled(j, mi, (
j1, j2)), (mi, -j, j))
assert JxKetCoupled(j, m, (j1, j2)).rewrite('Jy') == \
Sum(WignerD(j, mi, m, 3*pi/2, 0, 0) * JyKetCoupled(j, mi, (
j1, j2)), (mi, -j, j))
assert JzKetCoupled(j, m, (j1, j2)).rewrite('Jy') == \
Sum(WignerD(j, mi, m, 3*pi/2, pi/2, pi/2) * JyKetCoupled(j,
mi, (j1, j2)), (mi, -j, j))
assert JxKetCoupled(j, m, (j1, j2)).rewrite('Jz') == \
Sum(WignerD(j, mi, m, 0, pi/2, 0) * JzKetCoupled(j, mi, (
j1, j2)), (mi, -j, j))
assert JyKetCoupled(j, m, (j1, j2)).rewrite('Jz') == \
Sum(WignerD(j, mi, m, 3*pi/2, -pi/2, pi/2) * JzKetCoupled(
j, mi, (j1, j2)), (mi, -j, j))
def test_innerproducts_of_rewritten_states():
# Numerical
assert qapply(JxBra(1, 1)*JxKet(1, 1).rewrite('Jy')).doit() == 1
assert qapply(JxBra(1, 0)*JxKet(1, 0).rewrite('Jy')).doit() == 1
assert qapply(JxBra(1, -1)*JxKet(1, -1).rewrite('Jy')).doit() == 1
assert qapply(JxBra(1, 1)*JxKet(1, 1).rewrite('Jz')).doit() == 1
assert qapply(JxBra(1, 0)*JxKet(1, 0).rewrite('Jz')).doit() == 1
assert qapply(JxBra(1, -1)*JxKet(1, -1).rewrite('Jz')).doit() == 1
assert qapply(JyBra(1, 1)*JyKet(1, 1).rewrite('Jx')).doit() == 1
assert qapply(JyBra(1, 0)*JyKet(1, 0).rewrite('Jx')).doit() == 1
assert qapply(JyBra(1, -1)*JyKet(1, -1).rewrite('Jx')).doit() == 1
assert qapply(JyBra(1, 1)*JyKet(1, 1).rewrite('Jz')).doit() == 1
assert qapply(JyBra(1, 0)*JyKet(1, 0).rewrite('Jz')).doit() == 1
assert qapply(JyBra(1, -1)*JyKet(1, -1).rewrite('Jz')).doit() == 1
assert qapply(JyBra(1, 1)*JyKet(1, 1).rewrite('Jz')).doit() == 1
assert qapply(JyBra(1, 0)*JyKet(1, 0).rewrite('Jz')).doit() == 1
assert qapply(JyBra(1, -1)*JyKet(1, -1).rewrite('Jz')).doit() == 1
assert qapply(JzBra(1, 1)*JzKet(1, 1).rewrite('Jy')).doit() == 1
assert qapply(JzBra(1, 0)*JzKet(1, 0).rewrite('Jy')).doit() == 1
assert qapply(JzBra(1, -1)*JzKet(1, -1).rewrite('Jy')).doit() == 1
assert qapply(JxBra(1, 1)*JxKet(1, 0).rewrite('Jy')).doit() == 0
assert qapply(JxBra(1, 1)*JxKet(1, -1).rewrite('Jy')) == 0
assert qapply(JxBra(1, 1)*JxKet(1, 0).rewrite('Jz')).doit() == 0
assert qapply(JxBra(1, 1)*JxKet(1, -1).rewrite('Jz')) == 0
assert qapply(JyBra(1, 1)*JyKet(1, 0).rewrite('Jx')).doit() == 0
assert qapply(JyBra(1, 1)*JyKet(1, -1).rewrite('Jx')) == 0
assert qapply(JyBra(1, 1)*JyKet(1, 0).rewrite('Jz')).doit() == 0
assert qapply(JyBra(1, 1)*JyKet(1, -1).rewrite('Jz')) == 0
assert qapply(JzBra(1, 1)*JzKet(1, 0).rewrite('Jx')).doit() == 0
assert qapply(JzBra(1, 1)*JzKet(1, -1).rewrite('Jx')) == 0
assert qapply(JzBra(1, 1)*JzKet(1, 0).rewrite('Jy')).doit() == 0
assert qapply(JzBra(1, 1)*JzKet(1, -1).rewrite('Jy')) == 0
assert qapply(JxBra(1, 0)*JxKet(1, 1).rewrite('Jy')) == 0
assert qapply(JxBra(1, 0)*JxKet(1, -1).rewrite('Jy')) == 0
assert qapply(JxBra(1, 0)*JxKet(1, 1).rewrite('Jz')) == 0
assert qapply(JxBra(1, 0)*JxKet(1, -1).rewrite('Jz')) == 0
assert qapply(JyBra(1, 0)*JyKet(1, 1).rewrite('Jx')) == 0
assert qapply(JyBra(1, 0)*JyKet(1, -1).rewrite('Jx')) == 0
assert qapply(JyBra(1, 0)*JyKet(1, 1).rewrite('Jz')) == 0
assert qapply(JyBra(1, 0)*JyKet(1, -1).rewrite('Jz')) == 0
assert qapply(JzBra(1, 0)*JzKet(1, 1).rewrite('Jx')) == 0
assert qapply(JzBra(1, 0)*JzKet(1, -1).rewrite('Jx')) == 0
assert qapply(JzBra(1, 0)*JzKet(1, 1).rewrite('Jy')) == 0
assert qapply(JzBra(1, 0)*JzKet(1, -1).rewrite('Jy')) == 0
assert qapply(JxBra(1, -1)*JxKet(1, 1).rewrite('Jy')) == 0
assert qapply(JxBra(1, -1)*JxKet(1, 0).rewrite('Jy')).doit() == 0
assert qapply(JxBra(1, -1)*JxKet(1, 1).rewrite('Jz')) == 0
assert qapply(JxBra(1, -1)*JxKet(1, 0).rewrite('Jz')).doit() == 0
assert qapply(JyBra(1, -1)*JyKet(1, 1).rewrite('Jx')) == 0
assert qapply(JyBra(1, -1)*JyKet(1, 0).rewrite('Jx')).doit() == 0
assert qapply(JyBra(1, -1)*JyKet(1, 1).rewrite('Jz')) == 0
assert qapply(JyBra(1, -1)*JyKet(1, 0).rewrite('Jz')).doit() == 0
assert qapply(JzBra(1, -1)*JzKet(1, 1).rewrite('Jx')) == 0
assert qapply(JzBra(1, -1)*JzKet(1, 0).rewrite('Jx')).doit() == 0
assert qapply(JzBra(1, -1)*JzKet(1, 1).rewrite('Jy')) == 0
assert qapply(JzBra(1, -1)*JzKet(1, 0).rewrite('Jy')).doit() == 0
def test_uncouple_2_coupled_states():
# j1=1/2, j2=1/2
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple(
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple(
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2)) == \
expand(uncouple(couple(
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2)) == \
expand(uncouple(couple(
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2)) )))
# j1=1/2, j2=1
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1)) == \
expand(uncouple(
couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0)) == \
expand(uncouple(
couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1)) == \
expand(uncouple(
couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1)) == \
expand(uncouple(
couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0)) == \
expand(uncouple(
couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1)) == \
expand(uncouple(
couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1)) )))
# j1=1, j2=1
assert TensorProduct(JzKet(1, 1), JzKet(1, 1)) == \
expand(uncouple(couple( TensorProduct(JzKet(1, 1), JzKet(1, 1)) )))
assert TensorProduct(JzKet(1, 1), JzKet(1, 0)) == \
expand(uncouple(couple( TensorProduct(JzKet(1, 1), JzKet(1, 0)) )))
assert TensorProduct(JzKet(1, 1), JzKet(1, -1)) == \
expand(uncouple(couple( TensorProduct(JzKet(1, 1), JzKet(1, -1)) )))
assert TensorProduct(JzKet(1, 0), JzKet(1, 1)) == \
expand(uncouple(couple( TensorProduct(JzKet(1, 0), JzKet(1, 1)) )))
assert TensorProduct(JzKet(1, 0), JzKet(1, 0)) == \
expand(uncouple(couple( TensorProduct(JzKet(1, 0), JzKet(1, 0)) )))
assert TensorProduct(JzKet(1, 0), JzKet(1, -1)) == \
expand(uncouple(couple( TensorProduct(JzKet(1, 0), JzKet(1, -1)) )))
assert TensorProduct(JzKet(1, -1), JzKet(1, 1)) == \
expand(uncouple(couple( TensorProduct(JzKet(1, -1), JzKet(1, 1)) )))
assert TensorProduct(JzKet(1, -1), JzKet(1, 0)) == \
expand(uncouple(couple( TensorProduct(JzKet(1, -1), JzKet(1, 0)) )))
assert TensorProduct(JzKet(1, -1), JzKet(1, -1)) == \
expand(uncouple(couple( TensorProduct(JzKet(1, -1), JzKet(1, -1)) )))
def test_uncouple_3_coupled_states():
# Default coupling
# j1=1/2, j2=1/2, j3=1/2
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(
1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(
1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(
1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/
2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) )))
# j1=1/2, j2=1, j3=1/2
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(
JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) )))
# Coupling j1+j3=j13, j13+j2=j
# j1=1/2, j2=1/2, j3=1/2
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) )))
# j1=1/2, j2=1, j3=1/2
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(
-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/
2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) )))
@slow
def test_uncouple_4_coupled_states():
# j1=1/2, j2=1/2, j3=1/2, j4=1/2
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(
1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(
1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(
1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(
1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(
1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(
1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) )))
# j1=1/2, j2=1/2, j3=1, j4=1/2
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(
S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2),
JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2),
JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(
S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2),
JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2),
JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(
S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) )))
# Couple j1+j3=j13, j2+j4=j24, j13+j24=j
# j1=1/2, j2=1/2, j3=1/2, j4=1/2
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
# j1=1/2, j2=1/2, j3=1, j4=1/2
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(1)/2)), ((1, 3), (2, 4), (1, 2)) )))
assert TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)) == \
expand(uncouple(couple( TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (2, 4), (1, 2)) )))
def test_uncouple_2_coupled_states_numerical():
# j1=1/2, j2=1/2
assert uncouple(JzKetCoupled(0, 0, (S(1)/2, S(1)/2))) == \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2))/2 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2))/2
assert uncouple(JzKetCoupled(1, 1, (S(1)/2, S(1)/2))) == \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))
assert uncouple(JzKetCoupled(1, 0, (S(1)/2, S(1)/2))) == \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2))/2 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2))/2
assert uncouple(JzKetCoupled(1, -1, (S(1)/2, S(1)/2))) == \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2))
# j1=1, j2=1/2
assert uncouple(JzKetCoupled(S(1)/2, S(1)/2, (1, S(1)/2))) == \
-sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(S(1)/2, S(1)/2))/3 + \
sqrt(6)*TensorProduct(JzKet(1, 1), JzKet(S(1)/2, -S(1)/2))/3
assert uncouple(JzKetCoupled(S(1)/2, -S(1)/2, (1, S(1)/2))) == \
sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(S(1)/2, -S(1)/2))/3 - \
sqrt(6)*TensorProduct(JzKet(1, -1), JzKet(S(1)/2, S(1)/2))/3
assert uncouple(JzKetCoupled(S(3)/2, S(3)/2, (1, S(1)/2))) == \
TensorProduct(JzKet(1, 1), JzKet(S(1)/2, S(1)/2))
assert uncouple(JzKetCoupled(S(3)/2, S(1)/2, (1, S(1)/2))) == \
sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(S(1)/2, -S(1)/2))/3 + \
sqrt(6)*TensorProduct(JzKet(1, 0), JzKet(S(1)/2, S(1)/2))/3
assert uncouple(JzKetCoupled(S(3)/2, -S(1)/2, (1, S(1)/2))) == \
sqrt(6)*TensorProduct(JzKet(1, 0), JzKet(S(1)/2, -S(1)/2))/3 + \
sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(S(1)/2, S(1)/2))/3
assert uncouple(JzKetCoupled(S(3)/2, -S(3)/2, (1, S(1)/2))) == \
TensorProduct(JzKet(1, -1), JzKet(S(1)/2, -S(1)/2))
# j1=1, j2=1
assert uncouple(JzKetCoupled(0, 0, (1, 1))) == \
sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, -1))/3 - \
sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 0))/3 + \
sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 1))/3
assert uncouple(JzKetCoupled(1, 1, (1, 1))) == \
sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2 - \
sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2
assert uncouple(JzKetCoupled(1, 0, (1, 1))) == \
sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, -1))/2 - \
sqrt(2)*TensorProduct(JzKet(1, -1), JzKet(1, 1))/2
assert uncouple(JzKetCoupled(1, -1, (1, 1))) == \
sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, -1))/2 - \
sqrt(2)*TensorProduct(JzKet(1, -1), JzKet(1, 0))/2
assert uncouple(JzKetCoupled(2, 2, (1, 1))) == \
TensorProduct(JzKet(1, 1), JzKet(1, 1))
assert uncouple(JzKetCoupled(2, 1, (1, 1))) == \
sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2 + \
sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2
assert uncouple(JzKetCoupled(2, 0, (1, 1))) == \
sqrt(6)*TensorProduct(JzKet(1, 1), JzKet(1, -1))/6 + \
sqrt(6)*TensorProduct(JzKet(1, 0), JzKet(1, 0))/3 + \
sqrt(6)*TensorProduct(JzKet(1, -1), JzKet(1, 1))/6
assert uncouple(JzKetCoupled(2, -1, (1, 1))) == \
sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, -1))/2 + \
sqrt(2)*TensorProduct(JzKet(1, -1), JzKet(1, 0))/2
assert uncouple(JzKetCoupled(2, -2, (1, 1))) == \
TensorProduct(JzKet(1, -1), JzKet(1, -1))
def test_uncouple_3_coupled_states_numerical():
# Default coupling
# j1=1/2, j2=1/2, j3=1/2
assert uncouple(JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2))) == \
TensorProduct(JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))
assert uncouple(JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2))) == \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))/3 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2))/3 + \
sqrt(3)*TensorProduct(JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2))/3
assert uncouple(JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2))) == \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2))/3 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2))/3 + \
sqrt(3)*TensorProduct(JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2))/3
assert uncouple(JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2))) == \
TensorProduct(JzKet(
S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2))
# j1=1/2, j2=1/2, j3=1
assert uncouple(JzKetCoupled(2, 2, (S(1)/2, S(1)/2, 1))) == \
TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1))
assert uncouple(JzKetCoupled(2, 1, (S(1)/2, S(1)/2, 1))) == \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1))/2 + \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1))/2 + \
sqrt(2)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))/2
assert uncouple(JzKetCoupled(2, 0, (S(1)/2, S(1)/2, 1))) == \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))/3 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0))/3 + \
sqrt(6)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))/6
assert uncouple(JzKetCoupled(2, -1, (S(1)/2, S(1)/2, 1))) == \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0))/2 + \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1))/2 + \
TensorProduct(
JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(2, -2, (S(1)/2, S(1)/2, 1))) == \
TensorProduct(
JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1))
assert uncouple(JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1))) == \
-TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1))/2 - \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1))/2 + \
sqrt(2)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))/2
assert uncouple(JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1))) == \
-sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1))/2 + \
sqrt(2)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1))) == \
-sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0))/2 + \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))/2 + \
TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1))/2
# j1=1/2, j2=1, j3=1
assert uncouple(JzKetCoupled(S(5)/2, S(5)/2, (S(1)/2, 1, 1))) == \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 1))
assert uncouple(JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, 1, 1))) == \
sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/5 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/5 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1),
JzKet(1, 0))/5
assert uncouple(JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, 1, 1))) == \
sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/5 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/5 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/10 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/5 + \
sqrt(10)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/10
assert uncouple(JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1))) == \
sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/10 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/5 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/10 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/5 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0),
JzKet(1, -1))/5
assert uncouple(JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, 1, 1))) == \
sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/5 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/5 + \
sqrt(5)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, -1))/5
assert uncouple(JzKetCoupled(S(5)/2, -S(5)/2, (S(1)/2, 1, 1))) == \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, -1))
assert uncouple(JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1))) == \
-sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/15 - \
2*sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1),
JzKet(1, 0))/5
assert uncouple(JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1))) == \
-4*sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/15 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/15 - \
2*sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/15 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1),
JzKet(1, -1))/5
assert uncouple(JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1))) == \
-sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/5 - \
sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 + \
2*sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/15 - \
sqrt(5)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/15 + \
4*sqrt(5)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/15
assert uncouple(JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1))) == \
-sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/5 + \
2*sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/15 + \
sqrt(30)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, -1))/15
assert uncouple(JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1))) == \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/3 - \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/3 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/6 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/3 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1),
JzKet(1, -1))/2
assert uncouple(JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1))) == \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/2 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/3 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/6 - \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/3 + \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/3
# j1=1, j2=1, j3=1
assert uncouple(JzKetCoupled(3, 3, (1, 1, 1))) == \
TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 1))
assert uncouple(JzKetCoupled(3, 2, (1, 1, 1))) == \
sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 1))/3 + \
sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 1))/3 + \
sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 0))/3
assert uncouple(JzKetCoupled(3, 1, (1, 1, 1))) == \
sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))/15 + \
2*sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))/15 + \
2*sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 1))/15 + \
2*sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))/15
assert uncouple(JzKetCoupled(3, 0, (1, 1, 1))) == \
sqrt(10)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1))/10 + \
sqrt(10)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0))/10 + \
sqrt(10)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))/10 + \
sqrt(10)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 0))/5 + \
sqrt(10)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))/10 + \
sqrt(10)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0))/10 + \
sqrt(10)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1))/10
assert uncouple(JzKetCoupled(3, -1, (1, 1, 1))) == \
sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))/15 + \
2*sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, -1))/15 + \
2*sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 0))/15 + \
2*sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))/15 + \
sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))/15
assert uncouple(JzKetCoupled(3, -2, (1, 1, 1))) == \
sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 0))/3 + \
sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, -1))/3 + \
sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, -1))/3
assert uncouple(JzKetCoupled(3, -3, (1, 1, 1))) == \
TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, -1))
assert uncouple(JzKetCoupled(2, 2, (1, 1, 1))) == \
-sqrt(6)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 1))/6 - \
sqrt(6)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 1))/6 + \
sqrt(6)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 0))/3
assert uncouple(JzKetCoupled(2, 1, (1, 1, 1))) == \
-sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))/6 - \
sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))/3 + \
sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 0))/6 - \
sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 1))/6 + \
sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))/6 + \
sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))/3
assert uncouple(JzKetCoupled(2, 0, (1, 1, 1))) == \
-TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1))/2 - \
TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))/2 + \
TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))/2 + \
TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(2, -1, (1, 1, 1))) == \
-sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))/3 - \
sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))/6 + \
sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, -1))/6 - \
sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 0))/6 + \
sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))/3 + \
sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))/6
assert uncouple(JzKetCoupled(2, -2, (1, 1, 1))) == \
-sqrt(6)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 0))/3 + \
sqrt(6)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, -1))/6 + \
sqrt(6)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, -1))/6
assert uncouple(JzKetCoupled(1, 1, (1, 1, 1))) == \
sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))/30 + \
sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))/15 - \
sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 0))/10 + \
sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 1))/30 - \
sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))/10 + \
sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))/5
assert uncouple(JzKetCoupled(1, 0, (1, 1, 1))) == \
sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1))/10 - \
sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))/10 - \
2*sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))/10 - \
sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1))/10
assert uncouple(JzKetCoupled(1, -1, (1, 1, 1))) == \
sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))/5 - \
sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))/10 + \
sqrt(15)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, -1))/30 - \
sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 0))/10 + \
sqrt(15)*TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))/15 + \
sqrt(15)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))/30
# Defined j13
# j1=1/2, j2=1/2, j3=1, j13=1/2
assert uncouple(JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )) == \
-sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1))/3 + \
sqrt(3)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))/3
assert uncouple(JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )) == \
-sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1))/3 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))/6 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0))/6 + \
sqrt(3)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))/3
assert uncouple(JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )) == \
-sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0))/3 + \
sqrt(6)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1))/3
# j1=1/2, j2=1, j3=1, j13=1/2
assert uncouple(JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)))) == \
-sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/3 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1),
JzKet(1, 0))/3
assert uncouple(JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)))) == \
-2*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/3 - \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/3 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/3 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1),
JzKet(1, -1))/3
assert uncouple(JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)))) == \
-sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/3 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/3 + \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/3 + \
2*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/3
assert uncouple(JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)))) == \
-sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/3 + \
sqrt(6)*TensorProduct(
JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, -1))/3
# j1=1, j2=1, j3=1, j13=1
assert uncouple(JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)))) == \
-sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 1))/2 + \
sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 0))/2
assert uncouple(JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)))) == \
-TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))/2 - \
TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))/2 + \
TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))/2 + \
TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)))) == \
-sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1))/3 - \
sqrt(3)*TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0))/6 - \
sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))/6 + \
sqrt(3)*TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))/6 + \
sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0))/6 + \
sqrt(3)*TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1))/3
assert uncouple(JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)))) == \
-TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))/2 - \
TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))/2 + \
TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))/2 + \
TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)))) == \
-sqrt(2)*TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 0))/2 + \
sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)))) == \
TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))/2 - \
TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))/2 + \
TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))/2 - \
TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 1)))) == \
TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0))/2 - \
TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))/2 - \
TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))/2 + \
TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0))/2
assert uncouple(JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)))) == \
-TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))/2 + \
TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))/2 - \
TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))/2 + \
TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))/2
def test_uncouple_4_coupled_states_numerical():
# j1=1/2, j2=1/2, j3=1, j4=1, default coupling
assert uncouple(JzKetCoupled(3, 3, (S(1)/2, S(1)/2, 1, 1))) == \
TensorProduct(JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 1))
assert uncouple(JzKetCoupled(3, 2, (S(1)/2, S(1)/2, 1, 1))) == \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/3 + \
sqrt(3)*TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/3
assert uncouple(JzKetCoupled(3, 1, (S(1)/2, S(1)/2, 1, 1))) == \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/15 + \
2*sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, 1), JzKet(1, -1))/15
assert uncouple(JzKetCoupled(3, 0, (S(1)/2, S(1)/2, 1, 1))) == \
sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/10 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/10 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/10 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/5 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/10 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/10 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/5 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/10 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/10 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, 0), JzKet(1, -1))/10
assert uncouple(JzKetCoupled(3, -1, (S(1)/2, S(1)/2, 1, 1))) == \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/15 + \
2*sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, -1), JzKet(1, -1))/15
assert uncouple(JzKetCoupled(3, -2, (S(1)/2, S(1)/2, 1, 1))) == \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/3 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/3 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, -1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
-S(1)/2), JzKet(1, -1), JzKet(1, -1))/6
assert uncouple(JzKetCoupled(3, -3, (S(1)/2, S(1)/2, 1, 1))) == \
TensorProduct(JzKet(S(1)/2, -S(
1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, -1))
assert uncouple(JzKetCoupled(2, 2, (S(1)/2, S(1)/2, 1, 1))) == \
-sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 1))/6 - \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/6 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/3
assert uncouple(JzKetCoupled(2, 1, (S(1)/2, S(1)/2, 1, 1))) == \
-sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/6 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/12 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/12 - \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/6 + \
sqrt(3)*TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/3
assert uncouple(JzKetCoupled(2, 0, (S(1)/2, S(1)/2, 1, 1))) == \
-TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/2 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/4 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/4 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/4 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/4 + \
TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(2, -1, (S(1)/2, S(1)/2, 1, 1))) == \
-sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/3 - \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/6 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/12 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/6 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/12 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, -1), JzKet(1, -1))/6
assert uncouple(JzKetCoupled(2, -2, (S(1)/2, S(1)/2, 1, 1))) == \
-sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/3 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, -1))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
-S(1)/2), JzKet(1, -1), JzKet(1, -1))/6
assert uncouple(JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1, 1))) == \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/30 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/30 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/20 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/30 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/20 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/30 - \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/10 + \
sqrt(15)*TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/5
assert uncouple(JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1, 1))) == \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/10 - \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/20 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/20 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/20 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/20 - \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, 0), JzKet(1, -1))/10
assert uncouple(JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1, 1))) == \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/5 - \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/10 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/30 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/20 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/30 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/20 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/30 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, -1), JzKet(1, -1))/30
# j1=1/2, j2=1/2, j3=1, j4=1, j12=1, j34=1
assert uncouple(JzKetCoupled(2, 2, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 2)))) == \
-sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/2 + \
sqrt(2)*TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/2
assert uncouple(JzKetCoupled(2, 1, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 2)))) == \
-sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/4 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/4 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/4 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/4 - \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/2 + \
TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(2, 0, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 2)))) == \
-sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/6 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/6 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/6 - \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/6 + \
sqrt(3)*TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/6
assert uncouple(JzKetCoupled(2, -1, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 2)))) == \
-TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/2 + \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/2 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/4 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/4 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/4 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
-S(1)/2), JzKet(1, 0), JzKet(1, -1))/4
assert uncouple(JzKetCoupled(2, -2, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 2)))) == \
-sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/2 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2,
-S(1)/2), JzKet(1, 0), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 1)))) == \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/4 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/4 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/4 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/4 - \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/2 + \
TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 1)))) == \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/2 - \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/2 - \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/2 + \
TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 1), (1, 3, 1)))) == \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/2 - \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/2 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/4 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/4 - \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/4 + \
sqrt(2)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
-S(1)/2), JzKet(1, 0), JzKet(1, -1))/4
# j1=1/2, j2=1/2, j3=1, j4=1, j12=1, j34=2
assert uncouple(JzKetCoupled(3, 3, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \
TensorProduct(JzKet(
S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 1))
assert uncouple(JzKetCoupled(3, 2, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/3 + \
sqrt(3)*TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/3
assert uncouple(JzKetCoupled(3, 1, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/15 + \
2*sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, 1), JzKet(1, -1))/15
assert uncouple(JzKetCoupled(3, 0, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \
sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/10 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/10 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/10 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/5 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/10 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/10 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/5 + \
sqrt(5)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/10 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/10 + \
sqrt(10)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, 0), JzKet(1, -1))/10
assert uncouple(JzKetCoupled(3, -1, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/15 + \
2*sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/15 + \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, -1), JzKet(1, -1))/15
assert uncouple(JzKetCoupled(3, -2, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/3 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/3 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, -1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
-S(1)/2), JzKet(1, -1), JzKet(1, -1))/6
assert uncouple(JzKetCoupled(3, -3, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 3)))) == \
TensorProduct(JzKet(S(1)/2, -S(
1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, -1))
assert uncouple(JzKetCoupled(2, 2, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 2)))) == \
-sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 1))/3 - \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/3 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/6
assert uncouple(JzKetCoupled(2, 1, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 2)))) == \
-sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/3 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/12 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/12 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/12 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/12 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/3 + \
sqrt(3)*TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/6
assert uncouple(JzKetCoupled(2, 0, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 2)))) == \
-TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/2 - \
TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/2 + \
TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/2 + \
TensorProduct(JzKet(S(
1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/2
assert uncouple(JzKetCoupled(2, -1, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 2)))) == \
-sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/6 - \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/3 - \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/6 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/12 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/12 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/12 + \
sqrt(6)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/12 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, -1), JzKet(1, -1))/3
assert uncouple(JzKetCoupled(2, -2, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 2)))) == \
-sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/6 - \
sqrt(6)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/6 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, -1))/3 + \
sqrt(3)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
-S(1)/2), JzKet(1, -1), JzKet(1, -1))/3
assert uncouple(JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 1)))) == \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 1))/5 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))/20 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))/20 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/20 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/20 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/30 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, 1), JzKet(1, -1))/30
assert uncouple(JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 1)))) == \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 1))/10 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, 0))/10 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))/30 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))/30 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/30 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/30 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/10 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, 0), JzKet(1, -1))/10
assert uncouple(JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1, 1), ((1, 2, 1), (3, 4, 2), (1, 3, 1)))) == \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 1))/30 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, 0))/15 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1), JzKet(1, -1))/30 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))/20 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))/20 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1), JzKet(1, 0))/20 - \
sqrt(30)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0), JzKet(1, -1))/20 + \
sqrt(15)*TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2,
S(1)/2), JzKet(1, -1), JzKet(1, -1))/5
def test_uncouple_symbolic():
assert uncouple(JzKetCoupled(j, m, (j1, j2) )) == \
Sum(CG(j1, m1, j2, m2, j, m) *
TensorProduct(JzKet(j1, m1), JzKet(j2, m2)),
(m1, -j1, j1), (m2, -j2, j2))
assert uncouple(JzKetCoupled(j, m, (j1, j2, j3) )) == \
Sum(CG(j1, m1, j2, m2, j1 + j2, m1 + m2) * CG(j1 + j2, m1 + m2, j3, m3, j, m) *
TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3)),
(m1, -j1, j1), (m2, -j2, j2), (m3, -j3, j3))
assert uncouple(JzKetCoupled(j, m, (j1, j2, j3), ((1, 3, j13), (1, 2, j)) )) == \
Sum(CG(j1, m1, j3, m3, j13, m1 + m3) * CG(j13, m1 + m3, j2, m2, j, m) *
TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3)),
(m1, -j1, j1), (m2, -j2, j2), (m3, -j3, j3))
assert uncouple(JzKetCoupled(j, m, (j1, j2, j3, j4) )) == \
Sum(CG(j1, m1, j2, m2, j1 + j2, m1 + m2) * CG(j1 + j2, m1 + m2, j3, m3, j1 + j2 + j3, m1 + m2 + m3) * CG(j1 + j2 + j3, m1 + m2 + m3, j4, m4, j, m) *
TensorProduct(
JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3), JzKet(j4, m4)),
(m1, -j1, j1), (m2, -j2, j2), (m3, -j3, j3), (m4, -j4, j4))
assert uncouple(JzKetCoupled(j, m, (j1, j2, j3, j4), ((1, 3, j13), (2, 4, j24), (1, 2, j)) )) == \
Sum(CG(j1, m1, j3, m3, j13, m1 + m3) * CG(j2, m2, j4, m4, j24, m2 + m4) * CG(j13, m1 + m3, j24, m2 + m4, j, m) *
TensorProduct(
JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3), JzKet(j4, m4)),
(m1, -j1, j1), (m2, -j2, j2), (m3, -j3, j3), (m4, -j4, j4))
def test_couple_2_states():
# j1=1/2, j2=1/2
assert JzKetCoupled(0, 0, (S(1)/2, S(1)/2)) == \
expand(couple(uncouple( JzKetCoupled(0, 0, (S(1)/2, S(1)/2)) )))
assert JzKetCoupled(1, 1, (S(1)/2, S(1)/2)) == \
expand(couple(uncouple( JzKetCoupled(1, 1, (S(1)/2, S(1)/2)) )))
assert JzKetCoupled(1, 0, (S(1)/2, S(1)/2)) == \
expand(couple(uncouple( JzKetCoupled(1, 0, (S(1)/2, S(1)/2)) )))
assert JzKetCoupled(1, -1, (S(1)/2, S(1)/2)) == \
expand(couple(uncouple( JzKetCoupled(1, -1, (S(1)/2, S(1)/2)) )))
# j1=1, j2=1/2
assert JzKetCoupled(S(1)/2, S(1)/2, (1, S(1)/2)) == \
expand(couple(uncouple( JzKetCoupled(S(1)/2, S(1)/2, (1, S(1)/2)) )))
assert JzKetCoupled(S(1)/2, -S(1)/2, (1, S(1)/2)) == \
expand(couple(uncouple( JzKetCoupled(S(1)/2, -S(1)/2, (1, S(1)/2)) )))
assert JzKetCoupled(S(3)/2, S(3)/2, (1, S(1)/2)) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, S(3)/2, (1, S(1)/2)) )))
assert JzKetCoupled(S(3)/2, S(1)/2, (1, S(1)/2)) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, S(1)/2, (1, S(1)/2)) )))
assert JzKetCoupled(S(3)/2, -S(1)/2, (1, S(1)/2)) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, -S(1)/2, (1, S(1)/2)) )))
assert JzKetCoupled(S(3)/2, -S(3)/2, (1, S(1)/2)) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, -S(3)/2, (1, S(1)/2)) )))
# j1=1, j2=1
assert JzKetCoupled(0, 0, (1, 1)) == \
expand(couple(uncouple( JzKetCoupled(0, 0, (1, 1)) )))
assert JzKetCoupled(1, 1, (1, 1)) == \
expand(couple(uncouple( JzKetCoupled(1, 1, (1, 1)) )))
assert JzKetCoupled(1, 0, (1, 1)) == \
expand(couple(uncouple( JzKetCoupled(1, 0, (1, 1)) )))
assert JzKetCoupled(1, -1, (1, 1)) == \
expand(couple(uncouple( JzKetCoupled(1, -1, (1, 1)) )))
assert JzKetCoupled(2, 2, (1, 1)) == \
expand(couple(uncouple( JzKetCoupled(2, 2, (1, 1)) )))
assert JzKetCoupled(2, 1, (1, 1)) == \
expand(couple(uncouple( JzKetCoupled(2, 1, (1, 1)) )))
assert JzKetCoupled(2, 0, (1, 1)) == \
expand(couple(uncouple( JzKetCoupled(2, 0, (1, 1)) )))
assert JzKetCoupled(2, -1, (1, 1)) == \
expand(couple(uncouple( JzKetCoupled(2, -1, (1, 1)) )))
assert JzKetCoupled(2, -2, (1, 1)) == \
expand(couple(uncouple( JzKetCoupled(2, -2, (1, 1)) )))
# j1=1/2, j2=3/2
assert JzKetCoupled(1, 1, (S(1)/2, S(3)/2)) == \
expand(couple(uncouple( JzKetCoupled(1, 1, (S(1)/2, S(3)/2)) )))
assert JzKetCoupled(1, 0, (S(1)/2, S(3)/2)) == \
expand(couple(uncouple( JzKetCoupled(1, 0, (S(1)/2, S(3)/2)) )))
assert JzKetCoupled(1, -1, (S(1)/2, S(3)/2)) == \
expand(couple(uncouple( JzKetCoupled(1, -1, (S(1)/2, S(3)/2)) )))
assert JzKetCoupled(2, 2, (S(1)/2, S(3)/2)) == \
expand(couple(uncouple( JzKetCoupled(2, 2, (S(1)/2, S(3)/2)) )))
assert JzKetCoupled(2, 1, (S(1)/2, S(3)/2)) == \
expand(couple(uncouple( JzKetCoupled(2, 1, (S(1)/2, S(3)/2)) )))
assert JzKetCoupled(2, 0, (S(1)/2, S(3)/2)) == \
expand(couple(uncouple( JzKetCoupled(2, 0, (S(1)/2, S(3)/2)) )))
assert JzKetCoupled(2, -1, (S(1)/2, S(3)/2)) == \
expand(couple(uncouple( JzKetCoupled(2, -1, (S(1)/2, S(3)/2)) )))
assert JzKetCoupled(2, -2, (S(1)/2, S(3)/2)) == \
expand(couple(uncouple( JzKetCoupled(2, -2, (S(1)/2, S(3)/2)) )))
def test_couple_3_states():
# Default coupling
# j1=1/2, j2=1/2, j3=1/2
assert JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(uncouple(
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(S(1)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(uncouple(
JzKetCoupled(S(1)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(uncouple(
JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(uncouple(
JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(S(3)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(uncouple(
JzKetCoupled(S(3)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(S(3)/2, S(-3)/2, (S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(uncouple(
JzKetCoupled(S(3)/2, S(-3)/2, (S(1)/2, S(1)/2, S(1)/2)) )))
# j1=1/2, j2=1/2, j3=1
assert JzKetCoupled(0, 0, (S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple( JzKetCoupled(0, 0, (S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple( JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple( JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple( JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(2, 2, (S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple( JzKetCoupled(2, 2, (S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(2, 1, (S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple( JzKetCoupled(2, 1, (S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(2, 0, (S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple( JzKetCoupled(2, 0, (S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(2, -1, (S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple( JzKetCoupled(2, -1, (S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(2, -2, (S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple( JzKetCoupled(2, -2, (S(1)/2, S(1)/2, 1)) )))
# Couple j1+j3=j13, j13+j2=j
# j1=1/2, j2=1/2, j3=1/2, j13=0
assert JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 0), (1, 2, S(1)/2))) == \
expand(couple(uncouple( JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2), ((1, 3, 0), (1, 2, S(1)/2))) ), ((1, 3), (1, 2)) ))
assert JzKetCoupled(S(1)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 0), (1, 2, S(1)/2))) == \
expand(couple(uncouple( JzKetCoupled(S(1)/2, S(-1)/2, (S(1)/2, S(
1)/2, S(1)/2), ((1, 3, 0), (1, 2, S(1)/2))) ), ((1, 3), (1, 2)) ))
# j1=1, j2=1/2, j3=1, j13=1
assert JzKetCoupled(S(1)/2, S(1)/2, (1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(1)/2))) == \
expand(couple(uncouple( JzKetCoupled(S(1)/2, S(1)/2, (
1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(1)/2))) ), ((1, 3), (1, 2)) ))
assert JzKetCoupled(S(1)/2, S(-1)/2, (1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(1)/2))) == \
expand(couple(uncouple( JzKetCoupled(S(1)/2, S(-1)/2, (
1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(1)/2))) ), ((1, 3), (1, 2)) ))
assert JzKetCoupled(S(3)/2, S(3)/2, (1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(3)/2))) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, S(3)/2, (
1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(3)/2))) ), ((1, 3), (1, 2)) ))
assert JzKetCoupled(S(3)/2, S(1)/2, (1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(3)/2))) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, S(1)/2, (
1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(3)/2))) ), ((1, 3), (1, 2)) ))
assert JzKetCoupled(S(3)/2, S(-1)/2, (1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(3)/2))) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, S(-1)/2, (
1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(3)/2))) ), ((1, 3), (1, 2)) ))
assert JzKetCoupled(S(3)/2, S(-3)/2, (1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(3)/2))) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, S(-3)/2, (
1, S(1)/2, 1), ((1, 3, 1), (1, 2, S(3)/2))) ), ((1, 3), (1, 2)) ))
def test_couple_4_states():
# Default coupling
# j1=1/2, j2=1/2, j3=1/2, j4=1/2
assert JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(
uncouple( JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(
uncouple( JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(uncouple(
JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(2, 2, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(
uncouple( JzKetCoupled(2, 2, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(2, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(
uncouple( JzKetCoupled(2, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(2, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(
uncouple( JzKetCoupled(2, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(2, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(uncouple(
JzKetCoupled(2, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) )))
assert JzKetCoupled(2, -2, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) == \
expand(couple(uncouple(
JzKetCoupled(2, -2, (S(1)/2, S(1)/2, S(1)/2, S(1)/2)) )))
# j1=1/2, j2=1/2, j3=1/2, j4=1
assert JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(1)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(1)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(3)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(3)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(3)/2, S(-3)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(3)/2, S(-3)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(5)/2, S(5)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(5)/2, S(5)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(5)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(5)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(5)/2, S(-3)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(5)/2, S(-3)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
assert JzKetCoupled(S(5)/2, S(-5)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) == \
expand(couple(uncouple(
JzKetCoupled(S(5)/2, S(-5)/2, (S(1)/2, S(1)/2, S(1)/2, 1)) )))
# Coupling j1+j3=j13, j2+j4=j24, j13+j24=j
# j1=1/2, j2=1/2, j3=1/2, j4=1/2, j13=1, j24=0
assert JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) == \
expand(couple(uncouple( JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) == \
expand(couple(uncouple( JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) == \
expand(couple(uncouple( JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (2, 4, 0), (1, 2, 1)) ) ), ((1, 3), (2, 4), (1, 2)) ))
# j1=1/2, j2=1/2, j3=1/2, j4=1, j13=1, j24=1/2
assert JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(1)/2)) ) == \
expand(couple(uncouple( JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(1)/2)) )), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(S(1)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(1)/2)) ) == \
expand(couple(uncouple( JzKetCoupled(S(1)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(1)/2)) ) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(3)/2)) ) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(3)/2)) ) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(3)/2)) ) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(3)/2)) ) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(S(3)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(3)/2)) ) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, S(-1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(3)/2)) ) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(S(3)/2, S(-3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(3)/2)) ) == \
expand(couple(uncouple( JzKetCoupled(S(3)/2, S(-3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 3, 1), (2, 4, S(1)/2), (1, 2, S(3)/2)) ) ), ((1, 3), (2, 4), (1, 2)) ))
# j1=1/2, j2=1, j3=1/2, j4=1, j13=0, j24=1
assert JzKetCoupled(1, 1, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 0), (2, 4, 1), (1, 2, 1)) ) == \
expand(couple(uncouple( JzKetCoupled(1, 1, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 0), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(1, 0, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 0), (2, 4, 1), (1, 2, 1)) ) == \
expand(couple(uncouple( JzKetCoupled(1, 0, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 0), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(1, -1, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 0), (2, 4, 1), (1, 2, 1)) ) == \
expand(couple(uncouple( JzKetCoupled(1, -1, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 0), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) ))
# j1=1/2, j2=1, j3=1/2, j4=1, j13=1, j24=1
assert JzKetCoupled(0, 0, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 0)) ) == \
expand(couple(uncouple( JzKetCoupled(0, 0, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 1), (2, 4, 1), (1, 2, 0))) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(1, 1, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 1)) ) == \
expand(couple(uncouple( JzKetCoupled(1, 1, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 1), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(1, 0, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 1)) ) == \
expand(couple(uncouple( JzKetCoupled(1, 0, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 1), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(1, -1, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 1)) ) == \
expand(couple(uncouple( JzKetCoupled(1, -1, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 1), (2, 4, 1), (1, 2, 1))) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(2, 2, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 2)) ) == \
expand(couple(uncouple( JzKetCoupled(2, 2, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 1), (2, 4, 1), (1, 2, 2))) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(2, 1, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 2)) ) == \
expand(couple(uncouple( JzKetCoupled(2, 1, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 1), (2, 4, 1), (1, 2, 2))) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(2, 0, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 2)) ) == \
expand(couple(uncouple( JzKetCoupled(2, 0, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 1), (2, 4, 1), (1, 2, 2))) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(2, -1, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 2)) ) == \
expand(couple(uncouple( JzKetCoupled(2, -1, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 1), (2, 4, 1), (1, 2, 2))) ), ((1, 3), (2, 4), (1, 2)) ))
assert JzKetCoupled(2, -2, (S(1)/2, 1, S(1)/2, 1), ((1, 3, 1), (2, 4, 1), (1, 2, 2)) ) == \
expand(couple(uncouple( JzKetCoupled(2, -2, (S(1)/2, 1, S(1)/2, 1), (
(1, 3, 1), (2, 4, 1), (1, 2, 2))) ), ((1, 3), (2, 4), (1, 2)) ))
def test_couple_2_states_numerical():
# j1=1/2, j2=1/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))) == \
JzKetCoupled(1, 1, (S(1)/2, S(1)/2))
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2))) == \
sqrt(2)*JzKetCoupled(0, 0, (S(
1)/2, S(1)/2))/2 + sqrt(2)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2))/2
assert couple(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2))) == \
-sqrt(2)*JzKetCoupled(0, 0, (S(
1)/2, S(1)/2))/2 + sqrt(2)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2))/2
assert couple(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2))) == \
JzKetCoupled(1, -1, (S(1)/2, S(1)/2))
# j1=1, j2=1/2
assert couple(TensorProduct(JzKet(1, 1), JzKet(S(1)/2, S(1)/2))) == \
JzKetCoupled(S(3)/2, S(3)/2, (1, S(1)/2))
assert couple(TensorProduct(JzKet(1, 1), JzKet(S(1)/2, -S(1)/2))) == \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (1, S(1)/2))/3 + sqrt(
3)*JzKetCoupled(S(3)/2, S(1)/2, (1, S(1)/2))/3
assert couple(TensorProduct(JzKet(1, 0), JzKet(S(1)/2, S(1)/2))) == \
-sqrt(3)*JzKetCoupled(S(1)/2, S(1)/2, (1, S(1)/2))/3 + \
sqrt(6)*JzKetCoupled(S(3)/2, S(1)/2, (1, S(1)/2))/3
assert couple(TensorProduct(JzKet(1, 0), JzKet(S(1)/2, -S(1)/2))) == \
sqrt(3)*JzKetCoupled(S(1)/2, -S(1)/2, (1, S(1)/2))/3 + \
sqrt(6)*JzKetCoupled(S(3)/2, -S(1)/2, (1, S(1)/2))/3
assert couple(TensorProduct(JzKet(1, -1), JzKet(S(1)/2, S(1)/2))) == \
-sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (1, S(
1)/2))/3 + sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (1, S(1)/2))/3
assert couple(TensorProduct(JzKet(1, -1), JzKet(S(1)/2, -S(1)/2))) == \
JzKetCoupled(S(3)/2, -S(3)/2, (1, S(1)/2))
# j1=1, j2=1
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1))) == \
JzKetCoupled(2, 2, (1, 1))
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0))) == \
sqrt(2)*JzKetCoupled(
1, 1, (1, 1))/2 + sqrt(2)*JzKetCoupled(2, 1, (1, 1))/2
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
sqrt(3)*JzKetCoupled(0, 0, (1, 1))/3 + sqrt(2)*JzKetCoupled(
1, 0, (1, 1))/2 + sqrt(6)*JzKetCoupled(2, 0, (1, 1))/6
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1))) == \
-sqrt(2)*JzKetCoupled(
1, 1, (1, 1))/2 + sqrt(2)*JzKetCoupled(2, 1, (1, 1))/2
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0))) == \
-sqrt(3)*JzKetCoupled(
0, 0, (1, 1))/3 + sqrt(6)*JzKetCoupled(2, 0, (1, 1))/3
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1))) == \
sqrt(2)*JzKetCoupled(
1, -1, (1, 1))/2 + sqrt(2)*JzKetCoupled(2, -1, (1, 1))/2
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1))) == \
sqrt(3)*JzKetCoupled(0, 0, (1, 1))/3 - sqrt(2)*JzKetCoupled(
1, 0, (1, 1))/2 + sqrt(6)*JzKetCoupled(2, 0, (1, 1))/6
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0))) == \
-sqrt(2)*JzKetCoupled(
1, -1, (1, 1))/2 + sqrt(2)*JzKetCoupled(2, -1, (1, 1))/2
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1))) == \
JzKetCoupled(2, -2, (1, 1))
# j1=3/2, j2=1/2
assert couple(TensorProduct(JzKet(S(3)/2, S(3)/2), JzKet(S(1)/2, S(1)/2))) == \
JzKetCoupled(2, 2, (S(3)/2, S(1)/2))
assert couple(TensorProduct(JzKet(S(3)/2, S(3)/2), JzKet(S(1)/2, -S(1)/2))) == \
sqrt(3)*JzKetCoupled(
1, 1, (S(3)/2, S(1)/2))/2 + JzKetCoupled(2, 1, (S(3)/2, S(1)/2))/2
assert couple(TensorProduct(JzKet(S(3)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))) == \
-JzKetCoupled(1, 1, (S(
3)/2, S(1)/2))/2 + sqrt(3)*JzKetCoupled(2, 1, (S(3)/2, S(1)/2))/2
assert couple(TensorProduct(JzKet(S(3)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2))) == \
sqrt(2)*JzKetCoupled(1, 0, (S(
3)/2, S(1)/2))/2 + sqrt(2)*JzKetCoupled(2, 0, (S(3)/2, S(1)/2))/2
assert couple(TensorProduct(JzKet(S(3)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2))) == \
-sqrt(2)*JzKetCoupled(1, 0, (S(
3)/2, S(1)/2))/2 + sqrt(2)*JzKetCoupled(2, 0, (S(3)/2, S(1)/2))/2
assert couple(TensorProduct(JzKet(S(3)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2))) == \
JzKetCoupled(1, -1, (S(
3)/2, S(1)/2))/2 + sqrt(3)*JzKetCoupled(2, -1, (S(3)/2, S(1)/2))/2
assert couple(TensorProduct(JzKet(S(3)/2, -S(3)/2), JzKet(S(1)/2, S(1)/2))) == \
-sqrt(3)*JzKetCoupled(1, -1, (S(3)/2, S(1)/2))/2 + \
JzKetCoupled(2, -1, (S(3)/2, S(1)/2))/2
assert couple(TensorProduct(JzKet(S(3)/2, -S(3)/2), JzKet(S(1)/2, -S(1)/2))) == \
JzKetCoupled(2, -2, (S(3)/2, S(1)/2))
def test_couple_3_states_numerical():
# Default coupling
# j1=1/2,j2=1/2,j3=1/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))) == \
JzKetCoupled(S(3)/2, S(
3)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2))) == \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/3 + \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/
2), ((1, 2, 1), (1, 3, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2))) == \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2)) )/2 - \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/
2), ((1, 2, 1), (1, 3, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2))) == \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2)) )/2 + \
sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)
/2), ((1, 2, 1), (1, 3, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))) == \
-sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2)) )/2 - \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/
2), ((1, 2, 1), (1, 3, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2))) == \
-sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2)) )/2 + \
sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)
/2), ((1, 2, 1), (1, 3, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2))) == \
-sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/3 + \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)
/2), ((1, 2, 1), (1, 3, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2))) == \
JzKetCoupled(S(3)/2, -S(
3)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2)) )
# j1=S(1)/2, j2=S(1)/2, j3=1
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1))) == \
JzKetCoupled(2, 2, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))) == \
sqrt(2)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(2)*JzKetCoupled(
2, 1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))) == \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 0)) )/3 + \
sqrt(2)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(6)*JzKetCoupled(
2, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1))) == \
sqrt(2)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, 1)) )/2 - \
JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, 1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0))) == \
-sqrt(6)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 0)) )/6 + \
sqrt(2)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, 1)) )/2 + \
sqrt(3)*JzKetCoupled(
2, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1))) == \
sqrt(2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, 1)) )/2 + \
JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, -1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1))) == \
-sqrt(2)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, 1)) )/2 - \
JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, 1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))) == \
-sqrt(6)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 0)) )/6 - \
sqrt(2)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, 1)) )/2 + \
sqrt(3)*JzKetCoupled(
2, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))) == \
-sqrt(2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, 1)) )/2 + \
JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, -1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 1))) == \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 0)) )/3 - \
sqrt(2)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(6)*JzKetCoupled(
2, 0, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, 0))) == \
-sqrt(2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(2)*JzKetCoupled(
2, -1, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, -S(1)/2), JzKet(S(1)/2, -S(1)/2), JzKet(1, -1))) == \
JzKetCoupled(2, -2, (S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, 2)) )
# j1=S(1)/2, j2=1, j3=1
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 1))) == \
JzKetCoupled(
S(5)/2, S(5)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(5)/2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0))) == \
sqrt(15)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(
5)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1))) == \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(1)/2)) )/2 + \
sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, 1, 1), ((1,
2, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1))) == \
sqrt(3)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 - \
2*sqrt(15)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(
5)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0))) == \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(1)/2)) )/3 - \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 + \
sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(
5)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1))) == \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(1)/2)) )/3 + \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(1)/2)) )/3 + \
JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 + \
4*sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1), ((1,
2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1))) == \
-2*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(1)/2)) )/6 + \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 - \
2*sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, 1, 1), ((1,
2, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0))) == \
-sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(1)/2)) )/3 - \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(1)/2)) )/3 + \
2*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 - \
sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1), ((1,
2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, -1))) == \
sqrt(6)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, 1, 1), ((1,
2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(1, 1))) == \
-sqrt(6)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(
5)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(1, 0))) == \
-sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(1)/2)) )/3 - \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(1)/2)) )/3 - \
2*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 + \
sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(
5)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(1, -1))) == \
-2*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 + \
2*sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1), ((1,
2, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(1, 1))) == \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(1)/2)) )/3 + \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(1)/2)) )/3 - \
JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 - \
4*sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(
5)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(1, 0))) == \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(1)/2)) )/3 - \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(1)/2)) )/3 - \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 - \
sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1), ((1,
2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(1, -1))) == \
-sqrt(3)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(1)/2), (1, 3, S(3)/2)) )/3 + \
2*sqrt(15)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, 1, 1), ((1,
2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(1, 1))) == \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(1)/2)) )/2 - \
sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1), ((1,
2, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(1, 0))) == \
-sqrt(15)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, 1, 1), ((1,
2, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(1, -1))) == \
JzKetCoupled(S(
5)/2, -S(5)/2, (S(1)/2, 1, 1), ((1, 2, S(3)/2), (1, 3, S(5)/2)) )
# j1=1, j2=1, j3=1
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 1))) == \
JzKetCoupled(3, 3, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 0))) == \
sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \
sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1))) == \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/5 + \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \
sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 1))) == \
sqrt(2)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \
sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0))) == \
JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 - \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 + \
JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1))) == \
sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 + \
JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 + \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/6 + \
JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/2 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 1))) == \
sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 - \
JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/30 + \
JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0))) == \
-sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 + \
sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 - \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/15 + \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/3 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1))) == \
sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 + \
JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/30 + \
JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 1))) == \
-sqrt(2)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \
sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 0))) == \
-JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 - \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 - \
JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1))) == \
-sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 - \
JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 - \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/6 + \
JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/2 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1))) == \
-sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 + \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/15 - \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \
2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 0))) == \
-sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 - \
2*sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/15 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/5
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1))) == \
-sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 + \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/15 + \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \
2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1))) == \
sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 - \
JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 + \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/6 - \
JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/2 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 0))) == \
-JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 - \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 + \
JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, -1))) == \
sqrt(2)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \
sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1))) == \
sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 + \
JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/30 - \
JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0))) == \
sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 + \
sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 - \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/15 - \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/3 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, -1))) == \
sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 0), (1, 3, 1)) )/3 - \
JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/30 - \
JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1))) == \
-sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 0)) )/6 + \
JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 - \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/6 - \
JzKetCoupled(2, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/2 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/10
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0))) == \
JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 1)) )/2 - \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/10 - \
JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 - \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, -1))) == \
-sqrt(2)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 2, 1), (1, 3, 2)) )/2 + \
sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/6 + \
sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1))) == \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 1)) )/5 - \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \
sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/15
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 0))) == \
-sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 2)) )/3 + \
sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )/3
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, -1))) == \
JzKetCoupled(3, -3, (1, 1, 1), ((1, 2, 2), (1, 3, 3)) )
# j1=S(1)/2, j2=S(1)/2, j3=S(3)/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(3)/2))) == \
JzKetCoupled(S(5)/2, S(
5)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(1)/2))) == \
sqrt(10)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/5 + \
sqrt(15)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)
/2), ((1, 2, 1), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(-1)/2))) == \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/6 + \
2*sqrt(30)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/15 + \
sqrt(30)*JzKetCoupled(S(5)/2, S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(-3)/2))) == \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/2 + \
sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(3)/2))) == \
sqrt(2)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 0), (1, 3, S(3)/2)) )/2 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/10 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/
2), ((1, 2, 1), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(1)/2))) == \
-sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/6 + \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 0), (1, 3, S(3)/2)) )/2 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/30 + \
sqrt(30)*JzKetCoupled(S(5)/2, S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(-1)/2))) == \
-sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/6 + \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 0), (1, 3, S(3)/2)) )/2 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/30 + \
sqrt(30)*JzKetCoupled(S(5)/2, -S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(-3)/2))) == \
sqrt(2)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 0), (1, 3, S(3)/2)) )/2 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/10 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)
/2), ((1, 2, 1), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(3)/2))) == \
-sqrt(2)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 0), (1, 3, S(3)/2)) )/2 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/10 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/
2), ((1, 2, 1), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(1)/2))) == \
-sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 0), (1, 3, S(3)/2)) )/2 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/30 + \
sqrt(30)*JzKetCoupled(S(5)/2, S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(-1)/2))) == \
-sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 0), (1, 3, S(3)/2)) )/2 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/30 + \
sqrt(30)*JzKetCoupled(S(5)/2, -S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(-3)/2))) == \
-sqrt(2)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 0), (1, 3, S(3)/2)) )/2 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/10 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)
/2), ((1, 2, 1), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(3)/2))) == \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/2 - \
sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(1)/2))) == \
sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(1)/2)) )/6 - \
2*sqrt(30)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/15 + \
sqrt(30)*JzKetCoupled(S(5)/2, -S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(-1)/2))) == \
-sqrt(10)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(3)/2)) )/5 + \
sqrt(15)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(1)/2, S(
3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(-3)/2))) == \
JzKetCoupled(S(5)/2, -S(
5)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 2, 1), (1, 3, S(5)/2)) )
# Couple j1 to j3
# j1=1/2, j2=1/2, j3=1/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(S(3)/2, S(
3)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (1, 2, S(3)/2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) ) == \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 0), (1, 2, S(1)/2)) )/2 - \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/
2), ((1, 3, 1), (1, 2, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/3 + \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/
2), ((1, 3, 1), (1, 2, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) ) == \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 0), (1, 2, S(1)/2)) )/2 + \
sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)
/2), ((1, 3, 1), (1, 2, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) ) == \
-sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 0), (1, 2, S(1)/2)) )/2 - \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/
2), ((1, 3, 1), (1, 2, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) ) == \
-sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/3 + \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)
/2), ((1, 3, 1), (1, 2, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 3), (1, 2)) ) == \
-sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 0), (1, 2, S(1)/2)) )/2 + \
sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)
/2), ((1, 3, 1), (1, 2, S(3)/2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(S(3)/2, -S(
3)/2, (S(1)/2, S(1)/2, S(1)/2), ((1, 3, 1), (1, 2, S(3)/2)) )
# j1=1/2, j2=1/2, j3=1
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(2, 2, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
sqrt(3)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )/3 - \
sqrt(6)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 1)) )/6 + \
sqrt(2)*JzKetCoupled(
2, 1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
-sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 0)) )/3 + \
sqrt(3)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )/3 - \
sqrt(6)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 1)) )/6 + \
sqrt(6)*JzKetCoupled(
2, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
sqrt(3)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 1)) )/2 + \
JzKetCoupled(2, 1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 0)) )/6 + \
sqrt(6)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )/6 + \
sqrt(3)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 1)) )/3 + \
sqrt(3)*JzKetCoupled(
2, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )/3 + \
sqrt(3)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 1)) )/6 + \
JzKetCoupled(
2, -1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
-sqrt(6)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )/3 - \
sqrt(3)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 1)) )/6 + \
JzKetCoupled(2, 1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 0)) )/6 - \
sqrt(6)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )/6 - \
sqrt(3)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 1)) )/3 + \
sqrt(3)*JzKetCoupled(
2, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )/3
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
-sqrt(3)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 1)) )/2 + \
JzKetCoupled(
2, -1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
-sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 0)) )/3 - \
sqrt(3)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )/3 + \
sqrt(6)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 1)) )/6 + \
sqrt(6)*JzKetCoupled(
2, 0, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
-sqrt(3)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 3, S(1)/2), (1, 2, 1)) )/3 + \
sqrt(6)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 1)) )/6 + \
sqrt(2)*JzKetCoupled(
2, -1, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(2, -2, (S(1)/2, S(1)/2, 1), ((1, 3, S(3)/2), (1, 2, 2)) )
# j 1=1/2, j 2=1, j 3=1
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(
S(5)/2, S(5)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(5)/2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
sqrt(3)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 - \
2*sqrt(15)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(
5)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
-2*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(1)/2)) )/6 + \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 - \
2*sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, 1, 1), ((1,
3, S(3)/2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
sqrt(15)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(
5)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(1)/2)) )/3 - \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 + \
sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(
5)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, 0), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
-sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(1)/2)) )/3 - \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(1)/2)) )/3 + \
2*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 - \
sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1), ((1,
3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(1)/2)) )/2 + \
sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, 1, 1), ((1,
3, S(3)/2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(1)/2)) )/3 + \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(1)/2)) )/3 + \
JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 + \
4*sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1), ((1,
3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(1, -1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, 1, 1), ((1,
3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
-sqrt(6)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(
5)/2, S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(1)/2)) )/3 + \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(1)/2)) )/3 - \
JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 - \
4*sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(
5)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(1)/2)) )/2 - \
sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1), ((1,
3, S(3)/2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
-sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(1)/2)) )/3 - \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(1)/2)) )/3 - \
2*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 + \
sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(
5)/2, S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(1)/2)) )/3 - \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(1)/2)) )/3 - \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 - \
sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1), ((1,
3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, 0), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
-sqrt(15)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, 1, 1), ((1,
3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
-2*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 + \
2*sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, 1, 1), ((1,
3, S(3)/2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
-sqrt(3)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(1)/2), (1, 2, S(3)/2)) )/3 + \
2*sqrt(15)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, 1, 1), ((1,
3, S(3)/2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(1, -1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(S(
5)/2, -S(5)/2, (S(1)/2, 1, 1), ((1, 3, S(3)/2), (1, 2, S(5)/2)) )
# j1=1, 1, 1
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(3, 3, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
sqrt(2)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \
sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 - \
JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/30 + \
JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \
sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 - \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 + \
JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, 0), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
-sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 + \
sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 - \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/15 + \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/3 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/5 + \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \
sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 + \
JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 + \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/6 + \
JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/2 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10
assert couple(TensorProduct(JzKet(1, 1), JzKet(1, -1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 + \
JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/30 + \
JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
-sqrt(2)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \
sqrt(6)*JzKetCoupled(2, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
sqrt(3)*JzKetCoupled(3, 2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
-sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 + \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/15 - \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \
2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 - \
JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 + \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/6 - \
JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/2 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
-JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 - \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 - \
JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
2*sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
-sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 - \
2*sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/15 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/5
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, 0), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
-JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 - \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 + \
JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
-sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 - \
JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 - \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/6 + \
JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/2 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
-sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 + \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/15 + \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \
2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, 0), JzKet(1, -1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
sqrt(2)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \
sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
sqrt(3)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 + \
JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/30 - \
JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \
sqrt(3)*JzKetCoupled(2, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
sqrt(15)*JzKetCoupled(3, 1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
-sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 + \
JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 - \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/6 - \
JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/2 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/5 - \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \
sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(0, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 0)) )/6 + \
sqrt(3)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 - \
sqrt(15)*JzKetCoupled(1, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/15 - \
sqrt(3)*JzKetCoupled(2, 0, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/3 + \
sqrt(10)*JzKetCoupled(3, 0, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/10
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 - \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/10 - \
JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 - \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
2*sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, 0), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
-sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/3 + \
sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 1)), ((1, 3), (1, 2)) ) == \
sqrt(3)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 0), (1, 2, 1)) )/3 - \
JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 1)) )/2 + \
sqrt(15)*JzKetCoupled(1, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 1)) )/30 - \
JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \
sqrt(3)*JzKetCoupled(2, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
sqrt(15)*JzKetCoupled(3, -1, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/15
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, 0)), ((1, 3), (1, 2)) ) == \
-sqrt(2)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 1), (1, 2, 2)) )/2 + \
sqrt(6)*JzKetCoupled(2, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 2)) )/6 + \
sqrt(3)*JzKetCoupled(3, -2, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )/3
assert couple(TensorProduct(JzKet(1, -1), JzKet(1, -1), JzKet(1, -1)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(3, -3, (1, 1, 1), ((1, 3, 2), (1, 2, 3)) )
# j1=1/2, j2=1/2, j3=3/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(3)/2)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(S(5)/2, S(
5)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(1)/2)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/2 - \
sqrt(15)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/10 + \
sqrt(15)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)
/2), ((1, 3, 2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(-1)/2)), ((1, 3), (1, 2)) ) == \
-sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/3 - \
sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/5 + \
sqrt(30)*JzKetCoupled(S(5)/2, S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(-3)/2)), ((1, 3), (1, 2)) ) == \
-sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/2 + \
JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/2 - \
sqrt(15)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/10 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(3)/2)), ((1, 3), (1, 2)) ) == \
2*sqrt(5)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/5 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/
2), ((1, 3, 2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(1)/2)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/6 + \
3*sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/10 + \
sqrt(30)*JzKetCoupled(S(5)/2, S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(-1)/2)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/6 + \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/3 + \
sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/5 + \
sqrt(30)*JzKetCoupled(S(5)/2, -S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(-3)/2)), ((1, 3), (1, 2)) ) == \
sqrt(3)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/2 + \
sqrt(5)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/10 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)
/2), ((1, 3, 2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(3)/2)), ((1, 3), (1, 2)) ) == \
-sqrt(3)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/2 - \
sqrt(5)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/10 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(1)/2, S(3)/
2), ((1, 3, 2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(1)/2)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/6 - \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/3 - \
sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/5 + \
sqrt(30)*JzKetCoupled(S(5)/2, S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(-1)/2)), ((1, 3), (1, 2)) ) == \
sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/6 - \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/6 - \
3*sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/10 + \
sqrt(30)*JzKetCoupled(S(5)/2, -S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(3)/2, S(-3)/2)), ((1, 3), (1, 2)) ) == \
-2*sqrt(5)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/5 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)
/2), ((1, 3, 2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(3)/2)), ((1, 3), (1, 2)) ) == \
-sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/2 - \
JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/2 + \
sqrt(15)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/10 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(1)/2)), ((1, 3), (1, 2)) ) == \
-sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(1)/2)) )/6 - \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/3 + \
sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/5 + \
sqrt(30)*JzKetCoupled(S(5)/2, -S(
1)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(-1)/2)), ((1, 3), (1, 2)) ) == \
-JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 1), (1, 2, S(3)/2)) )/2 + \
sqrt(15)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(3)/2)) )/10 + \
sqrt(15)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(1)/2, S(
3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(3)/2, S(-3)/2)), ((1, 3), (1, 2)) ) == \
JzKetCoupled(S(5)/2, -S(
5)/2, (S(1)/2, S(1)/2, S(3)/2), ((1, 3, 2), (1, 2, S(5)/2)) )
def test_couple_4_states_numerical():
# Default coupling
# j1=1/2, j2=1/2, j3=1/2, j4=1/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))) == \
JzKetCoupled(2, 2, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2))) == \
sqrt(3)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/2 + \
JzKetCoupled(2, 1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2))) == \
sqrt(6)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/3 - \
sqrt(3)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
JzKetCoupled(2, 1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2))) == \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 0)) )/3 + \
sqrt(3)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/3 + \
sqrt(6)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))) == \
sqrt(2)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, 1)) )/2 - \
sqrt(6)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/6 - \
sqrt(3)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
JzKetCoupled(2, 1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2),
JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2))) == \
JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2),
((1, 2, 0), (1, 3, S(1)/2), (1, 4, 0)))/2 - \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2),
((1, 2, 1), (1, 3, S(1)/2), (1, 4, 0)))/6 + \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2),
((1, 2, 0), (1, 3, S(1)/2), (1, 4, 1)))/2 - \
sqrt(3)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2),
((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)))/6 + \
sqrt(6)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2),
((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)))/6 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2),
((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)))/6
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2))) == \
-JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, 0)) )/2 - \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 0)) )/6 + \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, 1)) )/2 + \
sqrt(3)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/6 - \
sqrt(6)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2))) == \
sqrt(2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, 1)) )/2 + \
sqrt(6)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/6 + \
sqrt(3)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
JzKetCoupled(2, -1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))) == \
-sqrt(2)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, 1)) )/2 - \
sqrt(6)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/6 - \
sqrt(3)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
JzKetCoupled(2, 1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2))) == \
-JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, 0)) )/2 - \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 0)) )/6 - \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, 1)) )/2 - \
sqrt(3)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/6 + \
sqrt(6)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2))) == \
JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, 0)) )/2 - \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 0)) )/6 - \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, 1)) )/2 + \
sqrt(3)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/6 - \
sqrt(6)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2))) == \
-sqrt(2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, 1)) )/2 + \
sqrt(6)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/6 + \
sqrt(3)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
JzKetCoupled(2, -1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2))) == \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 0)) )/3 - \
sqrt(3)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/3 - \
sqrt(6)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2))) == \
-sqrt(6)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, 1)) )/3 + \
sqrt(3)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/6 + \
JzKetCoupled(2, -1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2))) == \
-sqrt(3)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 1)) )/2 + \
JzKetCoupled(2, -1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2))) == \
JzKetCoupled(2, -2, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, 2)) )
# j1=S(1)/2, S(1)/2, S(1)/2, 1
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1))) == \
JzKetCoupled(S(5)/2, S(5)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))) == \
sqrt(15)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))) == \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/2 + \
sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1))) == \
sqrt(6)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0))) == \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 - \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/3 + \
2*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 + \
sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1))) == \
2*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/6 + \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 + \
2*sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1))) == \
sqrt(2)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/2 - \
sqrt(6)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))) == \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/6 - \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/3 + \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 - \
JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 + \
sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))) == \
sqrt(3)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 - \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/6 + \
sqrt(6)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 + \
2*sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1))) == \
-sqrt(3)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 - \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/6 + \
sqrt(6)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 + \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 - \
2*sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0))) == \
-sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/6 - \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/3 + \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 + \
JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 - \
sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1))) == \
sqrt(2)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/2 + \
sqrt(6)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1))) == \
-sqrt(2)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/2 - \
sqrt(6)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))) == \
-sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/6 - \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/3 - \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 - \
JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 + \
sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))) == \
-sqrt(3)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 - \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/6 - \
sqrt(6)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 + \
2*sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1))) == \
sqrt(3)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 - \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/6 - \
sqrt(6)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 + \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 - \
2*sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0))) == \
sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/6 - \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/3 - \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 + \
JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 - \
sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1))) == \
-sqrt(2)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/2 + \
sqrt(6)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/6 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1))) == \
2*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 - \
2*sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0))) == \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(1)/2)) )/3 - \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/3 - \
2*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 - \
sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1))) == \
-sqrt(6)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(1)/2), (1, 4, S(3)/2)) )/3 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1))) == \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(1)/2)) )/2 - \
sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0))) == \
-sqrt(15)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1))) == \
JzKetCoupled(S(5)/2, -S(5)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (1, 3, S(3)/2), (1, 4, S(5)/2)) )
# Couple j1 to j2, j3 to j4
# j1=1/2, j2=1/2, j3=1/2, j4=1/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
JzKetCoupled(2, 2, (S(
1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(2)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \
JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, 1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(2)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \
JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, 1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/3 + \
sqrt(2)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/
2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(2)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 - \
JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, 1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 0), (1, 3, 0)) )/2 - \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/6 + \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/
2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
-JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 0), (1, 3, 0)) )/2 - \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/6 + \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 - \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/
2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, -1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(2)*JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 - \
JzKetCoupled(1, 1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, 1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
-JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 0), (1, 3, 0)) )/2 - \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/6 - \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/
2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 0), (1, 3, 0)) )/2 - \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/6 - \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 - \
JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/
2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 0), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, -1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(3)*JzKetCoupled(0, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 0)) )/3 - \
sqrt(2)*JzKetCoupled(1, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \
sqrt(6)*JzKetCoupled(2, 0, (S(1)/2, S(1)/2, S(1)/2, S(1)/
2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/6
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 - \
JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, -1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(2)*JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 0), (1, 3, 1)) )/2 - \
JzKetCoupled(1, -1, (S(1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 1)) )/2 + \
JzKetCoupled(2, -1, (S(1)/2, S(
1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )/2
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2)), ((1, 2), (3, 4), (1, 3)) ) == \
JzKetCoupled(2, -2, (S(
1)/2, S(1)/2, S(1)/2, S(1)/2), ((1, 2, 1), (3, 4, 1), (1, 3, 2)) )
# j1=S(1)/2, S(1)/2, S(1)/2, 1
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \
JzKetCoupled(S(5)/2, S(5)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(3)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 + \
2*sqrt(15)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \
2*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/6 + \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 + \
2*sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(6)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 + \
sqrt(30)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 + \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/3 - \
JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 + \
4*sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/2 + \
sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(2)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/2 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/10 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/6 - \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/3 + \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/3 + \
JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 - \
sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(3)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 + \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 - \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/6 + \
sqrt(6)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/6 + \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 + \
sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/30 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(3)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 + \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 - \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/6 + \
sqrt(6)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 - \
sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/30 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/6 - \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/3 + \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/3 - \
JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 + \
sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(2)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/2 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/10 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(2)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/2 - \
sqrt(30)*JzKetCoupled(S(3)/2, S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/10 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(6)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/6 - \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/3 - \
sqrt(3)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/3 + \
JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 - \
sqrt(5)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(3)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 + \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 - \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/6 - \
sqrt(6)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/6 + \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 + \
sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/30 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(3)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 + \
JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 - \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/6 - \
sqrt(6)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 - \
sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/30 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(6)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/6 - \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/3 - \
sqrt(3)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/3 - \
JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 + \
sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(2)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 0), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/2 + \
sqrt(30)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/10 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(2)*JzKetCoupled(S(1)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/2 - \
sqrt(10)*JzKetCoupled(S(3)/2, S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/5 + \
sqrt(10)*JzKetCoupled(S(5)/2, S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 + \
JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/3 + \
JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 - \
4*sqrt(5)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(1)/2), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \
sqrt(6)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 - \
sqrt(30)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(5)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 1)), ((1, 2), (3, 4), (1, 3)) ) == \
2*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(1)/2)) )/3 + \
sqrt(2)*JzKetCoupled(S(1)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(1)/2)) )/6 - \
sqrt(2)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 - \
2*sqrt(10)*JzKetCoupled(S(3)/2, -S(1)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(1)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/10
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, 0)), ((1, 2), (3, 4), (1, 3)) ) == \
-sqrt(3)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(1)/2), (1, 3, S(3)/2)) )/3 - \
2*sqrt(15)*JzKetCoupled(S(3)/2, -S(3)/2, (S(1)/2, S(1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(3)/2)) )/15 + \
sqrt(10)*JzKetCoupled(S(5)/2, -S(3)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )/5
assert couple(TensorProduct(JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(S(1)/2, S(-1)/2), JzKet(1, -1)), ((1, 2), (3, 4), (1, 3)) ) == \
JzKetCoupled(S(5)/2, -S(5)/2, (S(1)/2, S(
1)/2, S(1)/2, 1), ((1, 2, 1), (3, 4, S(3)/2), (1, 3, S(5)/2)) )
def test_couple_symbolic():
assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
Sum(CG(j1, m1, j2, m2, j, m1 + m2) * JzKetCoupled(j, m1 + m2, (
j1, j2)), (j, m1 + m2, j1 + j2))
assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3))) == \
Sum(CG(j1, m1, j2, m2, j12, m1 + m2) * CG(j12, m1 + m2, j3, m3, j, m1 + m2 + m3) *
JzKetCoupled(j, m1 + m2 + m3, (j1, j2, j3), ((1, 2, j12), (1, 3, j)) ),
(j12, m1 + m2, j1 + j2), (j, m1 + m2 + m3, j12 + j3))
assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3)), ((1, 3), (1, 2)) ) == \
Sum(CG(j1, m1, j3, m3, j13, m1 + m3) * CG(j13, m1 + m3, j2, m2, j, m1 + m2 + m3) *
JzKetCoupled(j, m1 + m2 + m3, (j1, j2, j3), ((1, 3, j13), (1, 2, j)) ),
(j13, m1 + m3, j1 + j3), (j, m1 + m2 + m3, j13 + j2))
assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3), JzKet(j4, m4))) == \
Sum(CG(j1, m1, j2, m2, j12, m1 + m2) * CG(j12, m1 + m2, j3, m3, j123, m1 + m2 + m3) * CG(j123, m1 + m2 + m3, j4, m4, j, m1 + m2 + m3 + m4) *
JzKetCoupled(j, m1 + m2 + m3 + m4, (
j1, j2, j3, j4), ((1, 2, j12), (1, 3, j123), (1, 4, j)) ),
(j12, m1 + m2, j1 + j2), (j123, m1 + m2 + m3, j12 + j3), (j, m1 + m2 + m3 + m4, j123 + j4))
assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3), JzKet(j4, m4)), ((1, 2), (3, 4), (1, 3)) ) == \
Sum(CG(j1, m1, j2, m2, j12, m1 + m2) * CG(j3, m3, j4, m4, j34, m3 + m4) * CG(j12, m1 + m2, j34, m3 + m4, j, m1 + m2 + m3 + m4) *
JzKetCoupled(j, m1 + m2 + m3 + m4, (
j1, j2, j3, j4), ((1, 2, j12), (3, 4, j34), (1, 3, j)) ),
(j12, m1 + m2, j1 + j2), (j34, m3 + m4, j3 + j4), (j, m1 + m2 + m3 + m4, j12 + j34))
assert couple(TensorProduct(JzKet(j1, m1), JzKet(j2, m2), JzKet(j3, m3), JzKet(j4, m4)), ((1, 3), (1, 4), (1, 2)) ) == \
Sum(CG(j1, m1, j3, m3, j13, m1 + m3) * CG(j13, m1 + m3, j4, m4, j134, m1 + m3 + m4) * CG(j134, m1 + m3 + m4, j2, m2, j, m1 + m2 + m3 + m4) *
JzKetCoupled(j, m1 + m2 + m3 + m4, (
j1, j2, j3, j4), ((1, 3, j13), (1, 4, j134), (1, 2, j)) ),
(j13, m1 + m3, j1 + j3), (j134, m1 + m3 + m4, j13 + j4), (j, m1 + m2 + m3 + m4, j134 + j2))
def test_innerproduct():
assert InnerProduct(JzBra(1, 1), JzKet(1, 1)).doit() == 1
assert InnerProduct(
JzBra(S(1)/2, S(1)/2), JzKet(S(1)/2, -S(1)/2)).doit() == 0
assert InnerProduct(JzBra(j, m), JzKet(j, m)).doit() == 1
assert InnerProduct(JzBra(1, 0), JyKet(1, 1)).doit() == I/sqrt(2)
assert InnerProduct(
JxBra(S(1)/2, S(1)/2), JzKet(S(1)/2, S(1)/2)).doit() == -sqrt(2)/2
assert InnerProduct(JyBra(1, 1), JzKet(1, 1)).doit() == S(1)/2
assert InnerProduct(JxBra(1, -1), JyKet(1, 1)).doit() == 0
def test_rotation_small_d():
# Symbolic tests
# j = 1/2
assert Rotation.d(S(1)/2, S(1)/2, S(1)/2, beta).doit() == cos(beta/2)
assert Rotation.d(S(1)/2, S(1)/2, -S(1)/2, beta).doit() == -sin(beta/2)
assert Rotation.d(S(1)/2, -S(1)/2, S(1)/2, beta).doit() == sin(beta/2)
assert Rotation.d(S(1)/2, -S(1)/2, -S(1)/2, beta).doit() == cos(beta/2)
# j = 1
assert Rotation.d(1, 1, 1, beta).doit() == (1 + cos(beta))/2
assert Rotation.d(1, 1, 0, beta).doit() == -sin(beta)/sqrt(2)
assert Rotation.d(1, 1, -1, beta).doit() == (1 - cos(beta))/2
assert Rotation.d(1, 0, 1, beta).doit() == sin(beta)/sqrt(2)
assert Rotation.d(1, 0, 0, beta).doit() == cos(beta)
assert Rotation.d(1, 0, -1, beta).doit() == -sin(beta)/sqrt(2)
assert Rotation.d(1, -1, 1, beta).doit() == (1 - cos(beta))/2
assert Rotation.d(1, -1, 0, beta).doit() == sin(beta)/sqrt(2)
assert Rotation.d(1, -1, -1, beta).doit() == (1 + cos(beta))/2
# j = 3/2
assert Rotation.d(S(
3)/2, S(3)/2, S(3)/2, beta).doit() == (3*cos(beta/2) + cos(3*beta/2))/4
assert Rotation.d(S(3)/2, S(
3)/2, S(1)/2, beta).doit() == -sqrt(3)*(sin(beta/2) + sin(3*beta/2))/4
assert Rotation.d(S(3)/2, S(
3)/2, -S(1)/2, beta).doit() == sqrt(3)*(cos(beta/2) - cos(3*beta/2))/4
assert Rotation.d(S(3)/2, S(
3)/2, -S(3)/2, beta).doit() == (-3*sin(beta/2) + sin(3*beta/2))/4
assert Rotation.d(S(3)/2, S(
1)/2, S(3)/2, beta).doit() == sqrt(3)*(sin(beta/2) + sin(3*beta/2))/4
assert Rotation.d(S(
3)/2, S(1)/2, S(1)/2, beta).doit() == (cos(beta/2) + 3*cos(3*beta/2))/4
assert Rotation.d(S(
3)/2, S(1)/2, -S(1)/2, beta).doit() == (sin(beta/2) - 3*sin(3*beta/2))/4
assert Rotation.d(S(3)/2, S(
1)/2, -S(3)/2, beta).doit() == sqrt(3)*(cos(beta/2) - cos(3*beta/2))/4
assert Rotation.d(S(3)/2, -S(
1)/2, S(3)/2, beta).doit() == sqrt(3)*(cos(beta/2) - cos(3*beta/2))/4
assert Rotation.d(S(3)/2, -S(
1)/2, S(1)/2, beta).doit() == (-sin(beta/2) + 3*sin(3*beta/2))/4
assert Rotation.d(S(3)/2, -S(
1)/2, -S(1)/2, beta).doit() == (cos(beta/2) + 3*cos(3*beta/2))/4
assert Rotation.d(S(3)/2, -S(
1)/2, -S(3)/2, beta).doit() == -sqrt(3)*(sin(beta/2) + sin(3*beta/2))/4
assert Rotation.d(S(
3)/2, -S(3)/2, S(3)/2, beta).doit() == (3*sin(beta/2) - sin(3*beta/2))/4
assert Rotation.d(S(3)/2, -S(
3)/2, S(1)/2, beta).doit() == sqrt(3)*(cos(beta/2) - cos(3*beta/2))/4
assert Rotation.d(S(3)/2, -S(
3)/2, -S(1)/2, beta).doit() == sqrt(3)*(sin(beta/2) + sin(3*beta/2))/4
assert Rotation.d(S(3)/2, -S(
3)/2, -S(3)/2, beta).doit() == (3*cos(beta/2) + cos(3*beta/2))/4
# j = 2
assert Rotation.d(2, 2, 2, beta).doit() == (3 + 4*cos(beta) + cos(2*beta))/8
assert Rotation.d(2, 2, 1, beta).doit() == -((cos(beta) + 1)*sin(beta))/2
assert Rotation.d(2, 2, 0, beta).doit() == sqrt(6)*sin(beta)**2/4
assert Rotation.d(2, 2, -1, beta).doit() == (cos(beta) - 1)*sin(beta)/2
assert Rotation.d(2, 2, -2, beta).doit() == (3 - 4*cos(beta) + cos(2*beta))/8
assert Rotation.d(2, 1, 2, beta).doit() == (cos(beta) + 1)*sin(beta)/2
assert Rotation.d(2, 1, 1, beta).doit() == (cos(beta) + cos(2*beta))/2
assert Rotation.d(2, 1, 0, beta).doit() == -sqrt(6)*sin(2*beta)/4
assert Rotation.d(2, 1, -1, beta).doit() == (cos(beta) - cos(2*beta))/2
assert Rotation.d(2, 1, -2, beta).doit() == (cos(beta) - 1)*sin(beta)/2
assert Rotation.d(2, 0, 2, beta).doit() == sqrt(6)*sin(beta)**2/4
assert Rotation.d(2, 0, 1, beta).doit() == sqrt(6)*sin(2*beta)/4
assert Rotation.d(2, 0, 0, beta).doit() == (1 + 3*cos(2*beta))/4
assert Rotation.d(2, 0, -1, beta).doit() == -sqrt(6)*sin(2*beta)/4
assert Rotation.d(2, 0, -2, beta).doit() == sqrt(6)*sin(beta)**2/4
assert Rotation.d(2, -1, 2, beta).doit() == (2*sin(beta) - sin(2*beta))/4
assert Rotation.d(2, -1, 1, beta).doit() == (cos(beta) - cos(2*beta))/2
assert Rotation.d(2, -1, 0, beta).doit() == sqrt(6)*sin(2*beta)/4
assert Rotation.d(2, -1, -1, beta).doit() == (cos(beta) + cos(2*beta))/2
assert Rotation.d(2, -1, -2, beta).doit() == -((cos(beta) + 1)*sin(beta))/2
assert Rotation.d(2, -2, 2, beta).doit() == (3 - 4*cos(beta) + cos(2*beta))/8
assert Rotation.d(2, -2, 1, beta).doit() == (2*sin(beta) - sin(2*beta))/4
assert Rotation.d(2, -2, 0, beta).doit() == sqrt(6)*sin(beta)**2/4
assert Rotation.d(2, -2, -1, beta).doit() == (cos(beta) + 1)*sin(beta)/2
assert Rotation.d(2, -2, -2, beta).doit() == (3 + 4*cos(beta) + cos(2*beta))/8
# Numerical tests
# j = 1/2
assert Rotation.d(S(1)/2, S(1)/2, S(1)/2, pi/2).doit() == sqrt(2)/2
assert Rotation.d(S(1)/2, S(1)/2, -S(1)/2, pi/2).doit() == -sqrt(2)/2
assert Rotation.d(S(1)/2, -S(1)/2, S(1)/2, pi/2).doit() == sqrt(2)/2
assert Rotation.d(S(1)/2, -S(1)/2, -S(1)/2, pi/2).doit() == sqrt(2)/2
# j = 1
assert Rotation.d(1, 1, 1, pi/2).doit() == 1/2
assert Rotation.d(1, 1, 0, pi/2).doit() == -sqrt(2)/2
assert Rotation.d(1, 1, -1, pi/2).doit() == 1/2
assert Rotation.d(1, 0, 1, pi/2).doit() == sqrt(2)/2
assert Rotation.d(1, 0, 0, pi/2).doit() == 0
assert Rotation.d(1, 0, -1, pi/2).doit() == -sqrt(2)/2
assert Rotation.d(1, -1, 1, pi/2).doit() == 1/2
assert Rotation.d(1, -1, 0, pi/2).doit() == sqrt(2)/2
assert Rotation.d(1, -1, -1, pi/2).doit() == 1/2
# j = 3/2
assert Rotation.d(S(3)/2, S(3)/2, S(3)/2, pi/2).doit() == sqrt(2)/4
assert Rotation.d(S(3)/2, S(3)/2, S(1)/2, pi/2).doit() == -sqrt(6)/4
assert Rotation.d(S(3)/2, S(3)/2, -S(1)/2, pi/2).doit() == sqrt(6)/4
assert Rotation.d(S(3)/2, S(3)/2, -S(3)/2, pi/2).doit() == -sqrt(2)/4
assert Rotation.d(S(3)/2, S(1)/2, S(3)/2, pi/2).doit() == sqrt(6)/4
assert Rotation.d(S(3)/2, S(1)/2, S(1)/2, pi/2).doit() == -sqrt(2)/4
assert Rotation.d(S(3)/2, S(1)/2, -S(1)/2, pi/2).doit() == -sqrt(2)/4
assert Rotation.d(S(3)/2, S(1)/2, -S(3)/2, pi/2).doit() == sqrt(6)/4
assert Rotation.d(S(3)/2, -S(1)/2, S(3)/2, pi/2).doit() == sqrt(6)/4
assert Rotation.d(S(3)/2, -S(1)/2, S(1)/2, pi/2).doit() == sqrt(2)/4
assert Rotation.d(S(3)/2, -S(1)/2, -S(1)/2, pi/2).doit() == -sqrt(2)/4
assert Rotation.d(S(3)/2, -S(1)/2, -S(3)/2, pi/2).doit() == -sqrt(6)/4
assert Rotation.d(S(3)/2, -S(3)/2, S(3)/2, pi/2).doit() == sqrt(2)/4
assert Rotation.d(S(3)/2, -S(3)/2, S(1)/2, pi/2).doit() == sqrt(6)/4
assert Rotation.d(S(3)/2, -S(3)/2, -S(1)/2, pi/2).doit() == sqrt(6)/4
assert Rotation.d(S(3)/2, -S(3)/2, -S(3)/2, pi/2).doit() == sqrt(2)/4
# j = 2
assert Rotation.d(2, 2, 2, pi/2).doit() == 1/4
assert Rotation.d(2, 2, 1, pi/2).doit() == -1/2
assert Rotation.d(2, 2, 0, pi/2).doit() == sqrt(6)/4
assert Rotation.d(2, 2, -1, pi/2).doit() == -1/2
assert Rotation.d(2, 2, -2, pi/2).doit() == 1/4
assert Rotation.d(2, 1, 2, pi/2).doit() == 1/2
assert Rotation.d(2, 1, 1, pi/2).doit() == -1/2
assert Rotation.d(2, 1, 0, pi/2).doit() == 0
assert Rotation.d(2, 1, -1, pi/2).doit() == 1/2
assert Rotation.d(2, 1, -2, pi/2).doit() == -1/2
assert Rotation.d(2, 0, 2, pi/2).doit() == sqrt(6)/4
assert Rotation.d(2, 0, 1, pi/2).doit() == 0
assert Rotation.d(2, 0, 0, pi/2).doit() == -1/2
assert Rotation.d(2, 0, -1, pi/2).doit() == 0
assert Rotation.d(2, 0, -2, pi/2).doit() == sqrt(6)/4
assert Rotation.d(2, -1, 2, pi/2).doit() == 1/2
assert Rotation.d(2, -1, 1, pi/2).doit() == 1/2
assert Rotation.d(2, -1, 0, pi/2).doit() == 0
assert Rotation.d(2, -1, -1, pi/2).doit() == -1/2
assert Rotation.d(2, -1, -2, pi/2).doit() == -1/2
assert Rotation.d(2, -2, 2, pi/2).doit() == 1/4
assert Rotation.d(2, -2, 1, pi/2).doit() == 1/2
assert Rotation.d(2, -2, 0, pi/2).doit() == sqrt(6)/4
assert Rotation.d(2, -2, -1, pi/2).doit() == 1/2
assert Rotation.d(2, -2, -2, pi/2).doit() == 1/4
def test_rotation_d():
# Symbolic tests
# j = 1/2
assert Rotation.D(S(1)/2, S(1)/2, S(1)/2, alpha, beta, gamma).doit() == \
cos(beta/2)*exp(-I*alpha/2)*exp(-I*gamma/2)
assert Rotation.D(S(1)/2, S(1)/2, -S(1)/2, alpha, beta, gamma).doit() == \
-sin(beta/2)*exp(-I*alpha/2)*exp(I*gamma/2)
assert Rotation.D(S(1)/2, -S(1)/2, S(1)/2, alpha, beta, gamma).doit() == \
sin(beta/2)*exp(I*alpha/2)*exp(-I*gamma/2)
assert Rotation.D(S(1)/2, -S(1)/2, -S(1)/2, alpha, beta, gamma).doit() == \
cos(beta/2)*exp(I*alpha/2)*exp(I*gamma/2)
# j = 1
assert Rotation.D(1, 1, 1, alpha, beta, gamma).doit() == \
(1 + cos(beta))/2*exp(-I*alpha)*exp(-I*gamma)
assert Rotation.D(1, 1, 0, alpha, beta, gamma).doit() == -sin(
beta)/sqrt(2)*exp(-I*alpha)
assert Rotation.D(1, 1, -1, alpha, beta, gamma).doit() == \
(1 - cos(beta))/2*exp(-I*alpha)*exp(I*gamma)
assert Rotation.D(1, 0, 1, alpha, beta, gamma).doit() == \
sin(beta)/sqrt(2)*exp(-I*gamma)
assert Rotation.D(1, 0, 0, alpha, beta, gamma).doit() == cos(beta)
assert Rotation.D(1, 0, -1, alpha, beta, gamma).doit() == \
-sin(beta)/sqrt(2)*exp(I*gamma)
assert Rotation.D(1, -1, 1, alpha, beta, gamma).doit() == \
(1 - cos(beta))/2*exp(I*alpha)*exp(-I*gamma)
assert Rotation.D(1, -1, 0, alpha, beta, gamma).doit() == \
sin(beta)/sqrt(2)*exp(I*alpha)
assert Rotation.D(1, -1, -1, alpha, beta, gamma).doit() == \
(1 + cos(beta))/2*exp(I*alpha)*exp(I*gamma)
# j = 3/2
assert Rotation.D(S(3)/2, S(3)/2, S(3)/2, alpha, beta, gamma).doit() == \
(3*cos(beta/2) + cos(3*beta/2))/4*exp(-3*I*alpha/2)*exp(-3*I*gamma/2)
assert Rotation.D(S(3)/2, S(3)/2, S(1)/2, alpha, beta, gamma).doit() == \
-sqrt(3)*(sin(beta/2) + sin(3*beta/2))/4*exp(-3*I*alpha/2)*exp(-I*gamma/2)
assert Rotation.D(S(3)/2, S(3)/2, -S(1)/2, alpha, beta, gamma).doit() == \
sqrt(3)*(cos(beta/2) - cos(3*beta/2))/4*exp(-3*I*alpha/2)*exp(I*gamma/2)
assert Rotation.D(S(3)/2, S(3)/2, -S(3)/2, alpha, beta, gamma).doit() == \
(-3*sin(beta/2) + sin(3*beta/2))/4*exp(-3*I*alpha/2)*exp(3*I*gamma/2)
assert Rotation.D(S(3)/2, S(1)/2, S(3)/2, alpha, beta, gamma).doit() == \
sqrt(3)*(sin(beta/2) + sin(3*beta/2))/4*exp(-I*alpha/2)*exp(-3*I*gamma/2)
assert Rotation.D(S(3)/2, S(1)/2, S(1)/2, alpha, beta, gamma).doit() == \
(cos(beta/2) + 3*cos(3*beta/2))/4*exp(-I*alpha/2)*exp(-I*gamma/2)
assert Rotation.D(S(3)/2, S(1)/2, -S(1)/2, alpha, beta, gamma).doit() == \
(sin(beta/2) - 3*sin(3*beta/2))/4*exp(-I*alpha/2)*exp(I*gamma/2)
assert Rotation.D(S(3)/2, S(1)/2, -S(3)/2, alpha, beta, gamma).doit() == \
sqrt(3)*(cos(beta/2) - cos(3*beta/2))/4*exp(-I*alpha/2)*exp(3*I*gamma/2)
assert Rotation.D(S(3)/2, -S(1)/2, S(3)/2, alpha, beta, gamma).doit() == \
sqrt(3)*(cos(beta/2) - cos(3*beta/2))/4*exp(I*alpha/2)*exp(-3*I*gamma/2)
assert Rotation.D(S(3)/2, -S(1)/2, S(1)/2, alpha, beta, gamma).doit() == \
(-sin(beta/2) + 3*sin(3*beta/2))/4*exp(I*alpha/2)*exp(-I*gamma/2)
assert Rotation.D(S(3)/2, -S(1)/2, -S(1)/2, alpha, beta, gamma).doit() == \
(cos(beta/2) + 3*cos(3*beta/2))/4*exp(I*alpha/2)*exp(I*gamma/2)
assert Rotation.D(S(3)/2, -S(1)/2, -S(3)/2, alpha, beta, gamma).doit() == \
-sqrt(3)*(sin(beta/2) + sin(3*beta/2))/4*exp(I*alpha/2)*exp(3*I*gamma/2)
assert Rotation.D(S(3)/2, -S(3)/2, S(3)/2, alpha, beta, gamma).doit() == \
(3*sin(beta/2) - sin(3*beta/2))/4*exp(3*I*alpha/2)*exp(-3*I*gamma/2)
assert Rotation.D(S(3)/2, -S(3)/2, S(1)/2, alpha, beta, gamma).doit() == \
sqrt(3)*(cos(beta/2) - cos(3*beta/2))/4*exp(3*I*alpha/2)*exp(-I*gamma/2)
assert Rotation.D(S(3)/2, -S(3)/2, -S(1)/2, alpha, beta, gamma).doit() == \
sqrt(3)*(sin(beta/2) + sin(3*beta/2))/4*exp(3*I*alpha/2)*exp(I*gamma/2)
assert Rotation.D(S(3)/2, -S(3)/2, -S(3)/2, alpha, beta, gamma).doit() == \
(3*cos(beta/2) + cos(3*beta/2))/4*exp(3*I*alpha/2)*exp(3*I*gamma/2)
# j = 2
assert Rotation.D(2, 2, 2, alpha, beta, gamma).doit() == \
(3 + 4*cos(beta) + cos(2*beta))/8*exp(-2*I*alpha)*exp(-2*I*gamma)
assert Rotation.D(2, 2, 1, alpha, beta, gamma).doit() == \
-((cos(beta) + 1)*exp(-2*I*alpha)*exp(-I*gamma)*sin(beta))/2
assert Rotation.D(2, 2, 0, alpha, beta, gamma).doit() == \
sqrt(6)*sin(beta)**2/4*exp(-2*I*alpha)
assert Rotation.D(2, 2, -1, alpha, beta, gamma).doit() == \
(cos(beta) - 1)*sin(beta)/2*exp(-2*I*alpha)*exp(I*gamma)
assert Rotation.D(2, 2, -2, alpha, beta, gamma).doit() == \
(3 - 4*cos(beta) + cos(2*beta))/8*exp(-2*I*alpha)*exp(2*I*gamma)
assert Rotation.D(2, 1, 2, alpha, beta, gamma).doit() == \
(cos(beta) + 1)*sin(beta)/2*exp(-I*alpha)*exp(-2*I*gamma)
assert Rotation.D(2, 1, 1, alpha, beta, gamma).doit() == \
(cos(beta) + cos(2*beta))/2*exp(-I*alpha)*exp(-I*gamma)
assert Rotation.D(2, 1, 0, alpha, beta, gamma).doit() == -sqrt(6)* \
sin(2*beta)/4*exp(-I*alpha)
assert Rotation.D(2, 1, -1, alpha, beta, gamma).doit() == \
(cos(beta) - cos(2*beta))/2*exp(-I*alpha)*exp(I*gamma)
assert Rotation.D(2, 1, -2, alpha, beta, gamma).doit() == \
(cos(beta) - 1)*sin(beta)/2*exp(-I*alpha)*exp(2*I*gamma)
assert Rotation.D(2, 0, 2, alpha, beta, gamma).doit() == \
sqrt(6)*sin(beta)**2/4*exp(-2*I*gamma)
assert Rotation.D(2, 0, 1, alpha, beta, gamma).doit() == sqrt(6)* \
sin(2*beta)/4*exp(-I*gamma)
assert Rotation.D(
2, 0, 0, alpha, beta, gamma).doit() == (1 + 3*cos(2*beta))/4
assert Rotation.D(2, 0, -1, alpha, beta, gamma).doit() == -sqrt(6)* \
sin(2*beta)/4*exp(I*gamma)
assert Rotation.D(2, 0, -2, alpha, beta, gamma).doit() == \
sqrt(6)*sin(beta)**2/4*exp(2*I*gamma)
assert Rotation.D(2, -1, 2, alpha, beta, gamma).doit() == \
(2*sin(beta) - sin(2*beta))/4*exp(I*alpha)*exp(-2*I*gamma)
assert Rotation.D(2, -1, 1, alpha, beta, gamma).doit() == \
(cos(beta) - cos(2*beta))/2*exp(I*alpha)*exp(-I*gamma)
assert Rotation.D(2, -1, 0, alpha, beta, gamma).doit() == sqrt(6)* \
sin(2*beta)/4*exp(I*alpha)
assert Rotation.D(2, -1, -1, alpha, beta, gamma).doit() == \
(cos(beta) + cos(2*beta))/2*exp(I*alpha)*exp(I*gamma)
assert Rotation.D(2, -1, -2, alpha, beta, gamma).doit() == \
-((cos(beta) + 1)*sin(beta))/2*exp(I*alpha)*exp(2*I*gamma)
assert Rotation.D(2, -2, 2, alpha, beta, gamma).doit() == \
(3 - 4*cos(beta) + cos(2*beta))/8*exp(2*I*alpha)*exp(-2*I*gamma)
assert Rotation.D(2, -2, 1, alpha, beta, gamma).doit() == \
(2*sin(beta) - sin(2*beta))/4*exp(2*I*alpha)*exp(-I*gamma)
assert Rotation.D(2, -2, 0, alpha, beta, gamma).doit() == \
sqrt(6)*sin(beta)**2/4*exp(2*I*alpha)
assert Rotation.D(2, -2, -1, alpha, beta, gamma).doit() == \
(cos(beta) + 1)*sin(beta)/2*exp(2*I*alpha)*exp(I*gamma)
assert Rotation.D(2, -2, -2, alpha, beta, gamma).doit() == \
(3 + 4*cos(beta) + cos(2*beta))/8*exp(2*I*alpha)*exp(2*I*gamma)
# Numerical tests
# j = 1/2
assert Rotation.D(
S(1)/2, S(1)/2, S(1)/2, pi/2, pi/2, pi/2).doit() == -I*sqrt(2)/2
assert Rotation.D(
S(1)/2, S(1)/2, -S(1)/2, pi/2, pi/2, pi/2).doit() == -sqrt(2)/2
assert Rotation.D(
S(1)/2, -S(1)/2, S(1)/2, pi/2, pi/2, pi/2).doit() == sqrt(2)/2
assert Rotation.D(
S(1)/2, -S(1)/2, -S(1)/2, pi/2, pi/2, pi/2).doit() == I*sqrt(2)/2
# j = 1
assert Rotation.D(1, 1, 1, pi/2, pi/2, pi/2).doit() == -1/2
assert Rotation.D(1, 1, 0, pi/2, pi/2, pi/2).doit() == I*sqrt(2)/2
assert Rotation.D(1, 1, -1, pi/2, pi/2, pi/2).doit() == 1/2
assert Rotation.D(1, 0, 1, pi/2, pi/2, pi/2).doit() == -I*sqrt(2)/2
assert Rotation.D(1, 0, 0, pi/2, pi/2, pi/2).doit() == 0
assert Rotation.D(1, 0, -1, pi/2, pi/2, pi/2).doit() == -I*sqrt(2)/2
assert Rotation.D(1, -1, 1, pi/2, pi/2, pi/2).doit() == 1/2
assert Rotation.D(1, -1, 0, pi/2, pi/2, pi/2).doit() == I*sqrt(2)/2
assert Rotation.D(1, -1, -1, pi/2, pi/2, pi/2).doit() == -1/2
# j = 3/2
assert Rotation.D(
S(3)/2, S(3)/2, S(3)/2, pi/2, pi/2, pi/2).doit() == I*sqrt(2)/4
assert Rotation.D(
S(3)/2, S(3)/2, S(1)/2, pi/2, pi/2, pi/2).doit() == sqrt(6)/4
assert Rotation.D(
S(3)/2, S(3)/2, -S(1)/2, pi/2, pi/2, pi/2).doit() == -I*sqrt(6)/4
assert Rotation.D(
S(3)/2, S(3)/2, -S(3)/2, pi/2, pi/2, pi/2).doit() == -sqrt(2)/4
assert Rotation.D(
S(3)/2, S(1)/2, S(3)/2, pi/2, pi/2, pi/2).doit() == -sqrt(6)/4
assert Rotation.D(
S(3)/2, S(1)/2, S(1)/2, pi/2, pi/2, pi/2).doit() == I*sqrt(2)/4
assert Rotation.D(
S(3)/2, S(1)/2, -S(1)/2, pi/2, pi/2, pi/2).doit() == -sqrt(2)/4
assert Rotation.D(
S(3)/2, S(1)/2, -S(3)/2, pi/2, pi/2, pi/2).doit() == I*sqrt(6)/4
assert Rotation.D(
S(3)/2, -S(1)/2, S(3)/2, pi/2, pi/2, pi/2).doit() == -I*sqrt(6)/4
assert Rotation.D(
S(3)/2, -S(1)/2, S(1)/2, pi/2, pi/2, pi/2).doit() == sqrt(2)/4
assert Rotation.D(
S(3)/2, -S(1)/2, -S(1)/2, pi/2, pi/2, pi/2).doit() == -I*sqrt(2)/4
assert Rotation.D(
S(3)/2, -S(1)/2, -S(3)/2, pi/2, pi/2, pi/2).doit() == sqrt(6)/4
assert Rotation.D(
S(3)/2, -S(3)/2, S(3)/2, pi/2, pi/2, pi/2).doit() == sqrt(2)/4
assert Rotation.D(
S(3)/2, -S(3)/2, S(1)/2, pi/2, pi/2, pi/2).doit() == I*sqrt(6)/4
assert Rotation.D(
S(3)/2, -S(3)/2, -S(1)/2, pi/2, pi/2, pi/2).doit() == -sqrt(6)/4
assert Rotation.D(
S(3)/2, -S(3)/2, -S(3)/2, pi/2, pi/2, pi/2).doit() == -I*sqrt(2)/4
# j = 2
assert Rotation.D(2, 2, 2, pi/2, pi/2, pi/2).doit() == 1/4
assert Rotation.D(2, 2, 1, pi/2, pi/2, pi/2).doit() == -I/2
assert Rotation.D(2, 2, 0, pi/2, pi/2, pi/2).doit() == -sqrt(6)/4
assert Rotation.D(2, 2, -1, pi/2, pi/2, pi/2).doit() == I/2
assert Rotation.D(2, 2, -2, pi/2, pi/2, pi/2).doit() == 1/4
assert Rotation.D(2, 1, 2, pi/2, pi/2, pi/2).doit() == I/2
assert Rotation.D(2, 1, 1, pi/2, pi/2, pi/2).doit() == 1/2
assert Rotation.D(2, 1, 0, pi/2, pi/2, pi/2).doit() == 0
assert Rotation.D(2, 1, -1, pi/2, pi/2, pi/2).doit() == 1/2
assert Rotation.D(2, 1, -2, pi/2, pi/2, pi/2).doit() == -I/2
assert Rotation.D(2, 0, 2, pi/2, pi/2, pi/2).doit() == -sqrt(6)/4
assert Rotation.D(2, 0, 1, pi/2, pi/2, pi/2).doit() == 0
assert Rotation.D(2, 0, 0, pi/2, pi/2, pi/2).doit() == -1/2
assert Rotation.D(2, 0, -1, pi/2, pi/2, pi/2).doit() == 0
assert Rotation.D(2, 0, -2, pi/2, pi/2, pi/2).doit() == -sqrt(6)/4
assert Rotation.D(2, -1, 2, pi/2, pi/2, pi/2).doit() == -I/2
assert Rotation.D(2, -1, 1, pi/2, pi/2, pi/2).doit() == 1/2
assert Rotation.D(2, -1, 0, pi/2, pi/2, pi/2).doit() == 0
assert Rotation.D(2, -1, -1, pi/2, pi/2, pi/2).doit() == 1/2
assert Rotation.D(2, -1, -2, pi/2, pi/2, pi/2).doit() == I/2
assert Rotation.D(2, -2, 2, pi/2, pi/2, pi/2).doit() == 1/4
assert Rotation.D(2, -2, 1, pi/2, pi/2, pi/2).doit() == I/2
assert Rotation.D(2, -2, 0, pi/2, pi/2, pi/2).doit() == -sqrt(6)/4
assert Rotation.D(2, -2, -1, pi/2, pi/2, pi/2).doit() == -I/2
assert Rotation.D(2, -2, -2, pi/2, pi/2, pi/2).doit() == 1/4
def test_wignerd():
assert Rotation.D(
j, m, mp, alpha, beta, gamma) == WignerD(j, m, mp, alpha, beta, gamma)
assert Rotation.d(j, m, mp, beta) == WignerD(j, m, mp, 0, beta, 0)
def test_jplus():
assert Commutator(Jplus, Jminus).doit() == 2*hbar*Jz
assert Jplus.matrix_element(1, 1, 1, 1) == 0
assert Jplus.rewrite('xyz') == Jx + I*Jy
# Normal operators, normal states
# Numerical
assert qapply(Jplus*JxKet(1, 1)) == \
-hbar*sqrt(2)*JxKet(1, 0)/2 + hbar*JxKet(1, 1)
assert qapply(Jplus*JyKet(1, 1)) == \
hbar*sqrt(2)*JyKet(1, 0)/2 + I*hbar*JyKet(1, 1)
assert qapply(Jplus*JzKet(1, 1)) == 0
# Symbolic
assert qapply(Jplus*JxKet(j, m)) == \
Sum(hbar * sqrt(-mi**2 - mi + j**2 + j) * WignerD(j, mi, m, 0, pi/2, 0) *
Sum(WignerD(j, mi1, mi + 1, 0, 3*pi/2, 0) * JxKet(j, mi1),
(mi1, -j, j)), (mi, -j, j))
assert qapply(Jplus*JyKet(j, m)) == \
Sum(hbar * sqrt(j**2 + j - mi**2 - mi) * WignerD(j, mi, m, 3*pi/2, -pi/2, pi/2) *
Sum(WignerD(j, mi1, mi + 1, 3*pi/2, pi/2, pi/2) * JyKet(j, mi1),
(mi1, -j, j)), (mi, -j, j))
assert qapply(Jplus*JzKet(j, m)) == \
hbar*sqrt(j**2 + j - m**2 - m)*JzKet(j, m + 1)
# Normal operators, coupled states
# Numerical
assert qapply(Jplus*JxKetCoupled(1, 1, (1, 1))) == -hbar*sqrt(2) * \
JxKetCoupled(1, 0, (1, 1))/2 + hbar*JxKetCoupled(1, 1, (1, 1))
assert qapply(Jplus*JyKetCoupled(1, 1, (1, 1))) == hbar*sqrt(2) * \
JyKetCoupled(1, 0, (1, 1))/2 + I*hbar*JyKetCoupled(1, 1, (1, 1))
assert qapply(Jplus*JzKet(1, 1)) == 0
# Symbolic
assert qapply(Jplus*JxKetCoupled(j, m, (j1, j2))) == \
Sum(hbar * sqrt(-mi**2 - mi + j**2 + j) * WignerD(j, mi, m, 0, pi/2, 0) *
Sum(
WignerD(
j, mi1, mi + 1, 0, 3*pi/2, 0) * JxKetCoupled(j, mi1, (j1, j2)),
(mi1, -j, j)), (mi, -j, j))
assert qapply(Jplus*JyKetCoupled(j, m, (j1, j2))) == \
Sum(hbar * sqrt(j**2 + j - mi**2 - mi) * WignerD(j, mi, m, 3*pi/2, -pi/2, pi/2) *
Sum(
WignerD(j, mi1, mi + 1, 3*pi/2, pi/2, pi/2) *
JyKetCoupled(j, mi1, (j1, j2)),
(mi1, -j, j)), (mi, -j, j))
assert qapply(Jplus*JzKetCoupled(j, m, (j1, j2))) == \
hbar*sqrt(j**2 + j - m**2 - m)*JzKetCoupled(j, m + 1, (j1, j2))
# Uncoupled operators, uncoupled states
# Numerical
assert qapply(TensorProduct(Jplus, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
-hbar*sqrt(2)*TensorProduct(JxKet(1, 0), JxKet(1, -1))/2 + \
hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1))
assert qapply(TensorProduct(1, Jplus)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
-hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1)) + \
hbar*sqrt(2)*TensorProduct(JxKet(1, 1), JxKet(1, 0))/2
assert qapply(TensorProduct(Jplus, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
hbar*sqrt(2)*TensorProduct(JyKet(1, 0), JyKet(1, -1))/2 + \
hbar*I*TensorProduct(JyKet(1, 1), JyKet(1, -1))
assert qapply(TensorProduct(1, Jplus)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
-hbar*I*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + \
hbar*sqrt(2)*TensorProduct(JyKet(1, 1), JyKet(1, 0))/2
assert qapply(
TensorProduct(Jplus, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == 0
assert qapply(TensorProduct(1, Jplus)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
hbar*sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 0))
# Symbolic
assert qapply(TensorProduct(Jplus, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
TensorProduct(Sum(hbar * sqrt(-mi**2 - mi + j1**2 + j1) * WignerD(j1, mi, m1, 0, pi/2, 0) *
Sum(WignerD(j1, mi1, mi + 1, 0, 3*pi/2, 0) * JxKet(j1, mi1),
(mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2))
assert qapply(TensorProduct(1, Jplus)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
TensorProduct(JxKet(j1, m1), Sum(hbar * sqrt(-mi**2 - mi + j2**2 + j2) * WignerD(j2, mi, m2, 0, pi/2, 0) *
Sum(WignerD(j2, mi1, mi + 1, 0, 3*pi/2, 0) * JxKet(j2, mi1),
(mi1, -j2, j2)), (mi, -j2, j2)))
assert qapply(TensorProduct(Jplus, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
TensorProduct(Sum(hbar * sqrt(j1**2 + j1 - mi**2 - mi) * WignerD(j1, mi, m1, 3*pi/2, -pi/2, pi/2) *
Sum(WignerD(j1, mi1, mi + 1, 3*pi/2, pi/2, pi/2) * JyKet(j1, mi1),
(mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2))
assert qapply(TensorProduct(1, Jplus)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
TensorProduct(JyKet(j1, m1), Sum(hbar * sqrt(j2**2 + j2 - mi**2 - mi) * WignerD(j2, mi, m2, 3*pi/2, -pi/2, pi/2) *
Sum(WignerD(j2, mi1, mi + 1, 3*pi/2, pi/2, pi/2) * JyKet(j2, mi1),
(mi1, -j2, j2)), (mi, -j2, j2)))
assert qapply(TensorProduct(Jplus, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar*sqrt(
j1**2 + j1 - m1**2 - m1)*TensorProduct(JzKet(j1, m1 + 1), JzKet(j2, m2))
assert qapply(TensorProduct(1, Jplus)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar*sqrt(
j2**2 + j2 - m2**2 - m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 + 1))
def test_jminus():
assert qapply(Jminus*JzKet(1, -1)) == 0
assert Jminus.matrix_element(1, 0, 1, 1) == sqrt(2)*hbar
assert Jminus.rewrite('xyz') == Jx - I*Jy
# Normal operators, normal states
# Numerical
assert qapply(Jminus*JxKet(1, 1)) == \
hbar*sqrt(2)*JxKet(1, 0)/2 + hbar*JxKet(1, 1)
assert qapply(Jminus*JyKet(1, 1)) == \
hbar*sqrt(2)*JyKet(1, 0)/2 - hbar*I*JyKet(1, 1)
assert qapply(Jminus*JzKet(1, 1)) == sqrt(2)*hbar*JzKet(1, 0)
# Symbolic
assert qapply(Jminus*JxKet(j, m)) == \
Sum(hbar*sqrt(j**2 + j - mi**2 + mi)*WignerD(j, mi, m, 0, pi/2, 0) *
Sum(WignerD(j, mi1, mi - 1, 0, 3*pi/2, 0)*JxKet(j, mi1),
(mi1, -j, j)), (mi, -j, j))
assert qapply(Jminus*JyKet(j, m)) == \
Sum(hbar*sqrt(j**2 + j - mi**2 + mi)*WignerD(j, mi, m, 3*pi/2, -pi/2, pi/2) *
Sum(WignerD(j, mi1, mi - 1, 3*pi/2, pi/2, pi/2)*JyKet(j, mi1),
(mi1, -j, j)), (mi, -j, j))
assert qapply(Jminus*JzKet(j, m)) == \
hbar*sqrt(j**2 + j - m**2 + m)*JzKet(j, m - 1)
# Normal operators, coupled states
# Numerical
assert qapply(Jminus*JxKetCoupled(1, 1, (1, 1))) == \
hbar*sqrt(2)*JxKetCoupled(1, 0, (1, 1))/2 + \
hbar*JxKetCoupled(1, 1, (1, 1))
assert qapply(Jminus*JyKetCoupled(1, 1, (1, 1))) == \
hbar*sqrt(2)*JyKetCoupled(1, 0, (1, 1))/2 - \
hbar*I*JyKetCoupled(1, 1, (1, 1))
assert qapply(Jminus*JzKetCoupled(1, 1, (1, 1))) == \
sqrt(2)*hbar*JzKetCoupled(1, 0, (1, 1))
# Symbolic
assert qapply(Jminus*JxKetCoupled(j, m, (j1, j2))) == \
Sum(hbar*sqrt(j**2 + j - mi**2 + mi)*WignerD(j, mi, m, 0, pi/2, 0) *
Sum(WignerD(j, mi1, mi - 1, 0, 3*pi/2, 0)*JxKetCoupled(j, mi1, (j1, j2)),
(mi1, -j, j)), (mi, -j, j))
assert qapply(Jminus*JyKetCoupled(j, m, (j1, j2))) == \
Sum(hbar*sqrt(j**2 + j - mi**2 + mi)*WignerD(j, mi, m, 3*pi/2, -pi/2, pi/2) *
Sum(
WignerD(j, mi1, mi - 1, 3*pi/2, pi/2, pi/2)*
JyKetCoupled(j, mi1, (j1, j2)),
(mi1, -j, j)), (mi, -j, j))
assert qapply(Jminus*JzKetCoupled(j, m, (j1, j2))) == \
hbar*sqrt(j**2 + j - m**2 + m)*JzKetCoupled(j, m - 1, (j1, j2))
# Uncoupled operators, uncoupled states
# Numerical
assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
hbar*sqrt(2)*TensorProduct(JxKet(1, 0), JxKet(1, -1))/2 + \
hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1))
assert qapply(TensorProduct(1, Jminus)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
-hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1)) - \
hbar*sqrt(2)*TensorProduct(JxKet(1, 1), JxKet(1, 0))/2
assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
hbar*sqrt(2)*TensorProduct(JyKet(1, 0), JyKet(1, -1))/2 - \
hbar*I*TensorProduct(JyKet(1, 1), JyKet(1, -1))
assert qapply(TensorProduct(1, Jminus)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
hbar*I*TensorProduct(JyKet(1, 1), JyKet(1, -1)) + \
hbar*sqrt(2)*TensorProduct(JyKet(1, 1), JyKet(1, 0))/2
assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
sqrt(2)*hbar*TensorProduct(JzKet(1, 0), JzKet(1, -1))
assert qapply(TensorProduct(
1, Jminus)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == 0
# Symbolic
assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
TensorProduct(Sum(hbar*sqrt(j1**2 + j1 - mi**2 + mi)*WignerD(j1, mi, m1, 0, pi/2, 0) *
Sum(WignerD(j1, mi1, mi - 1, 0, 3*pi/2, 0)*JxKet(j1, mi1),
(mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2))
assert qapply(TensorProduct(1, Jminus)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
TensorProduct(JxKet(j1, m1), Sum(hbar*sqrt(j2**2 + j2 - mi**2 + mi)*WignerD(j2, mi, m2, 0, pi/2, 0) *
Sum(WignerD(j2, mi1, mi - 1, 0, 3*pi/2, 0)*JxKet(j2, mi1),
(mi1, -j2, j2)), (mi, -j2, j2)))
assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
TensorProduct(Sum(hbar*sqrt(j1**2 + j1 - mi**2 + mi)*WignerD(j1, mi, m1, 3*pi/2, -pi/2, pi/2) *
Sum(WignerD(j1, mi1, mi - 1, 3*pi/2, pi/2, pi/2)*JyKet(j1, mi1),
(mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2))
assert qapply(TensorProduct(1, Jminus)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
TensorProduct(JyKet(j1, m1), Sum(hbar*sqrt(j2**2 + j2 - mi**2 + mi)*WignerD(j2, mi, m2, 3*pi/2, -pi/2, pi/2) *
Sum(WignerD(j2, mi1, mi - 1, 3*pi/2, pi/2, pi/2)*JyKet(j2, mi1),
(mi1, -j2, j2)), (mi, -j2, j2)))
assert qapply(TensorProduct(Jminus, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar*sqrt(
j1**2 + j1 - m1**2 + m1)*TensorProduct(JzKet(j1, m1 - 1), JzKet(j2, m2))
assert qapply(TensorProduct(1, Jminus)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar*sqrt(
j2**2 + j2 - m2**2 + m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 - 1))
def test_j2():
assert Commutator(J2, Jz).doit() == 0
assert J2.matrix_element(1, 1, 1, 1) == 2*hbar**2
# Normal operators, normal states
# Numerical
assert qapply(J2*JxKet(1, 1)) == 2*hbar**2*JxKet(1, 1)
assert qapply(J2*JyKet(1, 1)) == 2*hbar**2*JyKet(1, 1)
assert qapply(J2*JzKet(1, 1)) == 2*hbar**2*JzKet(1, 1)
# Symbolic
assert qapply(J2*JxKet(j, m)) == \
hbar**2*j**2*JxKet(j, m) + hbar**2*j*JxKet(j, m)
assert qapply(J2*JyKet(j, m)) == \
hbar**2*j**2*JyKet(j, m) + hbar**2*j*JyKet(j, m)
assert qapply(J2*JzKet(j, m)) == \
hbar**2*j**2*JzKet(j, m) + hbar**2*j*JzKet(j, m)
# Normal operators, coupled states
# Numerical
assert qapply(J2*JxKetCoupled(1, 1, (1, 1))) == \
2*hbar**2*JxKetCoupled(1, 1, (1, 1))
assert qapply(J2*JyKetCoupled(1, 1, (1, 1))) == \
2*hbar**2*JyKetCoupled(1, 1, (1, 1))
assert qapply(J2*JzKetCoupled(1, 1, (1, 1))) == \
2*hbar**2*JzKetCoupled(1, 1, (1, 1))
# Symbolic
assert qapply(J2*JxKetCoupled(j, m, (j1, j2))) == \
hbar**2*j**2*JxKetCoupled(j, m, (j1, j2)) + \
hbar**2*j*JxKetCoupled(j, m, (j1, j2))
assert qapply(J2*JyKetCoupled(j, m, (j1, j2))) == \
hbar**2*j**2*JyKetCoupled(j, m, (j1, j2)) + \
hbar**2*j*JyKetCoupled(j, m, (j1, j2))
assert qapply(J2*JzKetCoupled(j, m, (j1, j2))) == \
hbar**2*j**2*JzKetCoupled(j, m, (j1, j2)) + \
hbar**2*j*JzKetCoupled(j, m, (j1, j2))
# Uncoupled operators, uncoupled states
# Numerical
assert qapply(TensorProduct(J2, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
2*hbar**2*TensorProduct(JxKet(1, 1), JxKet(1, -1))
assert qapply(TensorProduct(1, J2)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
2*hbar**2*TensorProduct(JxKet(1, 1), JxKet(1, -1))
assert qapply(TensorProduct(J2, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
2*hbar**2*TensorProduct(JyKet(1, 1), JyKet(1, -1))
assert qapply(TensorProduct(1, J2)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
2*hbar**2*TensorProduct(JyKet(1, 1), JyKet(1, -1))
assert qapply(TensorProduct(J2, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
2*hbar**2*TensorProduct(JzKet(1, 1), JzKet(1, -1))
assert qapply(TensorProduct(1, J2)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
2*hbar**2*TensorProduct(JzKet(1, 1), JzKet(1, -1))
# Symbolic
assert qapply(TensorProduct(J2, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
hbar**2*j1**2*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + \
hbar**2*j1*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))
assert qapply(TensorProduct(1, J2)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
hbar**2*j2**2*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + \
hbar**2*j2*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))
assert qapply(TensorProduct(J2, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
hbar**2*j1**2*TensorProduct(JyKet(j1, m1), JyKet(j2, m2)) + \
hbar**2*j1*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))
assert qapply(TensorProduct(1, J2)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
hbar**2*j2**2*TensorProduct(JyKet(j1, m1), JyKet(j2, m2)) + \
hbar**2*j2*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))
assert qapply(TensorProduct(J2, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar**2*j1**2*TensorProduct(JzKet(j1, m1), JzKet(j2, m2)) + \
hbar**2*j1*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))
assert qapply(TensorProduct(1, J2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar**2*j2**2*TensorProduct(JzKet(j1, m1), JzKet(j2, m2)) + \
hbar**2*j2*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))
def test_jx():
assert Commutator(Jx, Jz).doit() == -I*hbar*Jy
assert Jx.rewrite('plusminus') == (Jminus + Jplus)/2
assert represent(Jx, basis=Jz, j=1) == (
represent(Jplus, basis=Jz, j=1) + represent(Jminus, basis=Jz, j=1))/2
# Normal operators, normal states
# Numerical
assert qapply(Jx*JxKet(1, 1)) == hbar*JxKet(1, 1)
assert qapply(Jx*JyKet(1, 1)) == hbar*JyKet(1, 1)
assert qapply(Jx*JzKet(1, 1)) == sqrt(2)*hbar*JzKet(1, 0)/2
# Symbolic
assert qapply(Jx*JxKet(j, m)) == hbar*m*JxKet(j, m)
assert qapply(Jx*JyKet(j, m)) == \
Sum(hbar*mi*WignerD(j, mi, m, 0, 0, pi/2)*Sum(WignerD(j,
mi1, mi, 3*pi/2, 0, 0)*JyKet(j, mi1), (mi1, -j, j)), (mi, -j, j))
assert qapply(Jx*JzKet(j, m)) == \
hbar*sqrt(j**2 + j - m**2 - m)*JzKet(j, m + 1)/2 + hbar*sqrt(j**2 +
j - m**2 + m)*JzKet(j, m - 1)/2
# Normal operators, coupled states
# Numerical
assert qapply(Jx*JxKetCoupled(1, 1, (1, 1))) == \
hbar*JxKetCoupled(1, 1, (1, 1))
assert qapply(Jx*JyKetCoupled(1, 1, (1, 1))) == \
hbar*JyKetCoupled(1, 1, (1, 1))
assert qapply(Jx*JzKetCoupled(1, 1, (1, 1))) == \
sqrt(2)*hbar*JzKetCoupled(1, 0, (1, 1))/2
# Symbolic
assert qapply(Jx*JxKetCoupled(j, m, (j1, j2))) == \
hbar*m*JxKetCoupled(j, m, (j1, j2))
assert qapply(Jx*JyKetCoupled(j, m, (j1, j2))) == \
Sum(hbar*mi*WignerD(j, mi, m, 0, 0, pi/2)*Sum(WignerD(j, mi1, mi, 3*pi/2, 0, 0)*JyKetCoupled(j, mi1, (j1, j2)), (mi1, -j, j)), (mi, -j, j))
assert qapply(Jx*JzKetCoupled(j, m, (j1, j2))) == \
hbar*sqrt(j**2 + j - m**2 - m)*JzKetCoupled(j, m + 1, (j1, j2))/2 + \
hbar*sqrt(j**2 + j - m**2 + m)*JzKetCoupled(j, m - 1, (j1, j2))/2
# Normal operators, uncoupled states
# Numerical
assert qapply(Jx*TensorProduct(JxKet(1, 1), JxKet(1, 1))) == \
2*hbar*TensorProduct(JxKet(1, 1), JxKet(1, 1))
assert qapply(Jx*TensorProduct(JyKet(1, 1), JyKet(1, 1))) == \
hbar*TensorProduct(JyKet(1, 1), JyKet(1, 1)) + \
hbar*TensorProduct(JyKet(1, 1), JyKet(1, 1))
assert qapply(Jx*TensorProduct(JzKet(1, 1), JzKet(1, 1))) == \
sqrt(2)*hbar*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2 + \
sqrt(2)*hbar*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2
assert qapply(Jx*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == 0
# Symbolic
assert qapply(Jx*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
hbar*m1*TensorProduct(JxKet(j1, m1), JxKet(j2, m2)) + \
hbar*m2*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))
assert qapply(Jx*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 0, 0, pi/2)*Sum(WignerD(j1, mi1, mi, 3*pi/2, 0, 0)*JyKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2)) + \
TensorProduct(JyKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 0, 0, pi/2)*Sum(WignerD(j2, mi1, mi, 3*pi/2, 0, 0)*JyKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2)))
assert qapply(Jx*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar*sqrt(j1**2 + j1 - m1**2 - m1)*TensorProduct(JzKet(j1, m1 + 1), JzKet(j2, m2))/2 + \
hbar*sqrt(j1**2 + j1 - m1**2 + m1)*TensorProduct(JzKet(j1, m1 - 1), JzKet(j2, m2))/2 + \
hbar*sqrt(j2**2 + j2 - m2**2 - m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 + 1))/2 + \
hbar*sqrt(
j2**2 + j2 - m2**2 + m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 - 1))/2
# Uncoupled operators, uncoupled states
# Numerical
assert qapply(TensorProduct(Jx, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1))
assert qapply(TensorProduct(1, Jx)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
-hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1))
assert qapply(TensorProduct(Jx, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
hbar*TensorProduct(JyKet(1, 1), JyKet(1, -1))
assert qapply(TensorProduct(1, Jx)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
-hbar*TensorProduct(JyKet(1, 1), JyKet(1, -1))
assert qapply(TensorProduct(Jx, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
hbar*sqrt(2)*TensorProduct(JzKet(1, 0), JzKet(1, -1))/2
assert qapply(TensorProduct(1, Jx)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
hbar*sqrt(2)*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2
# Symbolic
assert qapply(TensorProduct(Jx, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
hbar*m1*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))
assert qapply(TensorProduct(1, Jx)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
hbar*m2*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))
assert qapply(TensorProduct(Jx, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 0, 0, pi/2) * Sum(WignerD(j1, mi1, mi, 3*pi/2, 0, 0)*JyKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2))
assert qapply(TensorProduct(1, Jx)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
TensorProduct(JyKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 0, 0, pi/2) * Sum(WignerD(j2, mi1, mi, 3*pi/2, 0, 0)*JyKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2)))
assert qapply(TensorProduct(Jx, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar*sqrt(j1**2 + j1 - m1**2 - m1)*TensorProduct(JzKet(j1, m1 + 1), JzKet(j2, m2))/2 + \
hbar*sqrt(
j1**2 + j1 - m1**2 + m1)*TensorProduct(JzKet(j1, m1 - 1), JzKet(j2, m2))/2
assert qapply(TensorProduct(1, Jx)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar*sqrt(j2**2 + j2 - m2**2 - m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 + 1))/2 + \
hbar*sqrt(
j2**2 + j2 - m2**2 + m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 - 1))/2
def test_jy():
assert Commutator(Jy, Jz).doit() == I*hbar*Jx
assert Jy.rewrite('plusminus') == (Jplus - Jminus)/(2*I)
assert represent(Jy, basis=Jz) == (
represent(Jplus, basis=Jz) - represent(Jminus, basis=Jz))/(2*I)
# Normal operators, normal states
# Numerical
assert qapply(Jy*JxKet(1, 1)) == hbar*JxKet(1, 1)
assert qapply(Jy*JyKet(1, 1)) == hbar*JyKet(1, 1)
assert qapply(Jy*JzKet(1, 1)) == sqrt(2)*hbar*I*JzKet(1, 0)/2
# Symbolic
assert qapply(Jy*JxKet(j, m)) == \
Sum(hbar*mi*WignerD(j, mi, m, 3*pi/2, 0, 0)*Sum(WignerD(
j, mi1, mi, 0, 0, pi/2)*JxKet(j, mi1), (mi1, -j, j)), (mi, -j, j))
assert qapply(Jy*JyKet(j, m)) == hbar*m*JyKet(j, m)
assert qapply(Jy*JzKet(j, m)) == \
-hbar*I*sqrt(j**2 + j - m**2 - m)*JzKet(
j, m + 1)/2 + hbar*I*sqrt(j**2 + j - m**2 + m)*JzKet(j, m - 1)/2
# Normal operators, coupled states
# Numerical
assert qapply(Jy*JxKetCoupled(1, 1, (1, 1))) == \
hbar*JxKetCoupled(1, 1, (1, 1))
assert qapply(Jy*JyKetCoupled(1, 1, (1, 1))) == \
hbar*JyKetCoupled(1, 1, (1, 1))
assert qapply(Jy*JzKetCoupled(1, 1, (1, 1))) == \
sqrt(2)*hbar*I*JzKetCoupled(1, 0, (1, 1))/2
# Symbolic
assert qapply(Jy*JxKetCoupled(j, m, (j1, j2))) == \
Sum(hbar*mi*WignerD(j, mi, m, 3*pi/2, 0, 0)*Sum(WignerD(j, mi1, mi, 0, 0, pi/2)*JxKetCoupled(j, mi1, (j1, j2)), (mi1, -j, j)), (mi, -j, j))
assert qapply(Jy*JyKetCoupled(j, m, (j1, j2))) == \
hbar*m*JyKetCoupled(j, m, (j1, j2))
assert qapply(Jy*JzKetCoupled(j, m, (j1, j2))) == \
-hbar*I*sqrt(j**2 + j - m**2 - m)*JzKetCoupled(j, m + 1, (j1, j2))/2 + \
hbar*I*sqrt(j**2 + j - m**2 + m)*JzKetCoupled(j, m - 1, (j1, j2))/2
# Normal operators, uncoupled states
# Numerical
assert qapply(Jy*TensorProduct(JxKet(1, 1), JxKet(1, 1))) == \
hbar*TensorProduct(JxKet(1, 1), JxKet(1, 1)) + \
hbar*TensorProduct(JxKet(1, 1), JxKet(1, 1))
assert qapply(Jy*TensorProduct(JyKet(1, 1), JyKet(1, 1))) == \
2*hbar*TensorProduct(JyKet(1, 1), JyKet(1, 1))
assert qapply(Jy*TensorProduct(JzKet(1, 1), JzKet(1, 1))) == \
sqrt(2)*hbar*I*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2 + \
sqrt(2)*hbar*I*TensorProduct(JzKet(1, 0), JzKet(1, 1))/2
assert qapply(Jy*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == 0
# Symbolic
assert qapply(Jy*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
TensorProduct(JxKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 3*pi/2, 0, 0)*Sum(WignerD(j2, mi1, mi, 0, 0, pi/2)*JxKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + \
TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 3*pi/2, 0, 0)*Sum(WignerD(j1, mi1, mi, 0, 0, pi/2)*JxKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2))
assert qapply(Jy*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
hbar*m1*TensorProduct(JyKet(j1, m1), JyKet(
j2, m2)) + hbar*m2*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))
assert qapply(Jy*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
-hbar*I*sqrt(j1**2 + j1 - m1**2 - m1)*TensorProduct(JzKet(j1, m1 + 1), JzKet(j2, m2))/2 + \
hbar*I*sqrt(j1**2 + j1 - m1**2 + m1)*TensorProduct(JzKet(j1, m1 - 1), JzKet(j2, m2))/2 + \
-hbar*I*sqrt(j2**2 + j2 - m2**2 - m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 + 1))/2 + \
hbar*I*sqrt(
j2**2 + j2 - m2**2 + m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 - 1))/2
# Uncoupled operators, uncoupled states
# Numerical
assert qapply(TensorProduct(Jy, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1))
assert qapply(TensorProduct(1, Jy)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
-hbar*TensorProduct(JxKet(1, 1), JxKet(1, -1))
assert qapply(TensorProduct(Jy, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
hbar*TensorProduct(JyKet(1, 1), JyKet(1, -1))
assert qapply(TensorProduct(1, Jy)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
-hbar*TensorProduct(JyKet(1, 1), JyKet(1, -1))
assert qapply(TensorProduct(Jy, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
hbar*sqrt(2)*I*TensorProduct(JzKet(1, 0), JzKet(1, -1))/2
assert qapply(TensorProduct(1, Jy)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
-hbar*sqrt(2)*I*TensorProduct(JzKet(1, 1), JzKet(1, 0))/2
# Symbolic
assert qapply(TensorProduct(Jy, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 3*pi/2, 0, 0) * Sum(WignerD(j1, mi1, mi, 0, 0, pi/2)*JxKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2))
assert qapply(TensorProduct(1, Jy)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
TensorProduct(JxKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 3*pi/2, 0, 0) * Sum(WignerD(j2, mi1, mi, 0, 0, pi/2)*JxKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2)))
assert qapply(TensorProduct(Jy, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
hbar*m1*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))
assert qapply(TensorProduct(1, Jy)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
hbar*m2*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))
assert qapply(TensorProduct(Jy, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
-hbar*I*sqrt(j1**2 + j1 - m1**2 - m1)*TensorProduct(JzKet(j1, m1 + 1), JzKet(j2, m2))/2 + \
hbar*I*sqrt(
j1**2 + j1 - m1**2 + m1)*TensorProduct(JzKet(j1, m1 - 1), JzKet(j2, m2))/2
assert qapply(TensorProduct(1, Jy)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
-hbar*I*sqrt(j2**2 + j2 - m2**2 - m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 + 1))/2 + \
hbar*I*sqrt(
j2**2 + j2 - m2**2 + m2)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2 - 1))/2
def test_jz():
assert Commutator(Jz, Jminus).doit() == -hbar*Jminus
# Normal operators, normal states
# Numerical
assert qapply(Jz*JxKet(1, 1)) == -sqrt(2)*hbar*JxKet(1, 0)/2
assert qapply(Jz*JyKet(1, 1)) == -sqrt(2)*hbar*I*JyKet(1, 0)/2
assert qapply(Jz*JzKet(2, 1)) == hbar*JzKet(2, 1)
# Symbolic
assert qapply(Jz*JxKet(j, m)) == \
Sum(hbar*mi*WignerD(j, mi, m, 0, pi/2, 0)*Sum(WignerD(j,
mi1, mi, 0, 3*pi/2, 0)*JxKet(j, mi1), (mi1, -j, j)), (mi, -j, j))
assert qapply(Jz*JyKet(j, m)) == \
Sum(hbar*mi*WignerD(j, mi, m, 3*pi/2, -pi/2, pi/2)*Sum(WignerD(j, mi1,
mi, 3*pi/2, pi/2, pi/2)*JyKet(j, mi1), (mi1, -j, j)), (mi, -j, j))
assert qapply(Jz*JzKet(j, m)) == hbar*m*JzKet(j, m)
# Normal operators, coupled states
# Numerical
assert qapply(Jz*JxKetCoupled(1, 1, (1, 1))) == \
-sqrt(2)*hbar*JxKetCoupled(1, 0, (1, 1))/2
assert qapply(Jz*JyKetCoupled(1, 1, (1, 1))) == \
-sqrt(2)*hbar*I*JyKetCoupled(1, 0, (1, 1))/2
assert qapply(Jz*JzKetCoupled(1, 1, (1, 1))) == \
hbar*JzKetCoupled(1, 1, (1, 1))
# Symbolic
assert qapply(Jz*JxKetCoupled(j, m, (j1, j2))) == \
Sum(hbar*mi*WignerD(j, mi, m, 0, pi/2, 0)*Sum(WignerD(j, mi1, mi, 0, 3*pi/2, 0)*JxKetCoupled(j, mi1, (j1, j2)), (mi1, -j, j)), (mi, -j, j))
assert qapply(Jz*JyKetCoupled(j, m, (j1, j2))) == \
Sum(hbar*mi*WignerD(j, mi, m, 3*pi/2, -pi/2, pi/2)*Sum(WignerD(j, mi1, mi, 3*pi/2, pi/2, pi/2)*JyKetCoupled(j, mi1, (j1, j2)), (mi1, -j, j)), (mi, -j, j))
assert qapply(Jz*JzKetCoupled(j, m, (j1, j2))) == \
hbar*m*JzKetCoupled(j, m, (j1, j2))
# Normal operators, uncoupled states
# Numerical
assert qapply(Jz*TensorProduct(JxKet(1, 1), JxKet(1, 1))) == \
-sqrt(2)*hbar*TensorProduct(JxKet(1, 1), JxKet(1, 0))/2 - \
sqrt(2)*hbar*TensorProduct(JxKet(1, 0), JxKet(1, 1))/2
assert qapply(Jz*TensorProduct(JyKet(1, 1), JyKet(1, 1))) == \
-sqrt(2)*hbar*I*TensorProduct(JyKet(1, 1), JyKet(1, 0))/2 - \
sqrt(2)*hbar*I*TensorProduct(JyKet(1, 0), JyKet(1, 1))/2
assert qapply(Jz*TensorProduct(JzKet(1, 1), JzKet(1, 1))) == \
2*hbar*TensorProduct(JzKet(1, 1), JzKet(1, 1))
assert qapply(Jz*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == 0
# Symbolic
assert qapply(Jz*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
TensorProduct(JxKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 0, pi/2, 0)*Sum(WignerD(j2, mi1, mi, 0, 3*pi/2, 0)*JxKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + \
TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 0, pi/2, 0)*Sum(WignerD(j1, mi1, mi, 0, 3*pi/2, 0)*JxKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2))
assert qapply(Jz*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
TensorProduct(JyKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 3*pi/2, -pi/2, pi/2)*Sum(WignerD(j2, mi1, mi, 3*pi/2, pi/2, pi/2)*JyKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2))) + \
TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 3*pi/2, -pi/2, pi/2)*Sum(WignerD(j1, mi1, mi, 3*pi/2, pi/2, pi/2)*JyKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2))
assert qapply(Jz*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar*m1*TensorProduct(JzKet(j1, m1), JzKet(
j2, m2)) + hbar*m2*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))
# Uncoupled Operators
# Numerical
assert qapply(TensorProduct(Jz, 1)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
-sqrt(2)*hbar*TensorProduct(JxKet(1, 0), JxKet(1, -1))/2
assert qapply(TensorProduct(1, Jz)*TensorProduct(JxKet(1, 1), JxKet(1, -1))) == \
-sqrt(2)*hbar*TensorProduct(JxKet(1, 1), JxKet(1, 0))/2
assert qapply(TensorProduct(Jz, 1)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
-sqrt(2)*I*hbar*TensorProduct(JyKet(1, 0), JyKet(1, -1))/2
assert qapply(TensorProduct(1, Jz)*TensorProduct(JyKet(1, 1), JyKet(1, -1))) == \
sqrt(2)*I*hbar*TensorProduct(JyKet(1, 1), JyKet(1, 0))/2
assert qapply(TensorProduct(Jz, 1)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
hbar*TensorProduct(JzKet(1, 1), JzKet(1, -1))
assert qapply(TensorProduct(1, Jz)*TensorProduct(JzKet(1, 1), JzKet(1, -1))) == \
-hbar*TensorProduct(JzKet(1, 1), JzKet(1, -1))
# Symbolic
assert qapply(TensorProduct(Jz, 1)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 0, pi/2, 0)*Sum(WignerD(j1, mi1, mi, 0, 3*pi/2, 0)*JxKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JxKet(j2, m2))
assert qapply(TensorProduct(1, Jz)*TensorProduct(JxKet(j1, m1), JxKet(j2, m2))) == \
TensorProduct(JxKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 0, pi/2, 0)*Sum(WignerD(j2, mi1, mi, 0, 3*pi/2, 0)*JxKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2)))
assert qapply(TensorProduct(Jz, 1)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
TensorProduct(Sum(hbar*mi*WignerD(j1, mi, m1, 3*pi/2, -pi/2, pi/2)*Sum(WignerD(j1, mi1, mi, 3*pi/2, pi/2, pi/2)*JyKet(j1, mi1), (mi1, -j1, j1)), (mi, -j1, j1)), JyKet(j2, m2))
assert qapply(TensorProduct(1, Jz)*TensorProduct(JyKet(j1, m1), JyKet(j2, m2))) == \
TensorProduct(JyKet(j1, m1), Sum(hbar*mi*WignerD(j2, mi, m2, 3*pi/2, -pi/2, pi/2)*Sum(WignerD(j2, mi1, mi, 3*pi/2, pi/2, pi/2)*JyKet(j2, mi1), (mi1, -j2, j2)), (mi, -j2, j2)))
assert qapply(TensorProduct(Jz, 1)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar*m1*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))
assert qapply(TensorProduct(1, Jz)*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))) == \
hbar*m2*TensorProduct(JzKet(j1, m1), JzKet(j2, m2))
def test_rotation():
a, b, g = symbols('a b g')
j, m = symbols('j m')
#Uncoupled
answ = [JxKet(1,-1)/2 - sqrt(2)*JxKet(1,0)/2 + JxKet(1,1)/2 ,
JyKet(1,-1)/2 - sqrt(2)*JyKet(1,0)/2 + JyKet(1,1)/2 ,
JzKet(1,-1)/2 - sqrt(2)*JzKet(1,0)/2 + JzKet(1,1)/2]
fun = [state(1, 1) for state in (JxKet, JyKet, JzKet)]
for state in fun:
got = qapply(Rotation(0, pi/2, 0)*state)
assert got in answ
answ.remove(got)
assert not answ
arg = Rotation(a, b, g)*fun[0]
assert qapply(arg) == (-exp(-I*a)*exp(I*g)*cos(b)*JxKet(1,-1)/2 +
exp(-I*a)*exp(I*g)*JxKet(1,-1)/2 - sqrt(2)*exp(-I*a)*sin(b)*JxKet(1,0)/2 +
exp(-I*a)*exp(-I*g)*cos(b)*JxKet(1,1)/2 + exp(-I*a)*exp(-I*g)*JxKet(1,1)/2)
#dummy effective
assert str(qapply(Rotation(a, b, g)*JzKet(j, m), dummy=False)) == str(
qapply(Rotation(a, b, g)*JzKet(j, m), dummy=True)).replace('_','')
#Coupled
ans = [JxKetCoupled(1,-1,(1,1))/2 - sqrt(2)*JxKetCoupled(1,0,(1,1))/2 +
JxKetCoupled(1,1,(1,1))/2 ,
JyKetCoupled(1,-1,(1,1))/2 - sqrt(2)*JyKetCoupled(1,0,(1,1))/2 +
JyKetCoupled(1,1,(1,1))/2 ,
JzKetCoupled(1,-1,(1,1))/2 - sqrt(2)*JzKetCoupled(1,0,(1,1))/2 +
JzKetCoupled(1,1,(1,1))/2]
fun = [state(1, 1, (1,1)) for state in (JxKetCoupled, JyKetCoupled, JzKetCoupled)]
for state in fun:
got = qapply(Rotation(0, pi/2, 0)*state)
assert got in ans
ans.remove(got)
assert not ans
arg = Rotation(a, b, g)*fun[0]
assert qapply(arg) == (
-exp(-I*a)*exp(I*g)*cos(b)*JxKetCoupled(1,-1,(1,1))/2 +
exp(-I*a)*exp(I*g)*JxKetCoupled(1,-1,(1,1))/2 -
sqrt(2)*exp(-I*a)*sin(b)*JxKetCoupled(1,0,(1,1))/2 +
exp(-I*a)*exp(-I*g)*cos(b)*JxKetCoupled(1,1,(1,1))/2 +
exp(-I*a)*exp(-I*g)*JxKetCoupled(1,1,(1,1))/2)
#dummy effective
assert str(qapply(Rotation(a,b,g)*JzKetCoupled(j,m,(j1,j2)), dummy=False)) == str(
qapply(Rotation(a,b,g)*JzKetCoupled(j,m,(j1,j2)), dummy=True)).replace('_','')
def test_jzket():
j, m = symbols('j m')
# j not integer or half integer
raises(ValueError, lambda: JzKet(S(2)/3, -S(1)/3))
raises(ValueError, lambda: JzKet(S(2)/3, m))
# j < 0
raises(ValueError, lambda: JzKet(-1, 1))
raises(ValueError, lambda: JzKet(-1, m))
# m not integer or half integer
raises(ValueError, lambda: JzKet(j, -S(1)/3))
# abs(m) > j
raises(ValueError, lambda: JzKet(1, 2))
raises(ValueError, lambda: JzKet(1, -2))
# j-m not integer
raises(ValueError, lambda: JzKet(1, S(1)/2))
def test_jzketcoupled():
j, m = symbols('j m')
# j not integer or half integer
raises(ValueError, lambda: JzKetCoupled(S(2)/3, -S(1)/3, (1,)))
raises(ValueError, lambda: JzKetCoupled(S(2)/3, m, (1,)))
# j < 0
raises(ValueError, lambda: JzKetCoupled(-1, 1, (1,)))
raises(ValueError, lambda: JzKetCoupled(-1, m, (1,)))
# m not integer or half integer
raises(ValueError, lambda: JzKetCoupled(j, -S(1)/3, (1,)))
# abs(m) > j
raises(ValueError, lambda: JzKetCoupled(1, 2, (1,)))
raises(ValueError, lambda: JzKetCoupled(1, -2, (1,)))
# j-m not integer
raises(ValueError, lambda: JzKetCoupled(1, S(1)/2, (1,)))
# checks types on coupling scheme
raises(TypeError, lambda: JzKetCoupled(1, 1, 1))
raises(TypeError, lambda: JzKetCoupled(1, 1, (1,), 1))
raises(TypeError, lambda: JzKetCoupled(1, 1, (1, 1), (1,)))
raises(TypeError, lambda: JzKetCoupled(1, 1, (1, 1, 1), (1, 2, 1),
(1, 3, 1)))
# checks length of coupling terms
raises(ValueError, lambda: JzKetCoupled(1, 1, (1,), ((1, 2, 1),)))
raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((1, 2),)))
# all jn are integer or half-integer
raises(ValueError, lambda: JzKetCoupled(1, 1, (S(1)/3, S(2)/3)))
# indicies in coupling scheme must be integers
raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((S(1)/2, 1, 2),) ))
raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((1, S(1)/2, 2),) ))
# indicies out of range
raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((0, 2, 1),) ))
raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((3, 2, 1),) ))
raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((1, 0, 1),) ))
raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((1, 3, 1),) ))
# all j values in coupling scheme must by integer or half-integer
raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1, 1), ((1, 2, S(
4)/3), (1, 3, 1)) ))
# each coupling must satisfy |j1-j2| <= j3 <= j1+j2
raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 5)))
raises(ValueError, lambda: JzKetCoupled(5, 1, (1, 1)))
# final j of coupling must be j of the state
raises(ValueError, lambda: JzKetCoupled(1, 1, (1, 1), ((1, 2, 2),) ))
| bsd-3-clause |
xiangshouding/nv | node/node_modules/pygmentize-bundled/vendor/pygments/pygments/styles/default.py | 135 | 2532 | # -*- coding: utf-8 -*-
"""
pygments.styles.default
~~~~~~~~~~~~~~~~~~~~~~~
The default highlighting style.
:copyright: Copyright 2006-2014 by the Pygments team, see AUTHORS.
:license: BSD, see LICENSE for details.
"""
from pygments.style import Style
from pygments.token import Keyword, Name, Comment, String, Error, \
Number, Operator, Generic, Whitespace
class DefaultStyle(Style):
"""
The default style (inspired by Emacs 22).
"""
background_color = "#f8f8f8"
default_style = ""
styles = {
Whitespace: "#bbbbbb",
Comment: "italic #408080",
Comment.Preproc: "noitalic #BC7A00",
#Keyword: "bold #AA22FF",
Keyword: "bold #008000",
Keyword.Pseudo: "nobold",
Keyword.Type: "nobold #B00040",
Operator: "#666666",
Operator.Word: "bold #AA22FF",
Name.Builtin: "#008000",
Name.Function: "#0000FF",
Name.Class: "bold #0000FF",
Name.Namespace: "bold #0000FF",
Name.Exception: "bold #D2413A",
Name.Variable: "#19177C",
Name.Constant: "#880000",
Name.Label: "#A0A000",
Name.Entity: "bold #999999",
Name.Attribute: "#7D9029",
Name.Tag: "bold #008000",
Name.Decorator: "#AA22FF",
String: "#BA2121",
String.Doc: "italic",
String.Interpol: "bold #BB6688",
String.Escape: "bold #BB6622",
String.Regex: "#BB6688",
#String.Symbol: "#B8860B",
String.Symbol: "#19177C",
String.Other: "#008000",
Number: "#666666",
Generic.Heading: "bold #000080",
Generic.Subheading: "bold #800080",
Generic.Deleted: "#A00000",
Generic.Inserted: "#00A000",
Generic.Error: "#FF0000",
Generic.Emph: "italic",
Generic.Strong: "bold",
Generic.Prompt: "bold #000080",
Generic.Output: "#888",
Generic.Traceback: "#04D",
Error: "border:#FF0000"
}
| bsd-3-clause |
karimbahgat/Tk2 | tk2/_orderedlist.py | 5 | 10847 |
# Import GUI functionality
import Tkinter as tk
from tkFileDialog import askopenfilenames, asksaveasfilename
from .buttons import *
from .popups import *
from .progbar import *
# Import style
from . import theme
style_layerspane_normal = {"bg": theme.color4,
"width": 200}
style_layersheader = {"bg": theme.color2,
"font": theme.titlefont1["type"],
"fg": theme.titlefont1["color"],
"anchor": "w", "padx": 5}
style_layeritem_normal = {"bg": theme.color4,
"width": 200,
"relief": "ridge"}
style_layercheck = {"bg": theme.color4}
style_layername_normal = {"bg": theme.color4,
"fg": theme.font1["color"],
"font": theme.font1["type"],
"relief": "flat",
"anchor": "w"}
# Import GIS functionality
import pythongis as pg
from . import dispatch
# Panes
class LayerItem(tk.Frame):
def __init__(self, master, renderlayer, name=None, **kwargs):
# get theme style
style = style_layeritem_normal.copy()
style.update(kwargs)
# Make this class a subclass of tk.Frame and add to it
tk.Frame.__init__(self, master, **style)
self.layerspane = self.master.master
self.statusbar = self.layerspane.statusbar
# Create a frame to place main row with name etc
self.firstrow = tk.Frame(self, **style)
self.firstrow.pack(side="top", fill="x", expand=True)
# Create the visibility check box
var = tk.BooleanVar(self)
self.checkbutton = tk.Checkbutton(self.firstrow, variable=var, offvalue=False, onvalue=True, command=self.toggle_visibility, **style_layercheck)
self.checkbutton.var = var
self.checkbutton.pack(side="left")
self.checkbutton.select()
# Create Delete button to the right
self.deletebutton = IconButton(self.firstrow, padx=2, relief="flat", command=self.delete)
self.deletebutton.set_icon("delete_layer.png")
self.deletebutton.pack(side="right")
# Create the layername display
self.renderlayer = renderlayer
if name: layername = name
elif self.renderlayer.data.filepath:
layername = os.path.split(self.renderlayer.data.filepath)[-1]
else: layername = "Unnamed layer"
self.namelabel = tk.Label(self.firstrow, text=layername, **style_layername_normal)
self.namelabel.pack(side="left", fill="x", expand=True)
# Bind drag events
def start_drag(event):
self.dragging = event.widget.master.master
self.config(cursor="exchange")
def stop_drag(event):
# find closest layerindex to release event
def getindex(layeritem):
return self.layerspane.layers.get_position(layeritem.renderlayer)
goingdown = event.y_root - (self.dragging.winfo_rooty() + self.dragging.winfo_height() / 2.0) > 0
if goingdown:
i = len(self.layerspane.layersview.winfo_children())
for layeritem in sorted(self.layerspane.layersview.winfo_children(), key=getindex, reverse=True):
if event.y_root < layeritem.winfo_rooty() + layeritem.winfo_height() / 2.0:
break
i -= 1
else:
i = 0
for layeritem in sorted(self.layerspane.layersview.winfo_children(), key=getindex):
if event.y_root > layeritem.winfo_rooty() - layeritem.winfo_height() / 2.0:
break
i += 1
# move layer
frompos = self.layerspane.layers.get_position(self.dragging.renderlayer)
if i != frompos:
self.layerspane.move_layer(frompos, i)
# clean up
self.dragging = None
self.config(cursor="arrow")
self.dragging = None
self.namelabel.bind("<Button-1>", start_drag)
self.namelabel.bind("<ButtonRelease-1>", stop_drag)
# Bind right click
#self.namelabel.bind("<Button-3>", self.right_click)
def toggle_visibility(self):
self.layerspane.toggle_layer(self)
def delete(self):
self.layerspane.remove_layer(self)
def ask_rename(self):
# place entry widget on top of namelabel
nameentry = tk.Entry(self)
nameentry.place(x=self.namelabel.winfo_x(), y=self.namelabel.winfo_y(), width=self.namelabel.winfo_width(), height=self.namelabel.winfo_height())
# set its text to layername and select all text
nameentry.insert(0, self.namelabel["text"])
nameentry.focus()
nameentry.selection_range(0, tk.END)
def finish(event):
newname = nameentry.get()
nameentry.destroy()
self.namelabel["text"] = newname
def cancel(event):
nameentry.destroy()
nameentry.bind("<Return>", finish)
nameentry.bind("<Escape>", cancel)
class LayersPane(tk.Frame):
def __init__(self, master, layer_rightclick=None, **kwargs):
# get theme style
style = style_layerspane_normal.copy()
style.update(kwargs)
# Make this class a subclass of tk.Frame and add to it
tk.Frame.__init__(self, master, **style)
# Make the top header
self.header = tk.Label(self, text="Layers:", **style_layersheader)
self.header.pack(side="top", fill="x")
# Then, the layer list view
self.layersview = tk.Frame(self, **style)
self.layersview.pack(side="top", fill="x")
self.pack_propagate(False) # important, this prevents layeritem names from deciding the size of layerspane
# FOR TESTING ONLY
# LOAD EXAMPLE DATA
def load_testvector(event):
self.add_layer("test_files/geoj/cshapes.geo.json")
self.winfo_toplevel().bind("v", load_testvector)
def load_testraster(event):
self.add_layer("test_files/geotiff/TrueMarble.16km.2700x1350.tif")
self.winfo_toplevel().bind("r", load_testraster)
def __iter__(self):
for layeritem in self.layersview.winfo_children():
yield layeritem
def assign_layergroup(self, layergroup):
layergroup.layerspane = self
self.layers = layergroup
def add_layer(self, filepath_or_loaded, name=None):
def from_filepath(filepath):
if filepath.lower().endswith((".shp",".geojson",".json")):
func = pg.GeoTable
args = (filepath,)
elif filepath.lower().endswith((".asc",".ascii",
".tif",".tiff",".geotiff",
".jpg",".jpeg",
".png",".bmp",".gif")):
func = pg.Raster
args = (filepath,)
else:
popup_message(self, "Fileformat not supported\n\n" + filepath )
return
self.statusbar.task.start("Loading layer from file...")
pending = dispatch.request_results(func, args)
def finish(loaded):
if isinstance(loaded, Exception):
popup_message(self, str(loaded) + "\n\n" + filepath )
else:
from_loaded(loaded)
self.statusbar.task.stop()
dispatch.after_completion(self, pending, finish)
def from_loaded(loaded):
# add the data as a rendering layer
if isinstance(loaded, pg.GeoTable):
renderlayer = pg.VectorLayer(loaded)
elif isinstance(loaded, pg.Raster):
renderlayer = pg.RasterLayer(loaded)
self.layers.add_layer(renderlayer)
# list a visual representation in the layerspane list
listlayer = LayerItem(self.layersview, renderlayer=renderlayer, name=name)
listlayer.namelabel.bind("<Button-3>", self.layer_rightclick)
listlayer.pack(fill="x", side="bottom")
# render to and update all mapcanvases connected to the layergroup
for mapcanvas in self.layers.connected_maps:
func = mapcanvas.render_one
args = [renderlayer]
self.statusbar.task.start("Rendering layer...")
pending = dispatch.request_results(func, args)
def finish(loaded):
if isinstance(loaded, Exception):
popup_message(self, "Rendering error: " + str(loaded) )
else:
mapcanvas.mapview.update_image()
self.statusbar.task.stop()
dispatch.after_completion(self, pending, finish)
# load from file or go straight to listing/rendering
if isinstance(filepath_or_loaded, (str,unicode)):
from_filepath(filepath_or_loaded)
else:
from_loaded(filepath_or_loaded)
def toggle_layer(self, layeritem):
# toggle visibility
if layeritem.renderlayer.visible == True:
layeritem.renderlayer.visible = False
elif layeritem.renderlayer.visible == False:
layeritem.renderlayer.visible = True
# update all mapcanvas
for mapcanvas in self.layers.connected_maps:
mapcanvas.update_draworder()
mapcanvas.mapview.update_image()
def remove_layer(self, layeritem):
# remove from rendering
layerpos = self.layers.get_position(layeritem.renderlayer)
self.layers.remove_layer(layerpos)
for mapcanvas in self.layers.connected_maps:
mapcanvas.update_draworder()
mapcanvas.mapview.update_image()
# remove from layers list
layeritem.destroy()
def move_layer(self, fromindex, toindex):
self.layers.move_layer(fromindex, toindex)
for mapcanvas in self.layers.connected_maps:
mapcanvas.update_draworder()
mapcanvas.mapview.update_image()
self.update_layerlist()
def update_layerlist(self):
def getindex(layeritem):
return self.layers.get_position(layeritem.renderlayer)
for layeritem in sorted(self.layersview.winfo_children(), key=getindex, reverse=True):
layeritem.pack_forget()
layeritem.pack(fill="x")
def bind_layer_rightclick(self, func):
self.layer_rightclick = func
def assign_statusbar(self, statusbar):
self.statusbar = statusbar
| mit |
opadron/girder | plugins/gravatar/plugin_tests/gravatar_test.py | 1 | 4046 | #!/usr/bin/env python
# -*- coding: utf-8 -*-
###############################################################################
# Copyright Kitware 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.
###############################################################################
import hashlib
from girder import events
from server import PluginSettings
from tests import base
def setUpModule():
base.enabledPlugins.append('gravatar')
base.startServer()
def tearDown():
base.stopServer()
class GravatarTest(base.TestCase):
def setUp(self):
# Since our plugin updates the model singleton, don't drop models
base.TestCase.setUp(self, dropModels=False)
self.admin = self.model('user').createUser(
email='not.a.real.email@mail.com',
login='admin',
firstName='first',
lastName='last',
password='password',
admin=True
)
def tearDown(self):
base.stopServer()
def testGravatarUrlComputation(self):
"""
Tests that our caching of gravatar URLs works as expected.
"""
self.model('setting').set(PluginSettings.DEFAULT_IMAGE, 'mm')
# Gravatar base URL should be computed on user creation
resp = self.request('/user/%s' % self.admin['_id'])
self.assertStatusOk(resp)
self.assertTrue('gravatar_baseUrl' in resp.json)
resp = self.request('/user/%s/gravatar' % str(self.admin['_id']),
isJson=False)
md5 = hashlib.md5(self.admin['email'].encode()).hexdigest()
self.assertRedirect(resp,
'https://www.gravatar.com/avatar/%s?d=identicon&s=64' % md5)
# We should now have the gravatar_baseUrl cached on the user
resp = self.request('/user/%s' % self.admin['_id'])
self.assertStatusOk(resp)
self.assertTrue('gravatar_baseUrl' in resp.json)
oldBaseUrl = resp.json['gravatar_baseUrl']
# Changing the email address should change the cached value
resp = self.request('/user/%s' % self.admin['_id'], method='PUT',
user=self.admin, params={
'firstName': 'first',
'lastName': 'last',
'email': 'new_email@email.com'
})
self.assertStatusOk(resp)
self.admin = self.model('user').load(self.admin['_id'], force=True)
self.assertNotEqual(self.admin['gravatar_baseUrl'], oldBaseUrl)
# Make sure we picked up the new default setting
resp = self.request('/user/%s/gravatar' % str(self.admin['_id']),
isJson=False)
md5 = hashlib.md5(self.admin['email'].encode()).hexdigest()
self.assertRedirect(resp,
'https://www.gravatar.com/avatar/%s?d=mm&s=64' % md5)
def testUserInfoUpdate(self):
user = self.model('user').createUser(
email='normaluser@mail.com',
login='normal',
firstName='normal',
lastName='normal',
password='password',
admin=False
)
resp = self.request('/user/%s' % str(user['_id']), method='PUT',
user=user, params={
'email': 'newemail@mail.com',
'firstName': 'normal',
'lastName': 'normal'
})
self.assertStatusOk(resp)
| apache-2.0 |
lancezlin/ml_template_py | lib/python2.7/site-packages/pandas/tools/tests/test_util.py | 7 | 16721 | import os
import locale
import codecs
import nose
import numpy as np
from numpy import iinfo
import pandas as pd
from pandas import (date_range, Index, _np_version_under1p9)
import pandas.util.testing as tm
from pandas.tools.util import cartesian_product, to_numeric
CURRENT_LOCALE = locale.getlocale()
LOCALE_OVERRIDE = os.environ.get('LOCALE_OVERRIDE', None)
class TestCartesianProduct(tm.TestCase):
def test_simple(self):
x, y = list('ABC'), [1, 22]
result1, result2 = cartesian_product([x, y])
expected1 = np.array(['A', 'A', 'B', 'B', 'C', 'C'])
expected2 = np.array([1, 22, 1, 22, 1, 22])
tm.assert_numpy_array_equal(result1, expected1)
tm.assert_numpy_array_equal(result2, expected2)
def test_datetimeindex(self):
# regression test for GitHub issue #6439
# make sure that the ordering on datetimeindex is consistent
x = date_range('2000-01-01', periods=2)
result1, result2 = [Index(y).day for y in cartesian_product([x, x])]
expected1 = np.array([1, 1, 2, 2], dtype=np.int32)
expected2 = np.array([1, 2, 1, 2], dtype=np.int32)
tm.assert_numpy_array_equal(result1, expected1)
tm.assert_numpy_array_equal(result2, expected2)
def test_empty(self):
# product of empty factors
X = [[], [0, 1], []]
Y = [[], [], ['a', 'b', 'c']]
for x, y in zip(X, Y):
expected1 = np.array([], dtype=np.asarray(x).dtype)
expected2 = np.array([], dtype=np.asarray(y).dtype)
result1, result2 = cartesian_product([x, y])
tm.assert_numpy_array_equal(result1, expected1)
tm.assert_numpy_array_equal(result2, expected2)
# empty product (empty input):
result = cartesian_product([])
expected = []
tm.assert_equal(result, expected)
def test_invalid_input(self):
invalid_inputs = [1, [1], [1, 2], [[1], 2],
'a', ['a'], ['a', 'b'], [['a'], 'b']]
msg = "Input must be a list-like of list-likes"
for X in invalid_inputs:
tm.assertRaisesRegexp(TypeError, msg, cartesian_product, X=X)
class TestLocaleUtils(tm.TestCase):
@classmethod
def setUpClass(cls):
super(TestLocaleUtils, cls).setUpClass()
cls.locales = tm.get_locales()
if not cls.locales:
raise nose.SkipTest("No locales found")
tm._skip_if_windows()
@classmethod
def tearDownClass(cls):
super(TestLocaleUtils, cls).tearDownClass()
del cls.locales
def test_get_locales(self):
# all systems should have at least a single locale
assert len(tm.get_locales()) > 0
def test_get_locales_prefix(self):
if len(self.locales) == 1:
raise nose.SkipTest("Only a single locale found, no point in "
"trying to test filtering locale prefixes")
first_locale = self.locales[0]
assert len(tm.get_locales(prefix=first_locale[:2])) > 0
def test_set_locale(self):
if len(self.locales) == 1:
raise nose.SkipTest("Only a single locale found, no point in "
"trying to test setting another locale")
if LOCALE_OVERRIDE is None:
lang, enc = 'it_CH', 'UTF-8'
elif LOCALE_OVERRIDE == 'C':
lang, enc = 'en_US', 'ascii'
else:
lang, enc = LOCALE_OVERRIDE.split('.')
enc = codecs.lookup(enc).name
new_locale = lang, enc
if not tm._can_set_locale(new_locale):
with tm.assertRaises(locale.Error):
with tm.set_locale(new_locale):
pass
else:
with tm.set_locale(new_locale) as normalized_locale:
new_lang, new_enc = normalized_locale.split('.')
new_enc = codecs.lookup(enc).name
normalized_locale = new_lang, new_enc
self.assertEqual(normalized_locale, new_locale)
current_locale = locale.getlocale()
self.assertEqual(current_locale, CURRENT_LOCALE)
class TestToNumeric(tm.TestCase):
def test_series(self):
s = pd.Series(['1', '-3.14', '7'])
res = to_numeric(s)
expected = pd.Series([1, -3.14, 7])
tm.assert_series_equal(res, expected)
s = pd.Series(['1', '-3.14', 7])
res = to_numeric(s)
tm.assert_series_equal(res, expected)
def test_series_numeric(self):
s = pd.Series([1, 3, 4, 5], index=list('ABCD'), name='XXX')
res = to_numeric(s)
tm.assert_series_equal(res, s)
s = pd.Series([1., 3., 4., 5.], index=list('ABCD'), name='XXX')
res = to_numeric(s)
tm.assert_series_equal(res, s)
# bool is regarded as numeric
s = pd.Series([True, False, True, True],
index=list('ABCD'), name='XXX')
res = to_numeric(s)
tm.assert_series_equal(res, s)
def test_error(self):
s = pd.Series([1, -3.14, 'apple'])
msg = 'Unable to parse string "apple" at position 2'
with tm.assertRaisesRegexp(ValueError, msg):
to_numeric(s, errors='raise')
res = to_numeric(s, errors='ignore')
expected = pd.Series([1, -3.14, 'apple'])
tm.assert_series_equal(res, expected)
res = to_numeric(s, errors='coerce')
expected = pd.Series([1, -3.14, np.nan])
tm.assert_series_equal(res, expected)
s = pd.Series(['orange', 1, -3.14, 'apple'])
msg = 'Unable to parse string "orange" at position 0'
with tm.assertRaisesRegexp(ValueError, msg):
to_numeric(s, errors='raise')
def test_error_seen_bool(self):
s = pd.Series([True, False, 'apple'])
msg = 'Unable to parse string "apple" at position 2'
with tm.assertRaisesRegexp(ValueError, msg):
to_numeric(s, errors='raise')
res = to_numeric(s, errors='ignore')
expected = pd.Series([True, False, 'apple'])
tm.assert_series_equal(res, expected)
# coerces to float
res = to_numeric(s, errors='coerce')
expected = pd.Series([1., 0., np.nan])
tm.assert_series_equal(res, expected)
def test_list(self):
s = ['1', '-3.14', '7']
res = to_numeric(s)
expected = np.array([1, -3.14, 7])
tm.assert_numpy_array_equal(res, expected)
def test_list_numeric(self):
s = [1, 3, 4, 5]
res = to_numeric(s)
tm.assert_numpy_array_equal(res, np.array(s, dtype=np.int64))
s = [1., 3., 4., 5.]
res = to_numeric(s)
tm.assert_numpy_array_equal(res, np.array(s))
# bool is regarded as numeric
s = [True, False, True, True]
res = to_numeric(s)
tm.assert_numpy_array_equal(res, np.array(s))
def test_numeric(self):
s = pd.Series([1, -3.14, 7], dtype='O')
res = to_numeric(s)
expected = pd.Series([1, -3.14, 7])
tm.assert_series_equal(res, expected)
s = pd.Series([1, -3.14, 7])
res = to_numeric(s)
tm.assert_series_equal(res, expected)
def test_all_nan(self):
s = pd.Series(['a', 'b', 'c'])
res = to_numeric(s, errors='coerce')
expected = pd.Series([np.nan, np.nan, np.nan])
tm.assert_series_equal(res, expected)
def test_type_check(self):
# GH 11776
df = pd.DataFrame({'a': [1, -3.14, 7], 'b': ['4', '5', '6']})
with tm.assertRaisesRegexp(TypeError, "1-d array"):
to_numeric(df)
for errors in ['ignore', 'raise', 'coerce']:
with tm.assertRaisesRegexp(TypeError, "1-d array"):
to_numeric(df, errors=errors)
def test_scalar(self):
self.assertEqual(pd.to_numeric(1), 1)
self.assertEqual(pd.to_numeric(1.1), 1.1)
self.assertEqual(pd.to_numeric('1'), 1)
self.assertEqual(pd.to_numeric('1.1'), 1.1)
with tm.assertRaises(ValueError):
to_numeric('XX', errors='raise')
self.assertEqual(to_numeric('XX', errors='ignore'), 'XX')
self.assertTrue(np.isnan(to_numeric('XX', errors='coerce')))
def test_numeric_dtypes(self):
idx = pd.Index([1, 2, 3], name='xxx')
res = pd.to_numeric(idx)
tm.assert_index_equal(res, idx)
res = pd.to_numeric(pd.Series(idx, name='xxx'))
tm.assert_series_equal(res, pd.Series(idx, name='xxx'))
res = pd.to_numeric(idx.values)
tm.assert_numpy_array_equal(res, idx.values)
idx = pd.Index([1., np.nan, 3., np.nan], name='xxx')
res = pd.to_numeric(idx)
tm.assert_index_equal(res, idx)
res = pd.to_numeric(pd.Series(idx, name='xxx'))
tm.assert_series_equal(res, pd.Series(idx, name='xxx'))
res = pd.to_numeric(idx.values)
tm.assert_numpy_array_equal(res, idx.values)
def test_str(self):
idx = pd.Index(['1', '2', '3'], name='xxx')
exp = np.array([1, 2, 3], dtype='int64')
res = pd.to_numeric(idx)
tm.assert_index_equal(res, pd.Index(exp, name='xxx'))
res = pd.to_numeric(pd.Series(idx, name='xxx'))
tm.assert_series_equal(res, pd.Series(exp, name='xxx'))
res = pd.to_numeric(idx.values)
tm.assert_numpy_array_equal(res, exp)
idx = pd.Index(['1.5', '2.7', '3.4'], name='xxx')
exp = np.array([1.5, 2.7, 3.4])
res = pd.to_numeric(idx)
tm.assert_index_equal(res, pd.Index(exp, name='xxx'))
res = pd.to_numeric(pd.Series(idx, name='xxx'))
tm.assert_series_equal(res, pd.Series(exp, name='xxx'))
res = pd.to_numeric(idx.values)
tm.assert_numpy_array_equal(res, exp)
def test_datetimelike(self):
for tz in [None, 'US/Eastern', 'Asia/Tokyo']:
idx = pd.date_range('20130101', periods=3, tz=tz, name='xxx')
res = pd.to_numeric(idx)
tm.assert_index_equal(res, pd.Index(idx.asi8, name='xxx'))
res = pd.to_numeric(pd.Series(idx, name='xxx'))
tm.assert_series_equal(res, pd.Series(idx.asi8, name='xxx'))
res = pd.to_numeric(idx.values)
tm.assert_numpy_array_equal(res, idx.asi8)
def test_timedelta(self):
idx = pd.timedelta_range('1 days', periods=3, freq='D', name='xxx')
res = pd.to_numeric(idx)
tm.assert_index_equal(res, pd.Index(idx.asi8, name='xxx'))
res = pd.to_numeric(pd.Series(idx, name='xxx'))
tm.assert_series_equal(res, pd.Series(idx.asi8, name='xxx'))
res = pd.to_numeric(idx.values)
tm.assert_numpy_array_equal(res, idx.asi8)
def test_period(self):
idx = pd.period_range('2011-01', periods=3, freq='M', name='xxx')
res = pd.to_numeric(idx)
tm.assert_index_equal(res, pd.Index(idx.asi8, name='xxx'))
# ToDo: enable when we can support native PeriodDtype
# res = pd.to_numeric(pd.Series(idx, name='xxx'))
# tm.assert_series_equal(res, pd.Series(idx.asi8, name='xxx'))
def test_non_hashable(self):
# Test for Bug #13324
s = pd.Series([[10.0, 2], 1.0, 'apple'])
res = pd.to_numeric(s, errors='coerce')
tm.assert_series_equal(res, pd.Series([np.nan, 1.0, np.nan]))
res = pd.to_numeric(s, errors='ignore')
tm.assert_series_equal(res, pd.Series([[10.0, 2], 1.0, 'apple']))
with self.assertRaisesRegexp(TypeError, "Invalid object type"):
pd.to_numeric(s)
def test_downcast(self):
# see gh-13352
mixed_data = ['1', 2, 3]
int_data = [1, 2, 3]
date_data = np.array(['1970-01-02', '1970-01-03',
'1970-01-04'], dtype='datetime64[D]')
invalid_downcast = 'unsigned-integer'
msg = 'invalid downcasting method provided'
smallest_int_dtype = np.dtype(np.typecodes['Integer'][0])
smallest_uint_dtype = np.dtype(np.typecodes['UnsignedInteger'][0])
# support below np.float32 is rare and far between
float_32_char = np.dtype(np.float32).char
smallest_float_dtype = float_32_char
for data in (mixed_data, int_data, date_data):
with self.assertRaisesRegexp(ValueError, msg):
pd.to_numeric(data, downcast=invalid_downcast)
expected = np.array([1, 2, 3], dtype=np.int64)
res = pd.to_numeric(data)
tm.assert_numpy_array_equal(res, expected)
res = pd.to_numeric(data, downcast=None)
tm.assert_numpy_array_equal(res, expected)
expected = np.array([1, 2, 3], dtype=smallest_int_dtype)
for signed_downcast in ('integer', 'signed'):
res = pd.to_numeric(data, downcast=signed_downcast)
tm.assert_numpy_array_equal(res, expected)
expected = np.array([1, 2, 3], dtype=smallest_uint_dtype)
res = pd.to_numeric(data, downcast='unsigned')
tm.assert_numpy_array_equal(res, expected)
expected = np.array([1, 2, 3], dtype=smallest_float_dtype)
res = pd.to_numeric(data, downcast='float')
tm.assert_numpy_array_equal(res, expected)
# if we can't successfully cast the given
# data to a numeric dtype, do not bother
# with the downcast parameter
data = ['foo', 2, 3]
expected = np.array(data, dtype=object)
res = pd.to_numeric(data, errors='ignore',
downcast='unsigned')
tm.assert_numpy_array_equal(res, expected)
# cannot cast to an unsigned integer because
# we have a negative number
data = ['-1', 2, 3]
expected = np.array([-1, 2, 3], dtype=np.int64)
res = pd.to_numeric(data, downcast='unsigned')
tm.assert_numpy_array_equal(res, expected)
# cannot cast to an integer (signed or unsigned)
# because we have a float number
data = ['1.1', 2, 3]
expected = np.array([1.1, 2, 3], dtype=np.float64)
for downcast in ('integer', 'signed', 'unsigned'):
res = pd.to_numeric(data, downcast=downcast)
tm.assert_numpy_array_equal(res, expected)
# the smallest integer dtype need not be np.(u)int8
data = ['256', 257, 258]
for downcast, expected_dtype in zip(
['integer', 'signed', 'unsigned'],
[np.int16, np.int16, np.uint16]):
expected = np.array([256, 257, 258], dtype=expected_dtype)
res = pd.to_numeric(data, downcast=downcast)
tm.assert_numpy_array_equal(res, expected)
def test_downcast_limits(self):
# Test the limits of each downcast. Bug: #14401.
# Check to make sure numpy is new enough to run this test.
if _np_version_under1p9:
raise nose.SkipTest("Numpy version is under 1.9")
i = 'integer'
u = 'unsigned'
dtype_downcast_min_max = [
('int8', i, [iinfo(np.int8).min, iinfo(np.int8).max]),
('int16', i, [iinfo(np.int16).min, iinfo(np.int16).max]),
('int32', i, [iinfo(np.int32).min, iinfo(np.int32).max]),
('int64', i, [iinfo(np.int64).min, iinfo(np.int64).max]),
('uint8', u, [iinfo(np.uint8).min, iinfo(np.uint8).max]),
('uint16', u, [iinfo(np.uint16).min, iinfo(np.uint16).max]),
('uint32', u, [iinfo(np.uint32).min, iinfo(np.uint32).max]),
# Test will be skipped until there is more uint64 support.
# ('uint64', u, [iinfo(uint64).min, iinfo(uint64).max]),
('int16', i, [iinfo(np.int8).min, iinfo(np.int8).max + 1]),
('int32', i, [iinfo(np.int16).min, iinfo(np.int16).max + 1]),
('int64', i, [iinfo(np.int32).min, iinfo(np.int32).max + 1]),
('int16', i, [iinfo(np.int8).min - 1, iinfo(np.int16).max]),
('int32', i, [iinfo(np.int16).min - 1, iinfo(np.int32).max]),
('int64', i, [iinfo(np.int32).min - 1, iinfo(np.int64).max]),
('uint16', u, [iinfo(np.uint8).min, iinfo(np.uint8).max + 1]),
('uint32', u, [iinfo(np.uint16).min, iinfo(np.uint16).max + 1]),
# Test will be skipped until there is more uint64 support.
# ('uint64', u, [iinfo(np.uint32).min, iinfo(np.uint32).max + 1]),
]
for dtype, downcast, min_max in dtype_downcast_min_max:
series = pd.to_numeric(pd.Series(min_max), downcast=downcast)
tm.assert_equal(series.dtype, dtype)
if __name__ == '__main__':
nose.runmodule(argv=[__file__, '-vvs', '-x', '--pdb', '--pdb-failure'],
exit=False)
| mit |
BrotherPhil/django | django/contrib/flatpages/views.py | 475 | 2777 | from django.conf import settings
from django.contrib.flatpages.models import FlatPage
from django.contrib.sites.shortcuts import get_current_site
from django.http import Http404, HttpResponse, HttpResponsePermanentRedirect
from django.shortcuts import get_object_or_404
from django.template import loader
from django.utils.safestring import mark_safe
from django.views.decorators.csrf import csrf_protect
DEFAULT_TEMPLATE = 'flatpages/default.html'
# This view is called from FlatpageFallbackMiddleware.process_response
# when a 404 is raised, which often means CsrfViewMiddleware.process_view
# has not been called even if CsrfViewMiddleware is installed. So we need
# to use @csrf_protect, in case the template needs {% csrf_token %}.
# However, we can't just wrap this view; if no matching flatpage exists,
# or a redirect is required for authentication, the 404 needs to be returned
# without any CSRF checks. Therefore, we only
# CSRF protect the internal implementation.
def flatpage(request, url):
"""
Public interface to the flat page view.
Models: `flatpages.flatpages`
Templates: Uses the template defined by the ``template_name`` field,
or :template:`flatpages/default.html` if template_name is not defined.
Context:
flatpage
`flatpages.flatpages` object
"""
if not url.startswith('/'):
url = '/' + url
site_id = get_current_site(request).id
try:
f = get_object_or_404(FlatPage,
url=url, sites=site_id)
except Http404:
if not url.endswith('/') and settings.APPEND_SLASH:
url += '/'
f = get_object_or_404(FlatPage,
url=url, sites=site_id)
return HttpResponsePermanentRedirect('%s/' % request.path)
else:
raise
return render_flatpage(request, f)
@csrf_protect
def render_flatpage(request, f):
"""
Internal interface to the flat page view.
"""
# If registration is required for accessing this page, and the user isn't
# logged in, redirect to the login page.
if f.registration_required and not request.user.is_authenticated():
from django.contrib.auth.views import redirect_to_login
return redirect_to_login(request.path)
if f.template_name:
template = loader.select_template((f.template_name, DEFAULT_TEMPLATE))
else:
template = loader.get_template(DEFAULT_TEMPLATE)
# To avoid having to always use the "|safe" filter in flatpage templates,
# mark the title and content as already safe (since they are raw HTML
# content in the first place).
f.title = mark_safe(f.title)
f.content = mark_safe(f.content)
response = HttpResponse(template.render({'flatpage': f}, request))
return response
| bsd-3-clause |
MarcelloLins/ServerlessCrawler-VancouverRealState | SearchResultsPaginator/requests/api.py | 109 | 6237 | # -*- coding: utf-8 -*-
"""
requests.api
~~~~~~~~~~~~
This module implements the Requests API.
:copyright: (c) 2012 by Kenneth Reitz.
:license: Apache2, see LICENSE for more details.
"""
from . import sessions
def request(method, url, **kwargs):
"""Constructs and sends a :class:`Request <Request>`.
:param method: method for the new :class:`Request` object.
:param url: URL for the new :class:`Request` object.
:param params: (optional) Dictionary or bytes to be sent in the query string for the :class:`Request`.
:param data: (optional) Dictionary or list of tuples ``[(key, value)]`` (will be form-encoded), bytes, or file-like object to send in the body of the :class:`Request`.
:param json: (optional) json data to send in the body of the :class:`Request`.
:param headers: (optional) Dictionary of HTTP Headers to send with the :class:`Request`.
:param cookies: (optional) Dict or CookieJar object to send with the :class:`Request`.
:param files: (optional) Dictionary of ``'name': file-like-objects`` (or ``{'name': file-tuple}``) for multipart encoding upload.
``file-tuple`` can be a 2-tuple ``('filename', fileobj)``, 3-tuple ``('filename', fileobj, 'content_type')``
or a 4-tuple ``('filename', fileobj, 'content_type', custom_headers)``, where ``'content-type'`` is a string
defining the content type of the given file and ``custom_headers`` a dict-like object containing additional headers
to add for the file.
:param auth: (optional) Auth tuple to enable Basic/Digest/Custom HTTP Auth.
:param timeout: (optional) How many seconds to wait for the server to send data
before giving up, as a float, or a :ref:`(connect timeout, read
timeout) <timeouts>` tuple.
:type timeout: float or tuple
:param allow_redirects: (optional) Boolean. Enable/disable GET/OPTIONS/POST/PUT/PATCH/DELETE/HEAD redirection. Defaults to ``True``.
:type allow_redirects: bool
:param proxies: (optional) Dictionary mapping protocol to the URL of the proxy.
:param verify: (optional) Either a boolean, in which case it controls whether we verify
the server's TLS certificate, or a string, in which case it must be a path
to a CA bundle to use. Defaults to ``True``.
:param stream: (optional) if ``False``, the response content will be immediately downloaded.
:param cert: (optional) if String, path to ssl client cert file (.pem). If Tuple, ('cert', 'key') pair.
:return: :class:`Response <Response>` object
:rtype: requests.Response
Usage::
>>> import requests
>>> req = requests.request('GET', 'http://httpbin.org/get')
<Response [200]>
"""
# By using the 'with' statement we are sure the session is closed, thus we
# avoid leaving sockets open which can trigger a ResourceWarning in some
# cases, and look like a memory leak in others.
with sessions.Session() as session:
return session.request(method=method, url=url, **kwargs)
def get(url, params=None, **kwargs):
r"""Sends a GET request.
:param url: URL for the new :class:`Request` object.
:param params: (optional) Dictionary or bytes to be sent in the query string for the :class:`Request`.
:param \*\*kwargs: Optional arguments that ``request`` takes.
:return: :class:`Response <Response>` object
:rtype: requests.Response
"""
kwargs.setdefault('allow_redirects', True)
return request('get', url, params=params, **kwargs)
def options(url, **kwargs):
r"""Sends an OPTIONS request.
:param url: URL for the new :class:`Request` object.
:param \*\*kwargs: Optional arguments that ``request`` takes.
:return: :class:`Response <Response>` object
:rtype: requests.Response
"""
kwargs.setdefault('allow_redirects', True)
return request('options', url, **kwargs)
def head(url, **kwargs):
r"""Sends a HEAD request.
:param url: URL for the new :class:`Request` object.
:param \*\*kwargs: Optional arguments that ``request`` takes.
:return: :class:`Response <Response>` object
:rtype: requests.Response
"""
kwargs.setdefault('allow_redirects', False)
return request('head', url, **kwargs)
def post(url, data=None, json=None, **kwargs):
r"""Sends a POST request.
:param url: URL for the new :class:`Request` object.
:param data: (optional) Dictionary (will be form-encoded), bytes, or file-like object to send in the body of the :class:`Request`.
:param json: (optional) json data to send in the body of the :class:`Request`.
:param \*\*kwargs: Optional arguments that ``request`` takes.
:return: :class:`Response <Response>` object
:rtype: requests.Response
"""
return request('post', url, data=data, json=json, **kwargs)
def put(url, data=None, **kwargs):
r"""Sends a PUT request.
:param url: URL for the new :class:`Request` object.
:param data: (optional) Dictionary (will be form-encoded), bytes, or file-like object to send in the body of the :class:`Request`.
:param json: (optional) json data to send in the body of the :class:`Request`.
:param \*\*kwargs: Optional arguments that ``request`` takes.
:return: :class:`Response <Response>` object
:rtype: requests.Response
"""
return request('put', url, data=data, **kwargs)
def patch(url, data=None, **kwargs):
r"""Sends a PATCH request.
:param url: URL for the new :class:`Request` object.
:param data: (optional) Dictionary (will be form-encoded), bytes, or file-like object to send in the body of the :class:`Request`.
:param json: (optional) json data to send in the body of the :class:`Request`.
:param \*\*kwargs: Optional arguments that ``request`` takes.
:return: :class:`Response <Response>` object
:rtype: requests.Response
"""
return request('patch', url, data=data, **kwargs)
def delete(url, **kwargs):
r"""Sends a DELETE request.
:param url: URL for the new :class:`Request` object.
:param \*\*kwargs: Optional arguments that ``request`` takes.
:return: :class:`Response <Response>` object
:rtype: requests.Response
"""
return request('delete', url, **kwargs)
| mit |
JingJunYin/tensorflow | tensorflow/python/keras/_impl/keras/utils/generic_utils_test.py | 34 | 2342 | # Copyright 2016 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.
# ==============================================================================
"""Tests for Keras generic Python utils."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from tensorflow.python.keras._impl import keras
from tensorflow.python.platform import test
class HasArgTest(test.TestCase):
def test_has_arg(self):
def f_x(x):
return x
def f_x_args(x, *args):
_ = args
return x
def f_x_kwargs(x, **kwargs):
_ = kwargs
return x
self.assertTrue(keras.utils.generic_utils.has_arg(
f_x, 'x', accept_all=False))
self.assertFalse(keras.utils.generic_utils.has_arg(
f_x, 'y', accept_all=False))
self.assertTrue(keras.utils.generic_utils.has_arg(
f_x_args, 'x', accept_all=False))
self.assertFalse(keras.utils.generic_utils.has_arg(
f_x_args, 'y', accept_all=False))
self.assertTrue(keras.utils.generic_utils.has_arg(
f_x_kwargs, 'x', accept_all=False))
self.assertFalse(keras.utils.generic_utils.has_arg(
f_x_kwargs, 'y', accept_all=False))
self.assertTrue(keras.utils.generic_utils.has_arg(
f_x_kwargs, 'y', accept_all=True))
class TestCustomObjectScope(test.TestCase):
def test_custom_object_scope(self):
def custom_fn():
pass
class CustomClass(object):
pass
with keras.utils.generic_utils.custom_object_scope(
{'CustomClass': CustomClass, 'custom_fn': custom_fn}):
act = keras.activations.get('custom_fn')
self.assertEqual(act, custom_fn)
cl = keras.regularizers.get('CustomClass')
self.assertEqual(cl.__class__, CustomClass)
if __name__ == '__main__':
test.main()
| apache-2.0 |
nriyer/csvkit | csvkit/utilities/csvstat.py | 19 | 8673 | #!/usr/bin/env python
import datetime
from heapq import nlargest
from operator import itemgetter
import math
import six
from csvkit import CSVKitReader, table
from csvkit.cli import CSVKitUtility
NoneType = type(None)
MAX_UNIQUE = 5
MAX_FREQ = 5
OPERATIONS =('min', 'max', 'sum', 'mean', 'median', 'stdev', 'nulls', 'unique', 'freq', 'len')
class CSVStat(CSVKitUtility):
description = 'Print descriptive statistics for each column in a CSV file.'
override_flags = ['l']
def add_arguments(self):
self.argparser.add_argument('-y', '--snifflimit', dest='snifflimit', type=int,
help='Limit CSV dialect sniffing to the specified number of bytes. Specify "0" to disable sniffing entirely.')
self.argparser.add_argument('-c', '--columns', dest='columns',
help='A comma separated list of column indices or names to be examined. Defaults to all columns.')
self.argparser.add_argument('--max', dest='max_only', action='store_true',
help='Only output max.')
self.argparser.add_argument('--min', dest='min_only', action='store_true',
help='Only output min.')
self.argparser.add_argument('--sum', dest='sum_only', action='store_true',
help='Only output sum.')
self.argparser.add_argument('--mean', dest='mean_only', action='store_true',
help='Only output mean.')
self.argparser.add_argument('--median', dest='median_only', action='store_true',
help='Only output median.')
self.argparser.add_argument('--stdev', dest='stdev_only', action='store_true',
help='Only output standard deviation.')
self.argparser.add_argument('--nulls', dest='nulls_only', action='store_true',
help='Only output whether column contains nulls.')
self.argparser.add_argument('--unique', dest='unique_only', action='store_true',
help='Only output unique values.')
self.argparser.add_argument('--freq', dest='freq_only', action='store_true',
help='Only output frequent values.')
self.argparser.add_argument('--len', dest='len_only', action='store_true',
help='Only output max value length.')
self.argparser.add_argument('--count', dest='count_only', action='store_true',
help='Only output row count')
def main(self):
operations = [op for op in OPERATIONS if getattr(self.args, op + '_only')]
if len(operations) > 1:
self.argparser.error('Only one statistic argument may be specified (mean, median, etc).')
if operations and self.args.count_only:
self.argparser.error('You may not specify --count and a statistical argument at the same time.')
if self.args.count_only:
count = len(list(CSVKitReader(self.input_file)))
if not self.args.no_header_row:
count -= 1
self.output_file.write('Row count: %i\n' % count)
return
tab = table.Table.from_csv(
self.input_file,
snifflimit=self.args.snifflimit,
column_ids=self.args.columns,
zero_based=self.args.zero_based,
no_header_row=self.args.no_header_row,
**self.reader_kwargs
)
for c in tab:
values = sorted(filter(lambda i: i is not None, c))
stats = {}
# Output a single stat
if len(operations) == 1:
op = operations[0]
stat = getattr(self, 'get_%s' % op)(c, values, {})
# Formatting
if op == 'unique':
stat = len(stat)
elif op == 'freq':
stat = ', '.join([('"%s": %s' % (six.text_type(k), count)) for k, count in stat])
stat = '{ %s }' % stat
if len(tab) == 1:
self.output_file.write(six.text_type(stat))
else:
self.output_file.write('%3i. %s: %s\n' % (c.order + 1, c.name, stat))
# Output all stats
else:
for op in OPERATIONS:
stats[op] = getattr(self, 'get_%s' % op)(c, values, stats)
self.output_file.write(('%3i. %s\n' % (c.order + 1, c.name)))
if c.type == None:
self.output_file.write('\tEmpty column\n')
continue
self.output_file.write('\t%s\n' % c.type)
self.output_file.write('\tNulls: %s\n' % stats['nulls'])
if len(stats['unique']) <= MAX_UNIQUE and c.type is not bool:
uniques = [six.text_type(u) for u in list(stats['unique'])]
data = u'\tValues: %s\n' % ', '.join(uniques)
self.output_file.write(data)
else:
if c.type not in [six.text_type, bool]:
self.output_file.write('\tMin: %s\n' % stats['min'])
self.output_file.write('\tMax: %s\n' % stats['max'])
if c.type in [int, float]:
self.output_file.write('\tSum: %s\n' % stats['sum'])
self.output_file.write('\tMean: %s\n' % stats['mean'])
self.output_file.write('\tMedian: %s\n' % stats['median'])
self.output_file.write('\tStandard Deviation: %s\n' % stats['stdev'])
self.output_file.write('\tUnique values: %i\n' % len(stats['unique']))
if len(stats['unique']) != len(values):
self.output_file.write('\t%i most frequent values:\n' % MAX_FREQ)
for value, count in stats['freq']:
self.output_file.write(('\t\t%s:\t%s\n' % (six.text_type(value), count)))
if c.type == six.text_type:
self.output_file.write('\tMax length: %i\n' % stats['len'])
if not operations:
self.output_file.write('\n')
self.output_file.write('Row count: %s\n' % tab.count_rows())
def get_min(self, c, values, stats):
if c.type == NoneType:
return None
v = min(values)
if v in [datetime.datetime, datetime.date, datetime.time]:
return v.isoformat()
return v
def get_max(self, c, values, stats):
if c.type == NoneType:
return None
v = max(values)
if v in [datetime.datetime, datetime.date, datetime.time]:
return v.isoformat()
return v
def get_sum(self, c, values, stats):
if c.type not in [int, float]:
return None
return sum(values)
def get_mean(self, c, values, stats):
if c.type not in [int, float]:
return None
if 'sum' not in stats:
stats['sum'] = self.get_sum(c, values, stats)
return float(stats['sum']) / len(values)
def get_median(self, c, values, stats):
if c.type not in [int, float]:
return None
return median(values)
def get_stdev(self, c, values, stats):
if c.type not in [int, float]:
return None
if 'mean' not in stats:
stats['mean'] = self.get_mean(c, values, stats)
return math.sqrt(sum(math.pow(v - stats['mean'], 2) for v in values) / len(values))
def get_nulls(self, c, values, stats):
return c.has_nulls()
def get_unique(self, c, values, stats):
return set(values)
def get_freq(self, c, values, stats):
return freq(values)
def get_len(self, c, values, stats):
if c.type != six.text_type:
return None
return c.max_length()
def median(l):
"""
Compute the median of a list.
"""
length = len(l)
if length % 2 == 1:
return l[(length + 1) // 2 - 1]
else:
a = l[(length // 2) - 1]
b = l[length // 2]
return (float(a + b)) / 2
def freq(l, n=MAX_FREQ):
"""
Count the number of times each value occurs in a column.
"""
count = {}
for x in l:
s = six.text_type(x)
if s in count:
count[s] += 1
else:
count[s] = 1
# This will iterate through dictionary, return N highest
# values as (key, value) tuples.
top = nlargest(n, six.iteritems(count), itemgetter(1))
return top
def launch_new_instance():
utility = CSVStat()
utility.main()
if __name__ == "__main__":
launch_new_instance()
| mit |
Titan-C/scikit-learn | sklearn/datasets/covtype.py | 17 | 3649 | """Forest covertype dataset.
A classic dataset for classification benchmarks, featuring categorical and
real-valued features.
The dataset page is available from UCI Machine Learning Repository
http://archive.ics.uci.edu/ml/datasets/Covertype
Courtesy of Jock A. Blackard and Colorado State University.
"""
# Author: Lars Buitinck
# Peter Prettenhofer <peter.prettenhofer@gmail.com>
# License: BSD 3 clause
from gzip import GzipFile
from io import BytesIO
import logging
from os.path import exists, join
try:
from urllib2 import urlopen
except ImportError:
from urllib.request import urlopen
import numpy as np
from .base import get_data_home
from ..utils import Bunch
from .base import _pkl_filepath
from ..utils.fixes import makedirs
from ..externals import joblib
from ..utils import check_random_state
URL = ('http://archive.ics.uci.edu/ml/'
'machine-learning-databases/covtype/covtype.data.gz')
logger = logging.getLogger()
def fetch_covtype(data_home=None, download_if_missing=True,
random_state=None, shuffle=False):
"""Load the covertype dataset, downloading it if necessary.
Read more in the :ref:`User Guide <datasets>`.
Parameters
----------
data_home : string, optional
Specify another download and cache folder for the datasets. By default
all scikit-learn data is stored in '~/scikit_learn_data' subfolders.
download_if_missing : boolean, default=True
If False, raise a IOError if the data is not locally available
instead of trying to download the data from the source site.
random_state : int, RandomState instance or None, optional (default=None)
Random state for shuffling the dataset.
If int, random_state is the seed used by the random number generator;
If RandomState instance, random_state is the random number generator;
If None, the random number generator is the RandomState instance used
by `np.random`.
shuffle : bool, default=False
Whether to shuffle dataset.
Returns
-------
dataset : dict-like object with the following attributes:
dataset.data : numpy array of shape (581012, 54)
Each row corresponds to the 54 features in the dataset.
dataset.target : numpy array of shape (581012,)
Each value corresponds to one of the 7 forest covertypes with values
ranging between 1 to 7.
dataset.DESCR : string
Description of the forest covertype dataset.
"""
data_home = get_data_home(data_home=data_home)
covtype_dir = join(data_home, "covertype")
samples_path = _pkl_filepath(covtype_dir, "samples")
targets_path = _pkl_filepath(covtype_dir, "targets")
available = exists(samples_path)
if download_if_missing and not available:
makedirs(covtype_dir, exist_ok=True)
logger.warning("Downloading %s" % URL)
f = BytesIO(urlopen(URL).read())
Xy = np.genfromtxt(GzipFile(fileobj=f), delimiter=',')
X = Xy[:, :-1]
y = Xy[:, -1].astype(np.int32)
joblib.dump(X, samples_path, compress=9)
joblib.dump(y, targets_path, compress=9)
elif not available:
if not download_if_missing:
raise IOError("Data not found and `download_if_missing` is False")
try:
X, y
except NameError:
X = joblib.load(samples_path)
y = joblib.load(targets_path)
if shuffle:
ind = np.arange(X.shape[0])
rng = check_random_state(random_state)
rng.shuffle(ind)
X = X[ind]
y = y[ind]
return Bunch(data=X, target=y, DESCR=__doc__)
| bsd-3-clause |
geomagpy/magpy | magpy/lib/format_wic.py | 1 | 41605 | """
MagPy
Auxiliary input filter - WIC/WIK
Supports USB temperature loggers, RCS files, old Caesium data and SG data
Written by Roman Leonhardt June 2012
- contains test and read function, toDo: write function
"""
from __future__ import print_function
from __future__ import absolute_import
from __future__ import unicode_literals
from __future__ import division
from io import open
from magpy.stream import *
def OpenFile(filename, mode='w'):
if sys.version_info >= (3,0,0):
f = open(filename, mode, newline='')
else:
f = open(filename, mode+'b')
return f
def isUSBLOG(filename):
"""
Checks whether a file is ASCII USB-Logger format.
Supports temperture and humidity logger
Extend that code for CO logger as well
"""
try:
temp = open( filename, "r", newline='', encoding='utf-8', errors='ignore' ).readline()
except:
return False
try:
sp = temp.split(',')
if not len(sp) == 6:
return False
if not sp[1] == 'Time':
return False
except:
return False
return True
def isRMRCS(filename):
"""
Checks whether a file is ASCII RCS format.
"""
try:
fh = open(filename, 'r', encoding='utf-8', newline='', errors='ignore')
temp = fh.readline()
except:
return False
try:
if not temp.startswith('# RCS'):
return False
except:
return False
return True
def isIWT(filename):
"""
Checks whether a file is ASCII Tiltmeter format.
"""
try:
temp = open(filename, 'rt').readline()
except:
return False
try:
comp = temp.split()
if not len(comp) == 4:
return False
except:
return False
try:
test = datetime.strptime(comp[0],"%Y%m%dT%H%M%S.%f")
except:
return False
return True
def isMETEO(filename):
"""
Checks whether a file is ASCII METEO format provided by the Cobs RCS system.
"""
try:
fh = open(filename, 'rb')
temp = fh.readline()
except:
return False
try:
comp = temp.split()
except:
return False
try:
if not comp[0].decode('utf-8') == 'Date':
return False
if not comp[3].decode('utf-8').startswith('AP23'):
return False
temp = fh.readline()
comp = temp.split()
date = comp[0].decode('utf-8') + '-' + comp[1].decode('utf-8')
test = datetime.strptime(date,"%Y%m%d-%H%M%S")
except:
return False
return True
def isLNM(filename):
"""
Checks whether a file is ASCII Laser-Niederschlags-Monitor file (Thies).
"""
try:
fh = open(filename, 'rt')
temp = fh.readline()
except:
return False
try:
if not temp.startswith('# LNM '):
return False
except:
return False
return True
def isLIPPGRAV(filename):
"""
Checks whether a file is an ASCII Lippmann tiltmeter file.
"""
try:
fh = open(filename, 'rt')
temp = fh.readline()
except:
return False
try:
comp = temp.split()
if not len(comp) == 6:
return False
except:
return False
try:
test = datetime.strptime(comp[0],"%Y%m%d%H%M%S")
except:
return False
return True
def isGRAVSG(filename):
"""
Checks whether a file is ASCII SG file format.
"""
try:
temp = open(filename, 'rt').readline()
except:
return False
try:
if not temp.startswith('[TSF-file]'):
return False
except:
return False
return True
def isCS(filename):
"""
Checks whether a file is ASCII CS Mag and initial ws format.
should be called as one of the last options
"""
try:
temp = open(filename, 'rt').readline()
except:
return False
try:
tmp = temp.split()
if not len(tmp) in [2,4]:
return False
except:
return False
try:
testdate = datetime.strptime(tmp[0].strip(','),"%H:%M:%S.%f")
except:
try:
testdate = datetime.strptime(tmp[0],"%Y-%m-%dT%H:%M:%S.%f")
except:
return False
return True
def readRMRCS(filename, headonly=False, **kwargs):
"""
Reading RMRCS format data. (Richard Mandl's RCS extraction)
# RCS Fieldpoint T7
# Conrad Observatorium, www.zamg.ac.at
# 2012-02-01 00:00:00
#
# 12="ZAGTFPT7 M6 I,cFP-AI-110 CH00 AP23 Niederschlagsmesser -- Unwetter, S AR0-20H0.1 mm y=500x+0 AI"
# 13="ZAGTFPT7 M6 I,cFP-AI-110 CH01 JC Schneepegelsensor OK Mastverwehung, S AR0-200H0 cm y=31250x+0 AI"
# 14="ZAGTFPT7 M6 I,cFP-AI-110 CH02 430A_T Wetterhuette - Lufttemperatur - -, B AR-35-45H0 C y=4000x-35 AI"
# 15="ZAGTFPT7 M6 I,cFP-AI-110 CH03 430A_F Wetterhuette - Luftfeuchte - -, B AR0-100H0 % y=5000x+0 AI"
#
1328054403.99 20120201 000004 49.276E-6 49.826E+0 -11.665E+0 78.356E+0
1328054407.99 20120201 000008 79.480E-6 49.823E+0 -11.677E+0 78.364E+0
1328054411.99 20120201 000012 68.555E-6 49.828E+0 -11.688E+0 78.389E+0
"""
starttime = kwargs.get('starttime')
endtime = kwargs.get('endtime')
getfile = True
debug = kwargs.get('debug')
debug = True
if debug:
print ("RCS: found data from Richards Perl script")
#fh = open(filename, 'r', encoding='utf-8', newline='', errors='ignore')
#fh = open(filename, 'r', newline='')
fh = open(filename, 'rb')
# read file and split text into channels
# --------------------------------------
stream = DataStream()
headers = {}
array = [[] for key in KEYLIST]
data = []
measurement = []
unit = []
i = 0
key = None
# try to get day from filename (platform independent)
# --------------------------------------
theday = extractDateFromString(filename)
try:
if starttime:
if not theday[-1] >= datetime.date(stream._testtime(starttime)):
getfile = False
if endtime:
if not theday[0] <= datetime.date(stream._testtime(endtime)):
getfile = False
except:
# Date format not recognized. Need to read all files
getfile = True
if getfile:
for line in fh:
line = line.decode('utf-8','ignore')
if line.isspace():
# blank line
pass
elif line.startswith('# RCS Fieldpoint'):
# data header
fieldpoint = line.replace('# RCS Fieldpoint','').strip()
elif line.startswith('#'):
# data header
colsstr = line.split(',')
if (len(colsstr) == 3):
# select the lines with three komma separeted parts -> they describe the data
meastype = colsstr[1].split()
unittype = colsstr[2].split()
measurement.append(meastype[2])
unit.append(unittype[2])
headers['col-'+KEYLIST[i+1]] = measurement[i]
headers['unit-col-'+KEYLIST[i+1]] = unit[i]
if headers['unit-col-'+KEYLIST[i+1]] == '--':
headers['unit-col-'+KEYLIST[i+1]] = ''
i=i+1
elif headonly:
# skip data for option headonly
continue
else:
# data entry - may be written in multiple columns
# row beinhaltet die Werte eine Zeile
elem = line[:-1].split()
gottime = False
try:
array[0].append(date2num(datetime.strptime(elem[1],"%Y-%m-%dT%H:%M:%S")))
add = 2
gottime = True
except:
try:
array[0].append(date2num(datetime.strptime(elem[1]+'T'+elem[2],"%Y%m%dT%H%M%S")))
add = 3
gottime = True
except:
raise ValueError("Can't read date format in RCS file")
if gottime:
for i in range(len(unit)):
try:
array[i+1].append(float(elem[i+add]))
except:
array[i+1].append(float(nan))
pass
array = [np.asarray(el) for el in array]
headers['SensorID'] = 'RCS{}_20160114_0001'.format(fieldpoint) # 20160114 corresponds to the date at which RCS was activated
headers["SensorName"] = 'RCS{}'.format(fieldpoint)
headers["SensorSerialNum"] = "20160114"
headers["SensorRevision"] = "0001"
headers["SensorModule"] = "RCS"
headers["SensorGroup"] = "environment"
headers["SensorDataLogger"] = "{}".format(fieldpoint)
else:
headers = stream.header
stream =[]
fh.close()
return DataStream([LineStruct()], headers, np.asarray(array))
def readLNM(filename, headonly=False, **kwargs):
"""
Reading ASCII LNM data files.
"""
starttime = kwargs.get('starttime')
endtime = kwargs.get('endtime')
debug = kwargs.get('debug')
getfile = True
array = [[] for key in KEYLIST]
stream = DataStream([],{},np.asarray(array))
if debug:
print("Found LNM file")
synopdict = {"-1":"Sensorfehler",
"41":"Leichter bis maessiger Niederschlag (nicht identifiziert, unbekannt)",
"42":"Starker Niederschlag (nicht identifiziert, unbekannt)",
"00":"Kein Niederschlag",
"51":"Leichter Niesel",
"52":"Maessiger Niesel",
"53":"Starker Niesel",
"57":"Leichter Niesel mit Regen",
"58":"Maessiger bis starker Niesel mit Regen",
"61":"Leichter Regen",
"62":"Maessiger Regen",
"63":"Starker Regen",
"67":"Leichter Regen",
"68":"Maessiger bis starker Regen",
"77":"Schneegriesel",
"71":"Leichter Schneefall",
"72":"Maessiger Schneefall",
"73":"Starker Schneefall",
"74":"Leichte Graupel",
"75":"Maessige Graupel",
"76":"Starke Graupel",
"89":"Hagel"}
# get day from filename (platform independent)
theday = extractDateFromString(filename)
try:
if starttime:
if not theday[-1] >= datetime.date(stream._testtime(starttime)):
getfile = False
if endtime:
if not theday[0] <= datetime.date(stream._testtime(endtime)):
getfile = False
except:
# Date format not recognized. Need to read all files
getfile = True
# Check whether header infromation is already present
if getfile:
headers = {}
# Get the indicies to be used for the array
indx = KEYLIST.index('x')
indy = KEYLIST.index('y')
indz = KEYLIST.index('z')
indf = KEYLIST.index('f')
inddx = KEYLIST.index('dx')
inddy = KEYLIST.index('dy')
inddz = KEYLIST.index('dz')
indt1 = KEYLIST.index('t1')
indt2 = KEYLIST.index('t2')
indvar1 = KEYLIST.index('var1')
indvar2 = KEYLIST.index('var2')
indvar3 = KEYLIST.index('var3')
indvar4 = KEYLIST.index('var4')
indvar5 = KEYLIST.index('var5')
indstr1 = KEYLIST.index('str1')
indstr2 = KEYLIST.index('str2')
cnt = 0
#qFile= file( filename, "rb" )
qFile= open( filename, encoding='utf-8' )
csvReader= csv.reader( qFile, delimiter=str(';'))
for idx, elem in enumerate(csvReader):
try:
if elem[0].startswith('# LNM'):
headers['col-x'] = 'rainfall'
headers['unit-col-x'] = 'mm'
headers['col-y'] = 'visibility'
headers['unit-col-y'] = 'm'
headers['col-z'] = 'reflectivity'
headers['unit-col-z'] = 'dBZ'
headers['col-f'] = 'P_tot'
headers['col-t1'] = 'T'
headers['unit-col-t1'] = 'degC'
headers['col-t2'] = 'T_el'
headers['unit-col-t2'] = 'degC'
headers['col-var1'] = 'I_tot'
headers['col-var2'] = 'I_fluid'
headers['col-var3'] = 'I_solid'
headers['col-var4'] = 'd(hail)'
headers['unit-col-var4'] = 'mm'
headers['col-var5'] = 'qualtiy'
headers['unit-col-var5'] = 'percent'
headers['col-dx'] = 'P_slow'
headers['col-dy'] = 'P_fast'
headers['col-dz'] = 'P_small'
headers['col-str1'] = 'SYNOP-4680-code'
headers['col-str2'] = 'SYNOP-4680-description'
elif len(elem) == 527:
cnt += 1
#print datetime.strptime(elem[0]+'T'+elem[1],"%Y-%m-%dT%H:%M:%S.%f")
array[0].append(date2num(datetime.strptime(elem[0]+'T'+elem[1],"%Y-%m-%dT%H:%M:%S.%f")))
array[indx].append(elem[17])
array[indy].append(elem[18])
array[indz].append(elem[19])
array[indf].append(elem[51])
array[indt1].append(elem[46])
array[indt2].append(elem[38])
array[indvar1].append(elem[14])
array[indvar2].append(elem[15])
array[indvar3].append(elem[16])
array[indvar4].append(elem[21])
array[indvar5].append(elem[20])
array[inddx].append(elem[53])
array[inddy].append(elem[55])
array[inddz].append(elem[57])
array[indstr1].append(elem[8])
array[indstr2].append(synopdict.get(elem[8],'undefined'))
if cnt == 1:
headers['SensorDate'] = datetime.strftime(datetime.strptime(elem[5],'%d.%m.%y'),'%Y-%m-%d')
headers['SensorSerialNum'] = elem[3]
else:
pass
except:
pass
qFile.close()
for idx,elem in enumerate(array):
if KEYLIST[idx] in NUMKEYLIST:
array[idx] = np.asarray(array[idx]).astype(float)
else:
array[idx] = np.asarray(array[idx]).astype(object)
# Add some Sensor specific header information
headers['SensorDescription'] = 'Thies Laser Niederschlags Monitor: Percipitation analysis'
headers['SensorName'] = 'LNM'
headers['SensorGroup'] = 'environment'
headers['SensorRevision'] = '0001'
headers['SensorType'] = 'meteorology'
headers['SensorKeys'] = 'x,y,z,f,t1,t2,var1,var2,var3,var4,var5,dx,dy,dz,df,str1,str2'
headers['SensorElements'] = 'rainfall,visibility,reflectivity,P_tot,T,T_el,I_tot,I_fluid,I_solid,d(hail),qualtiy,P_slow,P_fast,P_small,SYNOP-4680-code,SYNOP-4680-description'
try:
headers['SensorID'] = "{}_{}_{} ".format(headers.get('SensorName'),headers.get('SensorSerialNum'),headers.get('SensorRevision'))
except:
pass
headers['DataFormat'] = 'Theiss-LaserNiederschlagsMonitor'
return DataStream([LineStruct()], headers, np.asarray(array))
def readUSBLOG(filename, headonly=False, **kwargs):
"""
Reading ASCII USB DataLogger Structure format data.
Vario,Time,Celsius(deg C),Humidity(%rh),dew point(deg C),Serial Number
3,29/07/2010 12:58:03,21.0,88.5,19.0
4,29/07/2010 13:28:03,21.0,88.5,19.0
5,29/07/2010 13:58:03,21.0,88.5,19.0
6,29/07/2010 14:28:03,21.0,88.5,19.0
7,29/07/2010 14:58:03,21.0,89.0,19.1
8,29/07/2010 15:28:03,21.0,89.0,19.1
"""
stream = DataStream()
array = [[] for elem in KEYLIST]
t1ind = KEYLIST.index('t1')
t2ind = KEYLIST.index('t2')
var1ind = KEYLIST.index('var1')
# Check whether header infromation is already present
headers = {}
qFile= open( filename, "r", newline='', encoding='utf-8', errors='ignore' )
csvReader= csv.reader( qFile )
for elem in csvReader:
#row = LineStruct()
try:
if elem[1] == 'Time':
el2 = elem[2].split('(')
test = el2[1]
headers['unit-col-t1'] = "\circ C" #unicode(el2[1].strip(')'),errors='ignore')
headers['col-t1'] = 'T'
el3 = elem[3].split('(')
headers['unit-col-var1'] = "percent" #unicode(el3[1].strip(')'),errors='ignore')
headers['col-var1'] = 'RH'
el4 = elem[4].split('(')
headers['unit-col-t2'] = "\circ C" #unicode(el4[1].strip(')'),errors='ignore')
headers['col-t2'] = 'T(dew)'
elif len(elem) == 6 and not elem[1] == 'Time':
headers['SensorSerialNum'] = '%s' % elem[5]
else:
array[0].append(date2num(datetime.strptime(elem[1],"%d/%m/%Y %H:%M:%S")))
array[t1ind].append(float(elem[2]))
array[t2ind].append(float(elem[4]))
array[var1ind].append(float(elem[3]))
#row.time = date2num(datetime.strptime(elem[1],"%d/%m/%Y %H:%M:%S"))
#row.t1 = float(elem[2])
#row.var1 = float(elem[3])
#row.t2 = float(elem[4])
#stream.add(row)
except:
pass
qFile.close()
# Add some Sensor specific header information
headers['SensorDescription'] = 'Model HMHT-LG01: This Humidity and Temperature USB data logger measures and stores relative humidity temperature readings over 0 to 100 per RH and -35 to +80 deg C measurement ranges. Humidity: Repeatability (short term) 0.1 per RH, Accuracy (overall error) 3.0* 6.0 per RH, Internal resolution 0.5 per RH, Long term stability 0.5 per RH/Yr; Temperature: Repeatability 0.1 deg C, Accuracy (overall error) 0.5 and 2 deg C, Internal resolution 0.5 deg C'
headers['SensorName'] = 'HMHT-LG01'
headers['SensorType'] = 'Temperature/Humidity'
headers['SensorGroup'] = 'environment'
array = np.asarray([np.asarray(el) for el in array])
stream = [LineStruct()]
return DataStream(stream, headers, array)
def readMETEO(filename, headonly=False, **kwargs):
"""
Reading RCS Meteo data files.
Format looks like:
Date Time SK AP23 JC 430A_T 430A_F 430A_UEV HePKS HePKR HePCS HePCR HeTKS HeTKR HeFlowK WV WR WT LNM Barometer
20101007 000000 0 0.000E+0 12.507E+0 6.883E+0 99.916E+0 0 17.576E+0 5.896E+0 17.282E+0 5.974E+0 28.815E+0 28.565E+0 107.942E+0 600.000E-3 200.000E+0 8.200E+0 0.000E+0 900.850E+0
20101007 000100 0 320.439E-6 12.517E+0 6.875E+0 99.924E+0 0 17.538E+0 5.974E+0 17.476E+0 5.993E+0 28.812E+0 28.555E+0 107.942E+0 200.000E-3 325.000E+0 8.400E+0 0.000E+0 900.840E+0
By default, Helium columns are neglected
"""
starttime = kwargs.get('starttime')
endtime = kwargs.get('endtime')
takehelium = kwargs.get('takehelium')
debug = kwargs.get('debug')
getfile = True
heliumcols = []
stream = DataStream()
if debug:
print ("METEO: found RCS meteo data")
# Check whether header infromation is already present
headers = {}
theday = extractDateFromString(filename)
try:
if starttime:
if not theday[-1] >= datetime.date(stream._testtime(starttime)):
getfile = False
if endtime:
if not theday[0] <= datetime.date(stream._testtime(endtime)):
getfile = False
except:
print("Did not recognize the date format")
# Date format not recognized. Need to read all files
getfile = True
fh = open(filename, 'rb')
array = [[] for key in KEYLIST]
fkeys = []
felements = []
if getfile:
for line in fh:
line = line.decode('utf-8',errors='ignore')
if line.isspace():
# blank line
continue
elif line.startswith(' '):
continue
elif line.startswith('Date'):
# Read the header information
#1) first get number of columns
cols = line.split()
if not takehelium:
try:
columns = [elem for elem in cols if not elem.startswith('He')]
except:
print("Found error in header", filename)
columns = []
else:
columns = cols
for i, elem in enumerate(columns):
if i > 1:
key = KEYLIST[i-1]
fkeys.append(key)
headers['col-'+key] = elem.replace('_','')
headers['unit-col-'+key] = '-'
else:
colsstr = line.split()
if not takehelium:
try:
colsstr = [elem for i, elem in enumerate(colsstr) if not cols[i].startswith('He')]
except:
print("Found error in data sequence", filename)
#print colsstr
break
row = LineStruct()
try:
date = colsstr[0]+'-'+colsstr[1]
array[0].append(date2num(datetime.strptime(date,"%Y%m%d-%H%M%S")))
#row.time = date2num(datetime.strptime(date,"%Y%m%d-%H%M%S"))
for i in range(2,len(colsstr)):
key = KEYLIST[i-1]
if not key.startswith('str') and not key in ['flag','comment','typ']:
array[i-1].append(float(colsstr[i]))
#exec('row.'+key+' = float(colsstr[i])')
elif not key in ['flag','comment','typ']:
array[i-1].append(str(float(colsstr[i])))
#exec('row.'+key+' = str(float(colsstr[i]))')
#row.typ = 'other'
#stream.add(row)
except:
pass
for idx,el in enumerate(array):
array[idx] = np.asarray(el)
headers['SensorDescription'] = 'RCS: filtered Meteorlogical data - Andreas Winkelbauer'
headers['SensorName'] = 'Various Meteorology sensors'
headers['SensorID'] = 'METEO_RCS2015_0001'
headers['SensorType'] = 'Various'
headers['SensorModule'] = 'RCS'
headers['SensorDataLogger'] = 'F77'
headers['SensorGroup'] = 'environment'
headers['DataFormat'] = 'RCSMETEO v3.0'
headers['col-t2'] = '430UEV' # Necessary because of none UTF8 coding in header
headers['col-f'] = 'T'
headers['unit-col-f'] = 'deg C'
headers['col-z'] = 'Schneehoehe'
headers['unit-col-z'] = 'cm'
if not takehelium:
headers['col-t1'] = 'rh'
headers['unit-col-t1'] = 'percent'
headers['col-var5'] = 'P'
headers['unit-col-var5'] = 'hPa'
headers['col-var1'] = 'Wind'
headers['unit-col-var1'] = 'm/s'
headers['SensorKeys'] = ','.join(fkeys)
headers['SensorElements'] = ','.join([headers['col-'+key] for key in KEYLIST if key in fkeys])
if debug:
print ("METEO: Successfully loaded METEO data")
return DataStream([LineStruct()], headers, np.asarray(array))
def readLIPPGRAV(filename, headonly=False, **kwargs):
"""
Reading Lippmann tiltmeter data files.
Format looks like:
20141015000000 -5.2565 -7.5508 8.68 74.64 909.52
20141015000001 -5.2601 -7.5455 8.69 74.66 909.52
20141015000002 -5.2606 -7.5504 8.69 74.66 909.51
20141015000003 -5.2555 -7.5565 8.68 74.67 909.52
20141015000004 -5.2490 -7.5477 8.68 74.66 909.51
20141015000005 -5.2515 -7.5463 8.68 74.65 909.51
20141015000005 -5.2624 -7.5549 8.69 74.69 909.50
20141015000006 -5.2546 -7.5573 8.69 74.66 909.51
20141015000007 -5.2607 -7.5518 8.69 74.66 909.51
20141015000008 -5.2569 -7.5531 8.69 74.66 909.50
20141015000009 -5.2567 -7.5570 8.69 74.65 909.49
20141015000010 -5.2549 -7.5486 8.68 74.65 909.51
"""
starttime = kwargs.get('starttime')
endtime = kwargs.get('endtime')
getfile = True
stream = DataStream()
# Check whether header infromation is already present
headers = {}
theday = extractDateFromString(filename)
try:
if starttime:
if not theday[-1] >= datetime.date(stream._testtime(starttime)):
getfile = False
if endtime:
if not theday[0] <= datetime.date(stream._testtime(endtime)):
getfile = False
except:
print("Did not recognize the date format")
# Date format not recognized. Need to read all files
getfile = True
array = [[] for key in KEYLIST]
posx = KEYLIST.index('x')
posy = KEYLIST.index('y')
post1 = KEYLIST.index('t1')
posvar1 = KEYLIST.index('var1')
posvar2 = KEYLIST.index('var2')
fh = open(filename, 'rt')
if getfile:
for line in fh:
if line.isspace():
# blank line
continue
elif line.startswith(' '):
continue
else:
colsstr = line.split()
row = LineStruct()
try:
date = colsstr[0]+'-'+colsstr[1]
array[0].append(date2num(datetime.strptime(colsstr[0],"%Y%m%d%H%M%S")))
array[posx].append(float(colsstr[1]))
array[posy].append(float(colsstr[2]))
array[post1].append(float(colsstr[3]))
array[posvar1].append(float(colsstr[4]))
array[posvar2].append(float(colsstr[5]))
except:
pass
headers['unit-col-x'] = 'lambda'
headers['col-x'] = 'tilt'
headers['unit-col-y'] = 'lambda'
headers['col-y'] = 'tilt'
headers['unit-col-t1'] = 'deg C'
headers['col-t1'] = 'T'
headers['unit-col-var1'] = 'percent'
headers['col-var1'] = 'rh'
headers['unit-col-var2'] = 'hPa'
headers['col-var2'] = 'p'
headers['SensorDescription'] = 'Lippmann: Tiltmeter system'
headers['SensorName'] = 'Lippmann Tiltmeter'
headers['SensorType'] = 'Tiltmeter'
headers['SensorID'] = 'Lippmann_Tilt'
for idx,el in enumerate(array):
array[idx] = np.asarray(el)
return DataStream([LineStruct()], headers, np.asarray(array))
def readIWT(filename, headonly=False, **kwargs):
"""
Reading Tiltmete data files.
Format looks like:
20140831T000000.041770 -28.376309 0.003279 2.224
20140831T000000.175237 -28.373077 0.003500 2.232
20140831T000000.308580 -28.377111 0.003470 2.230
20140831T000000.441923 -28.381986 0.003322 2.222
20140831T000000.575266 -28.373106 0.003399 2.231
20140831T000000.708608 -28.376691 0.003464 2.229
"""
starttime = kwargs.get('starttime')
endtime = kwargs.get('endtime')
sensorid = kwargs.get('sensorid')
debug = kwargs.get('debug')
getfile = True
stream = DataStream()
# Check whether header infromation is already present
headers = {}
theday = extractDateFromString(filename)
try:
if starttime:
if not theday[-1] >= datetime.date(stream._testtime(starttime)):
getfile = False
if endtime:
if not theday[0] <= datetime.date(stream._testtime(endtime)):
getfile = False
except:
if debug:
print("IWT: Did not recognize the date format")
# Date format not recognized. Need to read all files
getfile = True
fh = open(filename, 'rt')
if getfile:
ta,xa,ya,za = [],[],[],[]
cnt = 0
for line in fh:
skipline = False
if line.isspace():
# blank line
continue
elif line.startswith(' '):
continue
else:
colsstr = line.split()
try:
try:
t = date2num(datetime.strptime(colsstr[0],"%Y%m%dT%H%M%S.%f"))
except:
try:
t = date2num(datetime.strptime(colsstr[0],"%Y%m%dT%H%M%S"))
except:
if debug:
print("IWT: Could not interprete time in line {}".format(cnt))
skipline = True
if not skipline:
x = float(colsstr[1])
y = float(colsstr[2])
z = float(colsstr[3])
ta.append(t)
xa.append(x)
ya.append(y)
za.append(z)
except:
if debug:
print("IWT: Could not interprete values in line {}: Found {}".format(cnt,line))
pass
cnt += 1
array = [np.asarray(ta),np.asarray(xa),np.asarray(ya),np.asarray(za)]
ndarray = np.array(array)
stream = DataStream()
stream = [LineStruct()]
headers['unit-col-x'] = 'nrad'
headers['col-x'] = 'tilt'
headers['unit-col-y'] = 'lambda'
headers['col-y'] = 'phase'
headers['unit-col-z'] = 'arb'
headers['col-z'] = 'val3'
headers['SensorDescription'] = 'iWT: Tiltmeter system'
headers['SensorName'] = 'Tiltmeter'
headers['SensorType'] = 'Tiltmeter'
if sensorid:
headers['SensorID'] = sensorid
return DataStream(stream,headers,ndarray)
def readCS(filename, headonly=False, **kwargs):
"""
Reading ASCII PyMagStructure format data.
"""
starttime = kwargs.get('starttime')
endtime = kwargs.get('endtime')
stream = DataStream()
# Check whether header infromation is already present
headers = {}
array = [[] for elem in KEYLIST]
qFile= open( filename, "rt", newline='' )
csvReader= csv.reader( qFile )
# get day from filename (platform independent)
getfile = True
theday = extractDateFromString(filename)
try:
if starttime:
if not theday[-1] >= datetime.date(stream._testtime(starttime)):
getfile = False
if endtime:
if not theday[0] <= datetime.date(stream._testtime(endtime)):
getfile = False
except:
# Date format not recognized. Need to read all files
getfile = True
# Select only files within eventually defined time range
if getfile:
print ("REading", theday[0])
logging.info(' Read: %s Format: CS (txt) ' % (filename))
for elem in csvReader:
#print (elem)
if len(elem) == 1:
elem = elem[0].split()
if elem[0]=='#':
# blank line
pass
elif headonly:
# skip data for option headonly
continue
else:
try:
#row = LineStruct()
try:
#row.time = date2num(datetime.strptime(day+'T'+elem[0],"%Y-%m-%dT%H:%M:%S.%f"))
ti = date2num(datetime.strptime(day+'T'+elem[0],"%Y-%m-%dT%H:%M:%S.%f"))
except:
#row.time = date2num(datetime.strptime(elem[0],"%Y-%m-%dT%H:%M:%S.%f"))
ti = date2num(datetime.strptime(elem[0],"%Y-%m-%dT%H:%M:%S.%f"))
array[find].append(ti)
if len(elem) == 2:
#row.f = float(elem[1])
array[find].append(float(elem[1]))
elif len(elem) == 4:
array[t1ind].append(float(elem[1]))
array[var1ind].append(float(elem[2]))
array[t2ind].append(float(elem[3]))
#row.t1 = float(elem[1])
#row.var1 = float(elem[2])
#row.t2 = float(elem[3])
#stream.add(row)
except ValueError:
pass
qFile.close()
if len(elem) == 2:
headers['unit-col-f'] = 'nT'
headers['col-f'] = 'F'
elif len(elem) == 4:
headers['unit-col-t1'] = 'deg C'
headers['unit-col-t2'] = 'deg C'
headers['unit-col-var1'] = 'percent'
headers['col-t1'] = 'T'
headers['col-t2'] = 'Dewpoint'
headers['col-var1'] = 'RH'
array = np.asarray([np.asarray(el) for el in array])
stream = [LineStruct()]
return DataStream(stream, headers, array)
def readGRAVSG(filename, headonly=False, **kwargs):
"""
Reading SG-Gravity data files.
"""
starttime = kwargs.get('starttime')
endtime = kwargs.get('endtime')
getfile = True
stream = DataStream()
array = [[] for key in KEYLIST]
# Check whether header infromation is already present
headers = {}
theday = extractDateFromString(filename)
try:
if starttime:
if not theday[-1] >= datetime.date(stream._testtime(starttime)):
getfile = False
if endtime:
if not theday[0] <= datetime.date(stream._testtime(endtime)):
getfile = False
except:
# Date format not recognized. Need to read all files
getfile = True
fh = open(filename, 'rt')
ncol = 0
ucol = 0
getchannel = False
getunit = False
if getfile:
datablogstarts = False
for line in fh:
if line.isspace():
# blank line
continue
#elif line.startswith(' '):
# continue
elif line.startswith('[TSF-file]'):
contline = line.split()
stream.header['DataFormat'] = contline[1]
elif line.startswith('[TIMEFORMAT]'):
contline = line.split()
val = contline[1]
elif line.startswith('[INCREMENT]'):
contline = line.split()
stream.header['DataSamplingRate'] = contline[1]
elif line.startswith('[CHANNELS]'):
getchannel = True
#line = fh.readline()
#while not line.startswith('['):
# #except:
# # pass
# # eventually do ot like that
#
#CO:SG025:Grav-1
#CO:SG025:Grav-2
#CO:SG025:Baro-1
#CO:SG025:Baro-2
pass
elif line.startswith(' ') and getchannel:
ncol += 1
#line = fh.readline()
#try:
if ncol <= 15:
colnames = line.split(':')[2]
key = KEYLIST[ncol]
stream.header['col-'+key] = colnames.strip()
else:
ncol = 15
elif line.startswith('[UNITS]'):
getchannel = False
getunit = True
elif line.startswith(' ') and getunit:
ucol += 1
if ucol <= 15:
unitnames = line.strip()
key = KEYLIST[ucol]
stream.header['unit-col-'+key] = unitnames
else:
ucol = 15
#VOLT
#VOLT
#mbar
#mbar
elif line.startswith('[UNDETVAL]'):
getunit = False
pass
elif line.startswith('[PHASE_LAG_1_DEG_CPD]'):
#0.0390
pass
elif line.startswith('[PHASE_LAG_1_DEG_CPD_ERROR]'):
#0.0001
pass
elif line.startswith('[N_LATITUDE_DEG]'):
#47.9288
contline = line.split()
stream.header['DataAcquisitionLatitude'] = contline[1]
elif line.startswith('[N_LATITUDE_DEG_ERROR]'):
#0.0005
pass
elif line.startswith('[E_LONGITUDE_DEG]') :
#015.8609
contline = line.split()
stream.header['DataAcquisitionLongitude'] = contline[1]
elif line.startswith('[E_LONGITUDE_DEG_ERROR]'):
#0.0005
pass
elif line.startswith('[HEIGHT_M_1]'):
#1045.00
contline = line.split()
stream.header['DataElevation'] = contline[1]
elif line.startswith('[HEIGHT_M_1_ERROR]'):
#0.10
pass
elif line.startswith('[GRAVITY_CAL_1_UGAL_V]'):
#-77.8279
contline = line.split()
stream.header['DataScaleX'] = contline[1]
elif line.startswith('[GRAVITY_CAL_1_UGAL_V_ERROR]'):
#0.5000
pass
elif line.startswith('[PRESSURE_CAL_MBAR_V]'):
#1.0000
contline = line.split()
stream.header['DataScaleY'] = contline[1]
elif line.startswith('[PRESSURE_CAL_MBAR_V_ERROR]'):
#0.0001
pass
elif line.startswith('[AUTHOR]'):
#(bruno.meurers@univie.ac.at)
contline = line.split()
stream.header['SensorDecription'] = contline[1]
elif line.startswith('[PHASE_LAG_2_DEG_CPD]'):
#0.0000
pass
elif line.startswith('[PHASE_LAG_2_DEG_CPD_ERROR]'):
#0.0000
pass
elif line.startswith('[HEIGHT_M_2]'):
#00.00
pass
elif line.startswith('[HEIGHT_M_2_ERROR]'):
#0.00
pass
elif line.startswith('[GRAVITY_CAL_2_UGAL_V]'):
#-77.8279
contline = line.split()
stream.header['DataScaleZ'] = contline[1]
elif line.startswith('[GRAVITY_CAL_2_UGAL_V_ERROR]'):
#0.5000
pass
elif line.startswith('[PRESSURE_ADMIT_HPA_NMS2]'):
#03.5300
pass
elif line.startswith('[PRESSURE_MEAN_HPA]'):
#1000.0
pass
elif line.startswith('[COMMENT]'):
pass
#SG CT-025 Moved from Vienna to Conrad Observatory 2007/11/07
#Institute of Meteorology and Geophysics Vienna, Austria
#Instrument owner Central Institute for Meteorology and Geodynamics
#Geology Limestone
#Calibration method LSQ fit to absolute gravity measurements
#Installation by Eric Brinton (GWR) November 7, 2007
#Installation Team N.Blaumoser, S.Haden, P.Melichar, B.Meurers, R.Steiner
#Maintenance by N.Blaumoser, M.Goeschke, S.Haden, B.Meurers
#date time Grav_1 Grav_2 Baro_1 Baro_2
elif line.startswith('[DATA]'):
datablogstarts = True
if headonly:
# skip data for option headonly
return stream
else:
if datablogstarts:
# Read data - select according to channels
colsstr = line.split()
row = LineStruct()
datatime = colsstr[0]+'-'+colsstr[1]+'-'+colsstr[2]+'T'+colsstr[3]+':'+colsstr[4]+':'+colsstr[5]
array[0].append(date2num(datetime.strptime(datatime,"%Y-%m-%dT%H:%M:%S")))
for n in range(ncol):
array[n+1].append(float(colsstr[n+6]))
else:
# some header lines not noted above found
pass
for idx, elem in enumerate(array):
array[idx] = np.asarray(array[idx])
stream = DataStream([LineStruct()],stream.header,np.asarray(array))
fh.close()
return stream
| bsd-3-clause |
iamutkarshtiwari/sympy | sympy/printing/tests/test_python.py | 87 | 7394 | # -*- coding: utf-8 -*-
from sympy import (Symbol, symbols, oo, limit, Rational, Integral, Derivative,
log, exp, sqrt, pi, Function, sin, Eq, Ge, Le, Gt, Lt, Ne, Abs, conjugate,
I, Matrix)
from sympy.printing.python import python
from sympy.utilities.pytest import raises, XFAIL
x, y = symbols('x,y')
th = Symbol('theta')
ph = Symbol('phi')
def test_python_basic():
# Simple numbers/symbols
assert python(-Rational(1)/2) == "e = Rational(-1, 2)"
assert python(-Rational(13)/22) == "e = Rational(-13, 22)"
assert python(oo) == "e = oo"
# Powers
assert python((x**2)) == "x = Symbol(\'x\')\ne = x**2"
assert python(1/x) == "x = Symbol('x')\ne = 1/x"
assert python(y*x**-2) == "y = Symbol('y')\nx = Symbol('x')\ne = y/x**2"
assert python(
x**Rational(-5, 2)) == "x = Symbol('x')\ne = x**Rational(-5, 2)"
# Sums of terms
assert python((x**2 + x + 1)) in [
"x = Symbol('x')\ne = 1 + x + x**2",
"x = Symbol('x')\ne = x + x**2 + 1",
"x = Symbol('x')\ne = x**2 + x + 1", ]
assert python(1 - x) in [
"x = Symbol('x')\ne = 1 - x",
"x = Symbol('x')\ne = -x + 1"]
assert python(1 - 2*x) in [
"x = Symbol('x')\ne = 1 - 2*x",
"x = Symbol('x')\ne = -2*x + 1"]
assert python(1 - Rational(3, 2)*y/x) in [
"y = Symbol('y')\nx = Symbol('x')\ne = 1 - 3/2*y/x",
"y = Symbol('y')\nx = Symbol('x')\ne = -3/2*y/x + 1",
"y = Symbol('y')\nx = Symbol('x')\ne = 1 - 3*y/(2*x)"]
# Multiplication
assert python(x/y) == "x = Symbol('x')\ny = Symbol('y')\ne = x/y"
assert python(-x/y) == "x = Symbol('x')\ny = Symbol('y')\ne = -x/y"
assert python((x + 2)/y) in [
"y = Symbol('y')\nx = Symbol('x')\ne = 1/y*(2 + x)",
"y = Symbol('y')\nx = Symbol('x')\ne = 1/y*(x + 2)",
"x = Symbol('x')\ny = Symbol('y')\ne = 1/y*(2 + x)",
"x = Symbol('x')\ny = Symbol('y')\ne = (2 + x)/y",
"x = Symbol('x')\ny = Symbol('y')\ne = (x + 2)/y"]
assert python((1 + x)*y) in [
"y = Symbol('y')\nx = Symbol('x')\ne = y*(1 + x)",
"y = Symbol('y')\nx = Symbol('x')\ne = y*(x + 1)", ]
# Check for proper placement of negative sign
assert python(-5*x/(x + 10)) == "x = Symbol('x')\ne = -5*x/(x + 10)"
assert python(1 - Rational(3, 2)*(x + 1)) in [
"x = Symbol('x')\ne = Rational(-3, 2)*x + Rational(-1, 2)",
"x = Symbol('x')\ne = -3*x/2 + Rational(-1, 2)",
"x = Symbol('x')\ne = -3*x/2 + Rational(-1, 2)"
]
def test_python_keyword_symbol_name_escaping():
# Check for escaping of keywords
assert python(
5*Symbol("lambda")) == "lambda_ = Symbol('lambda')\ne = 5*lambda_"
assert (python(5*Symbol("lambda") + 7*Symbol("lambda_")) ==
"lambda__ = Symbol('lambda')\nlambda_ = Symbol('lambda_')\ne = 7*lambda_ + 5*lambda__")
assert (python(5*Symbol("for") + Function("for_")(8)) ==
"for__ = Symbol('for')\nfor_ = Function('for_')\ne = 5*for__ + for_(8)")
def test_python_keyword_function_name_escaping():
assert python(
5*Function("for")(8)) == "for_ = Function('for')\ne = 5*for_(8)"
def test_python_relational():
assert python(Eq(x, y)) == "e = Eq(x, y)"
assert python(Ge(x, y)) == "x = Symbol('x')\ny = Symbol('y')\ne = x >= y"
assert python(Le(x, y)) == "x = Symbol('x')\ny = Symbol('y')\ne = x <= y"
assert python(Gt(x, y)) == "x = Symbol('x')\ny = Symbol('y')\ne = x > y"
assert python(Lt(x, y)) == "x = Symbol('x')\ny = Symbol('y')\ne = x < y"
assert python(Ne(x/(y + 1), y**2)) in ["e = Ne(x/(1 + y), y**2)", "e = Ne(x/(y + 1), y**2)"]
def test_python_functions():
# Simple
assert python((2*x + exp(x))) in "x = Symbol('x')\ne = 2*x + exp(x)"
assert python(sqrt(2)) == 'e = sqrt(2)'
assert python(2**Rational(1, 3)) == 'e = 2**Rational(1, 3)'
assert python(sqrt(2 + pi)) == 'e = sqrt(2 + pi)'
assert python((2 + pi)**Rational(1, 3)) == 'e = (2 + pi)**Rational(1, 3)'
assert python(2**Rational(1, 4)) == 'e = 2**Rational(1, 4)'
assert python(Abs(x)) == "x = Symbol('x')\ne = Abs(x)"
assert python(
Abs(x/(x**2 + 1))) in ["x = Symbol('x')\ne = Abs(x/(1 + x**2))",
"x = Symbol('x')\ne = Abs(x/(x**2 + 1))"]
# Univariate/Multivariate functions
f = Function('f')
assert python(f(x)) == "x = Symbol('x')\nf = Function('f')\ne = f(x)"
assert python(f(x, y)) == "x = Symbol('x')\ny = Symbol('y')\nf = Function('f')\ne = f(x, y)"
assert python(f(x/(y + 1), y)) in [
"x = Symbol('x')\ny = Symbol('y')\nf = Function('f')\ne = f(x/(1 + y), y)",
"x = Symbol('x')\ny = Symbol('y')\nf = Function('f')\ne = f(x/(y + 1), y)"]
# Nesting of square roots
assert python(sqrt((sqrt(x + 1)) + 1)) in [
"x = Symbol('x')\ne = sqrt(1 + sqrt(1 + x))",
"x = Symbol('x')\ne = sqrt(sqrt(x + 1) + 1)"]
# Nesting of powers
assert python((((x + 1)**Rational(1, 3)) + 1)**Rational(1, 3)) in [
"x = Symbol('x')\ne = (1 + (1 + x)**Rational(1, 3))**Rational(1, 3)",
"x = Symbol('x')\ne = ((x + 1)**Rational(1, 3) + 1)**Rational(1, 3)"]
# Function powers
assert python(sin(x)**2) == "x = Symbol('x')\ne = sin(x)**2"
@XFAIL
def test_python_functions_conjugates():
a, b = map(Symbol, 'ab')
assert python( conjugate(a + b*I) ) == '_ _\na - I*b'
assert python( conjugate(exp(a + b*I)) ) == ' _ _\n a - I*b\ne '
def test_python_derivatives():
# Simple
f_1 = Derivative(log(x), x, evaluate=False)
assert python(f_1) == "x = Symbol('x')\ne = Derivative(log(x), x)"
f_2 = Derivative(log(x), x, evaluate=False) + x
assert python(f_2) == "x = Symbol('x')\ne = x + Derivative(log(x), x)"
# Multiple symbols
f_3 = Derivative(log(x) + x**2, x, y, evaluate=False)
assert python(f_3) == \
"x = Symbol('x')\ny = Symbol('y')\ne = Derivative(x**2 + log(x), x, y)"
f_4 = Derivative(2*x*y, y, x, evaluate=False) + x**2
assert python(f_4) in [
"x = Symbol('x')\ny = Symbol('y')\ne = x**2 + Derivative(2*x*y, y, x)",
"x = Symbol('x')\ny = Symbol('y')\ne = Derivative(2*x*y, y, x) + x**2"]
def test_python_integrals():
# Simple
f_1 = Integral(log(x), x)
assert python(f_1) == "x = Symbol('x')\ne = Integral(log(x), x)"
f_2 = Integral(x**2, x)
assert python(f_2) == "x = Symbol('x')\ne = Integral(x**2, x)"
# Double nesting of pow
f_3 = Integral(x**(2**x), x)
assert python(f_3) == "x = Symbol('x')\ne = Integral(x**(2**x), x)"
# Definite integrals
f_4 = Integral(x**2, (x, 1, 2))
assert python(f_4) == "x = Symbol('x')\ne = Integral(x**2, (x, 1, 2))"
f_5 = Integral(x**2, (x, Rational(1, 2), 10))
assert python(
f_5) == "x = Symbol('x')\ne = Integral(x**2, (x, Rational(1, 2), 10))"
# Nested integrals
f_6 = Integral(x**2*y**2, x, y)
assert python(f_6) == "x = Symbol('x')\ny = Symbol('y')\ne = Integral(x**2*y**2, x, y)"
def test_python_matrix():
p = python(Matrix([[x**2+1, 1], [y, x+y]]))
s = "x = Symbol('x')\ny = Symbol('y')\ne = MutableDenseMatrix([[x**2 + 1, 1], [y, x + y]])"
assert p == s
def test_python_limits():
assert python(limit(x, x, oo)) == 'e = oo'
assert python(limit(x**2, x, 0)) == 'e = 0'
def test_settings():
raises(TypeError, lambda: python(x, method="garbage"))
| bsd-3-clause |
Jmdebugger/mfbog | core/bak.py | 1 | 1748 | """
def singleton(cls, *args, **kw):
instances = {}
def _singleton():
if cls not in instances:
instances[cls] = cls(*args, **kw)
return instances[cls]
return _singleton
@singleton
"""
"""
url:http://app.50bang.org/?action=session
"""
r_app_key = "0307cafd710cab421a0310b134bd4e4c" #come from AndroidManifest.xml
access = "4G" #could be {WiFi ,unknown , 2G , 3G , 4G}
package = "com.sankuai.meituan" #apk包名
run_type = 4
project_name = "tongji_module" #come from AndroidManifest.xml
uid = "866939020988806" #代表手机用户id,具有唯一性,可以是imei,mac,或者随机数
brand = "hi6210sft" #手机商标
promotion_method = "gf" #come from AndroidManifest.xml
supplier = "" #come from "META-INF/gysid_xxxx" or ""
app_version = "2.0" #come from AndroidManifest.xml versionName
version_code = "200" #come from AndroidManifest.xml versionCode
device_model = None #Build.MODEL
os = "Android" #常量
os_version = None #Build.VERSION.RELEASE
resolution = "720*1280" #手机分辨率
channel = "m-695326874" #来源于META-INF/channel_XXX或者AndroidManifest.xml中的UMENG_CHANNEL
imei = "866939020988806" #手机imei码
imsi = "#54352130550834" #手机imsi码
wmac = "50a72b76c107" #手机mac地址
toolcid = "gf" #来源于com.market2345的SharedPreference文件.lminstalllist字段cid_key 或者AndroidManifest.xml中的UMENG_CHANNEL
android_id = None #Settings$Secure.getString(context.getContentResolver(), "android_id");
total_time = None #=SystemClock.elapsedRealtime() / 1000
sdk_version = "u1.0" #常量
launch = "" #总为空 | gpl-3.0 |
mcella/django | tests/template_tests/filter_tests/test_escapejs.py | 324 | 2055 | from __future__ import unicode_literals
from django.template.defaultfilters import escapejs_filter
from django.test import SimpleTestCase
from ..utils import setup
class EscapejsTests(SimpleTestCase):
@setup({'escapejs01': '{{ a|escapejs }}'})
def test_escapejs01(self):
output = self.engine.render_to_string('escapejs01', {'a': 'testing\r\njavascript \'string" <b>escaping</b>'})
self.assertEqual(output, 'testing\\u000D\\u000Ajavascript '
'\\u0027string\\u0022 \\u003Cb\\u003E'
'escaping\\u003C/b\\u003E')
@setup({'escapejs02': '{% autoescape off %}{{ a|escapejs }}{% endautoescape %}'})
def test_escapejs02(self):
output = self.engine.render_to_string('escapejs02', {'a': 'testing\r\njavascript \'string" <b>escaping</b>'})
self.assertEqual(output, 'testing\\u000D\\u000Ajavascript '
'\\u0027string\\u0022 \\u003Cb\\u003E'
'escaping\\u003C/b\\u003E')
class FunctionTests(SimpleTestCase):
def test_quotes(self):
self.assertEqual(
escapejs_filter('"double quotes" and \'single quotes\''),
'\\u0022double quotes\\u0022 and \\u0027single quotes\\u0027',
)
def test_backslashes(self):
self.assertEqual(escapejs_filter(r'\ : backslashes, too'), '\\u005C : backslashes, too')
def test_whitespace(self):
self.assertEqual(
escapejs_filter('and lots of whitespace: \r\n\t\v\f\b'),
'and lots of whitespace: \\u000D\\u000A\\u0009\\u000B\\u000C\\u0008',
)
def test_script(self):
self.assertEqual(
escapejs_filter(r'<script>and this</script>'),
'\\u003Cscript\\u003Eand this\\u003C/script\\u003E',
)
def test_paragraph_separator(self):
self.assertEqual(
escapejs_filter('paragraph separator:\u2029and line separator:\u2028'),
'paragraph separator:\\u2029and line separator:\\u2028',
)
| bsd-3-clause |
AOSPU/external_chromium_org | tools/telemetry/telemetry/core/backends/chrome/android_browser_finder.py | 8 | 8951 | # Copyright 2013 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.
"""Finds android browsers that can be controlled by telemetry."""
import os
import logging as real_logging
import re
import subprocess
import sys
from telemetry import decorators
from telemetry.core import browser
from telemetry.core import platform
from telemetry.core import possible_browser
from telemetry.core import util
from telemetry.core.backends import adb_commands
from telemetry.core.backends.chrome import android_browser_backend
from telemetry.core.platform import android_platform_backend
CHROME_PACKAGE_NAMES = {
'android-content-shell':
['org.chromium.content_shell_apk',
android_browser_backend.ContentShellBackendSettings,
'ContentShell.apk'],
'android-chrome-shell':
['org.chromium.chrome.shell',
android_browser_backend.ChromeShellBackendSettings,
'ChromeShell.apk'],
'android-webview':
['com.android.webview.chromium.shell',
android_browser_backend.WebviewBackendSettings,
None],
'android-chrome':
['com.google.android.apps.chrome',
android_browser_backend.ChromeBackendSettings,
'Chrome.apk'],
'android-chrome-beta':
['com.chrome.beta',
android_browser_backend.ChromeBackendSettings,
None],
'android-chrome-dev':
['com.google.android.apps.chrome_dev',
android_browser_backend.ChromeBackendSettings,
None],
'android-chrome-canary':
['com.chrome.canary',
android_browser_backend.ChromeBackendSettings,
None],
'android-jb-system-chrome':
['com.android.chrome',
android_browser_backend.ChromeBackendSettings,
None]
}
ALL_BROWSER_TYPES = CHROME_PACKAGE_NAMES.keys()
# adb shell pm list packages
# adb
# intents to run (pass -D url for the rest)
# com.android.chrome/.Main
# com.google.android.apps.chrome/.Main
class PossibleAndroidBrowser(possible_browser.PossibleBrowser):
"""A launchable android browser instance."""
def __init__(self, browser_type, finder_options, backend_settings, apk_name):
super(PossibleAndroidBrowser, self).__init__(browser_type, 'android',
finder_options)
assert browser_type in ALL_BROWSER_TYPES, \
'Please add %s to ALL_BROWSER_TYPES' % browser_type
self._backend_settings = backend_settings
self._local_apk = None
chrome_root = util.GetChromiumSrcDir()
if apk_name:
candidate_apks = []
for build_dir, build_type in util.GetBuildDirectories():
apk_full_name = os.path.join(chrome_root, build_dir, build_type, 'apks',
apk_name)
if os.path.exists(apk_full_name):
last_changed = os.path.getmtime(apk_full_name)
candidate_apks.append((last_changed, apk_full_name))
if candidate_apks:
# Find the canadidate .apk with the latest modification time.
newest_apk_path = sorted(candidate_apks)[-1][1]
self._local_apk = newest_apk_path
def __repr__(self):
return 'PossibleAndroidBrowser(browser_type=%s)' % self.browser_type
@property
@decorators.Cache
def _platform_backend(self):
return android_platform_backend.AndroidPlatformBackend(
self._backend_settings.adb.device(),
self.finder_options.no_performance_mode)
def Create(self):
use_rndis_forwarder = (self.finder_options.android_rndis or
self.finder_options.browser_options.netsim or
platform.GetHostPlatform().GetOSName() != 'linux')
backend = android_browser_backend.AndroidBrowserBackend(
self.finder_options.browser_options, self._backend_settings,
use_rndis_forwarder,
output_profile_path=self.finder_options.output_profile_path,
extensions_to_load=self.finder_options.extensions_to_load)
b = browser.Browser(backend, self._platform_backend)
return b
def SupportsOptions(self, finder_options):
if len(finder_options.extensions_to_load) != 0:
return False
return True
def HaveLocalAPK(self):
return self._local_apk and os.path.exists(self._local_apk)
@decorators.Cache
def UpdateExecutableIfNeeded(self):
if self.HaveLocalAPK():
real_logging.warn(
'Refreshing %s on device if needed.' % self._local_apk)
self._backend_settings.adb.Install(self._local_apk)
def last_modification_time(self):
if self.HaveLocalAPK():
return os.path.getmtime(self._local_apk)
return -1
def SelectDefaultBrowser(possible_browsers):
local_builds_by_date = sorted(possible_browsers,
key=lambda b: b.last_modification_time())
if local_builds_by_date:
newest_browser = local_builds_by_date[-1]
return newest_browser
return None
adb_works = None
def CanFindAvailableBrowsers(logging=real_logging):
if not adb_commands.IsAndroidSupported():
return False
global adb_works
if adb_works == None:
try:
with open(os.devnull, 'w') as devnull:
proc = subprocess.Popen(['adb', 'devices'],
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
stdin=devnull)
stdout, _ = proc.communicate()
if re.search(re.escape('????????????\tno permissions'), stdout) != None:
logging.warn(
('adb devices reported a permissions error. Consider '
'restarting adb as root:'))
logging.warn(' adb kill-server')
logging.warn(' sudo `which adb` devices\n\n')
adb_works = True
except OSError:
platform_tools_path = os.path.join(util.GetChromiumSrcDir(),
'third_party', 'android_tools', 'sdk', 'platform-tools')
if (sys.platform.startswith('linux') and
os.path.exists(os.path.join(platform_tools_path, 'adb'))):
os.environ['PATH'] = os.pathsep.join([platform_tools_path,
os.environ['PATH']])
adb_works = True
else:
adb_works = False
return adb_works
def FindAllAvailableBrowsers(finder_options, logging=real_logging):
"""Finds all the desktop browsers available on this machine."""
if not CanFindAvailableBrowsers(logging=logging):
logging.info('No adb command found. ' +
'Will not try searching for Android browsers.')
return []
device = None
if finder_options.android_device:
devices = [finder_options.android_device]
else:
devices = adb_commands.GetAttachedDevices()
if len(devices) == 0:
logging.info('No android devices found.')
return []
if len(devices) > 1:
logging.warn(
'Multiple devices attached. Please specify one of the following:\n' +
'\n'.join([' --device=%s' % d for d in devices]))
return []
device = devices[0]
adb = adb_commands.AdbCommands(device=device)
# Trying to root the device, if possible.
if not adb.IsRootEnabled():
# Ignore result.
adb.EnableAdbRoot()
if sys.platform.startswith('linux'):
# Host side workaround for crbug.com/268450 (adb instability)
# The adb server has a race which is mitigated by binding to a single core.
import psutil # pylint: disable=F0401
pids = [p.pid for p in psutil.process_iter() if 'adb' in p.name]
with open(os.devnull, 'w') as devnull:
for pid in pids:
ret = subprocess.call(['taskset', '-p', '-c', '0', str(pid)],
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
stdin=devnull)
if ret:
logging.warn('Failed to taskset %d (%s)', pid, ret)
if not os.environ.get('BUILDBOT_BUILDERNAME'):
# Killing adbd before running tests has proven to make them less likely to
# flake out during the test. We skip this if Telemetry is running under a
# buildbot because build/android/test_runner.py wrapper already took care
# of it before starting the shards.
adb.RestartAdbdOnDevice()
packages = adb.RunShellCommand('pm list packages')
possible_browsers = []
for name, package_info in CHROME_PACKAGE_NAMES.iteritems():
[package, backend_settings, local_apk] = package_info
b = PossibleAndroidBrowser(
name,
finder_options,
backend_settings(adb, package),
local_apk)
if 'package:' + package in packages or b.HaveLocalAPK():
possible_browsers.append(b)
if possible_browsers:
installed_prebuilt_tools = adb_commands.SetupPrebuiltTools(adb)
if not installed_prebuilt_tools:
logging.error(
'Android device detected, however prebuilt android tools could not '
'be used. To run on Android you must build them first:\n'
' $ ninja -C out/Release android_tools')
return []
return possible_browsers
| bsd-3-clause |
ivmech/iviny-scope | lib/xlsxwriter/test/worksheet/test_worksheet08.py | 1 | 3138 | ###############################################################################
#
# Tests for XlsxWriter.
#
# Copyright (c), 2013, John McNamara, jmcnamara@cpan.org
#
import unittest
from ...compatibility import StringIO
from ..helperfunctions import _xml_to_list
from ...worksheet import Worksheet
from ...sharedstrings import SharedStringTable
class TestAssembleWorksheet(unittest.TestCase):
"""
Test assembling a complete Worksheet file.
"""
def test_assemble_xml_file(self):
"""Test writing a worksheet with an array formulas in cells."""
self.maxDiff = None
fh = StringIO()
worksheet = Worksheet()
worksheet._set_filehandle(fh)
worksheet.str_table = SharedStringTable()
worksheet.select()
# Write some data and formulas.
worksheet.write_array_formula(0, 0, 2, 0, '{=SUM(B1:C1*B2:C2)}')
worksheet.write_number(0, 1, 0)
worksheet.write_number(1, 1, 0)
worksheet.write_number(2, 1, 0)
worksheet.write_number(0, 2, 0)
worksheet.write_number(1, 2, 0)
worksheet.write_number(2, 2, 0)
worksheet._assemble_xml_file()
exp = _xml_to_list("""
<?xml version="1.0" encoding="UTF-8" standalone="yes"?>
<worksheet xmlns="http://schemas.openxmlformats.org/spreadsheetml/2006/main" xmlns:r="http://schemas.openxmlformats.org/officeDocument/2006/relationships">
<dimension ref="A1:C3"/>
<sheetViews>
<sheetView tabSelected="1" workbookViewId="0"/>
</sheetViews>
<sheetFormatPr defaultRowHeight="15"/>
<sheetData>
<row r="1" spans="1:3">
<c r="A1">
<f t="array" ref="A1:A3">SUM(B1:C1*B2:C2)</f>
<v>0</v>
</c>
<c r="B1">
<v>0</v>
</c>
<c r="C1">
<v>0</v>
</c>
</row>
<row r="2" spans="1:3">
<c r="A2">
<v>0</v>
</c>
<c r="B2">
<v>0</v>
</c>
<c r="C2">
<v>0</v>
</c>
</row>
<row r="3" spans="1:3">
<c r="A3">
<v>0</v>
</c>
<c r="B3">
<v>0</v>
</c>
<c r="C3">
<v>0</v>
</c>
</row>
</sheetData>
<pageMargins left="0.7" right="0.7" top="0.75" bottom="0.75" header="0.3" footer="0.3"/>
</worksheet>
""")
got = _xml_to_list(fh.getvalue())
self.assertEqual(got, exp)
if __name__ == '__main__':
unittest.main()
| gpl-3.0 |
loafbaker/django_matchmaker | likes/models.py | 1 | 1024 | from django.db import models
from django.conf import settings
# Create your models here.
User = settings.AUTH_USER_MODEL
class UserLikeManager(models.Manager):
def get_all_mutual_likes(self, user, number):
try:
qs = user.liker.liked_users.all().order_by('?')
except:
return []
mutual_users = []
for other_user in qs:
try:
if other_user.liker.get_mutual_like(user):
mutual_users.append(other_user)
except:
pass
return mutual_users[:number]
class UserLike(models.Model):
user = models.OneToOneField(User, related_name='liker')
liked_users = models.ManyToManyField(User, related_name='liked_users', blank=True)
objects = UserLikeManager()
def __unicode__(self):
return self.user.username
def get_mutual_like(self, user_b):
i_like = False
u_like = False
if user_b in self.liked_users.all():
i_like = True
liked_user, created = UserLike.objects.get_or_create(user=user_b)
if self.user in liked_user.liked_users.all():
u_like = True
return i_like and u_like
| mit |
chokribr/inveniocnudst | modules/websubmit/lib/wsm_pdftk_plugin.py | 35 | 7328 | ## This file is part of Invenio.
## Copyright (C) 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.
"""
WebSubmit Metadata Plugin - This is the plugin to update metadata from
PDF files.
Dependencies: pdftk
"""
__plugin_version__ = "WebSubmit File Metadata Plugin API 1.0"
import os
import shutil
import tempfile
from invenio.shellutils import run_shell_command
from invenio.bibdocfile import decompose_file
from invenio.config import CFG_PATH_PDFTK, CFG_TMPDIR
from invenio.websubmit_config import InvenioWebSubmitFileMetadataRuntimeError
if not CFG_PATH_PDFTK:
raise ImportError, "Path to PDFTK is not set in CFG_PATH_PDFTK"
def can_read_local(inputfile):
"""
Checks if inputfile is among metadata-readable file types
@param inputfile: path to the image
@type inputfile: string
@rtype: boolean
@return: True if file can be processed
"""
# Check file type (0 base, 1 name, 2 ext)
ext = decompose_file(inputfile)[2]
return ext.lower() in ['.pdf']
def can_write_local(inputfile):
"""
Checks if inputfile is among metadata-writable file types (pdf)
@param inputfile: path to the image
@type inputfile: string
@rtype: boolean
@return: True if file can be processed
"""
ext = os.path.splitext(inputfile)[1]
return ext.lower() in ['.pdf']
def read_metadata_local(inputfile, verbose):
"""
Metadata extraction from many kind of files
@param inputfile: path to the image
@type inputfile: string
@param verbose: verbosity
@type verbose: int
@rtype: dict
@return: dictionary with metadata
"""
cmd = CFG_PATH_PDFTK + ' %s dump_data'
(exit_status, output_std, output_err) = \
run_shell_command(cmd, args=(inputfile,))
metadata_dict = {}
key = None
value = None
for metadata_line in output_std.splitlines():
if metadata_line.strip().startswith("InfoKey"):
key = metadata_line.split(':', 1)[1].strip()
elif metadata_line.strip().startswith("InfoValue"):
value = metadata_line.split(':', 1)[1].strip()
if key in ["ModDate", "CreationDate"]:
# FIXME: Interpret these dates?
try:
pass
#value = datetime.strptime(value, "D:%Y%m%d%H%M%S%Z")
except:
pass
if key:
metadata_dict[key] = value
key = None
else:
try:
custom_key, custom_value = metadata_line.split(':', 1)
metadata_dict[custom_key.strip()] = custom_value.strip()
except:
# Most probably not relevant line
pass
return metadata_dict
def write_metadata_local(inputfile, outputfile, metadata_dictionary, verbose):
"""
Metadata write method, takes the .pdf as input and creates a new
one with the new info.
@param inputfile: path to the pdf
@type inputfile: string
@param outputfile: path to the resulting pdf
@type outputfile: string
@param verbose: verbosity
@type verbose: int
@param metadata_dictionary: metadata information to update inputfile
@type metadata_dictionary: dict
"""
# Take the file name (0 base, 1 name, 2 ext)
filename = decompose_file(inputfile)[1]
# Print pdf metadata
if verbose > 1:
print 'Metadata information in the PDF file ' + filename + ': \n'
try:
os.system(CFG_PATH_PDFTK + ' ' + inputfile + ' dump_data')
except Exception:
print 'Problem with inputfile to PDFTK'
# Info file for pdftk
(fd, path_to_info) = tempfile.mkstemp(prefix="wsm_pdf_plugin_info_", \
dir=CFG_TMPDIR)
os.close(fd)
file_in = open(path_to_info, 'w')
if verbose > 5:
print "Saving PDFTK info file to %s" % path_to_info
# User interaction to form the info file
# Main Case: Dictionary received through option -d
if not metadata_dictionary == {}:
for tag in metadata_dictionary:
line = 'InfoKey: ' + tag + '\nInfoValue: ' + \
metadata_dictionary[tag] + '\n'
if verbose > 0:
print line
file_in.writelines(line)
else:
data_modified = False
user_input = 'user_input'
print "Entering interactive mode. Choose what you want to do:"
while (user_input):
if not data_modified:
try:
user_input = raw_input('[w]rite / [q]uit\n')
except:
print "Aborting"
return
else:
try:
user_input = raw_input('[w]rite / [q]uit and apply / [a]bort \n')
except:
print "Aborting"
return
if user_input == 'q':
if not data_modified:
return
break
elif user_input == 'w':
try:
tag = raw_input('Tag to update:\n')
value = raw_input('With value:\n')
except:
print "Aborting"
return
# Write to info file
line = 'InfoKey: ' + tag + '\nInfoValue: ' + value + '\n'
data_modified = True
file_in.writelines(line)
elif user_input == 'a':
return
else:
print "Invalid option: "
file_in.close()
(fd, pdf_temp_path) = tempfile.mkstemp(prefix="wsm_pdf_plugin_pdf_", \
dir=CFG_TMPDIR)
os.close(fd)
# Now we call pdftk tool to update the info on a pdf
#try:
cmd_pdftk = '%s %s update_info %s output %s'
(exit_status, output_std, output_err) = \
run_shell_command(cmd_pdftk,
args=(CFG_PATH_PDFTK, inputfile,
path_to_info, pdf_temp_path))
if verbose > 5:
print output_std, output_err
if os.path.exists(pdf_temp_path):
# Move to final destination if exist
try:
shutil.move(pdf_temp_path, outputfile)
except Exception, err:
raise InvenioWebSubmitFileMetadataRuntimeError("Could not move %s to %s" % \
(pdf_temp_path, outputfile))
else:
# Something bad happened
raise InvenioWebSubmitFileMetadataRuntimeError("Could not update metadata " + output_err)
| gpl-2.0 |
williamfeng323/py-web | flask/lib/python3.6/site-packages/pip/utils/hashes.py | 517 | 2866 | from __future__ import absolute_import
import hashlib
from pip.exceptions import HashMismatch, HashMissing, InstallationError
from pip.utils import read_chunks
from pip._vendor.six import iteritems, iterkeys, itervalues
# The recommended hash algo of the moment. Change this whenever the state of
# the art changes; it won't hurt backward compatibility.
FAVORITE_HASH = 'sha256'
# Names of hashlib algorithms allowed by the --hash option and ``pip hash``
# Currently, those are the ones at least as collision-resistant as sha256.
STRONG_HASHES = ['sha256', 'sha384', 'sha512']
class Hashes(object):
"""A wrapper that builds multiple hashes at once and checks them against
known-good values
"""
def __init__(self, hashes=None):
"""
:param hashes: A dict of algorithm names pointing to lists of allowed
hex digests
"""
self._allowed = {} if hashes is None else hashes
def check_against_chunks(self, chunks):
"""Check good hashes against ones built from iterable of chunks of
data.
Raise HashMismatch if none match.
"""
gots = {}
for hash_name in iterkeys(self._allowed):
try:
gots[hash_name] = hashlib.new(hash_name)
except (ValueError, TypeError):
raise InstallationError('Unknown hash name: %s' % hash_name)
for chunk in chunks:
for hash in itervalues(gots):
hash.update(chunk)
for hash_name, got in iteritems(gots):
if got.hexdigest() in self._allowed[hash_name]:
return
self._raise(gots)
def _raise(self, gots):
raise HashMismatch(self._allowed, gots)
def check_against_file(self, file):
"""Check good hashes against a file-like object
Raise HashMismatch if none match.
"""
return self.check_against_chunks(read_chunks(file))
def check_against_path(self, path):
with open(path, 'rb') as file:
return self.check_against_file(file)
def __nonzero__(self):
"""Return whether I know any known-good hashes."""
return bool(self._allowed)
def __bool__(self):
return self.__nonzero__()
class MissingHashes(Hashes):
"""A workalike for Hashes used when we're missing a hash for a requirement
It computes the actual hash of the requirement and raises a HashMissing
exception showing it to the user.
"""
def __init__(self):
"""Don't offer the ``hashes`` kwarg."""
# Pass our favorite hash in to generate a "gotten hash". With the
# empty list, it will never match, so an error will always raise.
super(MissingHashes, self).__init__(hashes={FAVORITE_HASH: []})
def _raise(self, gots):
raise HashMissing(gots[FAVORITE_HASH].hexdigest())
| mit |
googleinterns/step51-2020 | hangout_bot/clientserver.py | 1 | 14176 | from google.cloud import datastore
from campaigndata import CampaignData
from activeuser import *
from constant import *
import requests
import json as json_module
# [Datastore Interaction Functions]
def get_user_key(user_id):
return datastore.Client().key('ActiveUser', user_id)
def get_campaign_key(user_id, campaign_name):
return datastore.Client().key('CampaignData', '{}{}'.format(user_id, campaign_name))
def add_new_campaign(user_id, campaign_name, keyword_campaign_id):
"""Adds newly created campaign to datastore
Args:
user_id:
The user associated with the new campaign
campaign_name:
The name of the newly added campaign
Returns:
None
"""
new_campaign = CampaignData(user_id)
new_campaign.set_name(campaign_name)
new_campaign.set_keyword_campaign_id(keyword_campaign_id)
# campaign name and keyword campaign ID have been set already, jump to phase num after NAME
new_campaign.set_phase_num(PHASE_NUM.NAME + 1)
new_campaign = convert_campaign_to_entity(new_campaign)
put_entity_in_datastore(new_campaign)
def update_campaign_data(campaign_data, phase_num, value):
"""Modifies CampaignData class parameters based on phase_num
and value function parameters
Args:
campaign_data:
The CampaignData class being modified
phase_num:
The phase_num of the parameter being modified
value:
The new value being set in the CampaignData class object
Returns:
CampaignData
Modified version of class
"""
if (phase_num == PHASE_NUM.KEYWORD_CAMPAIGN):
campaign_data.set_keyword_campaign_id(value)
elif (phase_num == PHASE_NUM.NAME):
campaign_data.set_name(value)
elif (phase_num == PHASE_NUM.START_DATE):
entries = value.split('-')
value = entries[YEAR] + '-' + entries[MONTH] + '-' + entries[DAY]
campaign_data.set_start_date(value)
elif (phase_num == PHASE_NUM.END_DATE):
entries = value.split('-')
value = entries[YEAR] + '-' + entries[MONTH] + '-' + entries[DAY]
campaign_data.set_end_date(value)
elif (phase_num == PHASE_NUM.DAILY_BUDGET):
campaign_data.set_daily_budget(value)
elif (phase_num == PHASE_NUM.LOCATIONS):
campaign_data.set_locations(value)
elif (phase_num == PHASE_NUM.NEG_LOCATIONS):
campaign_data.set_neg_locations(value)
elif (phase_num == PHASE_NUM.DOMAIN):
campaign_data.set_domain(value)
elif (phase_num == PHASE_NUM.TARGETS):
campaign_data.set_targets(value)
elif (phase_num == PHASE_NUM.MANUAL_CPC):
campaign_data.set_manual_CPC(value)
elif (phase_num == PHASE_NUM.AD_TEXT):
campaign_data.set_ad_text(value)
return campaign_data
def add_campaign_data(campaign_data):
"""Adds CampaignData type to datastore
Args:
campaign_data:
The CampaignData object that is prepared and added to datastore
as CampaignData entity
Returns:
None
"""
campaign_entity = convert_campaign_to_entity(campaign_data)
put_entity_in_datastore(campaign_entity)
def add_new_user(event):
"""Initializes and adds user data in datastore based on passed in event
Args:
event:
The event containing user information to be added to datastore
Returns:
None
"""
user_data = ActiveUser(event['user']['email'])
user_entity = convert_user_to_entity(user_data)
put_entity_in_datastore(user_entity)
def put_entity_in_datastore(entity):
datastore.Client().put(entity)
def update_user(user_data):
"""Updates user data in datastore with the passed in data
Args:
user_data:
The data used to generate a key and entity to be put in datastore
Returns:
None
"""
user_entity = convert_user_to_entity(user_data)
put_entity_in_datastore(user_entity)
def get_user_data(user_key):
"""Returns entity specific to the key
Args:
user_key:
The key used to retrieve data from datastore
Yields:
UserData:
Parsed user data associated with key
"""
user_entity = datastore.Client().get(user_key)
return convert_entity_to_user(user_entity)
def get_campaign_data(campaign_key):
"""Returns campaign entity specific to the key
Args:
user_key:
The key used to retrieve data from datastore
Yields:
Entity
contains UserData, requires parsing to be used by bot
"""
return convert_entity_to_campaign(datastore.Client().get(campaign_key))
def get_user_campaigns(user_id):
query = datastore.Client().query(kind='CampaignData')
query.add_filter('owner', '=', user_id)
result = query.fetch()
return list(result)
def delete_datastore_entity(key):
datastore.Client().delete(key)
def get_user_current_campaign(user_key):
"""Returns campaign that user is currently editing
Args:
user_key:
Key of user used to request current campaign
Yields:
None
if entity is not valid
CampaignData
parsed CampaignData object found
"""
user_entity = datastore.Client().get(user_key)
user = convert_entity_to_user(user_entity)
return get_campaign_data(get_campaign_key(user.user_id, user.campaign_name))
# [Datastore and class conversion functions]
def convert_entity_to_campaign(campaign_entity):
"""Returns campaign specific to entity
Args:
campaign_entity:
Entity to be converted into CampaignData
Yields:
None
if entity is not valid
CampaignData
parsed CampaignData object from entity
"""
if campaign_entity == None:
return None
# Initialize the campaign object
dsa_campaign = CampaignData(campaign_entity['owner'])
# individually set each parameter with the entity values
dsa_campaign.set_name(str(campaign_entity['name']))
dsa_campaign.set_keyword_campaign_id(str(campaign_entity['keyword_campaign_id']))
dsa_campaign.set_start_date(str(campaign_entity['start_date']))
dsa_campaign.set_end_date(str(campaign_entity['end_date']))
dsa_campaign.set_daily_budget(float(campaign_entity['daily_budget']))
dsa_campaign.set_manual_CPC(float(campaign_entity['manual_CPC']))
dsa_campaign.set_locations(str(campaign_entity['locations']))
dsa_campaign.set_neg_locations(str(campaign_entity['neg_locations']))
dsa_campaign.set_domain(str(campaign_entity['domain']))
dsa_campaign.set_targets(str(campaign_entity['targets']))
dsa_campaign.set_ad_text(str(campaign_entity['ad_text']))
dsa_campaign.set_phase_num(int(campaign_entity['phase_num']))
return dsa_campaign
def convert_campaign_to_entity(campaign):
"""Returns entity converted from campaign parameter
Args:
campaign:
Campaign to be converted into entity
Yields:
Entity
parsed Entity CampaignData object
"""
# Create the entity key
entity_key = get_campaign_key(campaign.owner, campaign.name)
# Create the entity
entity = datastore.Entity(entity_key)
# Populate the entity parameters with campaign values
entity['owner'] = campaign.owner
entity['name'] = campaign.name
entity['keyword_campaign_id'] = campaign.keyword_campaign_id
entity['start_date'] = campaign.start_date
entity['end_date'] = campaign.end_date
entity['daily_budget'] = campaign.daily_budget
entity['manual_CPC'] = campaign.manual_CPC
entity['locations'] = campaign.locations
entity['neg_locations'] = campaign.neg_locations
entity['domain'] = campaign.domain
entity['targets'] = campaign.targets
entity['ad_text'] = campaign.ad_text
entity['phase_num'] = campaign.phase_num
# Returns the created entity
return entity
def convert_entity_to_user(user_entity):
"""Returns user specific to entity
Args:
user_entity:
Entity to be converted into UserData
Yields:
None
if entity is not valid
UserData
parsed UserData object from entity
"""
if user_entity == None:
return None
user_data = ActiveUser(user_entity['user'])
user_data.set_accepting_text(user_entity['accepting_text'])
user_data.set_campaign_name(str(user_entity['campaign_name']))
user_data.set_phase_num(int(user_entity['phase_num']))
user_data.set_editing(user_entity['editing'])
user_data.set_keyword_campaign_id(user_entity['keyword_campaign_id'])
return user_data
def convert_user_to_entity(user_data):
"""Returns entity specific to UserData
Args:
user_data:
UserData to be converted to datastore entity
Yields:
Entity
Converted entity object from UserData
"""
entity_key = get_user_key(user_data.user_id)
user_entity = datastore.Entity(entity_key)
user_entity['user'] = user_data.user_id
user_entity['phase_num'] = user_data.phase_num
user_entity['accepting_text'] = user_data.accepting_text
user_entity['campaign_name'] = user_data.campaign_name
user_entity['keyword_campaign_id'] = user_data.keyword_campaign_id
user_entity['editing'] = user_data.editing
return user_entity
def convert_campaign_to_encoded_dict(campaign_data):
"""Returns campaign_data as encoded dictionary
Args:
campaign_data:
campaign data being converted
Yields:
dict
Converted encoded dict object from campaign_data
"""
return {
'hangouts': True,
'keywordCampaignId': campaign_data.keyword_campaign_id,
'name': campaign_data.name,
'startDate': campaign_data.start_date,
'endDate': campaign_data.end_date,
'userId': campaign_data.owner,
'targets': campaign_data.targets,
'domain': campaign_data.domain,
'dailyBudget': campaign_data.daily_budget,
'manualCPC': campaign_data.manual_CPC,
'locations': campaign_data.locations,
'negativeLocations': campaign_data.neg_locations,
'adText': campaign_data.ad_text
}
def convert_json_to_campaign(json_string):
"""Returns campaign specific to JSON string
Args:
json_string:
JSON being converted
Yields:
CampaignData
Converted campaignData object from JSON string
"""
campaign_data = CampaignData(json_string['userId'])
campaign_data.set_name(json_string['name'])
campaign_data.set_start_date(json_string['startDate'])
campaign_data.set_end_date(json_string['endDate'])
campaign_data.set_targets(json_string['targets'])
campaign_data.set_domain(json_string['domain'])
campaign_data.set_manual_CPC(float(json_string['manualCPC']))
campaign_data.set_daily_budget(float(json_string['dailyBudget']))
campaign_data.set_locations(json_string['locations'])
campaign_data.set_neg_locations(json_string['negativeLocations'])
campaign_data.set_ad_text(json_string['adText'])
campaign_data.set_keyword_campaign_id(json_string['keywordCampaignId'])
campaign_data.set_cost(float(json_string['cost']))
campaign_data.set_impressions(int(json_string['impressions']))
campaign_data.set_clicks(int(json_string['clicks']))
campaign_data.set_status(json_string['campaignStatus'])
campaign_data.set_campaign_id(json_string['DSACampaignId'])
return campaign_data
def get_keyword_campaigns(user_id):
"""Returns all keyword campaigns in JSON format
Args:
user_id:
None keyword campaign is used to get ALL keyword
campaigns
Yields:
json_data:
JSON object containing keyword campaign data
"""
response = requests.get(DSA_URL + '/keyword-campaigns')
if response.status_code != 200:
# empty list of length 0, used to handle errors
return []
json_data = json_module.loads(response.text)
if user_id != None:
data_with_campaigns = []
for keyword_campaign in json_data:
# user is viewing keyword campaigns specific to them.
if len(get_dsa_campaigns(user_id, keyword_campaign['keywordCampaignId'])) != 0:
data_with_campaigns.append(keyword_campaign)
return data_with_campaigns
return json_data
def get_dsa_campaigns(user_id, keyword_campaign_id):
"""Returns user specific dsa campaigns in campaign data format
Args:
user_id:
user id used to request DSA campaigns
keyword_campaign_id:
Keyword campaign id used to request DSA campaigns
Yields:
campaign_data:
list of campaignData objects from DSA web app
"""
# get dsa campaigns of DSACampaign entity type from dsa main site
get_params = {
'userId': user_id,
'hangouts': True,
'keywordCampaignId': keyword_campaign_id
}
response = requests.get(DSA_URL + '/DSA-campaigns', get_params)
if response.status_code != 200:
# list of length 0, used to handle errors
return []
campaign_data = response.json()
for i in range(len(campaign_data)):
campaign_data[i] = convert_json_to_campaign(campaign_data[i])
return campaign_data
def submit_user_campaign(user_id):
"""Submits the campaign associated with the user id
Args:
user_id:
user id used to submit DSA campaigns
Yields:
int:
status code representing success of POST request
"""
user_key = get_user_key(user_id)
current_campaign = get_user_current_campaign(user_key)
campaign_encode = convert_campaign_to_encoded_dict(current_campaign)
response = requests.post(DSA_URL + '/DSA-campaigns', data=campaign_encode)
return response.status_code
def delete_campaign(campaign_id):
"""Deletes the campaign associated with the campaign id
Args:
campaign_id:
campaign id associated with DSA campaign being deleted
Yields:
int:
status code representing success of POST request
"""
params = {
"id": campaign_id,
"delete": True,
"hangouts": True
}
response = requests.post(DSA_URL + '/DSA-campaigns', params)
return response.status_code | apache-2.0 |
jnewland/home-assistant | homeassistant/components/qbittorrent/sensor.py | 7 | 4234 | """Support for monitoring the qBittorrent API."""
import logging
import voluptuous as vol
from requests.exceptions import RequestException
from homeassistant.components.sensor import PLATFORM_SCHEMA
from homeassistant.const import (
CONF_NAME, CONF_PASSWORD, CONF_URL, CONF_USERNAME, STATE_IDLE)
from homeassistant.helpers.entity import Entity
import homeassistant.helpers.config_validation as cv
from homeassistant.exceptions import PlatformNotReady
_LOGGER = logging.getLogger(__name__)
SENSOR_TYPE_CURRENT_STATUS = 'current_status'
SENSOR_TYPE_DOWNLOAD_SPEED = 'download_speed'
SENSOR_TYPE_UPLOAD_SPEED = 'upload_speed'
DEFAULT_NAME = 'qBittorrent'
SENSOR_TYPES = {
SENSOR_TYPE_CURRENT_STATUS: ['Status', None],
SENSOR_TYPE_DOWNLOAD_SPEED: ['Down Speed', 'kB/s'],
SENSOR_TYPE_UPLOAD_SPEED: ['Up Speed', 'kB/s'],
}
PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend({
vol.Required(CONF_URL): cv.url,
vol.Required(CONF_USERNAME): cv.string,
vol.Required(CONF_PASSWORD): cv.string,
vol.Optional(CONF_NAME, default=DEFAULT_NAME): cv.string
})
async def async_setup_platform(
hass, config, async_add_entities, discovery_info=None):
"""Set up the qBittorrent sensors."""
from qbittorrent.client import Client, LoginRequired
try:
client = Client(config[CONF_URL])
client.login(config[CONF_USERNAME], config[CONF_PASSWORD])
except LoginRequired:
_LOGGER.error("Invalid authentication")
return
except RequestException:
_LOGGER.error("Connection failed")
raise PlatformNotReady
name = config.get(CONF_NAME)
dev = []
for sensor_type in SENSOR_TYPES:
sensor = QBittorrentSensor(sensor_type, client, name, LoginRequired)
dev.append(sensor)
async_add_entities(dev, True)
def format_speed(speed):
"""Return a bytes/s measurement as a human readable string."""
kb_spd = float(speed) / 1024
return round(kb_spd, 2 if kb_spd < 0.1 else 1)
class QBittorrentSensor(Entity):
"""Representation of an qBittorrent sensor."""
def __init__(self, sensor_type, qbittorrent_client,
client_name, exception):
"""Initialize the qBittorrent sensor."""
self._name = SENSOR_TYPES[sensor_type][0]
self.client = qbittorrent_client
self.type = sensor_type
self.client_name = client_name
self._state = None
self._unit_of_measurement = SENSOR_TYPES[sensor_type][1]
self._available = False
self._exception = exception
@property
def name(self):
"""Return the name of the sensor."""
return '{} {}'.format(self.client_name, self._name)
@property
def state(self):
"""Return the state of the sensor."""
return self._state
@property
def available(self):
"""Return true if device is available."""
return self._available
@property
def unit_of_measurement(self):
"""Return the unit of measurement of this entity, if any."""
return self._unit_of_measurement
async def async_update(self):
"""Get the latest data from qBittorrent and updates the state."""
try:
data = self.client.sync()
self._available = True
except RequestException:
_LOGGER.error("Connection lost")
self._available = False
return
except self._exception:
_LOGGER.error("Invalid authentication")
return
if data is None:
return
download = data['server_state']['dl_info_speed']
upload = data['server_state']['up_info_speed']
if self.type == SENSOR_TYPE_CURRENT_STATUS:
if upload > 0 and download > 0:
self._state = 'up_down'
elif upload > 0 and download == 0:
self._state = 'seeding'
elif upload == 0 and download > 0:
self._state = 'downloading'
else:
self._state = STATE_IDLE
elif self.type == SENSOR_TYPE_DOWNLOAD_SPEED:
self._state = format_speed(download)
elif self.type == SENSOR_TYPE_UPLOAD_SPEED:
self._state = format_speed(upload)
| apache-2.0 |
lizardsystem/lizard-history | lizard_history/handlers.py | 1 | 4716 | # (c) Nelen & Schuurmans. GPL licensed, see LICENSE.txt.
from django.utils.encoding import force_unicode
from django.contrib.admin.models import LogEntry
from lizard_history import utils
OBJECT_ATTRIBUTE = '_lizard_history_hash'
REQUEST_ATTRIBUTE = 'lizard_history'
PRE_COPY_KEY = 'pre_copy'
INSTANCE_KEY = 'instance'
SIGNALS_KEY = 'signals'
ESF_MODELS = (
'lizard_esf.AreaConfiguration',
)
WBCONFIGURATION_MODELS = (
'lizard_wbconfiguration.AreaConfiguration',
'lizard_wbconfiguration.Structure',
'lizard_wbconfiguration.Bucket',
)
def _get_or_create_history(obj):
"""
Get or create the history dict for this object.
Gets or sets OBJECT_ATTRIBUTE on object. Get or sets attribute
REQUEST_ATTRIBUTE on request. Get or creates history item for object
on request attribute and returns that.
"""
if not hasattr(obj, OBJECT_ATTRIBUTE):
setattr(obj, OBJECT_ATTRIBUTE, utils.object_hash(obj))
obj_hash = getattr(obj, OBJECT_ATTRIBUTE)
if not hasattr(utils.active_request(), REQUEST_ATTRIBUTE):
setattr(utils.active_request(), REQUEST_ATTRIBUTE, {})
history = getattr(utils.active_request(), REQUEST_ATTRIBUTE)
if not obj_hash in history:
history[obj_hash] = {SIGNALS_KEY: []}
return history[obj_hash]
def _get_db_copy(obj):
"""
Return database copy of obj.
Update resulting objects __dict__ with m2m items.
"""
# Get database copy
model = obj.__class__
try:
db_copy = model.objects.get(pk=obj.pk)
except model.DoesNotExist:
return None
# Add the m2m information
for f in db_copy._meta._many_to_many():
field_pk_qs = getattr(db_copy, f.name).values_list('pk', flat=True)
field_pk_list = list(field_pk_qs) # We must query right now.
field_pk_list.sort()
db_copy.__dict__.update({f.name: field_pk_list})
return db_copy
def db_handler(sender, instance, signal_name, raw=None, **kwargs):
"""
Store old and new objects on the active request.
"""
if raw or not utils.active_request():
return
history = _get_or_create_history(instance)
history[SIGNALS_KEY].append(signal_name)
history[INSTANCE_KEY] = instance
# Store initial status of the object on the request.
if signal_name.startswith('pre_') and not PRE_COPY_KEY in history:
history[PRE_COPY_KEY] = _get_db_copy(instance)
def process_request_handler(**kwargs):
"""
Log any changes recorded on the request object.
"""
if not hasattr(utils.active_request(), REQUEST_ATTRIBUTE):
return
try:
actions = getattr(utils.active_request(), REQUEST_ATTRIBUTE).values()
except AttributeError:
return
logged_models = set()
for action in actions:
pre_copy = action[PRE_COPY_KEY]
post_copy = _get_db_copy(action[INSTANCE_KEY])
signals = [s for s in action[SIGNALS_KEY]
if s in ('post_save', 'post_delete')]
if len(signals) <= 0:
continue
last_signal = signals[-1]
if last_signal == 'post_save':
obj = post_copy
action_flag = (utils.LIZARD_CHANGE if pre_copy else
utils.LIZARD_ADDITION)
elif last_signal == 'post_delete':
obj = pre_copy
action_flag = utils.LIZARD_DELETION
else:
continue
# Custom handling starts here
if utils.is_object_of(obj, ESF_MODELS):
if logged_models.intersection(ESF_MODELS):
continue # Already logged the esf data
else:
object_repr = obj.area.ident
elif utils.is_object_of(obj, WBCONFIGURATION_MODELS):
if logged_models.intersection(WBCONFIGURATION_MODELS):
continue # Already logged the wbconfiguration data
else:
object_repr = obj.area.area.ident
# Custom handling starts ends here
else:
object_repr = force_unicode(obj)
change_message = utils.change_message(
old_object=pre_copy,
new_object=post_copy,
instance=action['instance'],
)
# Don't log if nothing was changed.
if change_message is None:
return
# Insert a log entry in django's admin log.
LogEntry.objects.log_action(
user_id=utils.user_pk(),
content_type_id=utils.get_contenttype_id(obj),
object_id=obj.pk,
object_repr=object_repr,
action_flag=action_flag,
change_message=change_message,
)
logged_models.add(utils.model_for_object(obj))
| gpl-3.0 |
Nesiehr/osf.io | framework/transactions/commands.py | 6 | 1168 | # -*- coding: utf-8 -*-
import contextlib
import logging
from framework.mongo import database as proxy_database
from website import settings as osfsettings
logger = logging.getLogger(__name__)
@contextlib.contextmanager
def handle_missing_client():
try:
yield
except AttributeError:
if not osfsettings.DEBUG_MODE:
logger.error('MongoDB client not attached to request.')
def begin(database=None):
database = database or proxy_database
with handle_missing_client():
database.command('beginTransaction')
def rollback(database=None):
database = database or proxy_database
with handle_missing_client():
database.command('rollbackTransaction')
def commit(database=None):
database = database or proxy_database
with handle_missing_client():
database.command('commitTransaction')
def show_live(database=None):
database = database or proxy_database
with handle_missing_client():
return database.command('showLiveTransactions')
def disconnect(database=None):
database = database or proxy_database
with handle_missing_client():
database.connection.close()
| apache-2.0 |
Kazade/NeHe-Website | google_appengine/lib/django-1.3/tests/modeltests/m2m_and_m2o/tests.py | 92 | 1938 | from django.db.models import Q
from django.test import TestCase
from models import Issue, User
class RelatedObjectTests(TestCase):
def test_m2m_and_m2o(self):
r = User.objects.create(username="russell")
g = User.objects.create(username="gustav")
i1 = Issue(num=1)
i1.client = r
i1.save()
i2 = Issue(num=2)
i2.client = r
i2.save()
i2.cc.add(r)
i3 = Issue(num=3)
i3.client = g
i3.save()
i3.cc.add(r)
self.assertQuerysetEqual(
Issue.objects.filter(client=r.id), [
1,
2,
],
lambda i: i.num
)
self.assertQuerysetEqual(
Issue.objects.filter(client=g.id), [
3,
],
lambda i: i.num
)
self.assertQuerysetEqual(
Issue.objects.filter(cc__id__exact=g.id), []
)
self.assertQuerysetEqual(
Issue.objects.filter(cc__id__exact=r.id), [
2,
3,
],
lambda i: i.num
)
# These queries combine results from the m2m and the m2o relationships.
# They're three ways of saying the same thing.
self.assertQuerysetEqual(
Issue.objects.filter(Q(cc__id__exact = r.id) | Q(client=r.id)), [
1,
2,
3,
],
lambda i: i.num
)
self.assertQuerysetEqual(
Issue.objects.filter(cc__id__exact=r.id) | Issue.objects.filter(client=r.id), [
1,
2,
3,
],
lambda i: i.num
)
self.assertQuerysetEqual(
Issue.objects.filter(Q(client=r.id) | Q(cc__id__exact=r.id)), [
1,
2,
3,
],
lambda i: i.num
)
| bsd-3-clause |
getnikola/nikola | nikola/plugins/compile/rest/post_list.py | 1 | 4278 | # -*- coding: utf-8 -*-
# Copyright © 2013-2021 Udo Spallek, Roberto Alsina and others.
# 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.
"""Post list directive for reStructuredText."""
from docutils import nodes
from docutils.parsers.rst import Directive, directives
from nikola import utils
from nikola.plugin_categories import RestExtension
# WARNING: the directive name is post-list
# (with a DASH instead of an UNDERSCORE)
class Plugin(RestExtension):
"""Plugin for reST post-list directive."""
name = "rest_post_list"
def set_site(self, site):
"""Set Nikola site."""
self.site = site
directives.register_directive('post-list', PostListDirective)
directives.register_directive('post_list', PostListDirective)
PostListDirective.site = site
return super().set_site(site)
class PostListDirective(Directive):
"""Provide a reStructuredText directive to create a list of posts."""
option_spec = {
'start': int,
'stop': int,
'reverse': directives.flag,
'sort': directives.unchanged,
'tags': directives.unchanged,
'require_all_tags': directives.flag,
'categories': directives.unchanged,
'sections': directives.unchanged,
'slugs': directives.unchanged,
'post_type': directives.unchanged,
'type': directives.unchanged,
'lang': directives.unchanged,
'template': directives.path,
'id': directives.unchanged,
'date': directives.unchanged,
}
def run(self):
"""Run post-list directive."""
start = self.options.get('start')
stop = self.options.get('stop')
reverse = self.options.get('reverse', False)
tags = self.options.get('tags')
require_all_tags = 'require_all_tags' in self.options
categories = self.options.get('categories')
sections = self.options.get('sections')
slugs = self.options.get('slugs')
post_type = self.options.get('post_type')
type = self.options.get('type', False)
lang = self.options.get('lang', utils.LocaleBorg().current_lang)
template = self.options.get('template', 'post_list_directive.tmpl')
sort = self.options.get('sort')
date = self.options.get('date')
filename = self.state.document.settings._nikola_source_path
output, deps = self.site.plugin_manager.getPluginByName(
'post_list', 'ShortcodePlugin').plugin_object.handler(
start,
stop,
reverse,
tags,
require_all_tags,
categories,
sections,
slugs,
post_type,
type,
lang,
template,
sort,
state=self.state,
site=self.site,
date=date,
filename=filename)
self.state.document.settings.record_dependencies.add(
"####MAGIC####TIMELINE")
for d in deps:
self.state.document.settings.record_dependencies.add(d)
if output:
return [nodes.raw('', output, format='html')]
else:
return []
| mit |
woqer/kappa | setup.py | 2 | 1696 | #!/usr/bin/env python
# -*- coding: utf-8 -*-
from kappa import __version__
import os
try:
from setuptools import setup
except ImportError:
from distutils.core import setup
def open_file(fname):
return open(os.path.join(os.path.dirname(__file__), fname))
def run_setup():
setup(
name='kappa',
version=__version__,
description='A CLI tool for AWS Lambda developers',
long_description=open_file('README.rst').read(),
url='https://github.com/garnaat/kappa',
author='Mitch Garnaat',
author_email='mitch@garnaat.com',
license='Apache License 2.0',
packages=['kappa', 'kappa.scripts', 'kappa.event_source'],
package_data={'kappa': ['_version']},
package_dir={'kappa': 'kappa'},
entry_points="""
[console_scripts]
kappa=kappa.scripts.cli:cli
""",
install_requires=open_file('requirements.txt').readlines(),
test_suite='tests',
include_package_data=True,
zip_safe=True,
classifiers=[
'Development Status :: 3 - Alpha',
'Intended Audience :: Developers',
'Intended Audience :: System Administrators',
'Natural Language :: English',
'License :: OSI Approved :: Apache Software License',
'Programming Language :: Python',
'Programming Language :: Python :: 2.7',
'Programming Language :: Python :: 3',
'Programming Language :: Python :: 3.3',
'Programming Language :: Python :: 3.4',
'Programming Language :: Python :: 3.5'
],
)
if __name__ == '__main__':
run_setup()
| apache-2.0 |
google-research/batch-ppo | agents/tools/streaming_mean.py | 1 | 2386 | # Copyright 2017 The TensorFlow Agents Authors.
#
# 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.
"""Compute a streaming estimation of the mean of submitted tensors."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import tensorflow as tf
class StreamingMean(object):
"""Compute a streaming estimation of the mean of submitted tensors."""
def __init__(self, shape, dtype):
"""Specify the shape and dtype of the mean to be estimated.
Note that a float mean to zero submitted elements is NaN, while computing
the integer mean of zero elements raises a division by zero error.
Args:
shape: Shape of the mean to compute.
dtype: Data type of the mean to compute.
"""
self._dtype = dtype
self._sum = tf.Variable(lambda: tf.zeros(shape, dtype), False)
self._count = tf.Variable(lambda: 0, trainable=False)
@property
def value(self):
"""The current value of the mean."""
return self._sum / tf.cast(self._count, self._dtype)
@property
def count(self):
"""The number of submitted samples."""
return self._count
def submit(self, value):
"""Submit a single or batch tensor to refine the streaming mean."""
# Add a batch dimension if necessary.
if value.shape.ndims == self._sum.shape.ndims:
value = value[None, ...]
return tf.group(
self._sum.assign_add(tf.reduce_sum(value, 0)),
self._count.assign_add(tf.shape(value)[0]))
def clear(self):
"""Return the mean estimate and reset the streaming statistics."""
value = self._sum / tf.cast(self._count, self._dtype)
with tf.control_dependencies([value]):
reset_value = self._sum.assign(tf.zeros_like(self._sum))
reset_count = self._count.assign(0)
with tf.control_dependencies([reset_value, reset_count]):
return tf.identity(value)
| apache-2.0 |
fiee/croisee | tools/make-wordlist.py | 1 | 1717 | #!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Crossword tool - wordlist
Make a wordlist from a text (in utf-8 encoding)
"""
import os, sys, locale
import re
locale.setlocale(locale.LC_ALL, 'de_DE.utf-8') # affects re's \w
reTEX = re.compile(r'\\\w+')
reNONCHARS = re.compile(r'[^\w\s]')
reSINGLECHAR = re.compile(r'^\w?\n', flags=re.MULTILINE)
def clean_text(text):
text = reTEX.sub(' ', text)
text = re.sub(r'<[^>]+>', '', text) # XML tags
text = re.sub(r'[\'’´`‘]s', '', text) # genitives
text = reNONCHARS.sub('', text)
text = reSINGLECHAR.sub('', text)
text = re.sub(r'[\s\n\d_]+', ' ', text) # unify spaces and numbers
#text = re.sub(r'(^|\s)\w{1,2}\s', ' ', text) # single and double letters
text = re.sub(r'\s+', ' ', text) # unify spaces
return text
def text_to_set(text):
"""
take a text and return a set of all contained words
"""
s = set(text.split(' '))
s.discard('')
n = set()
for w in s:
# remove case variants
if not w.lower() in n:
n.add(w)
return n
def lowercase(text):
return text.lower()
if __name__ == '__main__':
if len(sys.argv) > 1:
args = sys.argv[1:]
else:
sys.exit(1)
targetfile = open('wordlist.txt', 'a+', encoding='utf-8')
text = ''
while len(args)>0:
path = os.path.abspath(args.pop())
print("reading %s" % path)
sourcefile = open(path, 'r', encoding='utf-8')
sourcetext = ''.join(sourcefile.readlines())
sourcefile.close()
text += sourcetext
text = clean_text(text)
text = '\n'.join(sorted(text_to_set(text), key=lowercase))
targetfile.write(text)
targetfile.close()
| bsd-3-clause |
dead10ck/pyinvestigate | tests/test_investigate.py | 1 | 13571 | from pprint import pprint
import pytest
import datetime
def assert_keys_in(json_obj, *keys):
for key in keys:
assert key in json_obj
def test_categorization(inv):
keys = ['status', 'content_categories', 'security_categories']
# Test get with a single domain
domain = 'www.amazon.com'
resp_json = inv.categorization(domain)
assert_keys_in(resp_json, domain)
assert_keys_in(resp_json[domain], *keys)
# test post with several domains
domains = ['www.amazon.com', 'www.umbrella.com', 'bibikun.ru']
resp_json = inv.categorization(domains)
assert_keys_in(resp_json, *domains)
for d in domains:
assert_keys_in(resp_json[d], *keys)
# giving the wrong kind of object raises an exception
with pytest.raises(Exception):
inv.get_categorization({"wrong": "type"})
def test_cooccurrences(inv):
resp_json = inv.cooccurrences('test.com')
assert_keys_in(resp_json, 'found', 'pfs2')
for double in resp_json['pfs2']:
assert len(double) == 2
def test_related(inv):
resp_json = inv.related("test.com")
assert_keys_in(resp_json, 'found', 'tb1')
for double in resp_json['tb1']:
assert len(double) == 2
def test_security(inv):
keys = [
"dga_score",
"perplexity",
"entropy",
"securerank2",
"pagerank",
"asn_score",
"prefix_score",
"rip_score",
"popularity",
"fastflux",
"geodiversity",
"geodiversity_normalized",
"tld_geodiversity",
"geoscore",
"ks_test",
"attack",
"threat_type",
"found"
]
resp_json = inv.security("test.com")
assert_keys_in(resp_json, *keys)
def test_domain_tags(inv):
resp_json = inv.domain_tags('bibikun.ru')
for tag_entry in resp_json:
assert_keys_in(tag_entry, 'category', 'period', 'url')
assert_keys_in(tag_entry['period'], 'begin', 'end')
def test_domain_rr_history(inv):
features_keys = [
"age", "ttls_min", "ttls_max", "ttls_mean", "ttls_median", "ttls_stddev",
"country_codes", "country_count", "asns", "asns_count", "rips_diversity",
"locations", "locations_count", "geo_distance_sum", "geo_distance_mean",
"non_routable", "mail_exchanger", "cname", "ff_candidate", "rips_stability",
"prefixes", "prefixes_count",
# undocumented results
"rips", "is_subdomain", "base_domain", "div_rips"
]
rrs_tf_keys = [
"first_seen", "last_seen", "rrs"
]
rrs_keys = [
"name", "ttl", "class", "type", "rr"
]
# test a domain
resp_json = inv.rr_history('bibikun.ru')
assert_keys_in(resp_json, 'features', 'rrs_tf')
# make sure all the keys in the response are valid keys
for key in resp_json['features'].keys():
assert key in features_keys
for rrs_tf_entry in resp_json['rrs_tf']:
assert_keys_in(rrs_tf_entry, *rrs_tf_keys)
for rr_entry in rrs_tf_entry['rrs']:
assert_keys_in(rr_entry, *rrs_keys)
def test_ip_rr_history(inv):
features_keys = [
"rr_count", "ld2_count", "ld3_count", "ld2_1_count", "ld2_2_count",
"div_ld2", "div_ld3", "div_ld2_1", "div_ld2_2"
]
rr_keys = [
"rr", "ttl", "class", "type", "name" # not 'ip' as the documentation says
]
# test an IP
resp_json = inv.rr_history('50.23.225.49')
assert_keys_in(resp_json, 'rrs', 'features')
assert_keys_in(resp_json['features'], *features_keys)
for rr_entry in resp_json['rrs']:
assert_keys_in(rr_entry, *rr_keys)
def test_latest_domains(inv):
resp_json = inv.latest_domains('8.8.8.8')
print("\nresp_json")
pprint(resp_json)
assert type(resp_json) is list
assert len(resp_json) > 0
def test_email_whois1(inv):
resp_json = inv.email_whois('test@example.com')
print("\nresp_json")
pprint(resp_json)
whois_keys = ["domains", "limit", "moreDataAvailable", "totalResults", "offset"]
assert_keys_in(resp_json, 'test@example.com')
assert_keys_in(resp_json['test@example.com'], *whois_keys)
def test_email_whois2(inv):
resp_json = inv.email_whois('admin@google.com', limit=10, offset=500)
print("\nresp_json")
pprint(resp_json)
whois_keys = ["domains", "limit", "moreDataAvailable", "totalResults", "offset"]
assert_keys_in(resp_json, 'admin@google.com')
assert_keys_in(resp_json['admin@google.com'], *whois_keys)
def test_email_whois_sort_by_updated(inv):
resp_json = inv.email_whois('admin@google.com', limit=10, sort_field='updated')
print("\nresp_json")
pprint(resp_json)
whois_keys = ["domains", "limit", "moreDataAvailable", "totalResults", "offset"]
assert_keys_in(resp_json, 'admin@google.com')
assert resp_json['admin@google.com']['sortField'] == 'updated'
def test_email_whois_sort_by_created(inv):
resp_json = inv.email_whois('admin@google.com', limit=10, sort_field='created')
print("\nresp_json")
pprint(resp_json)
whois_keys = ["domains", "limit", "moreDataAvailable", "totalResults", "offset"]
assert_keys_in(resp_json, 'admin@google.com')
assert resp_json['admin@google.com']['sortField'] == 'created'
def test_email_whois_sort_by_expires(inv):
resp_json = inv.email_whois('admin@google.com', limit=10, sort_field='expires')
print("\nresp_json")
pprint(resp_json)
whois_keys = ["domains", "limit", "moreDataAvailable", "totalResults", "offset"]
assert_keys_in(resp_json, 'admin@google.com')
assert resp_json['admin@google.com']['sortField'] == 'expires'
def test_email_whois_sort_by_default(inv):
resp_json = inv.email_whois('admin@google.com', limit=10)
print("\nresp_json")
pprint(resp_json)
whois_keys = ["domains", "limit", "moreDataAvailable", "totalResults", "offset"]
assert_keys_in(resp_json, 'admin@google.com')
assert resp_json['admin@google.com']['sortField'] == 'domain name [default]'
def test_domain_whois(inv):
resp_json = inv.domain_whois('umbrella.com')
whois_keys = [
'registrantFaxExt',
'administrativeContactPostalCode',
'zoneContactCity',
'addresses',
'billingContactState',
'technicalContactCountry',
'auditUpdatedDate',
'technicalContactFax',
'technicalContactTelephone',
'billingContactStreet',
'registrantFax',
'technicalContactPostalCode',
'registrantOrganization',
'zoneContactPostalCode',
'technicalContactState',
'registrantState',
'administrativeContactName',
'billingContactFaxExt',
'billingContactCity',
'technicalContactEmail',
'registrantCountry',
'technicalContactFaxExt',
'registrantName',
'administrativeContactOrganization',
'billingContactCountry',
'billingContactName',
'registrarName',
'technicalContactTelephoneExt',
'administrativeContactFaxExt',
'zoneContactFax',
'timestamp',
'registrantCity',
'zoneContactTelephoneExt',
'administrativeContactTelephoneExt',
'status',
'updated',
'whoisServers',
'technicalContactName',
'technicalContactStreet',
'nameServers',
'zoneContactFaxExt',
'expires',
'technicalContactCity',
'administrativeContactStreet',
'billingContactFax',
'technicalContactOrganization',
'administrativeContactState',
'zoneContactOrganization',
'billingContactPostalCode',
'zoneContactStreet',
'zoneContactName',
'registrantPostalCode',
'billingContactTelephone',
'emails',
'registrantTelephone',
'administrativeContactCountry',
'administrativeContactCity',
'administrativeContactTelephone',
'created',
'registrantStreet',
'domainName',
'administrativeContactEmail',
'billingContactEmail',
'timeOfLatestRealtimeCheck',
'zoneContactState',
'registrantEmail',
'administrativeContactFax',
'billingContactTelephoneExt',
'zoneContactCountry',
'zoneContactEmail',
'registrantTelephoneExt',
'billingContactOrganization',
'registrarIANAID',
'zoneContactTelephone',
'hasRawText']
assert_keys_in(resp_json, *whois_keys)
def test_domain_whois_history(inv):
resp_json = inv.domain_whois_history('test.com', 5)
assert len(resp_json) == 5
def test_ns_whois(inv):
resp_json = inv.ns_whois('auth1.umbrella.com')
assert_keys_in(resp_json, 'auth1.umbrella.com')
whois_keys = ["domains", "limit", "moreDataAvailable", "totalResults", "offset"]
assert_keys_in(resp_json['auth1.umbrella.com'], *whois_keys)
def test_ns_whois_sort_by_created(inv):
resp_json = inv.ns_whois('auth1.umbrella.com', sort_field='created')
assert_keys_in(resp_json, 'auth1.umbrella.com')
assert resp_json['auth1.umbrella.com']['sortField'] == 'created'
def test_ns_whois_sort_by_updated(inv):
resp_json = inv.ns_whois('auth1.umbrella.com', sort_field='updated')
assert_keys_in(resp_json, 'auth1.umbrella.com')
assert resp_json['auth1.umbrella.com']['sortField'] == 'updated'
def test_ns_whois_sort_by_expires(inv):
resp_json = inv.ns_whois('auth1.umbrella.com', sort_field='expires')
assert_keys_in(resp_json, 'auth1.umbrella.com')
assert resp_json['auth1.umbrella.com']['sortField'] == 'expires'
def test_ns_whois_sort_by_default(inv):
resp_json = inv.ns_whois('auth1.umbrella.com')
assert_keys_in(resp_json, 'auth1.umbrella.com')
assert resp_json['auth1.umbrella.com']['sortField'] == 'domain name [default]'
def test_search(inv):
resp_json = inv.search('paypal.*', start=datetime.timedelta(days=1), limit=100, include_category=True)
search_keys = [
'matches', 'totalResults', 'limit', 'expression', 'moreDataAvailable'
]
match_keys = [
'securityCategories', 'firstSeenISO', 'name', 'firstSeen'
]
assert_keys_in(resp_json, *search_keys)
assert_keys_in(resp_json['matches'][0], *match_keys)
def test_samples(inv):
resp_json = inv.samples('sso.anbtr.com')
search_keys = [
'query',
'totalResults',
'moreDataAvailable',
'limit',
'offset',
'samples'
]
samples_keys = [
'sha256',
'sha1',
'md5',
'threatScore',
'firstSeen',
'lastSeen',
'visible',
'avresults',
'behaviors'
]
assert_keys_in(resp_json, *search_keys)
assert_keys_in(resp_json['samples'][0], *samples_keys)
def test_sample(inv):
resp_json = inv.sample('414e38ed0b5d507734361c2ba94f734252ca33b8259ca32334f32c4dba69b01c')
samples_keys = [
'sha256',
'sha1',
'md5',
'magicType',
'threatScore',
'size',
'firstSeen',
'lastSeen',
'visible',
'avresults',
'artifacts',
'samples',
'connections',
'behaviors'
]
assert_keys_in(resp_json, *samples_keys)
def test_sample_artifacts(inv):
resp_json = inv.sample_artifacts('414e38ed0b5d507734361c2ba94f734252ca33b8259ca32334f32c4dba69b01c')
search_keys = [
'totalResults',
'moreDataAvailable',
'limit',
'offset',
'artifacts'
]
artifacts_keys = [
'sha256',
'sha1',
'md5',
'size',
'firstSeen',
'lastSeen',
'visible',
'direction',
'avresults',
'behaviors'
]
assert_keys_in(resp_json, *search_keys)
assert_keys_in(resp_json['artifacts'][0], *artifacts_keys)
def test_sample_connections(inv):
resp_json = inv.sample_connections('414e38ed0b5d507734361c2ba94f734252ca33b8259ca32334f32c4dba69b01c')
search_keys = [
'totalResults',
'moreDataAvailable',
'limit',
'offset',
'connections'
]
connections_keys = [
'name',
'firstSeen',
'lastSeen',
'securityCategories',
'attacks',
'threatTypes',
'type',
'ips',
'urls'
]
assert_keys_in(resp_json, *search_keys)
assert_keys_in(resp_json['connections'][0], *connections_keys)
def test_sample_samples(inv):
resp_json = inv.sample_samples('befb538f7ee0903bd2ef783107b46f75bb2294f7c9598ba901eff35173fef360')
search_keys = [
'totalResults',
'moreDataAvailable',
'limit',
'offset',
'samples'
]
samples_keys = [
'sha256',
'sha1',
'md5',
'magicType',
'threatScore',
'size',
'firstSeen',
'lastSeen',
'visible',
'direction',
'avresults',
'behaviors'
]
assert_keys_in(resp_json, *search_keys)
assert_keys_in(resp_json['samples'][0], *samples_keys)
def test_as_for_ip(inv):
resp_json = inv.as_for_ip('208.67.222.222')
search_keys = [
'cidr',
'asn',
'ir',
'description',
'creation_date'
]
assert_keys_in(resp_json[0], *search_keys)
def test_prefixes_for_asn(inv):
resp_json = inv.prefixes_for_asn(36692)
search_keys = [
'cidr',
'geo'
]
geo_keys = [
'country_name',
'country_code'
]
assert_keys_in(resp_json[0], *search_keys)
assert_keys_in(resp_json[0]['geo'], *geo_keys)
| mit |
hilaskis/UAV_MissionPlanner | Lib/site-packages/numpy/linalg/tests/test_build.py | 81 | 1631 | from subprocess import call, PIPE, Popen
import sys
import re
import numpy as np
from numpy.linalg import lapack_lite
from numpy.testing import TestCase, dec
from numpy.compat import asbytes_nested
class FindDependenciesLdd:
def __init__(self):
self.cmd = ['ldd']
try:
st = call(self.cmd, stdout=PIPE, stderr=PIPE)
except OSError:
raise RuntimeError("command %s cannot be run" % self.cmd)
def get_dependencies(self, file):
p = Popen(self.cmd + [file], stdout=PIPE, stderr=PIPE)
stdout, stderr = p.communicate()
if not (p.returncode == 0):
raise RuntimeError("Failed to check dependencies for %s" % libfile)
return stdout
def grep_dependencies(self, file, deps):
stdout = self.get_dependencies(file)
rdeps = dict([(dep, re.compile(dep)) for dep in deps])
founds = []
for l in stdout.splitlines():
for k, v in rdeps.items():
if v.search(l):
founds.append(k)
return founds
class TestF77Mismatch(TestCase):
@dec.skipif(not(sys.platform[:5] == 'linux'),
"Skipping fortran compiler mismatch on non Linux platform")
def test_lapack(self):
f = FindDependenciesLdd()
deps = f.grep_dependencies(lapack_lite.__file__,
asbytes_nested(['libg2c', 'libgfortran']))
self.assertFalse(len(deps) > 1,
"""Both g77 and gfortran runtimes linked in lapack_lite ! This is likely to
cause random crashes and wrong results. See numpy INSTALL.txt for more
information.""")
| gpl-2.0 |
DualSpark/ansible | v1/ansible/runner/action_plugins/assert.py | 138 | 2123 | # Copyright 2012, Dag Wieers <dag@wieers.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/>.
import ansible
from ansible import utils, errors
from ansible.runner.return_data import ReturnData
class ActionModule(object):
''' Fail with custom message '''
TRANSFERS_FILES = False
def __init__(self, runner):
self.runner = runner
def run(self, conn, tmp, module_name, module_args, inject, complex_args=None, **kwargs):
# note: the fail module does not need to pay attention to check mode
# it always runs.
args = {}
if complex_args:
args.update(complex_args)
args.update(utils.parse_kv(module_args))
msg = None
if 'msg' in args:
msg = args['msg']
if not 'that' in args:
raise errors.AnsibleError('conditional required in "that" string')
if not isinstance(args['that'], list):
args['that'] = [ args['that'] ]
for that in args['that']:
test_result = utils.check_conditional(that, self.runner.basedir, inject, fail_on_undefined=True)
if not test_result:
result = dict(
failed = True,
evaluated_to = test_result,
assertion = that,
)
if msg:
result['msg'] = msg
return ReturnData(conn=conn, result=result)
return ReturnData(conn=conn, result=dict(msg='all assertions passed'))
| gpl-3.0 |
acutesoftware/AIKIF | scripts/examples/document_AIKIF.py | 1 | 9668 | # document_AIKIF.py written by Duncan Murray 18/4/2014
# All Python Program Statistics
# 26/08/2014 : Files = 110 Bytes = 377221 Lines = 10694 Lines of Code = 8836
# 30/10/2014 : Files = 127 Bytes = 444760 Lines = 12595 Lines of Code = 10409
# 04/03/2015 : Files = 142 Bytes = 572245 Lines = 15947 Lines of Code = 13181
import os
import aikif.programs as mod_prg
import aikif.config as mod_cfg
import aikif.lib.cls_filelist as mod_fl
def main():
"""
Example of self documenting (of sorts) code, via aikif.
Simply call functions like below to build an overview
which has metadata automatically updated.
"""
fldr = mod_cfg.fldrs['program_path']
p = mod_prg.Programs('AIKIF Programs', fldr)
document_core_programs(p)
document_agents(p)
document_examples(p)
# p.list() # get list of all programs
p.save(fldr + os.sep + 'examples' + os.sep + 'document_AIKIF.csv')
p.collect_program_info('progress.md')
def document_core_programs(p):
"""
Document a subset of core programs with purpose (and intent)
"""
p.comment('programs.py', 'collects list of aikif programs to show progress and allows comments to be added to each file')
p.comment('cls_file_mapping.py', 'uses ontology to get list of files to save data')
p.comment('index.py', 'rebuilds indexes')
p.comment('dataTools.py', 'data tools to manage database access')
p.comment('generateTestData.py', 'Tool to generate various test data')
p.comment('bias.py', '[DATA] weight the validity of source data based on location, person, timing')
p.comment('cls_collect_files.py', 'duplicate - see agent filelist collecting')
p.comment('config.py', '[DATA] central point for settings in AIKIF')
p.comment('cls_log.py', 'logging function to map to standard outputs. Almost provides auto aggregation')
p.comment('mapper.py', 'maps business rules and columns of source data to standard aikif logs')
p.comment('search.py', 'command line search tool [deprecated, but will be redone]')
p.comment('tools.py', '[DATA] uses the toolbox class to create list of programs used by aikif')
p.comment('check_redis_limit.py', 'starts reddis database and tests limits by repeatedly adding data until it breaks')
p.comment('cls_data.py', 'base class for data')
p.comment('cls_dataset.py', 'functions for a schema table - progress = stub only')
p.comment('cls_datatable.py', 'functions for a single table - progress = TOK')
p.comment('cls_sql_code_generator.py', 'useful generation of SQL commands')
p.comment('world_generator.py', 'generates a 2D grid world with random terrain - land, sea, blockages')
p.comment('gui_view_world.py', 'script to read a saved grid from world.py and show in gui. Good for seeing grids larger than 80x25')
p.comment('cls_file.py', 'TOK - class for handling file details - has subclasses for test, pictures and audio')
p.comment('cls_goal.py', 'base class for managing goals')
p.comment('cls_goal_friendly.py', 'STUB - test if a goal is friendly (needs 10-40 years work to be implemented properly)')
p.comment('cls_goal_money.py', 'example based on cls_goal to manage money goals')
p.comment('cls_goal_time.py', 'example based on cls_goal to manage time goals')
p.comment('cls_plan.py', 'STUB only at this stage - this should provide the link from goals to toolbox (somewhat tricky to say the least)')
p.comment('Toolbox.py', 'class to manage the toolbox - list of programs and functions aikif can use')
p.comment('cls_grid.py', 'base class for 2D grid for games - 2048, game of life, 2D terrain maps')
p.comment('cls_grid_life.py', 'game of life game')
p.comment('test_tool.py', 'tesing toolbox (SHOULD BE IN TESTS)')
p.comment('page_about.py', 'web_aikif - generates page using flask')
p.comment('page_agents.py', 'web_aikif - generates page using flask')
p.comment('page_data.py', 'web_aikif - generates page using flask')
p.comment('web_aikif.py', 'web_aikif - generates page using flask')
p.comment('web_utils.py', 'web_aikif - generates page using flask')
p.comment('check_python_env.py', 'script to test imports to ensure all correct packages are available')
p.comment('run_tests.py', 'runs all tests in /tests subfolder')
p.comment('if_database.py', 'dataTools - interface base class to a database')
p.comment('if_mssqlserver.py', 'dataTools - interface class to a mssql database')
p.comment('if_oracle.py', 'dataTools - interface class to an oracle database')
p.comment('if_redis.py', 'dataTools - interface class to a redis database')
p.comment('agent_browser.py', 'collects data from browser - bookmarks, visited sites')
p.comment('outlook_export.py', 'agent to connect to outlook and export emails')
p.comment('run_dummy_learn_1.py', 'sample code to call a learning algorithm')
p.comment('cls_collect.py', 'collect filelists')
p.comment('cls_context.py', 'estimate what the user and PC are currently actively working on')
p.comment('cls_filelist.py', 'fileslist class')
p.comment('cls_plan_BDI.py', 'stub for planner based on belief, desire, intent')
p.comment('cls_plan_search.py', 'AI planner search functions')
p.comment('project.py', 'Core module to manage projects - meta self documentation')
p.comment('data_structures.py', 'Node and Graph classes')
p.comment('knowledge.py', 'processs raw data to information')
p.comment('core_data.py', 'classes to manage the core data types')
p.comment('if_excel.py', 'data interface to excel')
p.comment('network_tools.py', 'toolbox method to download files')
p.comment('AI_CLI.py', 'Command Line Interface (IN PROGRESS)')
p.comment('install_data.py', 'script to setup data files (IN PROGRESS)')
def document_examples(p):
"""
Document example programs with purpose (and intent)
"""
p.comment('maths_ml_algorithms.py', 'machine learning algorithms for toolbox in AIKIF')
p.comment('algebra.py', 'toolbox module for based evaluation of maths problems')
p.comment('crypt_utils.py', 'scripts to encode / decode data')
p.comment('game_board_utils.py', 'board game rules')
p.comment('solve_knapsack.py ', 'toolbox - solves knapsack (using trivial algorithms)')
p.comment('example_solve_happiness.py', 'toy problem - finding a world to keep all people happy (O^n^n^n complexity :) )')
p.comment('finance_example.py', 'toy problem - logging finance data [TODO]')
p.comment('maths_fermat_brute_force.py', 'sample script to calculate long running process')
p.comment('puzzle_N_queens.py', 'stub only - not implemented///')
p.comment('puzzle_missions_canninballs.py', 'calculates the path to solve problem')
p.comment('solve_travelling_salesman.py', 'stub only')
p.comment('solve_knapsack.py', 'functions to solve the knapsack problem')
p.comment('load_ABS_data.py', 'old example showing how to map reading a file to the aikif')
p.comment('createMindOntology.py', 'script to parse website wiki page of OpenCog into a simple CSV structure')
p.comment('cyc_extract.py', 'script to read OpenCyc dataset and extract data (STUB only)')
p.comment('read_opencyc.py', 'script to read OpenCyc dataset')
p.comment('read_wordnet.py', 'script to read WordNet dataset')
p.comment('review_ontology.py', '[DATA] program to document details of ontology review')
p.comment('form_example_simple.py', 'creates a TKinter form to show how sql generation works = TOK')
p.comment('worlds.py', 'generates a 2d grid world')
p.comment('autobackup.py', 'example showing automatic file backups via filelists')
p.comment('document_AIKIF.py', 'this program - collect a list of programs and add commments / progress on what is actually implemented')
p.comment('ex_index_mydocs.py', 'example showing what to index')
p.comment('ex_project_management.py', 'example on using aikif for project management (poor example - needs work)')
p.comment('game_of_life_console.py', 'example showing a game of life = TOK')
def document_agents(p):
"""
Document agents in AIKIF (purpose and intent)
"""
p.comment('agent.py', 'base agent class')
p.comment('run_agents.py', 'Top level function to run the agents')
p.comment('agent_image_metadata.py', 'agent to collect file picture metadata')
p.comment('agent_learn_aixi.py', '')
p.comment('dummy_learn_1.py', 'sample (but stub only) learning algorithm to be called as test below')
p.comment('agent_explore_grid.py', 'working prototype of agent to move through a grid world, using very simple path finding.')
p.comment('agent_email.py', 'Agent that reads emails (currently only gmail)')
p.comment('agent_filelist.py', 'TOK - correctly scans and logs filelists from an agent')
p.comment('collect_Win_processes.py', 'script to collect windows processes. Currently not part of agent process, more an exercise on what can be logged')
p.comment('log_PC_usage.py', 'script to read current window title to be used as part of context to see what user is doing')
p.comment('log_browser_history.py', 'script to dump chrome browser history to CSV - not used')
p.comment('agg_context.py', 'detects context of user and computer')
def get_list_of_applications():
"""
Get list of applications
"""
apps = mod_prg.Programs('Applications', 'C:\\apps')
fl = mod_fl.FileList(['C:\\apps'], ['*.exe'], ["\\bk\\"])
for f in fl.get_list():
apps.add(f, 'autogenerated list')
apps.list()
apps.save()
if __name__ == '__main__':
main() | gpl-3.0 |
r14r-work/fork_bootstrap_master | test-infra/s3_cache.py | 2166 | 5734 | #!/usr/bin/env python2.7
# pylint: disable=C0301
from __future__ import absolute_import, unicode_literals, print_function, division
from sys import argv
from os import environ, stat, chdir, remove as _delete_file
from os.path import dirname, basename, abspath, realpath, expandvars
from hashlib import sha256
from subprocess import check_call as run
from json import load, dump as save
from contextlib import contextmanager
from datetime import datetime
from boto.s3.connection import S3Connection
from boto.s3.key import Key
from boto.exception import S3ResponseError
CONFIG_FILE = './S3Cachefile.json'
UPLOAD_TODO_FILE = './S3CacheTodo.json'
BYTES_PER_MB = 1024 * 1024
@contextmanager
def timer():
start = datetime.utcnow()
yield
end = datetime.utcnow()
elapsed = end - start
print("\tDone. Took", int(elapsed.total_seconds()), "second(s).")
@contextmanager
def todo_file(writeback=True):
try:
with open(UPLOAD_TODO_FILE, 'rt') as json_file:
todo = load(json_file)
except (IOError, OSError, ValueError):
todo = {}
yield todo
if writeback:
try:
with open(UPLOAD_TODO_FILE, 'wt') as json_file:
save(todo, json_file)
except (OSError, IOError) as save_err:
print("Error saving {}:".format(UPLOAD_TODO_FILE), save_err)
def _sha256_of_file(filename):
hasher = sha256()
with open(filename, 'rb') as input_file:
hasher.update(input_file.read())
file_hash = hasher.hexdigest()
print('sha256({}) = {}'.format(filename, file_hash))
return file_hash
def _delete_file_quietly(filename):
try:
_delete_file(filename)
except (OSError, IOError):
pass
def mark_needs_uploading(cache_name):
with todo_file() as todo:
todo[cache_name] = True
def mark_uploaded(cache_name):
with todo_file() as todo:
todo.pop(cache_name, None)
def need_to_upload(cache_name):
with todo_file(writeback=False) as todo:
return todo.get(cache_name, False)
def _tarball_size(directory):
kib = stat(_tarball_filename_for(directory)).st_size // BYTES_PER_MB
return "{} MiB".format(kib)
def _tarball_filename_for(directory):
return abspath('./{}.tar.gz'.format(basename(directory)))
def _create_tarball(directory):
print("Creating tarball of {}...".format(directory))
with timer():
run(['tar', '-czf', _tarball_filename_for(directory), '-C', dirname(directory), basename(directory)])
def _extract_tarball(directory):
print("Extracting tarball of {}...".format(directory))
with timer():
run(['tar', '-xzf', _tarball_filename_for(directory), '-C', dirname(directory)])
def download(directory):
mark_uploaded(cache_name) # reset
try:
print("Downloading {} tarball from S3...".format(cache_name))
with timer():
key.get_contents_to_filename(_tarball_filename_for(directory))
except S3ResponseError as err:
mark_needs_uploading(cache_name)
raise SystemExit("Cached {} download failed!".format(cache_name))
print("Downloaded {}.".format(_tarball_size(directory)))
_extract_tarball(directory)
print("{} successfully installed from cache.".format(cache_name))
def upload(directory):
_create_tarball(directory)
print("Uploading {} tarball to S3... ({})".format(cache_name, _tarball_size(directory)))
with timer():
key.set_contents_from_filename(_tarball_filename_for(directory))
print("{} cache successfully updated.".format(cache_name))
mark_uploaded(cache_name)
if __name__ == '__main__':
# Uses environment variables:
# AWS_ACCESS_KEY_ID -- AWS Access Key ID
# AWS_SECRET_ACCESS_KEY -- AWS Secret Access Key
argv.pop(0)
if len(argv) != 2:
raise SystemExit("USAGE: s3_cache.py <download | upload> <cache name>")
mode, cache_name = argv
script_dir = dirname(realpath(__file__))
chdir(script_dir)
try:
with open(CONFIG_FILE, 'rt') as config_file:
config = load(config_file)
except (IOError, OSError, ValueError) as config_err:
print(config_err)
raise SystemExit("Error when trying to load config from JSON file!")
try:
cache_info = config[cache_name]
key_file = expandvars(cache_info["key"])
fallback_cmd = cache_info["generate"]
directory = expandvars(cache_info["cache"])
except (TypeError, KeyError) as load_err:
print(load_err)
raise SystemExit("Config for cache named {!r} is missing or malformed!".format(cache_name))
try:
try:
BUCKET_NAME = environ['TWBS_S3_BUCKET']
except KeyError:
raise SystemExit("TWBS_S3_BUCKET environment variable not set!")
conn = S3Connection()
bucket = conn.lookup(BUCKET_NAME)
if bucket is None:
raise SystemExit("Could not access bucket!")
key_file_hash = _sha256_of_file(key_file)
key = Key(bucket, key_file_hash)
key.storage_class = 'REDUCED_REDUNDANCY'
if mode == 'download':
download(directory)
elif mode == 'upload':
if need_to_upload(cache_name):
upload(directory)
else:
print("No need to upload anything.")
else:
raise SystemExit("Unrecognized mode {!r}".format(mode))
except BaseException as exc:
if mode != 'download':
raise
print("Error!:", exc)
print("Unable to download from cache.")
print("Running fallback command to generate cache directory {!r}: {}".format(directory, fallback_cmd))
with timer():
run(fallback_cmd, shell=True)
| mit |
Summerotter/furryyellowpages | config.py | 1 | 1363 | import os
basedir = os.path.abspath(os.path.dirname(__file__))
class Config:
SECRET_KEY = os.environ.get('SECRET_KEY') or 'hard to guess string'
SQLALCHEMY_COMMIT_ON_TEARDOWN = True
MAIL_SERVER = 'smtp.googlemail.com'
MAIL_PORT = 587
MAIL_USE_TLS = True
MAIL_USERNAME = os.environ.get('MAIL_USERNAME')
MAIL_PASSWORD = os.environ.get('MAIL_PASSWORD')
FLASKY_MAIL_SUBJECT_PREFIX = '[DOW]'
FLASKY_MAIL_SENDER = 'Furry Yellow Pages Automated System'
FLASKY_ADMIN = os.environ.get('FLASKY_ADMIN')
FLASKY_POSTS_PER_PAGE = 20
FLASKY_FOLLOWERS_PER_PAGE = 50
POSTS_PER_PAGE = 5
@staticmethod
def init_app(app):
pass
class DevelopmentConfig(Config):
DEBUG = True
SQLALCHEMY_DATABASE_URI = os.environ.get('DEV_DATABASE_URL') or \
'sqlite:///' + os.path.join(basedir, 'data-dev.sqlite')
class TestingConfig(Config):
TESTING = True
SQLALCHEMY_DATABASE_URI = os.environ.get('TEST_DATABASE_URL') or \
'sqlite:///' + os.path.join(basedir, 'data-test.sqlite')
class ProductionConfig(Config):
SQLALCHEMY_DATABASE_URI = os.environ.get('DATABASE_URL') or \
'sqlite:///' + os.path.join(basedir, 'data.sqlite')
config = {
'development': DevelopmentConfig,
'testing': TestingConfig,
'production': ProductionConfig,
'default': DevelopmentConfig
}
| mit |
linjeffrey/phantomjs | src/qt/qtbase/src/3rdparty/freetype/src/tools/glnames.py | 259 | 103407 | #!/usr/bin/env python
#
#
# FreeType 2 glyph name builder
#
# Copyright 1996-2000, 2003, 2005, 2007, 2008 by
# David Turner, Robert Wilhelm, and Werner Lemberg.
#
# This file is part of the FreeType project, and may only be used, modified,
# and distributed under the terms of the FreeType project license,
# LICENSE.TXT. By continuing to use, modify, or distribute this file you
# indicate that you have read the license and understand and accept it
# fully.
"""\
usage: %s <output-file>
This python script generates the glyph names tables defined in the
`psnames' module.
Its single argument is the name of the header file to be created.
"""
import sys, string, struct, re, os.path
# This table lists the glyphs according to the Macintosh specification.
# It is used by the TrueType Postscript names table.
#
# See
#
# http://fonts.apple.com/TTRefMan/RM06/Chap6post.html
#
# for the official list.
#
mac_standard_names = \
[
# 0
".notdef", ".null", "nonmarkingreturn", "space", "exclam",
"quotedbl", "numbersign", "dollar", "percent", "ampersand",
# 10
"quotesingle", "parenleft", "parenright", "asterisk", "plus",
"comma", "hyphen", "period", "slash", "zero",
# 20
"one", "two", "three", "four", "five",
"six", "seven", "eight", "nine", "colon",
# 30
"semicolon", "less", "equal", "greater", "question",
"at", "A", "B", "C", "D",
# 40
"E", "F", "G", "H", "I",
"J", "K", "L", "M", "N",
# 50
"O", "P", "Q", "R", "S",
"T", "U", "V", "W", "X",
# 60
"Y", "Z", "bracketleft", "backslash", "bracketright",
"asciicircum", "underscore", "grave", "a", "b",
# 70
"c", "d", "e", "f", "g",
"h", "i", "j", "k", "l",
# 80
"m", "n", "o", "p", "q",
"r", "s", "t", "u", "v",
# 90
"w", "x", "y", "z", "braceleft",
"bar", "braceright", "asciitilde", "Adieresis", "Aring",
# 100
"Ccedilla", "Eacute", "Ntilde", "Odieresis", "Udieresis",
"aacute", "agrave", "acircumflex", "adieresis", "atilde",
# 110
"aring", "ccedilla", "eacute", "egrave", "ecircumflex",
"edieresis", "iacute", "igrave", "icircumflex", "idieresis",
# 120
"ntilde", "oacute", "ograve", "ocircumflex", "odieresis",
"otilde", "uacute", "ugrave", "ucircumflex", "udieresis",
# 130
"dagger", "degree", "cent", "sterling", "section",
"bullet", "paragraph", "germandbls", "registered", "copyright",
# 140
"trademark", "acute", "dieresis", "notequal", "AE",
"Oslash", "infinity", "plusminus", "lessequal", "greaterequal",
# 150
"yen", "mu", "partialdiff", "summation", "product",
"pi", "integral", "ordfeminine", "ordmasculine", "Omega",
# 160
"ae", "oslash", "questiondown", "exclamdown", "logicalnot",
"radical", "florin", "approxequal", "Delta", "guillemotleft",
# 170
"guillemotright", "ellipsis", "nonbreakingspace", "Agrave", "Atilde",
"Otilde", "OE", "oe", "endash", "emdash",
# 180
"quotedblleft", "quotedblright", "quoteleft", "quoteright", "divide",
"lozenge", "ydieresis", "Ydieresis", "fraction", "currency",
# 190
"guilsinglleft", "guilsinglright", "fi", "fl", "daggerdbl",
"periodcentered", "quotesinglbase", "quotedblbase", "perthousand",
"Acircumflex",
# 200
"Ecircumflex", "Aacute", "Edieresis", "Egrave", "Iacute",
"Icircumflex", "Idieresis", "Igrave", "Oacute", "Ocircumflex",
# 210
"apple", "Ograve", "Uacute", "Ucircumflex", "Ugrave",
"dotlessi", "circumflex", "tilde", "macron", "breve",
# 220
"dotaccent", "ring", "cedilla", "hungarumlaut", "ogonek",
"caron", "Lslash", "lslash", "Scaron", "scaron",
# 230
"Zcaron", "zcaron", "brokenbar", "Eth", "eth",
"Yacute", "yacute", "Thorn", "thorn", "minus",
# 240
"multiply", "onesuperior", "twosuperior", "threesuperior", "onehalf",
"onequarter", "threequarters", "franc", "Gbreve", "gbreve",
# 250
"Idotaccent", "Scedilla", "scedilla", "Cacute", "cacute",
"Ccaron", "ccaron", "dcroat"
]
# The list of standard `SID' glyph names. For the official list,
# see Annex A of document at
#
# http://partners.adobe.com/asn/developer/pdfs/tn/5176.CFF.pdf.
#
sid_standard_names = \
[
# 0
".notdef", "space", "exclam", "quotedbl", "numbersign",
"dollar", "percent", "ampersand", "quoteright", "parenleft",
# 10
"parenright", "asterisk", "plus", "comma", "hyphen",
"period", "slash", "zero", "one", "two",
# 20
"three", "four", "five", "six", "seven",
"eight", "nine", "colon", "semicolon", "less",
# 30
"equal", "greater", "question", "at", "A",
"B", "C", "D", "E", "F",
# 40
"G", "H", "I", "J", "K",
"L", "M", "N", "O", "P",
# 50
"Q", "R", "S", "T", "U",
"V", "W", "X", "Y", "Z",
# 60
"bracketleft", "backslash", "bracketright", "asciicircum", "underscore",
"quoteleft", "a", "b", "c", "d",
# 70
"e", "f", "g", "h", "i",
"j", "k", "l", "m", "n",
# 80
"o", "p", "q", "r", "s",
"t", "u", "v", "w", "x",
# 90
"y", "z", "braceleft", "bar", "braceright",
"asciitilde", "exclamdown", "cent", "sterling", "fraction",
# 100
"yen", "florin", "section", "currency", "quotesingle",
"quotedblleft", "guillemotleft", "guilsinglleft", "guilsinglright", "fi",
# 110
"fl", "endash", "dagger", "daggerdbl", "periodcentered",
"paragraph", "bullet", "quotesinglbase", "quotedblbase", "quotedblright",
# 120
"guillemotright", "ellipsis", "perthousand", "questiondown", "grave",
"acute", "circumflex", "tilde", "macron", "breve",
# 130
"dotaccent", "dieresis", "ring", "cedilla", "hungarumlaut",
"ogonek", "caron", "emdash", "AE", "ordfeminine",
# 140
"Lslash", "Oslash", "OE", "ordmasculine", "ae",
"dotlessi", "lslash", "oslash", "oe", "germandbls",
# 150
"onesuperior", "logicalnot", "mu", "trademark", "Eth",
"onehalf", "plusminus", "Thorn", "onequarter", "divide",
# 160
"brokenbar", "degree", "thorn", "threequarters", "twosuperior",
"registered", "minus", "eth", "multiply", "threesuperior",
# 170
"copyright", "Aacute", "Acircumflex", "Adieresis", "Agrave",
"Aring", "Atilde", "Ccedilla", "Eacute", "Ecircumflex",
# 180
"Edieresis", "Egrave", "Iacute", "Icircumflex", "Idieresis",
"Igrave", "Ntilde", "Oacute", "Ocircumflex", "Odieresis",
# 190
"Ograve", "Otilde", "Scaron", "Uacute", "Ucircumflex",
"Udieresis", "Ugrave", "Yacute", "Ydieresis", "Zcaron",
# 200
"aacute", "acircumflex", "adieresis", "agrave", "aring",
"atilde", "ccedilla", "eacute", "ecircumflex", "edieresis",
# 210
"egrave", "iacute", "icircumflex", "idieresis", "igrave",
"ntilde", "oacute", "ocircumflex", "odieresis", "ograve",
# 220
"otilde", "scaron", "uacute", "ucircumflex", "udieresis",
"ugrave", "yacute", "ydieresis", "zcaron", "exclamsmall",
# 230
"Hungarumlautsmall", "dollaroldstyle", "dollarsuperior", "ampersandsmall",
"Acutesmall",
"parenleftsuperior", "parenrightsuperior", "twodotenleader",
"onedotenleader", "zerooldstyle",
# 240
"oneoldstyle", "twooldstyle", "threeoldstyle", "fouroldstyle",
"fiveoldstyle",
"sixoldstyle", "sevenoldstyle", "eightoldstyle", "nineoldstyle",
"commasuperior",
# 250
"threequartersemdash", "periodsuperior", "questionsmall", "asuperior",
"bsuperior",
"centsuperior", "dsuperior", "esuperior", "isuperior", "lsuperior",
# 260
"msuperior", "nsuperior", "osuperior", "rsuperior", "ssuperior",
"tsuperior", "ff", "ffi", "ffl", "parenleftinferior",
# 270
"parenrightinferior", "Circumflexsmall", "hyphensuperior", "Gravesmall",
"Asmall",
"Bsmall", "Csmall", "Dsmall", "Esmall", "Fsmall",
# 280
"Gsmall", "Hsmall", "Ismall", "Jsmall", "Ksmall",
"Lsmall", "Msmall", "Nsmall", "Osmall", "Psmall",
# 290
"Qsmall", "Rsmall", "Ssmall", "Tsmall", "Usmall",
"Vsmall", "Wsmall", "Xsmall", "Ysmall", "Zsmall",
# 300
"colonmonetary", "onefitted", "rupiah", "Tildesmall", "exclamdownsmall",
"centoldstyle", "Lslashsmall", "Scaronsmall", "Zcaronsmall",
"Dieresissmall",
# 310
"Brevesmall", "Caronsmall", "Dotaccentsmall", "Macronsmall", "figuredash",
"hypheninferior", "Ogoneksmall", "Ringsmall", "Cedillasmall",
"questiondownsmall",
# 320
"oneeighth", "threeeighths", "fiveeighths", "seveneighths", "onethird",
"twothirds", "zerosuperior", "foursuperior", "fivesuperior",
"sixsuperior",
# 330
"sevensuperior", "eightsuperior", "ninesuperior", "zeroinferior",
"oneinferior",
"twoinferior", "threeinferior", "fourinferior", "fiveinferior",
"sixinferior",
# 340
"seveninferior", "eightinferior", "nineinferior", "centinferior",
"dollarinferior",
"periodinferior", "commainferior", "Agravesmall", "Aacutesmall",
"Acircumflexsmall",
# 350
"Atildesmall", "Adieresissmall", "Aringsmall", "AEsmall", "Ccedillasmall",
"Egravesmall", "Eacutesmall", "Ecircumflexsmall", "Edieresissmall",
"Igravesmall",
# 360
"Iacutesmall", "Icircumflexsmall", "Idieresissmall", "Ethsmall",
"Ntildesmall",
"Ogravesmall", "Oacutesmall", "Ocircumflexsmall", "Otildesmall",
"Odieresissmall",
# 370
"OEsmall", "Oslashsmall", "Ugravesmall", "Uacutesmall",
"Ucircumflexsmall",
"Udieresissmall", "Yacutesmall", "Thornsmall", "Ydieresissmall",
"001.000",
# 380
"001.001", "001.002", "001.003", "Black", "Bold",
"Book", "Light", "Medium", "Regular", "Roman",
# 390
"Semibold"
]
# This table maps character codes of the Adobe Standard Type 1
# encoding to glyph indices in the sid_standard_names table.
#
t1_standard_encoding = \
[
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 1, 2, 3, 4, 5, 6, 7, 8,
9, 10, 11, 12, 13, 14, 15, 16, 17, 18,
19, 20, 21, 22, 23, 24, 25, 26, 27, 28,
29, 30, 31, 32, 33, 34, 35, 36, 37, 38,
39, 40, 41, 42, 43, 44, 45, 46, 47, 48,
49, 50, 51, 52, 53, 54, 55, 56, 57, 58,
59, 60, 61, 62, 63, 64, 65, 66, 67, 68,
69, 70, 71, 72, 73, 74, 75, 76, 77, 78,
79, 80, 81, 82, 83, 84, 85, 86, 87, 88,
89, 90, 91, 92, 93, 94, 95, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 96, 97, 98, 99, 100, 101, 102, 103, 104,
105, 106, 107, 108, 109, 110, 0, 111, 112, 113,
114, 0, 115, 116, 117, 118, 119, 120, 121, 122,
0, 123, 0, 124, 125, 126, 127, 128, 129, 130,
131, 0, 132, 133, 0, 134, 135, 136, 137, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 138, 0, 139, 0, 0,
0, 0, 140, 141, 142, 143, 0, 0, 0, 0,
0, 144, 0, 0, 0, 145, 0, 0, 146, 147,
148, 149, 0, 0, 0, 0
]
# This table maps character codes of the Adobe Expert Type 1
# encoding to glyph indices in the sid_standard_names table.
#
t1_expert_encoding = \
[
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 1, 229, 230, 0, 231, 232, 233, 234,
235, 236, 237, 238, 13, 14, 15, 99, 239, 240,
241, 242, 243, 244, 245, 246, 247, 248, 27, 28,
249, 250, 251, 252, 0, 253, 254, 255, 256, 257,
0, 0, 0, 258, 0, 0, 259, 260, 261, 262,
0, 0, 263, 264, 265, 0, 266, 109, 110, 267,
268, 269, 0, 270, 271, 272, 273, 274, 275, 276,
277, 278, 279, 280, 281, 282, 283, 284, 285, 286,
287, 288, 289, 290, 291, 292, 293, 294, 295, 296,
297, 298, 299, 300, 301, 302, 303, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 304, 305, 306, 0, 0, 307, 308, 309, 310,
311, 0, 312, 0, 0, 313, 0, 0, 314, 315,
0, 0, 316, 317, 318, 0, 0, 0, 158, 155,
163, 319, 320, 321, 322, 323, 324, 325, 0, 0,
326, 150, 164, 169, 327, 328, 329, 330, 331, 332,
333, 334, 335, 336, 337, 338, 339, 340, 341, 342,
343, 344, 345, 346, 347, 348, 349, 350, 351, 352,
353, 354, 355, 356, 357, 358, 359, 360, 361, 362,
363, 364, 365, 366, 367, 368, 369, 370, 371, 372,
373, 374, 375, 376, 377, 378
]
# This data has been taken literally from the file `glyphlist.txt',
# version 2.0, 22 Sept 2002. It is available from
#
# http://partners.adobe.com/asn/developer/typeforum/unicodegn.html
# http://partners.adobe.com/public/developer/en/opentype/glyphlist.txt
#
adobe_glyph_list = """\
A;0041
AE;00C6
AEacute;01FC
AEmacron;01E2
AEsmall;F7E6
Aacute;00C1
Aacutesmall;F7E1
Abreve;0102
Abreveacute;1EAE
Abrevecyrillic;04D0
Abrevedotbelow;1EB6
Abrevegrave;1EB0
Abrevehookabove;1EB2
Abrevetilde;1EB4
Acaron;01CD
Acircle;24B6
Acircumflex;00C2
Acircumflexacute;1EA4
Acircumflexdotbelow;1EAC
Acircumflexgrave;1EA6
Acircumflexhookabove;1EA8
Acircumflexsmall;F7E2
Acircumflextilde;1EAA
Acute;F6C9
Acutesmall;F7B4
Acyrillic;0410
Adblgrave;0200
Adieresis;00C4
Adieresiscyrillic;04D2
Adieresismacron;01DE
Adieresissmall;F7E4
Adotbelow;1EA0
Adotmacron;01E0
Agrave;00C0
Agravesmall;F7E0
Ahookabove;1EA2
Aiecyrillic;04D4
Ainvertedbreve;0202
Alpha;0391
Alphatonos;0386
Amacron;0100
Amonospace;FF21
Aogonek;0104
Aring;00C5
Aringacute;01FA
Aringbelow;1E00
Aringsmall;F7E5
Asmall;F761
Atilde;00C3
Atildesmall;F7E3
Aybarmenian;0531
B;0042
Bcircle;24B7
Bdotaccent;1E02
Bdotbelow;1E04
Becyrillic;0411
Benarmenian;0532
Beta;0392
Bhook;0181
Blinebelow;1E06
Bmonospace;FF22
Brevesmall;F6F4
Bsmall;F762
Btopbar;0182
C;0043
Caarmenian;053E
Cacute;0106
Caron;F6CA
Caronsmall;F6F5
Ccaron;010C
Ccedilla;00C7
Ccedillaacute;1E08
Ccedillasmall;F7E7
Ccircle;24B8
Ccircumflex;0108
Cdot;010A
Cdotaccent;010A
Cedillasmall;F7B8
Chaarmenian;0549
Cheabkhasiancyrillic;04BC
Checyrillic;0427
Chedescenderabkhasiancyrillic;04BE
Chedescendercyrillic;04B6
Chedieresiscyrillic;04F4
Cheharmenian;0543
Chekhakassiancyrillic;04CB
Cheverticalstrokecyrillic;04B8
Chi;03A7
Chook;0187
Circumflexsmall;F6F6
Cmonospace;FF23
Coarmenian;0551
Csmall;F763
D;0044
DZ;01F1
DZcaron;01C4
Daarmenian;0534
Dafrican;0189
Dcaron;010E
Dcedilla;1E10
Dcircle;24B9
Dcircumflexbelow;1E12
Dcroat;0110
Ddotaccent;1E0A
Ddotbelow;1E0C
Decyrillic;0414
Deicoptic;03EE
Delta;2206
Deltagreek;0394
Dhook;018A
Dieresis;F6CB
DieresisAcute;F6CC
DieresisGrave;F6CD
Dieresissmall;F7A8
Digammagreek;03DC
Djecyrillic;0402
Dlinebelow;1E0E
Dmonospace;FF24
Dotaccentsmall;F6F7
Dslash;0110
Dsmall;F764
Dtopbar;018B
Dz;01F2
Dzcaron;01C5
Dzeabkhasiancyrillic;04E0
Dzecyrillic;0405
Dzhecyrillic;040F
E;0045
Eacute;00C9
Eacutesmall;F7E9
Ebreve;0114
Ecaron;011A
Ecedillabreve;1E1C
Echarmenian;0535
Ecircle;24BA
Ecircumflex;00CA
Ecircumflexacute;1EBE
Ecircumflexbelow;1E18
Ecircumflexdotbelow;1EC6
Ecircumflexgrave;1EC0
Ecircumflexhookabove;1EC2
Ecircumflexsmall;F7EA
Ecircumflextilde;1EC4
Ecyrillic;0404
Edblgrave;0204
Edieresis;00CB
Edieresissmall;F7EB
Edot;0116
Edotaccent;0116
Edotbelow;1EB8
Efcyrillic;0424
Egrave;00C8
Egravesmall;F7E8
Eharmenian;0537
Ehookabove;1EBA
Eightroman;2167
Einvertedbreve;0206
Eiotifiedcyrillic;0464
Elcyrillic;041B
Elevenroman;216A
Emacron;0112
Emacronacute;1E16
Emacrongrave;1E14
Emcyrillic;041C
Emonospace;FF25
Encyrillic;041D
Endescendercyrillic;04A2
Eng;014A
Enghecyrillic;04A4
Enhookcyrillic;04C7
Eogonek;0118
Eopen;0190
Epsilon;0395
Epsilontonos;0388
Ercyrillic;0420
Ereversed;018E
Ereversedcyrillic;042D
Escyrillic;0421
Esdescendercyrillic;04AA
Esh;01A9
Esmall;F765
Eta;0397
Etarmenian;0538
Etatonos;0389
Eth;00D0
Ethsmall;F7F0
Etilde;1EBC
Etildebelow;1E1A
Euro;20AC
Ezh;01B7
Ezhcaron;01EE
Ezhreversed;01B8
F;0046
Fcircle;24BB
Fdotaccent;1E1E
Feharmenian;0556
Feicoptic;03E4
Fhook;0191
Fitacyrillic;0472
Fiveroman;2164
Fmonospace;FF26
Fourroman;2163
Fsmall;F766
G;0047
GBsquare;3387
Gacute;01F4
Gamma;0393
Gammaafrican;0194
Gangiacoptic;03EA
Gbreve;011E
Gcaron;01E6
Gcedilla;0122
Gcircle;24BC
Gcircumflex;011C
Gcommaaccent;0122
Gdot;0120
Gdotaccent;0120
Gecyrillic;0413
Ghadarmenian;0542
Ghemiddlehookcyrillic;0494
Ghestrokecyrillic;0492
Gheupturncyrillic;0490
Ghook;0193
Gimarmenian;0533
Gjecyrillic;0403
Gmacron;1E20
Gmonospace;FF27
Grave;F6CE
Gravesmall;F760
Gsmall;F767
Gsmallhook;029B
Gstroke;01E4
H;0048
H18533;25CF
H18543;25AA
H18551;25AB
H22073;25A1
HPsquare;33CB
Haabkhasiancyrillic;04A8
Hadescendercyrillic;04B2
Hardsigncyrillic;042A
Hbar;0126
Hbrevebelow;1E2A
Hcedilla;1E28
Hcircle;24BD
Hcircumflex;0124
Hdieresis;1E26
Hdotaccent;1E22
Hdotbelow;1E24
Hmonospace;FF28
Hoarmenian;0540
Horicoptic;03E8
Hsmall;F768
Hungarumlaut;F6CF
Hungarumlautsmall;F6F8
Hzsquare;3390
I;0049
IAcyrillic;042F
IJ;0132
IUcyrillic;042E
Iacute;00CD
Iacutesmall;F7ED
Ibreve;012C
Icaron;01CF
Icircle;24BE
Icircumflex;00CE
Icircumflexsmall;F7EE
Icyrillic;0406
Idblgrave;0208
Idieresis;00CF
Idieresisacute;1E2E
Idieresiscyrillic;04E4
Idieresissmall;F7EF
Idot;0130
Idotaccent;0130
Idotbelow;1ECA
Iebrevecyrillic;04D6
Iecyrillic;0415
Ifraktur;2111
Igrave;00CC
Igravesmall;F7EC
Ihookabove;1EC8
Iicyrillic;0418
Iinvertedbreve;020A
Iishortcyrillic;0419
Imacron;012A
Imacroncyrillic;04E2
Imonospace;FF29
Iniarmenian;053B
Iocyrillic;0401
Iogonek;012E
Iota;0399
Iotaafrican;0196
Iotadieresis;03AA
Iotatonos;038A
Ismall;F769
Istroke;0197
Itilde;0128
Itildebelow;1E2C
Izhitsacyrillic;0474
Izhitsadblgravecyrillic;0476
J;004A
Jaarmenian;0541
Jcircle;24BF
Jcircumflex;0134
Jecyrillic;0408
Jheharmenian;054B
Jmonospace;FF2A
Jsmall;F76A
K;004B
KBsquare;3385
KKsquare;33CD
Kabashkircyrillic;04A0
Kacute;1E30
Kacyrillic;041A
Kadescendercyrillic;049A
Kahookcyrillic;04C3
Kappa;039A
Kastrokecyrillic;049E
Kaverticalstrokecyrillic;049C
Kcaron;01E8
Kcedilla;0136
Kcircle;24C0
Kcommaaccent;0136
Kdotbelow;1E32
Keharmenian;0554
Kenarmenian;053F
Khacyrillic;0425
Kheicoptic;03E6
Khook;0198
Kjecyrillic;040C
Klinebelow;1E34
Kmonospace;FF2B
Koppacyrillic;0480
Koppagreek;03DE
Ksicyrillic;046E
Ksmall;F76B
L;004C
LJ;01C7
LL;F6BF
Lacute;0139
Lambda;039B
Lcaron;013D
Lcedilla;013B
Lcircle;24C1
Lcircumflexbelow;1E3C
Lcommaaccent;013B
Ldot;013F
Ldotaccent;013F
Ldotbelow;1E36
Ldotbelowmacron;1E38
Liwnarmenian;053C
Lj;01C8
Ljecyrillic;0409
Llinebelow;1E3A
Lmonospace;FF2C
Lslash;0141
Lslashsmall;F6F9
Lsmall;F76C
M;004D
MBsquare;3386
Macron;F6D0
Macronsmall;F7AF
Macute;1E3E
Mcircle;24C2
Mdotaccent;1E40
Mdotbelow;1E42
Menarmenian;0544
Mmonospace;FF2D
Msmall;F76D
Mturned;019C
Mu;039C
N;004E
NJ;01CA
Nacute;0143
Ncaron;0147
Ncedilla;0145
Ncircle;24C3
Ncircumflexbelow;1E4A
Ncommaaccent;0145
Ndotaccent;1E44
Ndotbelow;1E46
Nhookleft;019D
Nineroman;2168
Nj;01CB
Njecyrillic;040A
Nlinebelow;1E48
Nmonospace;FF2E
Nowarmenian;0546
Nsmall;F76E
Ntilde;00D1
Ntildesmall;F7F1
Nu;039D
O;004F
OE;0152
OEsmall;F6FA
Oacute;00D3
Oacutesmall;F7F3
Obarredcyrillic;04E8
Obarreddieresiscyrillic;04EA
Obreve;014E
Ocaron;01D1
Ocenteredtilde;019F
Ocircle;24C4
Ocircumflex;00D4
Ocircumflexacute;1ED0
Ocircumflexdotbelow;1ED8
Ocircumflexgrave;1ED2
Ocircumflexhookabove;1ED4
Ocircumflexsmall;F7F4
Ocircumflextilde;1ED6
Ocyrillic;041E
Odblacute;0150
Odblgrave;020C
Odieresis;00D6
Odieresiscyrillic;04E6
Odieresissmall;F7F6
Odotbelow;1ECC
Ogoneksmall;F6FB
Ograve;00D2
Ogravesmall;F7F2
Oharmenian;0555
Ohm;2126
Ohookabove;1ECE
Ohorn;01A0
Ohornacute;1EDA
Ohorndotbelow;1EE2
Ohorngrave;1EDC
Ohornhookabove;1EDE
Ohorntilde;1EE0
Ohungarumlaut;0150
Oi;01A2
Oinvertedbreve;020E
Omacron;014C
Omacronacute;1E52
Omacrongrave;1E50
Omega;2126
Omegacyrillic;0460
Omegagreek;03A9
Omegaroundcyrillic;047A
Omegatitlocyrillic;047C
Omegatonos;038F
Omicron;039F
Omicrontonos;038C
Omonospace;FF2F
Oneroman;2160
Oogonek;01EA
Oogonekmacron;01EC
Oopen;0186
Oslash;00D8
Oslashacute;01FE
Oslashsmall;F7F8
Osmall;F76F
Ostrokeacute;01FE
Otcyrillic;047E
Otilde;00D5
Otildeacute;1E4C
Otildedieresis;1E4E
Otildesmall;F7F5
P;0050
Pacute;1E54
Pcircle;24C5
Pdotaccent;1E56
Pecyrillic;041F
Peharmenian;054A
Pemiddlehookcyrillic;04A6
Phi;03A6
Phook;01A4
Pi;03A0
Piwrarmenian;0553
Pmonospace;FF30
Psi;03A8
Psicyrillic;0470
Psmall;F770
Q;0051
Qcircle;24C6
Qmonospace;FF31
Qsmall;F771
R;0052
Raarmenian;054C
Racute;0154
Rcaron;0158
Rcedilla;0156
Rcircle;24C7
Rcommaaccent;0156
Rdblgrave;0210
Rdotaccent;1E58
Rdotbelow;1E5A
Rdotbelowmacron;1E5C
Reharmenian;0550
Rfraktur;211C
Rho;03A1
Ringsmall;F6FC
Rinvertedbreve;0212
Rlinebelow;1E5E
Rmonospace;FF32
Rsmall;F772
Rsmallinverted;0281
Rsmallinvertedsuperior;02B6
S;0053
SF010000;250C
SF020000;2514
SF030000;2510
SF040000;2518
SF050000;253C
SF060000;252C
SF070000;2534
SF080000;251C
SF090000;2524
SF100000;2500
SF110000;2502
SF190000;2561
SF200000;2562
SF210000;2556
SF220000;2555
SF230000;2563
SF240000;2551
SF250000;2557
SF260000;255D
SF270000;255C
SF280000;255B
SF360000;255E
SF370000;255F
SF380000;255A
SF390000;2554
SF400000;2569
SF410000;2566
SF420000;2560
SF430000;2550
SF440000;256C
SF450000;2567
SF460000;2568
SF470000;2564
SF480000;2565
SF490000;2559
SF500000;2558
SF510000;2552
SF520000;2553
SF530000;256B
SF540000;256A
Sacute;015A
Sacutedotaccent;1E64
Sampigreek;03E0
Scaron;0160
Scarondotaccent;1E66
Scaronsmall;F6FD
Scedilla;015E
Schwa;018F
Schwacyrillic;04D8
Schwadieresiscyrillic;04DA
Scircle;24C8
Scircumflex;015C
Scommaaccent;0218
Sdotaccent;1E60
Sdotbelow;1E62
Sdotbelowdotaccent;1E68
Seharmenian;054D
Sevenroman;2166
Shaarmenian;0547
Shacyrillic;0428
Shchacyrillic;0429
Sheicoptic;03E2
Shhacyrillic;04BA
Shimacoptic;03EC
Sigma;03A3
Sixroman;2165
Smonospace;FF33
Softsigncyrillic;042C
Ssmall;F773
Stigmagreek;03DA
T;0054
Tau;03A4
Tbar;0166
Tcaron;0164
Tcedilla;0162
Tcircle;24C9
Tcircumflexbelow;1E70
Tcommaaccent;0162
Tdotaccent;1E6A
Tdotbelow;1E6C
Tecyrillic;0422
Tedescendercyrillic;04AC
Tenroman;2169
Tetsecyrillic;04B4
Theta;0398
Thook;01AC
Thorn;00DE
Thornsmall;F7FE
Threeroman;2162
Tildesmall;F6FE
Tiwnarmenian;054F
Tlinebelow;1E6E
Tmonospace;FF34
Toarmenian;0539
Tonefive;01BC
Tonesix;0184
Tonetwo;01A7
Tretroflexhook;01AE
Tsecyrillic;0426
Tshecyrillic;040B
Tsmall;F774
Twelveroman;216B
Tworoman;2161
U;0055
Uacute;00DA
Uacutesmall;F7FA
Ubreve;016C
Ucaron;01D3
Ucircle;24CA
Ucircumflex;00DB
Ucircumflexbelow;1E76
Ucircumflexsmall;F7FB
Ucyrillic;0423
Udblacute;0170
Udblgrave;0214
Udieresis;00DC
Udieresisacute;01D7
Udieresisbelow;1E72
Udieresiscaron;01D9
Udieresiscyrillic;04F0
Udieresisgrave;01DB
Udieresismacron;01D5
Udieresissmall;F7FC
Udotbelow;1EE4
Ugrave;00D9
Ugravesmall;F7F9
Uhookabove;1EE6
Uhorn;01AF
Uhornacute;1EE8
Uhorndotbelow;1EF0
Uhorngrave;1EEA
Uhornhookabove;1EEC
Uhorntilde;1EEE
Uhungarumlaut;0170
Uhungarumlautcyrillic;04F2
Uinvertedbreve;0216
Ukcyrillic;0478
Umacron;016A
Umacroncyrillic;04EE
Umacrondieresis;1E7A
Umonospace;FF35
Uogonek;0172
Upsilon;03A5
Upsilon1;03D2
Upsilonacutehooksymbolgreek;03D3
Upsilonafrican;01B1
Upsilondieresis;03AB
Upsilondieresishooksymbolgreek;03D4
Upsilonhooksymbol;03D2
Upsilontonos;038E
Uring;016E
Ushortcyrillic;040E
Usmall;F775
Ustraightcyrillic;04AE
Ustraightstrokecyrillic;04B0
Utilde;0168
Utildeacute;1E78
Utildebelow;1E74
V;0056
Vcircle;24CB
Vdotbelow;1E7E
Vecyrillic;0412
Vewarmenian;054E
Vhook;01B2
Vmonospace;FF36
Voarmenian;0548
Vsmall;F776
Vtilde;1E7C
W;0057
Wacute;1E82
Wcircle;24CC
Wcircumflex;0174
Wdieresis;1E84
Wdotaccent;1E86
Wdotbelow;1E88
Wgrave;1E80
Wmonospace;FF37
Wsmall;F777
X;0058
Xcircle;24CD
Xdieresis;1E8C
Xdotaccent;1E8A
Xeharmenian;053D
Xi;039E
Xmonospace;FF38
Xsmall;F778
Y;0059
Yacute;00DD
Yacutesmall;F7FD
Yatcyrillic;0462
Ycircle;24CE
Ycircumflex;0176
Ydieresis;0178
Ydieresissmall;F7FF
Ydotaccent;1E8E
Ydotbelow;1EF4
Yericyrillic;042B
Yerudieresiscyrillic;04F8
Ygrave;1EF2
Yhook;01B3
Yhookabove;1EF6
Yiarmenian;0545
Yicyrillic;0407
Yiwnarmenian;0552
Ymonospace;FF39
Ysmall;F779
Ytilde;1EF8
Yusbigcyrillic;046A
Yusbigiotifiedcyrillic;046C
Yuslittlecyrillic;0466
Yuslittleiotifiedcyrillic;0468
Z;005A
Zaarmenian;0536
Zacute;0179
Zcaron;017D
Zcaronsmall;F6FF
Zcircle;24CF
Zcircumflex;1E90
Zdot;017B
Zdotaccent;017B
Zdotbelow;1E92
Zecyrillic;0417
Zedescendercyrillic;0498
Zedieresiscyrillic;04DE
Zeta;0396
Zhearmenian;053A
Zhebrevecyrillic;04C1
Zhecyrillic;0416
Zhedescendercyrillic;0496
Zhedieresiscyrillic;04DC
Zlinebelow;1E94
Zmonospace;FF3A
Zsmall;F77A
Zstroke;01B5
a;0061
aabengali;0986
aacute;00E1
aadeva;0906
aagujarati;0A86
aagurmukhi;0A06
aamatragurmukhi;0A3E
aarusquare;3303
aavowelsignbengali;09BE
aavowelsigndeva;093E
aavowelsigngujarati;0ABE
abbreviationmarkarmenian;055F
abbreviationsigndeva;0970
abengali;0985
abopomofo;311A
abreve;0103
abreveacute;1EAF
abrevecyrillic;04D1
abrevedotbelow;1EB7
abrevegrave;1EB1
abrevehookabove;1EB3
abrevetilde;1EB5
acaron;01CE
acircle;24D0
acircumflex;00E2
acircumflexacute;1EA5
acircumflexdotbelow;1EAD
acircumflexgrave;1EA7
acircumflexhookabove;1EA9
acircumflextilde;1EAB
acute;00B4
acutebelowcmb;0317
acutecmb;0301
acutecomb;0301
acutedeva;0954
acutelowmod;02CF
acutetonecmb;0341
acyrillic;0430
adblgrave;0201
addakgurmukhi;0A71
adeva;0905
adieresis;00E4
adieresiscyrillic;04D3
adieresismacron;01DF
adotbelow;1EA1
adotmacron;01E1
ae;00E6
aeacute;01FD
aekorean;3150
aemacron;01E3
afii00208;2015
afii08941;20A4
afii10017;0410
afii10018;0411
afii10019;0412
afii10020;0413
afii10021;0414
afii10022;0415
afii10023;0401
afii10024;0416
afii10025;0417
afii10026;0418
afii10027;0419
afii10028;041A
afii10029;041B
afii10030;041C
afii10031;041D
afii10032;041E
afii10033;041F
afii10034;0420
afii10035;0421
afii10036;0422
afii10037;0423
afii10038;0424
afii10039;0425
afii10040;0426
afii10041;0427
afii10042;0428
afii10043;0429
afii10044;042A
afii10045;042B
afii10046;042C
afii10047;042D
afii10048;042E
afii10049;042F
afii10050;0490
afii10051;0402
afii10052;0403
afii10053;0404
afii10054;0405
afii10055;0406
afii10056;0407
afii10057;0408
afii10058;0409
afii10059;040A
afii10060;040B
afii10061;040C
afii10062;040E
afii10063;F6C4
afii10064;F6C5
afii10065;0430
afii10066;0431
afii10067;0432
afii10068;0433
afii10069;0434
afii10070;0435
afii10071;0451
afii10072;0436
afii10073;0437
afii10074;0438
afii10075;0439
afii10076;043A
afii10077;043B
afii10078;043C
afii10079;043D
afii10080;043E
afii10081;043F
afii10082;0440
afii10083;0441
afii10084;0442
afii10085;0443
afii10086;0444
afii10087;0445
afii10088;0446
afii10089;0447
afii10090;0448
afii10091;0449
afii10092;044A
afii10093;044B
afii10094;044C
afii10095;044D
afii10096;044E
afii10097;044F
afii10098;0491
afii10099;0452
afii10100;0453
afii10101;0454
afii10102;0455
afii10103;0456
afii10104;0457
afii10105;0458
afii10106;0459
afii10107;045A
afii10108;045B
afii10109;045C
afii10110;045E
afii10145;040F
afii10146;0462
afii10147;0472
afii10148;0474
afii10192;F6C6
afii10193;045F
afii10194;0463
afii10195;0473
afii10196;0475
afii10831;F6C7
afii10832;F6C8
afii10846;04D9
afii299;200E
afii300;200F
afii301;200D
afii57381;066A
afii57388;060C
afii57392;0660
afii57393;0661
afii57394;0662
afii57395;0663
afii57396;0664
afii57397;0665
afii57398;0666
afii57399;0667
afii57400;0668
afii57401;0669
afii57403;061B
afii57407;061F
afii57409;0621
afii57410;0622
afii57411;0623
afii57412;0624
afii57413;0625
afii57414;0626
afii57415;0627
afii57416;0628
afii57417;0629
afii57418;062A
afii57419;062B
afii57420;062C
afii57421;062D
afii57422;062E
afii57423;062F
afii57424;0630
afii57425;0631
afii57426;0632
afii57427;0633
afii57428;0634
afii57429;0635
afii57430;0636
afii57431;0637
afii57432;0638
afii57433;0639
afii57434;063A
afii57440;0640
afii57441;0641
afii57442;0642
afii57443;0643
afii57444;0644
afii57445;0645
afii57446;0646
afii57448;0648
afii57449;0649
afii57450;064A
afii57451;064B
afii57452;064C
afii57453;064D
afii57454;064E
afii57455;064F
afii57456;0650
afii57457;0651
afii57458;0652
afii57470;0647
afii57505;06A4
afii57506;067E
afii57507;0686
afii57508;0698
afii57509;06AF
afii57511;0679
afii57512;0688
afii57513;0691
afii57514;06BA
afii57519;06D2
afii57534;06D5
afii57636;20AA
afii57645;05BE
afii57658;05C3
afii57664;05D0
afii57665;05D1
afii57666;05D2
afii57667;05D3
afii57668;05D4
afii57669;05D5
afii57670;05D6
afii57671;05D7
afii57672;05D8
afii57673;05D9
afii57674;05DA
afii57675;05DB
afii57676;05DC
afii57677;05DD
afii57678;05DE
afii57679;05DF
afii57680;05E0
afii57681;05E1
afii57682;05E2
afii57683;05E3
afii57684;05E4
afii57685;05E5
afii57686;05E6
afii57687;05E7
afii57688;05E8
afii57689;05E9
afii57690;05EA
afii57694;FB2A
afii57695;FB2B
afii57700;FB4B
afii57705;FB1F
afii57716;05F0
afii57717;05F1
afii57718;05F2
afii57723;FB35
afii57793;05B4
afii57794;05B5
afii57795;05B6
afii57796;05BB
afii57797;05B8
afii57798;05B7
afii57799;05B0
afii57800;05B2
afii57801;05B1
afii57802;05B3
afii57803;05C2
afii57804;05C1
afii57806;05B9
afii57807;05BC
afii57839;05BD
afii57841;05BF
afii57842;05C0
afii57929;02BC
afii61248;2105
afii61289;2113
afii61352;2116
afii61573;202C
afii61574;202D
afii61575;202E
afii61664;200C
afii63167;066D
afii64937;02BD
agrave;00E0
agujarati;0A85
agurmukhi;0A05
ahiragana;3042
ahookabove;1EA3
aibengali;0990
aibopomofo;311E
aideva;0910
aiecyrillic;04D5
aigujarati;0A90
aigurmukhi;0A10
aimatragurmukhi;0A48
ainarabic;0639
ainfinalarabic;FECA
aininitialarabic;FECB
ainmedialarabic;FECC
ainvertedbreve;0203
aivowelsignbengali;09C8
aivowelsigndeva;0948
aivowelsigngujarati;0AC8
akatakana;30A2
akatakanahalfwidth;FF71
akorean;314F
alef;05D0
alefarabic;0627
alefdageshhebrew;FB30
aleffinalarabic;FE8E
alefhamzaabovearabic;0623
alefhamzaabovefinalarabic;FE84
alefhamzabelowarabic;0625
alefhamzabelowfinalarabic;FE88
alefhebrew;05D0
aleflamedhebrew;FB4F
alefmaddaabovearabic;0622
alefmaddaabovefinalarabic;FE82
alefmaksuraarabic;0649
alefmaksurafinalarabic;FEF0
alefmaksurainitialarabic;FEF3
alefmaksuramedialarabic;FEF4
alefpatahhebrew;FB2E
alefqamatshebrew;FB2F
aleph;2135
allequal;224C
alpha;03B1
alphatonos;03AC
amacron;0101
amonospace;FF41
ampersand;0026
ampersandmonospace;FF06
ampersandsmall;F726
amsquare;33C2
anbopomofo;3122
angbopomofo;3124
angkhankhuthai;0E5A
angle;2220
anglebracketleft;3008
anglebracketleftvertical;FE3F
anglebracketright;3009
anglebracketrightvertical;FE40
angleleft;2329
angleright;232A
angstrom;212B
anoteleia;0387
anudattadeva;0952
anusvarabengali;0982
anusvaradeva;0902
anusvaragujarati;0A82
aogonek;0105
apaatosquare;3300
aparen;249C
apostrophearmenian;055A
apostrophemod;02BC
apple;F8FF
approaches;2250
approxequal;2248
approxequalorimage;2252
approximatelyequal;2245
araeaekorean;318E
araeakorean;318D
arc;2312
arighthalfring;1E9A
aring;00E5
aringacute;01FB
aringbelow;1E01
arrowboth;2194
arrowdashdown;21E3
arrowdashleft;21E0
arrowdashright;21E2
arrowdashup;21E1
arrowdblboth;21D4
arrowdbldown;21D3
arrowdblleft;21D0
arrowdblright;21D2
arrowdblup;21D1
arrowdown;2193
arrowdownleft;2199
arrowdownright;2198
arrowdownwhite;21E9
arrowheaddownmod;02C5
arrowheadleftmod;02C2
arrowheadrightmod;02C3
arrowheadupmod;02C4
arrowhorizex;F8E7
arrowleft;2190
arrowleftdbl;21D0
arrowleftdblstroke;21CD
arrowleftoverright;21C6
arrowleftwhite;21E6
arrowright;2192
arrowrightdblstroke;21CF
arrowrightheavy;279E
arrowrightoverleft;21C4
arrowrightwhite;21E8
arrowtableft;21E4
arrowtabright;21E5
arrowup;2191
arrowupdn;2195
arrowupdnbse;21A8
arrowupdownbase;21A8
arrowupleft;2196
arrowupleftofdown;21C5
arrowupright;2197
arrowupwhite;21E7
arrowvertex;F8E6
asciicircum;005E
asciicircummonospace;FF3E
asciitilde;007E
asciitildemonospace;FF5E
ascript;0251
ascriptturned;0252
asmallhiragana;3041
asmallkatakana;30A1
asmallkatakanahalfwidth;FF67
asterisk;002A
asteriskaltonearabic;066D
asteriskarabic;066D
asteriskmath;2217
asteriskmonospace;FF0A
asterisksmall;FE61
asterism;2042
asuperior;F6E9
asymptoticallyequal;2243
at;0040
atilde;00E3
atmonospace;FF20
atsmall;FE6B
aturned;0250
aubengali;0994
aubopomofo;3120
audeva;0914
augujarati;0A94
augurmukhi;0A14
aulengthmarkbengali;09D7
aumatragurmukhi;0A4C
auvowelsignbengali;09CC
auvowelsigndeva;094C
auvowelsigngujarati;0ACC
avagrahadeva;093D
aybarmenian;0561
ayin;05E2
ayinaltonehebrew;FB20
ayinhebrew;05E2
b;0062
babengali;09AC
backslash;005C
backslashmonospace;FF3C
badeva;092C
bagujarati;0AAC
bagurmukhi;0A2C
bahiragana;3070
bahtthai;0E3F
bakatakana;30D0
bar;007C
barmonospace;FF5C
bbopomofo;3105
bcircle;24D1
bdotaccent;1E03
bdotbelow;1E05
beamedsixteenthnotes;266C
because;2235
becyrillic;0431
beharabic;0628
behfinalarabic;FE90
behinitialarabic;FE91
behiragana;3079
behmedialarabic;FE92
behmeeminitialarabic;FC9F
behmeemisolatedarabic;FC08
behnoonfinalarabic;FC6D
bekatakana;30D9
benarmenian;0562
bet;05D1
beta;03B2
betasymbolgreek;03D0
betdagesh;FB31
betdageshhebrew;FB31
bethebrew;05D1
betrafehebrew;FB4C
bhabengali;09AD
bhadeva;092D
bhagujarati;0AAD
bhagurmukhi;0A2D
bhook;0253
bihiragana;3073
bikatakana;30D3
bilabialclick;0298
bindigurmukhi;0A02
birusquare;3331
blackcircle;25CF
blackdiamond;25C6
blackdownpointingtriangle;25BC
blackleftpointingpointer;25C4
blackleftpointingtriangle;25C0
blacklenticularbracketleft;3010
blacklenticularbracketleftvertical;FE3B
blacklenticularbracketright;3011
blacklenticularbracketrightvertical;FE3C
blacklowerlefttriangle;25E3
blacklowerrighttriangle;25E2
blackrectangle;25AC
blackrightpointingpointer;25BA
blackrightpointingtriangle;25B6
blacksmallsquare;25AA
blacksmilingface;263B
blacksquare;25A0
blackstar;2605
blackupperlefttriangle;25E4
blackupperrighttriangle;25E5
blackuppointingsmalltriangle;25B4
blackuppointingtriangle;25B2
blank;2423
blinebelow;1E07
block;2588
bmonospace;FF42
bobaimaithai;0E1A
bohiragana;307C
bokatakana;30DC
bparen;249D
bqsquare;33C3
braceex;F8F4
braceleft;007B
braceleftbt;F8F3
braceleftmid;F8F2
braceleftmonospace;FF5B
braceleftsmall;FE5B
bracelefttp;F8F1
braceleftvertical;FE37
braceright;007D
bracerightbt;F8FE
bracerightmid;F8FD
bracerightmonospace;FF5D
bracerightsmall;FE5C
bracerighttp;F8FC
bracerightvertical;FE38
bracketleft;005B
bracketleftbt;F8F0
bracketleftex;F8EF
bracketleftmonospace;FF3B
bracketlefttp;F8EE
bracketright;005D
bracketrightbt;F8FB
bracketrightex;F8FA
bracketrightmonospace;FF3D
bracketrighttp;F8F9
breve;02D8
brevebelowcmb;032E
brevecmb;0306
breveinvertedbelowcmb;032F
breveinvertedcmb;0311
breveinverteddoublecmb;0361
bridgebelowcmb;032A
bridgeinvertedbelowcmb;033A
brokenbar;00A6
bstroke;0180
bsuperior;F6EA
btopbar;0183
buhiragana;3076
bukatakana;30D6
bullet;2022
bulletinverse;25D8
bulletoperator;2219
bullseye;25CE
c;0063
caarmenian;056E
cabengali;099A
cacute;0107
cadeva;091A
cagujarati;0A9A
cagurmukhi;0A1A
calsquare;3388
candrabindubengali;0981
candrabinducmb;0310
candrabindudeva;0901
candrabindugujarati;0A81
capslock;21EA
careof;2105
caron;02C7
caronbelowcmb;032C
caroncmb;030C
carriagereturn;21B5
cbopomofo;3118
ccaron;010D
ccedilla;00E7
ccedillaacute;1E09
ccircle;24D2
ccircumflex;0109
ccurl;0255
cdot;010B
cdotaccent;010B
cdsquare;33C5
cedilla;00B8
cedillacmb;0327
cent;00A2
centigrade;2103
centinferior;F6DF
centmonospace;FFE0
centoldstyle;F7A2
centsuperior;F6E0
chaarmenian;0579
chabengali;099B
chadeva;091B
chagujarati;0A9B
chagurmukhi;0A1B
chbopomofo;3114
cheabkhasiancyrillic;04BD
checkmark;2713
checyrillic;0447
chedescenderabkhasiancyrillic;04BF
chedescendercyrillic;04B7
chedieresiscyrillic;04F5
cheharmenian;0573
chekhakassiancyrillic;04CC
cheverticalstrokecyrillic;04B9
chi;03C7
chieuchacirclekorean;3277
chieuchaparenkorean;3217
chieuchcirclekorean;3269
chieuchkorean;314A
chieuchparenkorean;3209
chochangthai;0E0A
chochanthai;0E08
chochingthai;0E09
chochoethai;0E0C
chook;0188
cieucacirclekorean;3276
cieucaparenkorean;3216
cieuccirclekorean;3268
cieuckorean;3148
cieucparenkorean;3208
cieucuparenkorean;321C
circle;25CB
circlemultiply;2297
circleot;2299
circleplus;2295
circlepostalmark;3036
circlewithlefthalfblack;25D0
circlewithrighthalfblack;25D1
circumflex;02C6
circumflexbelowcmb;032D
circumflexcmb;0302
clear;2327
clickalveolar;01C2
clickdental;01C0
clicklateral;01C1
clickretroflex;01C3
club;2663
clubsuitblack;2663
clubsuitwhite;2667
cmcubedsquare;33A4
cmonospace;FF43
cmsquaredsquare;33A0
coarmenian;0581
colon;003A
colonmonetary;20A1
colonmonospace;FF1A
colonsign;20A1
colonsmall;FE55
colontriangularhalfmod;02D1
colontriangularmod;02D0
comma;002C
commaabovecmb;0313
commaaboverightcmb;0315
commaaccent;F6C3
commaarabic;060C
commaarmenian;055D
commainferior;F6E1
commamonospace;FF0C
commareversedabovecmb;0314
commareversedmod;02BD
commasmall;FE50
commasuperior;F6E2
commaturnedabovecmb;0312
commaturnedmod;02BB
compass;263C
congruent;2245
contourintegral;222E
control;2303
controlACK;0006
controlBEL;0007
controlBS;0008
controlCAN;0018
controlCR;000D
controlDC1;0011
controlDC2;0012
controlDC3;0013
controlDC4;0014
controlDEL;007F
controlDLE;0010
controlEM;0019
controlENQ;0005
controlEOT;0004
controlESC;001B
controlETB;0017
controlETX;0003
controlFF;000C
controlFS;001C
controlGS;001D
controlHT;0009
controlLF;000A
controlNAK;0015
controlRS;001E
controlSI;000F
controlSO;000E
controlSOT;0002
controlSTX;0001
controlSUB;001A
controlSYN;0016
controlUS;001F
controlVT;000B
copyright;00A9
copyrightsans;F8E9
copyrightserif;F6D9
cornerbracketleft;300C
cornerbracketlefthalfwidth;FF62
cornerbracketleftvertical;FE41
cornerbracketright;300D
cornerbracketrighthalfwidth;FF63
cornerbracketrightvertical;FE42
corporationsquare;337F
cosquare;33C7
coverkgsquare;33C6
cparen;249E
cruzeiro;20A2
cstretched;0297
curlyand;22CF
curlyor;22CE
currency;00A4
cyrBreve;F6D1
cyrFlex;F6D2
cyrbreve;F6D4
cyrflex;F6D5
d;0064
daarmenian;0564
dabengali;09A6
dadarabic;0636
dadeva;0926
dadfinalarabic;FEBE
dadinitialarabic;FEBF
dadmedialarabic;FEC0
dagesh;05BC
dageshhebrew;05BC
dagger;2020
daggerdbl;2021
dagujarati;0AA6
dagurmukhi;0A26
dahiragana;3060
dakatakana;30C0
dalarabic;062F
dalet;05D3
daletdagesh;FB33
daletdageshhebrew;FB33
dalethatafpatah;05D3 05B2
dalethatafpatahhebrew;05D3 05B2
dalethatafsegol;05D3 05B1
dalethatafsegolhebrew;05D3 05B1
dalethebrew;05D3
dalethiriq;05D3 05B4
dalethiriqhebrew;05D3 05B4
daletholam;05D3 05B9
daletholamhebrew;05D3 05B9
daletpatah;05D3 05B7
daletpatahhebrew;05D3 05B7
daletqamats;05D3 05B8
daletqamatshebrew;05D3 05B8
daletqubuts;05D3 05BB
daletqubutshebrew;05D3 05BB
daletsegol;05D3 05B6
daletsegolhebrew;05D3 05B6
daletsheva;05D3 05B0
daletshevahebrew;05D3 05B0
dalettsere;05D3 05B5
dalettserehebrew;05D3 05B5
dalfinalarabic;FEAA
dammaarabic;064F
dammalowarabic;064F
dammatanaltonearabic;064C
dammatanarabic;064C
danda;0964
dargahebrew;05A7
dargalefthebrew;05A7
dasiapneumatacyrilliccmb;0485
dblGrave;F6D3
dblanglebracketleft;300A
dblanglebracketleftvertical;FE3D
dblanglebracketright;300B
dblanglebracketrightvertical;FE3E
dblarchinvertedbelowcmb;032B
dblarrowleft;21D4
dblarrowright;21D2
dbldanda;0965
dblgrave;F6D6
dblgravecmb;030F
dblintegral;222C
dbllowline;2017
dbllowlinecmb;0333
dbloverlinecmb;033F
dblprimemod;02BA
dblverticalbar;2016
dblverticallineabovecmb;030E
dbopomofo;3109
dbsquare;33C8
dcaron;010F
dcedilla;1E11
dcircle;24D3
dcircumflexbelow;1E13
dcroat;0111
ddabengali;09A1
ddadeva;0921
ddagujarati;0AA1
ddagurmukhi;0A21
ddalarabic;0688
ddalfinalarabic;FB89
dddhadeva;095C
ddhabengali;09A2
ddhadeva;0922
ddhagujarati;0AA2
ddhagurmukhi;0A22
ddotaccent;1E0B
ddotbelow;1E0D
decimalseparatorarabic;066B
decimalseparatorpersian;066B
decyrillic;0434
degree;00B0
dehihebrew;05AD
dehiragana;3067
deicoptic;03EF
dekatakana;30C7
deleteleft;232B
deleteright;2326
delta;03B4
deltaturned;018D
denominatorminusonenumeratorbengali;09F8
dezh;02A4
dhabengali;09A7
dhadeva;0927
dhagujarati;0AA7
dhagurmukhi;0A27
dhook;0257
dialytikatonos;0385
dialytikatonoscmb;0344
diamond;2666
diamondsuitwhite;2662
dieresis;00A8
dieresisacute;F6D7
dieresisbelowcmb;0324
dieresiscmb;0308
dieresisgrave;F6D8
dieresistonos;0385
dihiragana;3062
dikatakana;30C2
dittomark;3003
divide;00F7
divides;2223
divisionslash;2215
djecyrillic;0452
dkshade;2593
dlinebelow;1E0F
dlsquare;3397
dmacron;0111
dmonospace;FF44
dnblock;2584
dochadathai;0E0E
dodekthai;0E14
dohiragana;3069
dokatakana;30C9
dollar;0024
dollarinferior;F6E3
dollarmonospace;FF04
dollaroldstyle;F724
dollarsmall;FE69
dollarsuperior;F6E4
dong;20AB
dorusquare;3326
dotaccent;02D9
dotaccentcmb;0307
dotbelowcmb;0323
dotbelowcomb;0323
dotkatakana;30FB
dotlessi;0131
dotlessj;F6BE
dotlessjstrokehook;0284
dotmath;22C5
dottedcircle;25CC
doubleyodpatah;FB1F
doubleyodpatahhebrew;FB1F
downtackbelowcmb;031E
downtackmod;02D5
dparen;249F
dsuperior;F6EB
dtail;0256
dtopbar;018C
duhiragana;3065
dukatakana;30C5
dz;01F3
dzaltone;02A3
dzcaron;01C6
dzcurl;02A5
dzeabkhasiancyrillic;04E1
dzecyrillic;0455
dzhecyrillic;045F
e;0065
eacute;00E9
earth;2641
ebengali;098F
ebopomofo;311C
ebreve;0115
ecandradeva;090D
ecandragujarati;0A8D
ecandravowelsigndeva;0945
ecandravowelsigngujarati;0AC5
ecaron;011B
ecedillabreve;1E1D
echarmenian;0565
echyiwnarmenian;0587
ecircle;24D4
ecircumflex;00EA
ecircumflexacute;1EBF
ecircumflexbelow;1E19
ecircumflexdotbelow;1EC7
ecircumflexgrave;1EC1
ecircumflexhookabove;1EC3
ecircumflextilde;1EC5
ecyrillic;0454
edblgrave;0205
edeva;090F
edieresis;00EB
edot;0117
edotaccent;0117
edotbelow;1EB9
eegurmukhi;0A0F
eematragurmukhi;0A47
efcyrillic;0444
egrave;00E8
egujarati;0A8F
eharmenian;0567
ehbopomofo;311D
ehiragana;3048
ehookabove;1EBB
eibopomofo;311F
eight;0038
eightarabic;0668
eightbengali;09EE
eightcircle;2467
eightcircleinversesansserif;2791
eightdeva;096E
eighteencircle;2471
eighteenparen;2485
eighteenperiod;2499
eightgujarati;0AEE
eightgurmukhi;0A6E
eighthackarabic;0668
eighthangzhou;3028
eighthnotebeamed;266B
eightideographicparen;3227
eightinferior;2088
eightmonospace;FF18
eightoldstyle;F738
eightparen;247B
eightperiod;248F
eightpersian;06F8
eightroman;2177
eightsuperior;2078
eightthai;0E58
einvertedbreve;0207
eiotifiedcyrillic;0465
ekatakana;30A8
ekatakanahalfwidth;FF74
ekonkargurmukhi;0A74
ekorean;3154
elcyrillic;043B
element;2208
elevencircle;246A
elevenparen;247E
elevenperiod;2492
elevenroman;217A
ellipsis;2026
ellipsisvertical;22EE
emacron;0113
emacronacute;1E17
emacrongrave;1E15
emcyrillic;043C
emdash;2014
emdashvertical;FE31
emonospace;FF45
emphasismarkarmenian;055B
emptyset;2205
enbopomofo;3123
encyrillic;043D
endash;2013
endashvertical;FE32
endescendercyrillic;04A3
eng;014B
engbopomofo;3125
enghecyrillic;04A5
enhookcyrillic;04C8
enspace;2002
eogonek;0119
eokorean;3153
eopen;025B
eopenclosed;029A
eopenreversed;025C
eopenreversedclosed;025E
eopenreversedhook;025D
eparen;24A0
epsilon;03B5
epsilontonos;03AD
equal;003D
equalmonospace;FF1D
equalsmall;FE66
equalsuperior;207C
equivalence;2261
erbopomofo;3126
ercyrillic;0440
ereversed;0258
ereversedcyrillic;044D
escyrillic;0441
esdescendercyrillic;04AB
esh;0283
eshcurl;0286
eshortdeva;090E
eshortvowelsigndeva;0946
eshreversedloop;01AA
eshsquatreversed;0285
esmallhiragana;3047
esmallkatakana;30A7
esmallkatakanahalfwidth;FF6A
estimated;212E
esuperior;F6EC
eta;03B7
etarmenian;0568
etatonos;03AE
eth;00F0
etilde;1EBD
etildebelow;1E1B
etnahtafoukhhebrew;0591
etnahtafoukhlefthebrew;0591
etnahtahebrew;0591
etnahtalefthebrew;0591
eturned;01DD
eukorean;3161
euro;20AC
evowelsignbengali;09C7
evowelsigndeva;0947
evowelsigngujarati;0AC7
exclam;0021
exclamarmenian;055C
exclamdbl;203C
exclamdown;00A1
exclamdownsmall;F7A1
exclammonospace;FF01
exclamsmall;F721
existential;2203
ezh;0292
ezhcaron;01EF
ezhcurl;0293
ezhreversed;01B9
ezhtail;01BA
f;0066
fadeva;095E
fagurmukhi;0A5E
fahrenheit;2109
fathaarabic;064E
fathalowarabic;064E
fathatanarabic;064B
fbopomofo;3108
fcircle;24D5
fdotaccent;1E1F
feharabic;0641
feharmenian;0586
fehfinalarabic;FED2
fehinitialarabic;FED3
fehmedialarabic;FED4
feicoptic;03E5
female;2640
ff;FB00
ffi;FB03
ffl;FB04
fi;FB01
fifteencircle;246E
fifteenparen;2482
fifteenperiod;2496
figuredash;2012
filledbox;25A0
filledrect;25AC
finalkaf;05DA
finalkafdagesh;FB3A
finalkafdageshhebrew;FB3A
finalkafhebrew;05DA
finalkafqamats;05DA 05B8
finalkafqamatshebrew;05DA 05B8
finalkafsheva;05DA 05B0
finalkafshevahebrew;05DA 05B0
finalmem;05DD
finalmemhebrew;05DD
finalnun;05DF
finalnunhebrew;05DF
finalpe;05E3
finalpehebrew;05E3
finaltsadi;05E5
finaltsadihebrew;05E5
firsttonechinese;02C9
fisheye;25C9
fitacyrillic;0473
five;0035
fivearabic;0665
fivebengali;09EB
fivecircle;2464
fivecircleinversesansserif;278E
fivedeva;096B
fiveeighths;215D
fivegujarati;0AEB
fivegurmukhi;0A6B
fivehackarabic;0665
fivehangzhou;3025
fiveideographicparen;3224
fiveinferior;2085
fivemonospace;FF15
fiveoldstyle;F735
fiveparen;2478
fiveperiod;248C
fivepersian;06F5
fiveroman;2174
fivesuperior;2075
fivethai;0E55
fl;FB02
florin;0192
fmonospace;FF46
fmsquare;3399
fofanthai;0E1F
fofathai;0E1D
fongmanthai;0E4F
forall;2200
four;0034
fourarabic;0664
fourbengali;09EA
fourcircle;2463
fourcircleinversesansserif;278D
fourdeva;096A
fourgujarati;0AEA
fourgurmukhi;0A6A
fourhackarabic;0664
fourhangzhou;3024
fourideographicparen;3223
fourinferior;2084
fourmonospace;FF14
fournumeratorbengali;09F7
fouroldstyle;F734
fourparen;2477
fourperiod;248B
fourpersian;06F4
fourroman;2173
foursuperior;2074
fourteencircle;246D
fourteenparen;2481
fourteenperiod;2495
fourthai;0E54
fourthtonechinese;02CB
fparen;24A1
fraction;2044
franc;20A3
g;0067
gabengali;0997
gacute;01F5
gadeva;0917
gafarabic;06AF
gaffinalarabic;FB93
gafinitialarabic;FB94
gafmedialarabic;FB95
gagujarati;0A97
gagurmukhi;0A17
gahiragana;304C
gakatakana;30AC
gamma;03B3
gammalatinsmall;0263
gammasuperior;02E0
gangiacoptic;03EB
gbopomofo;310D
gbreve;011F
gcaron;01E7
gcedilla;0123
gcircle;24D6
gcircumflex;011D
gcommaaccent;0123
gdot;0121
gdotaccent;0121
gecyrillic;0433
gehiragana;3052
gekatakana;30B2
geometricallyequal;2251
gereshaccenthebrew;059C
gereshhebrew;05F3
gereshmuqdamhebrew;059D
germandbls;00DF
gershayimaccenthebrew;059E
gershayimhebrew;05F4
getamark;3013
ghabengali;0998
ghadarmenian;0572
ghadeva;0918
ghagujarati;0A98
ghagurmukhi;0A18
ghainarabic;063A
ghainfinalarabic;FECE
ghaininitialarabic;FECF
ghainmedialarabic;FED0
ghemiddlehookcyrillic;0495
ghestrokecyrillic;0493
gheupturncyrillic;0491
ghhadeva;095A
ghhagurmukhi;0A5A
ghook;0260
ghzsquare;3393
gihiragana;304E
gikatakana;30AE
gimarmenian;0563
gimel;05D2
gimeldagesh;FB32
gimeldageshhebrew;FB32
gimelhebrew;05D2
gjecyrillic;0453
glottalinvertedstroke;01BE
glottalstop;0294
glottalstopinverted;0296
glottalstopmod;02C0
glottalstopreversed;0295
glottalstopreversedmod;02C1
glottalstopreversedsuperior;02E4
glottalstopstroke;02A1
glottalstopstrokereversed;02A2
gmacron;1E21
gmonospace;FF47
gohiragana;3054
gokatakana;30B4
gparen;24A2
gpasquare;33AC
gradient;2207
grave;0060
gravebelowcmb;0316
gravecmb;0300
gravecomb;0300
gravedeva;0953
gravelowmod;02CE
gravemonospace;FF40
gravetonecmb;0340
greater;003E
greaterequal;2265
greaterequalorless;22DB
greatermonospace;FF1E
greaterorequivalent;2273
greaterorless;2277
greateroverequal;2267
greatersmall;FE65
gscript;0261
gstroke;01E5
guhiragana;3050
guillemotleft;00AB
guillemotright;00BB
guilsinglleft;2039
guilsinglright;203A
gukatakana;30B0
guramusquare;3318
gysquare;33C9
h;0068
haabkhasiancyrillic;04A9
haaltonearabic;06C1
habengali;09B9
hadescendercyrillic;04B3
hadeva;0939
hagujarati;0AB9
hagurmukhi;0A39
haharabic;062D
hahfinalarabic;FEA2
hahinitialarabic;FEA3
hahiragana;306F
hahmedialarabic;FEA4
haitusquare;332A
hakatakana;30CF
hakatakanahalfwidth;FF8A
halantgurmukhi;0A4D
hamzaarabic;0621
hamzadammaarabic;0621 064F
hamzadammatanarabic;0621 064C
hamzafathaarabic;0621 064E
hamzafathatanarabic;0621 064B
hamzalowarabic;0621
hamzalowkasraarabic;0621 0650
hamzalowkasratanarabic;0621 064D
hamzasukunarabic;0621 0652
hangulfiller;3164
hardsigncyrillic;044A
harpoonleftbarbup;21BC
harpoonrightbarbup;21C0
hasquare;33CA
hatafpatah;05B2
hatafpatah16;05B2
hatafpatah23;05B2
hatafpatah2f;05B2
hatafpatahhebrew;05B2
hatafpatahnarrowhebrew;05B2
hatafpatahquarterhebrew;05B2
hatafpatahwidehebrew;05B2
hatafqamats;05B3
hatafqamats1b;05B3
hatafqamats28;05B3
hatafqamats34;05B3
hatafqamatshebrew;05B3
hatafqamatsnarrowhebrew;05B3
hatafqamatsquarterhebrew;05B3
hatafqamatswidehebrew;05B3
hatafsegol;05B1
hatafsegol17;05B1
hatafsegol24;05B1
hatafsegol30;05B1
hatafsegolhebrew;05B1
hatafsegolnarrowhebrew;05B1
hatafsegolquarterhebrew;05B1
hatafsegolwidehebrew;05B1
hbar;0127
hbopomofo;310F
hbrevebelow;1E2B
hcedilla;1E29
hcircle;24D7
hcircumflex;0125
hdieresis;1E27
hdotaccent;1E23
hdotbelow;1E25
he;05D4
heart;2665
heartsuitblack;2665
heartsuitwhite;2661
hedagesh;FB34
hedageshhebrew;FB34
hehaltonearabic;06C1
heharabic;0647
hehebrew;05D4
hehfinalaltonearabic;FBA7
hehfinalalttwoarabic;FEEA
hehfinalarabic;FEEA
hehhamzaabovefinalarabic;FBA5
hehhamzaaboveisolatedarabic;FBA4
hehinitialaltonearabic;FBA8
hehinitialarabic;FEEB
hehiragana;3078
hehmedialaltonearabic;FBA9
hehmedialarabic;FEEC
heiseierasquare;337B
hekatakana;30D8
hekatakanahalfwidth;FF8D
hekutaarusquare;3336
henghook;0267
herutusquare;3339
het;05D7
hethebrew;05D7
hhook;0266
hhooksuperior;02B1
hieuhacirclekorean;327B
hieuhaparenkorean;321B
hieuhcirclekorean;326D
hieuhkorean;314E
hieuhparenkorean;320D
hihiragana;3072
hikatakana;30D2
hikatakanahalfwidth;FF8B
hiriq;05B4
hiriq14;05B4
hiriq21;05B4
hiriq2d;05B4
hiriqhebrew;05B4
hiriqnarrowhebrew;05B4
hiriqquarterhebrew;05B4
hiriqwidehebrew;05B4
hlinebelow;1E96
hmonospace;FF48
hoarmenian;0570
hohipthai;0E2B
hohiragana;307B
hokatakana;30DB
hokatakanahalfwidth;FF8E
holam;05B9
holam19;05B9
holam26;05B9
holam32;05B9
holamhebrew;05B9
holamnarrowhebrew;05B9
holamquarterhebrew;05B9
holamwidehebrew;05B9
honokhukthai;0E2E
hookabovecomb;0309
hookcmb;0309
hookpalatalizedbelowcmb;0321
hookretroflexbelowcmb;0322
hoonsquare;3342
horicoptic;03E9
horizontalbar;2015
horncmb;031B
hotsprings;2668
house;2302
hparen;24A3
hsuperior;02B0
hturned;0265
huhiragana;3075
huiitosquare;3333
hukatakana;30D5
hukatakanahalfwidth;FF8C
hungarumlaut;02DD
hungarumlautcmb;030B
hv;0195
hyphen;002D
hypheninferior;F6E5
hyphenmonospace;FF0D
hyphensmall;FE63
hyphensuperior;F6E6
hyphentwo;2010
i;0069
iacute;00ED
iacyrillic;044F
ibengali;0987
ibopomofo;3127
ibreve;012D
icaron;01D0
icircle;24D8
icircumflex;00EE
icyrillic;0456
idblgrave;0209
ideographearthcircle;328F
ideographfirecircle;328B
ideographicallianceparen;323F
ideographiccallparen;323A
ideographiccentrecircle;32A5
ideographicclose;3006
ideographiccomma;3001
ideographiccommaleft;FF64
ideographiccongratulationparen;3237
ideographiccorrectcircle;32A3
ideographicearthparen;322F
ideographicenterpriseparen;323D
ideographicexcellentcircle;329D
ideographicfestivalparen;3240
ideographicfinancialcircle;3296
ideographicfinancialparen;3236
ideographicfireparen;322B
ideographichaveparen;3232
ideographichighcircle;32A4
ideographiciterationmark;3005
ideographiclaborcircle;3298
ideographiclaborparen;3238
ideographicleftcircle;32A7
ideographiclowcircle;32A6
ideographicmedicinecircle;32A9
ideographicmetalparen;322E
ideographicmoonparen;322A
ideographicnameparen;3234
ideographicperiod;3002
ideographicprintcircle;329E
ideographicreachparen;3243
ideographicrepresentparen;3239
ideographicresourceparen;323E
ideographicrightcircle;32A8
ideographicsecretcircle;3299
ideographicselfparen;3242
ideographicsocietyparen;3233
ideographicspace;3000
ideographicspecialparen;3235
ideographicstockparen;3231
ideographicstudyparen;323B
ideographicsunparen;3230
ideographicsuperviseparen;323C
ideographicwaterparen;322C
ideographicwoodparen;322D
ideographiczero;3007
ideographmetalcircle;328E
ideographmooncircle;328A
ideographnamecircle;3294
ideographsuncircle;3290
ideographwatercircle;328C
ideographwoodcircle;328D
ideva;0907
idieresis;00EF
idieresisacute;1E2F
idieresiscyrillic;04E5
idotbelow;1ECB
iebrevecyrillic;04D7
iecyrillic;0435
ieungacirclekorean;3275
ieungaparenkorean;3215
ieungcirclekorean;3267
ieungkorean;3147
ieungparenkorean;3207
igrave;00EC
igujarati;0A87
igurmukhi;0A07
ihiragana;3044
ihookabove;1EC9
iibengali;0988
iicyrillic;0438
iideva;0908
iigujarati;0A88
iigurmukhi;0A08
iimatragurmukhi;0A40
iinvertedbreve;020B
iishortcyrillic;0439
iivowelsignbengali;09C0
iivowelsigndeva;0940
iivowelsigngujarati;0AC0
ij;0133
ikatakana;30A4
ikatakanahalfwidth;FF72
ikorean;3163
ilde;02DC
iluyhebrew;05AC
imacron;012B
imacroncyrillic;04E3
imageorapproximatelyequal;2253
imatragurmukhi;0A3F
imonospace;FF49
increment;2206
infinity;221E
iniarmenian;056B
integral;222B
integralbottom;2321
integralbt;2321
integralex;F8F5
integraltop;2320
integraltp;2320
intersection;2229
intisquare;3305
invbullet;25D8
invcircle;25D9
invsmileface;263B
iocyrillic;0451
iogonek;012F
iota;03B9
iotadieresis;03CA
iotadieresistonos;0390
iotalatin;0269
iotatonos;03AF
iparen;24A4
irigurmukhi;0A72
ismallhiragana;3043
ismallkatakana;30A3
ismallkatakanahalfwidth;FF68
issharbengali;09FA
istroke;0268
isuperior;F6ED
iterationhiragana;309D
iterationkatakana;30FD
itilde;0129
itildebelow;1E2D
iubopomofo;3129
iucyrillic;044E
ivowelsignbengali;09BF
ivowelsigndeva;093F
ivowelsigngujarati;0ABF
izhitsacyrillic;0475
izhitsadblgravecyrillic;0477
j;006A
jaarmenian;0571
jabengali;099C
jadeva;091C
jagujarati;0A9C
jagurmukhi;0A1C
jbopomofo;3110
jcaron;01F0
jcircle;24D9
jcircumflex;0135
jcrossedtail;029D
jdotlessstroke;025F
jecyrillic;0458
jeemarabic;062C
jeemfinalarabic;FE9E
jeeminitialarabic;FE9F
jeemmedialarabic;FEA0
jeharabic;0698
jehfinalarabic;FB8B
jhabengali;099D
jhadeva;091D
jhagujarati;0A9D
jhagurmukhi;0A1D
jheharmenian;057B
jis;3004
jmonospace;FF4A
jparen;24A5
jsuperior;02B2
k;006B
kabashkircyrillic;04A1
kabengali;0995
kacute;1E31
kacyrillic;043A
kadescendercyrillic;049B
kadeva;0915
kaf;05DB
kafarabic;0643
kafdagesh;FB3B
kafdageshhebrew;FB3B
kaffinalarabic;FEDA
kafhebrew;05DB
kafinitialarabic;FEDB
kafmedialarabic;FEDC
kafrafehebrew;FB4D
kagujarati;0A95
kagurmukhi;0A15
kahiragana;304B
kahookcyrillic;04C4
kakatakana;30AB
kakatakanahalfwidth;FF76
kappa;03BA
kappasymbolgreek;03F0
kapyeounmieumkorean;3171
kapyeounphieuphkorean;3184
kapyeounpieupkorean;3178
kapyeounssangpieupkorean;3179
karoriisquare;330D
kashidaautoarabic;0640
kashidaautonosidebearingarabic;0640
kasmallkatakana;30F5
kasquare;3384
kasraarabic;0650
kasratanarabic;064D
kastrokecyrillic;049F
katahiraprolongmarkhalfwidth;FF70
kaverticalstrokecyrillic;049D
kbopomofo;310E
kcalsquare;3389
kcaron;01E9
kcedilla;0137
kcircle;24DA
kcommaaccent;0137
kdotbelow;1E33
keharmenian;0584
kehiragana;3051
kekatakana;30B1
kekatakanahalfwidth;FF79
kenarmenian;056F
kesmallkatakana;30F6
kgreenlandic;0138
khabengali;0996
khacyrillic;0445
khadeva;0916
khagujarati;0A96
khagurmukhi;0A16
khaharabic;062E
khahfinalarabic;FEA6
khahinitialarabic;FEA7
khahmedialarabic;FEA8
kheicoptic;03E7
khhadeva;0959
khhagurmukhi;0A59
khieukhacirclekorean;3278
khieukhaparenkorean;3218
khieukhcirclekorean;326A
khieukhkorean;314B
khieukhparenkorean;320A
khokhaithai;0E02
khokhonthai;0E05
khokhuatthai;0E03
khokhwaithai;0E04
khomutthai;0E5B
khook;0199
khorakhangthai;0E06
khzsquare;3391
kihiragana;304D
kikatakana;30AD
kikatakanahalfwidth;FF77
kiroguramusquare;3315
kiromeetorusquare;3316
kirosquare;3314
kiyeokacirclekorean;326E
kiyeokaparenkorean;320E
kiyeokcirclekorean;3260
kiyeokkorean;3131
kiyeokparenkorean;3200
kiyeoksioskorean;3133
kjecyrillic;045C
klinebelow;1E35
klsquare;3398
kmcubedsquare;33A6
kmonospace;FF4B
kmsquaredsquare;33A2
kohiragana;3053
kohmsquare;33C0
kokaithai;0E01
kokatakana;30B3
kokatakanahalfwidth;FF7A
kooposquare;331E
koppacyrillic;0481
koreanstandardsymbol;327F
koroniscmb;0343
kparen;24A6
kpasquare;33AA
ksicyrillic;046F
ktsquare;33CF
kturned;029E
kuhiragana;304F
kukatakana;30AF
kukatakanahalfwidth;FF78
kvsquare;33B8
kwsquare;33BE
l;006C
labengali;09B2
lacute;013A
ladeva;0932
lagujarati;0AB2
lagurmukhi;0A32
lakkhangyaothai;0E45
lamaleffinalarabic;FEFC
lamalefhamzaabovefinalarabic;FEF8
lamalefhamzaaboveisolatedarabic;FEF7
lamalefhamzabelowfinalarabic;FEFA
lamalefhamzabelowisolatedarabic;FEF9
lamalefisolatedarabic;FEFB
lamalefmaddaabovefinalarabic;FEF6
lamalefmaddaaboveisolatedarabic;FEF5
lamarabic;0644
lambda;03BB
lambdastroke;019B
lamed;05DC
lameddagesh;FB3C
lameddageshhebrew;FB3C
lamedhebrew;05DC
lamedholam;05DC 05B9
lamedholamdagesh;05DC 05B9 05BC
lamedholamdageshhebrew;05DC 05B9 05BC
lamedholamhebrew;05DC 05B9
lamfinalarabic;FEDE
lamhahinitialarabic;FCCA
laminitialarabic;FEDF
lamjeeminitialarabic;FCC9
lamkhahinitialarabic;FCCB
lamlamhehisolatedarabic;FDF2
lammedialarabic;FEE0
lammeemhahinitialarabic;FD88
lammeeminitialarabic;FCCC
lammeemjeeminitialarabic;FEDF FEE4 FEA0
lammeemkhahinitialarabic;FEDF FEE4 FEA8
largecircle;25EF
lbar;019A
lbelt;026C
lbopomofo;310C
lcaron;013E
lcedilla;013C
lcircle;24DB
lcircumflexbelow;1E3D
lcommaaccent;013C
ldot;0140
ldotaccent;0140
ldotbelow;1E37
ldotbelowmacron;1E39
leftangleabovecmb;031A
lefttackbelowcmb;0318
less;003C
lessequal;2264
lessequalorgreater;22DA
lessmonospace;FF1C
lessorequivalent;2272
lessorgreater;2276
lessoverequal;2266
lesssmall;FE64
lezh;026E
lfblock;258C
lhookretroflex;026D
lira;20A4
liwnarmenian;056C
lj;01C9
ljecyrillic;0459
ll;F6C0
lladeva;0933
llagujarati;0AB3
llinebelow;1E3B
llladeva;0934
llvocalicbengali;09E1
llvocalicdeva;0961
llvocalicvowelsignbengali;09E3
llvocalicvowelsigndeva;0963
lmiddletilde;026B
lmonospace;FF4C
lmsquare;33D0
lochulathai;0E2C
logicaland;2227
logicalnot;00AC
logicalnotreversed;2310
logicalor;2228
lolingthai;0E25
longs;017F
lowlinecenterline;FE4E
lowlinecmb;0332
lowlinedashed;FE4D
lozenge;25CA
lparen;24A7
lslash;0142
lsquare;2113
lsuperior;F6EE
ltshade;2591
luthai;0E26
lvocalicbengali;098C
lvocalicdeva;090C
lvocalicvowelsignbengali;09E2
lvocalicvowelsigndeva;0962
lxsquare;33D3
m;006D
mabengali;09AE
macron;00AF
macronbelowcmb;0331
macroncmb;0304
macronlowmod;02CD
macronmonospace;FFE3
macute;1E3F
madeva;092E
magujarati;0AAE
magurmukhi;0A2E
mahapakhhebrew;05A4
mahapakhlefthebrew;05A4
mahiragana;307E
maichattawalowleftthai;F895
maichattawalowrightthai;F894
maichattawathai;0E4B
maichattawaupperleftthai;F893
maieklowleftthai;F88C
maieklowrightthai;F88B
maiekthai;0E48
maiekupperleftthai;F88A
maihanakatleftthai;F884
maihanakatthai;0E31
maitaikhuleftthai;F889
maitaikhuthai;0E47
maitholowleftthai;F88F
maitholowrightthai;F88E
maithothai;0E49
maithoupperleftthai;F88D
maitrilowleftthai;F892
maitrilowrightthai;F891
maitrithai;0E4A
maitriupperleftthai;F890
maiyamokthai;0E46
makatakana;30DE
makatakanahalfwidth;FF8F
male;2642
mansyonsquare;3347
maqafhebrew;05BE
mars;2642
masoracirclehebrew;05AF
masquare;3383
mbopomofo;3107
mbsquare;33D4
mcircle;24DC
mcubedsquare;33A5
mdotaccent;1E41
mdotbelow;1E43
meemarabic;0645
meemfinalarabic;FEE2
meeminitialarabic;FEE3
meemmedialarabic;FEE4
meemmeeminitialarabic;FCD1
meemmeemisolatedarabic;FC48
meetorusquare;334D
mehiragana;3081
meizierasquare;337E
mekatakana;30E1
mekatakanahalfwidth;FF92
mem;05DE
memdagesh;FB3E
memdageshhebrew;FB3E
memhebrew;05DE
menarmenian;0574
merkhahebrew;05A5
merkhakefulahebrew;05A6
merkhakefulalefthebrew;05A6
merkhalefthebrew;05A5
mhook;0271
mhzsquare;3392
middledotkatakanahalfwidth;FF65
middot;00B7
mieumacirclekorean;3272
mieumaparenkorean;3212
mieumcirclekorean;3264
mieumkorean;3141
mieumpansioskorean;3170
mieumparenkorean;3204
mieumpieupkorean;316E
mieumsioskorean;316F
mihiragana;307F
mikatakana;30DF
mikatakanahalfwidth;FF90
minus;2212
minusbelowcmb;0320
minuscircle;2296
minusmod;02D7
minusplus;2213
minute;2032
miribaarusquare;334A
mirisquare;3349
mlonglegturned;0270
mlsquare;3396
mmcubedsquare;33A3
mmonospace;FF4D
mmsquaredsquare;339F
mohiragana;3082
mohmsquare;33C1
mokatakana;30E2
mokatakanahalfwidth;FF93
molsquare;33D6
momathai;0E21
moverssquare;33A7
moverssquaredsquare;33A8
mparen;24A8
mpasquare;33AB
mssquare;33B3
msuperior;F6EF
mturned;026F
mu;00B5
mu1;00B5
muasquare;3382
muchgreater;226B
muchless;226A
mufsquare;338C
mugreek;03BC
mugsquare;338D
muhiragana;3080
mukatakana;30E0
mukatakanahalfwidth;FF91
mulsquare;3395
multiply;00D7
mumsquare;339B
munahhebrew;05A3
munahlefthebrew;05A3
musicalnote;266A
musicalnotedbl;266B
musicflatsign;266D
musicsharpsign;266F
mussquare;33B2
muvsquare;33B6
muwsquare;33BC
mvmegasquare;33B9
mvsquare;33B7
mwmegasquare;33BF
mwsquare;33BD
n;006E
nabengali;09A8
nabla;2207
nacute;0144
nadeva;0928
nagujarati;0AA8
nagurmukhi;0A28
nahiragana;306A
nakatakana;30CA
nakatakanahalfwidth;FF85
napostrophe;0149
nasquare;3381
nbopomofo;310B
nbspace;00A0
ncaron;0148
ncedilla;0146
ncircle;24DD
ncircumflexbelow;1E4B
ncommaaccent;0146
ndotaccent;1E45
ndotbelow;1E47
nehiragana;306D
nekatakana;30CD
nekatakanahalfwidth;FF88
newsheqelsign;20AA
nfsquare;338B
ngabengali;0999
ngadeva;0919
ngagujarati;0A99
ngagurmukhi;0A19
ngonguthai;0E07
nhiragana;3093
nhookleft;0272
nhookretroflex;0273
nieunacirclekorean;326F
nieunaparenkorean;320F
nieuncieuckorean;3135
nieuncirclekorean;3261
nieunhieuhkorean;3136
nieunkorean;3134
nieunpansioskorean;3168
nieunparenkorean;3201
nieunsioskorean;3167
nieuntikeutkorean;3166
nihiragana;306B
nikatakana;30CB
nikatakanahalfwidth;FF86
nikhahitleftthai;F899
nikhahitthai;0E4D
nine;0039
ninearabic;0669
ninebengali;09EF
ninecircle;2468
ninecircleinversesansserif;2792
ninedeva;096F
ninegujarati;0AEF
ninegurmukhi;0A6F
ninehackarabic;0669
ninehangzhou;3029
nineideographicparen;3228
nineinferior;2089
ninemonospace;FF19
nineoldstyle;F739
nineparen;247C
nineperiod;2490
ninepersian;06F9
nineroman;2178
ninesuperior;2079
nineteencircle;2472
nineteenparen;2486
nineteenperiod;249A
ninethai;0E59
nj;01CC
njecyrillic;045A
nkatakana;30F3
nkatakanahalfwidth;FF9D
nlegrightlong;019E
nlinebelow;1E49
nmonospace;FF4E
nmsquare;339A
nnabengali;09A3
nnadeva;0923
nnagujarati;0AA3
nnagurmukhi;0A23
nnnadeva;0929
nohiragana;306E
nokatakana;30CE
nokatakanahalfwidth;FF89
nonbreakingspace;00A0
nonenthai;0E13
nonuthai;0E19
noonarabic;0646
noonfinalarabic;FEE6
noonghunnaarabic;06BA
noonghunnafinalarabic;FB9F
noonhehinitialarabic;FEE7 FEEC
nooninitialarabic;FEE7
noonjeeminitialarabic;FCD2
noonjeemisolatedarabic;FC4B
noonmedialarabic;FEE8
noonmeeminitialarabic;FCD5
noonmeemisolatedarabic;FC4E
noonnoonfinalarabic;FC8D
notcontains;220C
notelement;2209
notelementof;2209
notequal;2260
notgreater;226F
notgreaternorequal;2271
notgreaternorless;2279
notidentical;2262
notless;226E
notlessnorequal;2270
notparallel;2226
notprecedes;2280
notsubset;2284
notsucceeds;2281
notsuperset;2285
nowarmenian;0576
nparen;24A9
nssquare;33B1
nsuperior;207F
ntilde;00F1
nu;03BD
nuhiragana;306C
nukatakana;30CC
nukatakanahalfwidth;FF87
nuktabengali;09BC
nuktadeva;093C
nuktagujarati;0ABC
nuktagurmukhi;0A3C
numbersign;0023
numbersignmonospace;FF03
numbersignsmall;FE5F
numeralsigngreek;0374
numeralsignlowergreek;0375
numero;2116
nun;05E0
nundagesh;FB40
nundageshhebrew;FB40
nunhebrew;05E0
nvsquare;33B5
nwsquare;33BB
nyabengali;099E
nyadeva;091E
nyagujarati;0A9E
nyagurmukhi;0A1E
o;006F
oacute;00F3
oangthai;0E2D
obarred;0275
obarredcyrillic;04E9
obarreddieresiscyrillic;04EB
obengali;0993
obopomofo;311B
obreve;014F
ocandradeva;0911
ocandragujarati;0A91
ocandravowelsigndeva;0949
ocandravowelsigngujarati;0AC9
ocaron;01D2
ocircle;24DE
ocircumflex;00F4
ocircumflexacute;1ED1
ocircumflexdotbelow;1ED9
ocircumflexgrave;1ED3
ocircumflexhookabove;1ED5
ocircumflextilde;1ED7
ocyrillic;043E
odblacute;0151
odblgrave;020D
odeva;0913
odieresis;00F6
odieresiscyrillic;04E7
odotbelow;1ECD
oe;0153
oekorean;315A
ogonek;02DB
ogonekcmb;0328
ograve;00F2
ogujarati;0A93
oharmenian;0585
ohiragana;304A
ohookabove;1ECF
ohorn;01A1
ohornacute;1EDB
ohorndotbelow;1EE3
ohorngrave;1EDD
ohornhookabove;1EDF
ohorntilde;1EE1
ohungarumlaut;0151
oi;01A3
oinvertedbreve;020F
okatakana;30AA
okatakanahalfwidth;FF75
okorean;3157
olehebrew;05AB
omacron;014D
omacronacute;1E53
omacrongrave;1E51
omdeva;0950
omega;03C9
omega1;03D6
omegacyrillic;0461
omegalatinclosed;0277
omegaroundcyrillic;047B
omegatitlocyrillic;047D
omegatonos;03CE
omgujarati;0AD0
omicron;03BF
omicrontonos;03CC
omonospace;FF4F
one;0031
onearabic;0661
onebengali;09E7
onecircle;2460
onecircleinversesansserif;278A
onedeva;0967
onedotenleader;2024
oneeighth;215B
onefitted;F6DC
onegujarati;0AE7
onegurmukhi;0A67
onehackarabic;0661
onehalf;00BD
onehangzhou;3021
oneideographicparen;3220
oneinferior;2081
onemonospace;FF11
onenumeratorbengali;09F4
oneoldstyle;F731
oneparen;2474
oneperiod;2488
onepersian;06F1
onequarter;00BC
oneroman;2170
onesuperior;00B9
onethai;0E51
onethird;2153
oogonek;01EB
oogonekmacron;01ED
oogurmukhi;0A13
oomatragurmukhi;0A4B
oopen;0254
oparen;24AA
openbullet;25E6
option;2325
ordfeminine;00AA
ordmasculine;00BA
orthogonal;221F
oshortdeva;0912
oshortvowelsigndeva;094A
oslash;00F8
oslashacute;01FF
osmallhiragana;3049
osmallkatakana;30A9
osmallkatakanahalfwidth;FF6B
ostrokeacute;01FF
osuperior;F6F0
otcyrillic;047F
otilde;00F5
otildeacute;1E4D
otildedieresis;1E4F
oubopomofo;3121
overline;203E
overlinecenterline;FE4A
overlinecmb;0305
overlinedashed;FE49
overlinedblwavy;FE4C
overlinewavy;FE4B
overscore;00AF
ovowelsignbengali;09CB
ovowelsigndeva;094B
ovowelsigngujarati;0ACB
p;0070
paampssquare;3380
paasentosquare;332B
pabengali;09AA
pacute;1E55
padeva;092A
pagedown;21DF
pageup;21DE
pagujarati;0AAA
pagurmukhi;0A2A
pahiragana;3071
paiyannoithai;0E2F
pakatakana;30D1
palatalizationcyrilliccmb;0484
palochkacyrillic;04C0
pansioskorean;317F
paragraph;00B6
parallel;2225
parenleft;0028
parenleftaltonearabic;FD3E
parenleftbt;F8ED
parenleftex;F8EC
parenleftinferior;208D
parenleftmonospace;FF08
parenleftsmall;FE59
parenleftsuperior;207D
parenlefttp;F8EB
parenleftvertical;FE35
parenright;0029
parenrightaltonearabic;FD3F
parenrightbt;F8F8
parenrightex;F8F7
parenrightinferior;208E
parenrightmonospace;FF09
parenrightsmall;FE5A
parenrightsuperior;207E
parenrighttp;F8F6
parenrightvertical;FE36
partialdiff;2202
paseqhebrew;05C0
pashtahebrew;0599
pasquare;33A9
patah;05B7
patah11;05B7
patah1d;05B7
patah2a;05B7
patahhebrew;05B7
patahnarrowhebrew;05B7
patahquarterhebrew;05B7
patahwidehebrew;05B7
pazerhebrew;05A1
pbopomofo;3106
pcircle;24DF
pdotaccent;1E57
pe;05E4
pecyrillic;043F
pedagesh;FB44
pedageshhebrew;FB44
peezisquare;333B
pefinaldageshhebrew;FB43
peharabic;067E
peharmenian;057A
pehebrew;05E4
pehfinalarabic;FB57
pehinitialarabic;FB58
pehiragana;307A
pehmedialarabic;FB59
pekatakana;30DA
pemiddlehookcyrillic;04A7
perafehebrew;FB4E
percent;0025
percentarabic;066A
percentmonospace;FF05
percentsmall;FE6A
period;002E
periodarmenian;0589
periodcentered;00B7
periodhalfwidth;FF61
periodinferior;F6E7
periodmonospace;FF0E
periodsmall;FE52
periodsuperior;F6E8
perispomenigreekcmb;0342
perpendicular;22A5
perthousand;2030
peseta;20A7
pfsquare;338A
phabengali;09AB
phadeva;092B
phagujarati;0AAB
phagurmukhi;0A2B
phi;03C6
phi1;03D5
phieuphacirclekorean;327A
phieuphaparenkorean;321A
phieuphcirclekorean;326C
phieuphkorean;314D
phieuphparenkorean;320C
philatin;0278
phinthuthai;0E3A
phisymbolgreek;03D5
phook;01A5
phophanthai;0E1E
phophungthai;0E1C
phosamphaothai;0E20
pi;03C0
pieupacirclekorean;3273
pieupaparenkorean;3213
pieupcieuckorean;3176
pieupcirclekorean;3265
pieupkiyeokkorean;3172
pieupkorean;3142
pieupparenkorean;3205
pieupsioskiyeokkorean;3174
pieupsioskorean;3144
pieupsiostikeutkorean;3175
pieupthieuthkorean;3177
pieuptikeutkorean;3173
pihiragana;3074
pikatakana;30D4
pisymbolgreek;03D6
piwrarmenian;0583
plus;002B
plusbelowcmb;031F
pluscircle;2295
plusminus;00B1
plusmod;02D6
plusmonospace;FF0B
plussmall;FE62
plussuperior;207A
pmonospace;FF50
pmsquare;33D8
pohiragana;307D
pointingindexdownwhite;261F
pointingindexleftwhite;261C
pointingindexrightwhite;261E
pointingindexupwhite;261D
pokatakana;30DD
poplathai;0E1B
postalmark;3012
postalmarkface;3020
pparen;24AB
precedes;227A
prescription;211E
primemod;02B9
primereversed;2035
product;220F
projective;2305
prolongedkana;30FC
propellor;2318
propersubset;2282
propersuperset;2283
proportion;2237
proportional;221D
psi;03C8
psicyrillic;0471
psilipneumatacyrilliccmb;0486
pssquare;33B0
puhiragana;3077
pukatakana;30D7
pvsquare;33B4
pwsquare;33BA
q;0071
qadeva;0958
qadmahebrew;05A8
qafarabic;0642
qaffinalarabic;FED6
qafinitialarabic;FED7
qafmedialarabic;FED8
qamats;05B8
qamats10;05B8
qamats1a;05B8
qamats1c;05B8
qamats27;05B8
qamats29;05B8
qamats33;05B8
qamatsde;05B8
qamatshebrew;05B8
qamatsnarrowhebrew;05B8
qamatsqatanhebrew;05B8
qamatsqatannarrowhebrew;05B8
qamatsqatanquarterhebrew;05B8
qamatsqatanwidehebrew;05B8
qamatsquarterhebrew;05B8
qamatswidehebrew;05B8
qarneyparahebrew;059F
qbopomofo;3111
qcircle;24E0
qhook;02A0
qmonospace;FF51
qof;05E7
qofdagesh;FB47
qofdageshhebrew;FB47
qofhatafpatah;05E7 05B2
qofhatafpatahhebrew;05E7 05B2
qofhatafsegol;05E7 05B1
qofhatafsegolhebrew;05E7 05B1
qofhebrew;05E7
qofhiriq;05E7 05B4
qofhiriqhebrew;05E7 05B4
qofholam;05E7 05B9
qofholamhebrew;05E7 05B9
qofpatah;05E7 05B7
qofpatahhebrew;05E7 05B7
qofqamats;05E7 05B8
qofqamatshebrew;05E7 05B8
qofqubuts;05E7 05BB
qofqubutshebrew;05E7 05BB
qofsegol;05E7 05B6
qofsegolhebrew;05E7 05B6
qofsheva;05E7 05B0
qofshevahebrew;05E7 05B0
qoftsere;05E7 05B5
qoftserehebrew;05E7 05B5
qparen;24AC
quarternote;2669
qubuts;05BB
qubuts18;05BB
qubuts25;05BB
qubuts31;05BB
qubutshebrew;05BB
qubutsnarrowhebrew;05BB
qubutsquarterhebrew;05BB
qubutswidehebrew;05BB
question;003F
questionarabic;061F
questionarmenian;055E
questiondown;00BF
questiondownsmall;F7BF
questiongreek;037E
questionmonospace;FF1F
questionsmall;F73F
quotedbl;0022
quotedblbase;201E
quotedblleft;201C
quotedblmonospace;FF02
quotedblprime;301E
quotedblprimereversed;301D
quotedblright;201D
quoteleft;2018
quoteleftreversed;201B
quotereversed;201B
quoteright;2019
quoterightn;0149
quotesinglbase;201A
quotesingle;0027
quotesinglemonospace;FF07
r;0072
raarmenian;057C
rabengali;09B0
racute;0155
radeva;0930
radical;221A
radicalex;F8E5
radoverssquare;33AE
radoverssquaredsquare;33AF
radsquare;33AD
rafe;05BF
rafehebrew;05BF
ragujarati;0AB0
ragurmukhi;0A30
rahiragana;3089
rakatakana;30E9
rakatakanahalfwidth;FF97
ralowerdiagonalbengali;09F1
ramiddlediagonalbengali;09F0
ramshorn;0264
ratio;2236
rbopomofo;3116
rcaron;0159
rcedilla;0157
rcircle;24E1
rcommaaccent;0157
rdblgrave;0211
rdotaccent;1E59
rdotbelow;1E5B
rdotbelowmacron;1E5D
referencemark;203B
reflexsubset;2286
reflexsuperset;2287
registered;00AE
registersans;F8E8
registerserif;F6DA
reharabic;0631
reharmenian;0580
rehfinalarabic;FEAE
rehiragana;308C
rehyehaleflamarabic;0631 FEF3 FE8E 0644
rekatakana;30EC
rekatakanahalfwidth;FF9A
resh;05E8
reshdageshhebrew;FB48
reshhatafpatah;05E8 05B2
reshhatafpatahhebrew;05E8 05B2
reshhatafsegol;05E8 05B1
reshhatafsegolhebrew;05E8 05B1
reshhebrew;05E8
reshhiriq;05E8 05B4
reshhiriqhebrew;05E8 05B4
reshholam;05E8 05B9
reshholamhebrew;05E8 05B9
reshpatah;05E8 05B7
reshpatahhebrew;05E8 05B7
reshqamats;05E8 05B8
reshqamatshebrew;05E8 05B8
reshqubuts;05E8 05BB
reshqubutshebrew;05E8 05BB
reshsegol;05E8 05B6
reshsegolhebrew;05E8 05B6
reshsheva;05E8 05B0
reshshevahebrew;05E8 05B0
reshtsere;05E8 05B5
reshtserehebrew;05E8 05B5
reversedtilde;223D
reviahebrew;0597
reviamugrashhebrew;0597
revlogicalnot;2310
rfishhook;027E
rfishhookreversed;027F
rhabengali;09DD
rhadeva;095D
rho;03C1
rhook;027D
rhookturned;027B
rhookturnedsuperior;02B5
rhosymbolgreek;03F1
rhotichookmod;02DE
rieulacirclekorean;3271
rieulaparenkorean;3211
rieulcirclekorean;3263
rieulhieuhkorean;3140
rieulkiyeokkorean;313A
rieulkiyeoksioskorean;3169
rieulkorean;3139
rieulmieumkorean;313B
rieulpansioskorean;316C
rieulparenkorean;3203
rieulphieuphkorean;313F
rieulpieupkorean;313C
rieulpieupsioskorean;316B
rieulsioskorean;313D
rieulthieuthkorean;313E
rieultikeutkorean;316A
rieulyeorinhieuhkorean;316D
rightangle;221F
righttackbelowcmb;0319
righttriangle;22BF
rihiragana;308A
rikatakana;30EA
rikatakanahalfwidth;FF98
ring;02DA
ringbelowcmb;0325
ringcmb;030A
ringhalfleft;02BF
ringhalfleftarmenian;0559
ringhalfleftbelowcmb;031C
ringhalfleftcentered;02D3
ringhalfright;02BE
ringhalfrightbelowcmb;0339
ringhalfrightcentered;02D2
rinvertedbreve;0213
rittorusquare;3351
rlinebelow;1E5F
rlongleg;027C
rlonglegturned;027A
rmonospace;FF52
rohiragana;308D
rokatakana;30ED
rokatakanahalfwidth;FF9B
roruathai;0E23
rparen;24AD
rrabengali;09DC
rradeva;0931
rragurmukhi;0A5C
rreharabic;0691
rrehfinalarabic;FB8D
rrvocalicbengali;09E0
rrvocalicdeva;0960
rrvocalicgujarati;0AE0
rrvocalicvowelsignbengali;09C4
rrvocalicvowelsigndeva;0944
rrvocalicvowelsigngujarati;0AC4
rsuperior;F6F1
rtblock;2590
rturned;0279
rturnedsuperior;02B4
ruhiragana;308B
rukatakana;30EB
rukatakanahalfwidth;FF99
rupeemarkbengali;09F2
rupeesignbengali;09F3
rupiah;F6DD
ruthai;0E24
rvocalicbengali;098B
rvocalicdeva;090B
rvocalicgujarati;0A8B
rvocalicvowelsignbengali;09C3
rvocalicvowelsigndeva;0943
rvocalicvowelsigngujarati;0AC3
s;0073
sabengali;09B8
sacute;015B
sacutedotaccent;1E65
sadarabic;0635
sadeva;0938
sadfinalarabic;FEBA
sadinitialarabic;FEBB
sadmedialarabic;FEBC
sagujarati;0AB8
sagurmukhi;0A38
sahiragana;3055
sakatakana;30B5
sakatakanahalfwidth;FF7B
sallallahoualayhewasallamarabic;FDFA
samekh;05E1
samekhdagesh;FB41
samekhdageshhebrew;FB41
samekhhebrew;05E1
saraaathai;0E32
saraaethai;0E41
saraaimaimalaithai;0E44
saraaimaimuanthai;0E43
saraamthai;0E33
saraathai;0E30
saraethai;0E40
saraiileftthai;F886
saraiithai;0E35
saraileftthai;F885
saraithai;0E34
saraothai;0E42
saraueeleftthai;F888
saraueethai;0E37
saraueleftthai;F887
sarauethai;0E36
sarauthai;0E38
sarauuthai;0E39
sbopomofo;3119
scaron;0161
scarondotaccent;1E67
scedilla;015F
schwa;0259
schwacyrillic;04D9
schwadieresiscyrillic;04DB
schwahook;025A
scircle;24E2
scircumflex;015D
scommaaccent;0219
sdotaccent;1E61
sdotbelow;1E63
sdotbelowdotaccent;1E69
seagullbelowcmb;033C
second;2033
secondtonechinese;02CA
section;00A7
seenarabic;0633
seenfinalarabic;FEB2
seeninitialarabic;FEB3
seenmedialarabic;FEB4
segol;05B6
segol13;05B6
segol1f;05B6
segol2c;05B6
segolhebrew;05B6
segolnarrowhebrew;05B6
segolquarterhebrew;05B6
segoltahebrew;0592
segolwidehebrew;05B6
seharmenian;057D
sehiragana;305B
sekatakana;30BB
sekatakanahalfwidth;FF7E
semicolon;003B
semicolonarabic;061B
semicolonmonospace;FF1B
semicolonsmall;FE54
semivoicedmarkkana;309C
semivoicedmarkkanahalfwidth;FF9F
sentisquare;3322
sentosquare;3323
seven;0037
sevenarabic;0667
sevenbengali;09ED
sevencircle;2466
sevencircleinversesansserif;2790
sevendeva;096D
seveneighths;215E
sevengujarati;0AED
sevengurmukhi;0A6D
sevenhackarabic;0667
sevenhangzhou;3027
sevenideographicparen;3226
seveninferior;2087
sevenmonospace;FF17
sevenoldstyle;F737
sevenparen;247A
sevenperiod;248E
sevenpersian;06F7
sevenroman;2176
sevensuperior;2077
seventeencircle;2470
seventeenparen;2484
seventeenperiod;2498
seventhai;0E57
sfthyphen;00AD
shaarmenian;0577
shabengali;09B6
shacyrillic;0448
shaddaarabic;0651
shaddadammaarabic;FC61
shaddadammatanarabic;FC5E
shaddafathaarabic;FC60
shaddafathatanarabic;0651 064B
shaddakasraarabic;FC62
shaddakasratanarabic;FC5F
shade;2592
shadedark;2593
shadelight;2591
shademedium;2592
shadeva;0936
shagujarati;0AB6
shagurmukhi;0A36
shalshelethebrew;0593
shbopomofo;3115
shchacyrillic;0449
sheenarabic;0634
sheenfinalarabic;FEB6
sheeninitialarabic;FEB7
sheenmedialarabic;FEB8
sheicoptic;03E3
sheqel;20AA
sheqelhebrew;20AA
sheva;05B0
sheva115;05B0
sheva15;05B0
sheva22;05B0
sheva2e;05B0
shevahebrew;05B0
shevanarrowhebrew;05B0
shevaquarterhebrew;05B0
shevawidehebrew;05B0
shhacyrillic;04BB
shimacoptic;03ED
shin;05E9
shindagesh;FB49
shindageshhebrew;FB49
shindageshshindot;FB2C
shindageshshindothebrew;FB2C
shindageshsindot;FB2D
shindageshsindothebrew;FB2D
shindothebrew;05C1
shinhebrew;05E9
shinshindot;FB2A
shinshindothebrew;FB2A
shinsindot;FB2B
shinsindothebrew;FB2B
shook;0282
sigma;03C3
sigma1;03C2
sigmafinal;03C2
sigmalunatesymbolgreek;03F2
sihiragana;3057
sikatakana;30B7
sikatakanahalfwidth;FF7C
siluqhebrew;05BD
siluqlefthebrew;05BD
similar;223C
sindothebrew;05C2
siosacirclekorean;3274
siosaparenkorean;3214
sioscieuckorean;317E
sioscirclekorean;3266
sioskiyeokkorean;317A
sioskorean;3145
siosnieunkorean;317B
siosparenkorean;3206
siospieupkorean;317D
siostikeutkorean;317C
six;0036
sixarabic;0666
sixbengali;09EC
sixcircle;2465
sixcircleinversesansserif;278F
sixdeva;096C
sixgujarati;0AEC
sixgurmukhi;0A6C
sixhackarabic;0666
sixhangzhou;3026
sixideographicparen;3225
sixinferior;2086
sixmonospace;FF16
sixoldstyle;F736
sixparen;2479
sixperiod;248D
sixpersian;06F6
sixroman;2175
sixsuperior;2076
sixteencircle;246F
sixteencurrencydenominatorbengali;09F9
sixteenparen;2483
sixteenperiod;2497
sixthai;0E56
slash;002F
slashmonospace;FF0F
slong;017F
slongdotaccent;1E9B
smileface;263A
smonospace;FF53
sofpasuqhebrew;05C3
softhyphen;00AD
softsigncyrillic;044C
sohiragana;305D
sokatakana;30BD
sokatakanahalfwidth;FF7F
soliduslongoverlaycmb;0338
solidusshortoverlaycmb;0337
sorusithai;0E29
sosalathai;0E28
sosothai;0E0B
sosuathai;0E2A
space;0020
spacehackarabic;0020
spade;2660
spadesuitblack;2660
spadesuitwhite;2664
sparen;24AE
squarebelowcmb;033B
squarecc;33C4
squarecm;339D
squarediagonalcrosshatchfill;25A9
squarehorizontalfill;25A4
squarekg;338F
squarekm;339E
squarekmcapital;33CE
squareln;33D1
squarelog;33D2
squaremg;338E
squaremil;33D5
squaremm;339C
squaremsquared;33A1
squareorthogonalcrosshatchfill;25A6
squareupperlefttolowerrightfill;25A7
squareupperrighttolowerleftfill;25A8
squareverticalfill;25A5
squarewhitewithsmallblack;25A3
srsquare;33DB
ssabengali;09B7
ssadeva;0937
ssagujarati;0AB7
ssangcieuckorean;3149
ssanghieuhkorean;3185
ssangieungkorean;3180
ssangkiyeokkorean;3132
ssangnieunkorean;3165
ssangpieupkorean;3143
ssangsioskorean;3146
ssangtikeutkorean;3138
ssuperior;F6F2
sterling;00A3
sterlingmonospace;FFE1
strokelongoverlaycmb;0336
strokeshortoverlaycmb;0335
subset;2282
subsetnotequal;228A
subsetorequal;2286
succeeds;227B
suchthat;220B
suhiragana;3059
sukatakana;30B9
sukatakanahalfwidth;FF7D
sukunarabic;0652
summation;2211
sun;263C
superset;2283
supersetnotequal;228B
supersetorequal;2287
svsquare;33DC
syouwaerasquare;337C
t;0074
tabengali;09A4
tackdown;22A4
tackleft;22A3
tadeva;0924
tagujarati;0AA4
tagurmukhi;0A24
taharabic;0637
tahfinalarabic;FEC2
tahinitialarabic;FEC3
tahiragana;305F
tahmedialarabic;FEC4
taisyouerasquare;337D
takatakana;30BF
takatakanahalfwidth;FF80
tatweelarabic;0640
tau;03C4
tav;05EA
tavdages;FB4A
tavdagesh;FB4A
tavdageshhebrew;FB4A
tavhebrew;05EA
tbar;0167
tbopomofo;310A
tcaron;0165
tccurl;02A8
tcedilla;0163
tcheharabic;0686
tchehfinalarabic;FB7B
tchehinitialarabic;FB7C
tchehmedialarabic;FB7D
tchehmeeminitialarabic;FB7C FEE4
tcircle;24E3
tcircumflexbelow;1E71
tcommaaccent;0163
tdieresis;1E97
tdotaccent;1E6B
tdotbelow;1E6D
tecyrillic;0442
tedescendercyrillic;04AD
teharabic;062A
tehfinalarabic;FE96
tehhahinitialarabic;FCA2
tehhahisolatedarabic;FC0C
tehinitialarabic;FE97
tehiragana;3066
tehjeeminitialarabic;FCA1
tehjeemisolatedarabic;FC0B
tehmarbutaarabic;0629
tehmarbutafinalarabic;FE94
tehmedialarabic;FE98
tehmeeminitialarabic;FCA4
tehmeemisolatedarabic;FC0E
tehnoonfinalarabic;FC73
tekatakana;30C6
tekatakanahalfwidth;FF83
telephone;2121
telephoneblack;260E
telishagedolahebrew;05A0
telishaqetanahebrew;05A9
tencircle;2469
tenideographicparen;3229
tenparen;247D
tenperiod;2491
tenroman;2179
tesh;02A7
tet;05D8
tetdagesh;FB38
tetdageshhebrew;FB38
tethebrew;05D8
tetsecyrillic;04B5
tevirhebrew;059B
tevirlefthebrew;059B
thabengali;09A5
thadeva;0925
thagujarati;0AA5
thagurmukhi;0A25
thalarabic;0630
thalfinalarabic;FEAC
thanthakhatlowleftthai;F898
thanthakhatlowrightthai;F897
thanthakhatthai;0E4C
thanthakhatupperleftthai;F896
theharabic;062B
thehfinalarabic;FE9A
thehinitialarabic;FE9B
thehmedialarabic;FE9C
thereexists;2203
therefore;2234
theta;03B8
theta1;03D1
thetasymbolgreek;03D1
thieuthacirclekorean;3279
thieuthaparenkorean;3219
thieuthcirclekorean;326B
thieuthkorean;314C
thieuthparenkorean;320B
thirteencircle;246C
thirteenparen;2480
thirteenperiod;2494
thonangmonthothai;0E11
thook;01AD
thophuthaothai;0E12
thorn;00FE
thothahanthai;0E17
thothanthai;0E10
thothongthai;0E18
thothungthai;0E16
thousandcyrillic;0482
thousandsseparatorarabic;066C
thousandsseparatorpersian;066C
three;0033
threearabic;0663
threebengali;09E9
threecircle;2462
threecircleinversesansserif;278C
threedeva;0969
threeeighths;215C
threegujarati;0AE9
threegurmukhi;0A69
threehackarabic;0663
threehangzhou;3023
threeideographicparen;3222
threeinferior;2083
threemonospace;FF13
threenumeratorbengali;09F6
threeoldstyle;F733
threeparen;2476
threeperiod;248A
threepersian;06F3
threequarters;00BE
threequartersemdash;F6DE
threeroman;2172
threesuperior;00B3
threethai;0E53
thzsquare;3394
tihiragana;3061
tikatakana;30C1
tikatakanahalfwidth;FF81
tikeutacirclekorean;3270
tikeutaparenkorean;3210
tikeutcirclekorean;3262
tikeutkorean;3137
tikeutparenkorean;3202
tilde;02DC
tildebelowcmb;0330
tildecmb;0303
tildecomb;0303
tildedoublecmb;0360
tildeoperator;223C
tildeoverlaycmb;0334
tildeverticalcmb;033E
timescircle;2297
tipehahebrew;0596
tipehalefthebrew;0596
tippigurmukhi;0A70
titlocyrilliccmb;0483
tiwnarmenian;057F
tlinebelow;1E6F
tmonospace;FF54
toarmenian;0569
tohiragana;3068
tokatakana;30C8
tokatakanahalfwidth;FF84
tonebarextrahighmod;02E5
tonebarextralowmod;02E9
tonebarhighmod;02E6
tonebarlowmod;02E8
tonebarmidmod;02E7
tonefive;01BD
tonesix;0185
tonetwo;01A8
tonos;0384
tonsquare;3327
topatakthai;0E0F
tortoiseshellbracketleft;3014
tortoiseshellbracketleftsmall;FE5D
tortoiseshellbracketleftvertical;FE39
tortoiseshellbracketright;3015
tortoiseshellbracketrightsmall;FE5E
tortoiseshellbracketrightvertical;FE3A
totaothai;0E15
tpalatalhook;01AB
tparen;24AF
trademark;2122
trademarksans;F8EA
trademarkserif;F6DB
tretroflexhook;0288
triagdn;25BC
triaglf;25C4
triagrt;25BA
triagup;25B2
ts;02A6
tsadi;05E6
tsadidagesh;FB46
tsadidageshhebrew;FB46
tsadihebrew;05E6
tsecyrillic;0446
tsere;05B5
tsere12;05B5
tsere1e;05B5
tsere2b;05B5
tserehebrew;05B5
tserenarrowhebrew;05B5
tserequarterhebrew;05B5
tserewidehebrew;05B5
tshecyrillic;045B
tsuperior;F6F3
ttabengali;099F
ttadeva;091F
ttagujarati;0A9F
ttagurmukhi;0A1F
tteharabic;0679
ttehfinalarabic;FB67
ttehinitialarabic;FB68
ttehmedialarabic;FB69
tthabengali;09A0
tthadeva;0920
tthagujarati;0AA0
tthagurmukhi;0A20
tturned;0287
tuhiragana;3064
tukatakana;30C4
tukatakanahalfwidth;FF82
tusmallhiragana;3063
tusmallkatakana;30C3
tusmallkatakanahalfwidth;FF6F
twelvecircle;246B
twelveparen;247F
twelveperiod;2493
twelveroman;217B
twentycircle;2473
twentyhangzhou;5344
twentyparen;2487
twentyperiod;249B
two;0032
twoarabic;0662
twobengali;09E8
twocircle;2461
twocircleinversesansserif;278B
twodeva;0968
twodotenleader;2025
twodotleader;2025
twodotleadervertical;FE30
twogujarati;0AE8
twogurmukhi;0A68
twohackarabic;0662
twohangzhou;3022
twoideographicparen;3221
twoinferior;2082
twomonospace;FF12
twonumeratorbengali;09F5
twooldstyle;F732
twoparen;2475
twoperiod;2489
twopersian;06F2
tworoman;2171
twostroke;01BB
twosuperior;00B2
twothai;0E52
twothirds;2154
u;0075
uacute;00FA
ubar;0289
ubengali;0989
ubopomofo;3128
ubreve;016D
ucaron;01D4
ucircle;24E4
ucircumflex;00FB
ucircumflexbelow;1E77
ucyrillic;0443
udattadeva;0951
udblacute;0171
udblgrave;0215
udeva;0909
udieresis;00FC
udieresisacute;01D8
udieresisbelow;1E73
udieresiscaron;01DA
udieresiscyrillic;04F1
udieresisgrave;01DC
udieresismacron;01D6
udotbelow;1EE5
ugrave;00F9
ugujarati;0A89
ugurmukhi;0A09
uhiragana;3046
uhookabove;1EE7
uhorn;01B0
uhornacute;1EE9
uhorndotbelow;1EF1
uhorngrave;1EEB
uhornhookabove;1EED
uhorntilde;1EEF
uhungarumlaut;0171
uhungarumlautcyrillic;04F3
uinvertedbreve;0217
ukatakana;30A6
ukatakanahalfwidth;FF73
ukcyrillic;0479
ukorean;315C
umacron;016B
umacroncyrillic;04EF
umacrondieresis;1E7B
umatragurmukhi;0A41
umonospace;FF55
underscore;005F
underscoredbl;2017
underscoremonospace;FF3F
underscorevertical;FE33
underscorewavy;FE4F
union;222A
universal;2200
uogonek;0173
uparen;24B0
upblock;2580
upperdothebrew;05C4
upsilon;03C5
upsilondieresis;03CB
upsilondieresistonos;03B0
upsilonlatin;028A
upsilontonos;03CD
uptackbelowcmb;031D
uptackmod;02D4
uragurmukhi;0A73
uring;016F
ushortcyrillic;045E
usmallhiragana;3045
usmallkatakana;30A5
usmallkatakanahalfwidth;FF69
ustraightcyrillic;04AF
ustraightstrokecyrillic;04B1
utilde;0169
utildeacute;1E79
utildebelow;1E75
uubengali;098A
uudeva;090A
uugujarati;0A8A
uugurmukhi;0A0A
uumatragurmukhi;0A42
uuvowelsignbengali;09C2
uuvowelsigndeva;0942
uuvowelsigngujarati;0AC2
uvowelsignbengali;09C1
uvowelsigndeva;0941
uvowelsigngujarati;0AC1
v;0076
vadeva;0935
vagujarati;0AB5
vagurmukhi;0A35
vakatakana;30F7
vav;05D5
vavdagesh;FB35
vavdagesh65;FB35
vavdageshhebrew;FB35
vavhebrew;05D5
vavholam;FB4B
vavholamhebrew;FB4B
vavvavhebrew;05F0
vavyodhebrew;05F1
vcircle;24E5
vdotbelow;1E7F
vecyrillic;0432
veharabic;06A4
vehfinalarabic;FB6B
vehinitialarabic;FB6C
vehmedialarabic;FB6D
vekatakana;30F9
venus;2640
verticalbar;007C
verticallineabovecmb;030D
verticallinebelowcmb;0329
verticallinelowmod;02CC
verticallinemod;02C8
vewarmenian;057E
vhook;028B
vikatakana;30F8
viramabengali;09CD
viramadeva;094D
viramagujarati;0ACD
visargabengali;0983
visargadeva;0903
visargagujarati;0A83
vmonospace;FF56
voarmenian;0578
voicediterationhiragana;309E
voicediterationkatakana;30FE
voicedmarkkana;309B
voicedmarkkanahalfwidth;FF9E
vokatakana;30FA
vparen;24B1
vtilde;1E7D
vturned;028C
vuhiragana;3094
vukatakana;30F4
w;0077
wacute;1E83
waekorean;3159
wahiragana;308F
wakatakana;30EF
wakatakanahalfwidth;FF9C
wakorean;3158
wasmallhiragana;308E
wasmallkatakana;30EE
wattosquare;3357
wavedash;301C
wavyunderscorevertical;FE34
wawarabic;0648
wawfinalarabic;FEEE
wawhamzaabovearabic;0624
wawhamzaabovefinalarabic;FE86
wbsquare;33DD
wcircle;24E6
wcircumflex;0175
wdieresis;1E85
wdotaccent;1E87
wdotbelow;1E89
wehiragana;3091
weierstrass;2118
wekatakana;30F1
wekorean;315E
weokorean;315D
wgrave;1E81
whitebullet;25E6
whitecircle;25CB
whitecircleinverse;25D9
whitecornerbracketleft;300E
whitecornerbracketleftvertical;FE43
whitecornerbracketright;300F
whitecornerbracketrightvertical;FE44
whitediamond;25C7
whitediamondcontainingblacksmalldiamond;25C8
whitedownpointingsmalltriangle;25BF
whitedownpointingtriangle;25BD
whiteleftpointingsmalltriangle;25C3
whiteleftpointingtriangle;25C1
whitelenticularbracketleft;3016
whitelenticularbracketright;3017
whiterightpointingsmalltriangle;25B9
whiterightpointingtriangle;25B7
whitesmallsquare;25AB
whitesmilingface;263A
whitesquare;25A1
whitestar;2606
whitetelephone;260F
whitetortoiseshellbracketleft;3018
whitetortoiseshellbracketright;3019
whiteuppointingsmalltriangle;25B5
whiteuppointingtriangle;25B3
wihiragana;3090
wikatakana;30F0
wikorean;315F
wmonospace;FF57
wohiragana;3092
wokatakana;30F2
wokatakanahalfwidth;FF66
won;20A9
wonmonospace;FFE6
wowaenthai;0E27
wparen;24B2
wring;1E98
wsuperior;02B7
wturned;028D
wynn;01BF
x;0078
xabovecmb;033D
xbopomofo;3112
xcircle;24E7
xdieresis;1E8D
xdotaccent;1E8B
xeharmenian;056D
xi;03BE
xmonospace;FF58
xparen;24B3
xsuperior;02E3
y;0079
yaadosquare;334E
yabengali;09AF
yacute;00FD
yadeva;092F
yaekorean;3152
yagujarati;0AAF
yagurmukhi;0A2F
yahiragana;3084
yakatakana;30E4
yakatakanahalfwidth;FF94
yakorean;3151
yamakkanthai;0E4E
yasmallhiragana;3083
yasmallkatakana;30E3
yasmallkatakanahalfwidth;FF6C
yatcyrillic;0463
ycircle;24E8
ycircumflex;0177
ydieresis;00FF
ydotaccent;1E8F
ydotbelow;1EF5
yeharabic;064A
yehbarreearabic;06D2
yehbarreefinalarabic;FBAF
yehfinalarabic;FEF2
yehhamzaabovearabic;0626
yehhamzaabovefinalarabic;FE8A
yehhamzaaboveinitialarabic;FE8B
yehhamzaabovemedialarabic;FE8C
yehinitialarabic;FEF3
yehmedialarabic;FEF4
yehmeeminitialarabic;FCDD
yehmeemisolatedarabic;FC58
yehnoonfinalarabic;FC94
yehthreedotsbelowarabic;06D1
yekorean;3156
yen;00A5
yenmonospace;FFE5
yeokorean;3155
yeorinhieuhkorean;3186
yerahbenyomohebrew;05AA
yerahbenyomolefthebrew;05AA
yericyrillic;044B
yerudieresiscyrillic;04F9
yesieungkorean;3181
yesieungpansioskorean;3183
yesieungsioskorean;3182
yetivhebrew;059A
ygrave;1EF3
yhook;01B4
yhookabove;1EF7
yiarmenian;0575
yicyrillic;0457
yikorean;3162
yinyang;262F
yiwnarmenian;0582
ymonospace;FF59
yod;05D9
yoddagesh;FB39
yoddageshhebrew;FB39
yodhebrew;05D9
yodyodhebrew;05F2
yodyodpatahhebrew;FB1F
yohiragana;3088
yoikorean;3189
yokatakana;30E8
yokatakanahalfwidth;FF96
yokorean;315B
yosmallhiragana;3087
yosmallkatakana;30E7
yosmallkatakanahalfwidth;FF6E
yotgreek;03F3
yoyaekorean;3188
yoyakorean;3187
yoyakthai;0E22
yoyingthai;0E0D
yparen;24B4
ypogegrammeni;037A
ypogegrammenigreekcmb;0345
yr;01A6
yring;1E99
ysuperior;02B8
ytilde;1EF9
yturned;028E
yuhiragana;3086
yuikorean;318C
yukatakana;30E6
yukatakanahalfwidth;FF95
yukorean;3160
yusbigcyrillic;046B
yusbigiotifiedcyrillic;046D
yuslittlecyrillic;0467
yuslittleiotifiedcyrillic;0469
yusmallhiragana;3085
yusmallkatakana;30E5
yusmallkatakanahalfwidth;FF6D
yuyekorean;318B
yuyeokorean;318A
yyabengali;09DF
yyadeva;095F
z;007A
zaarmenian;0566
zacute;017A
zadeva;095B
zagurmukhi;0A5B
zaharabic;0638
zahfinalarabic;FEC6
zahinitialarabic;FEC7
zahiragana;3056
zahmedialarabic;FEC8
zainarabic;0632
zainfinalarabic;FEB0
zakatakana;30B6
zaqefgadolhebrew;0595
zaqefqatanhebrew;0594
zarqahebrew;0598
zayin;05D6
zayindagesh;FB36
zayindageshhebrew;FB36
zayinhebrew;05D6
zbopomofo;3117
zcaron;017E
zcircle;24E9
zcircumflex;1E91
zcurl;0291
zdot;017C
zdotaccent;017C
zdotbelow;1E93
zecyrillic;0437
zedescendercyrillic;0499
zedieresiscyrillic;04DF
zehiragana;305C
zekatakana;30BC
zero;0030
zeroarabic;0660
zerobengali;09E6
zerodeva;0966
zerogujarati;0AE6
zerogurmukhi;0A66
zerohackarabic;0660
zeroinferior;2080
zeromonospace;FF10
zerooldstyle;F730
zeropersian;06F0
zerosuperior;2070
zerothai;0E50
zerowidthjoiner;FEFF
zerowidthnonjoiner;200C
zerowidthspace;200B
zeta;03B6
zhbopomofo;3113
zhearmenian;056A
zhebrevecyrillic;04C2
zhecyrillic;0436
zhedescendercyrillic;0497
zhedieresiscyrillic;04DD
zihiragana;3058
zikatakana;30B8
zinorhebrew;05AE
zlinebelow;1E95
zmonospace;FF5A
zohiragana;305E
zokatakana;30BE
zparen;24B5
zretroflexhook;0290
zstroke;01B6
zuhiragana;305A
zukatakana;30BA
"""
# string table management
#
class StringTable:
def __init__( self, name_list, master_table_name ):
self.names = name_list
self.master_table = master_table_name
self.indices = {}
index = 0
for name in name_list:
self.indices[name] = index
index += len( name ) + 1
self.total = index
def dump( self, file ):
write = file.write
write( " static const char " + self.master_table +
"[" + repr( self.total ) + "] =\n" )
write( " {\n" )
line = ""
for name in self.names:
line += " '"
line += string.join( ( re.findall( ".", name ) ), "','" )
line += "', 0,\n"
write( line + " };\n\n\n" )
def dump_sublist( self, file, table_name, macro_name, sublist ):
write = file.write
write( "#define " + macro_name + " " + repr( len( sublist ) ) + "\n\n" )
write( " /* Values are offsets into the `" +
self.master_table + "' table */\n\n" )
write( " static const short " + table_name +
"[" + macro_name + "] =\n" )
write( " {\n" )
line = " "
comma = ""
col = 0
for name in sublist:
line += comma
line += "%4d" % self.indices[name]
col += 1
comma = ","
if col == 14:
col = 0
comma = ",\n "
write( line + "\n };\n\n\n" )
# We now store the Adobe Glyph List in compressed form. The list is put
# into a data structure called `trie' (because it has a tree-like
# appearance). Consider, for example, that you want to store the
# following name mapping:
#
# A => 1
# Aacute => 6
# Abalon => 2
# Abstract => 4
#
# It is possible to store the entries as follows.
#
# A => 1
# |
# +-acute => 6
# |
# +-b
# |
# +-alon => 2
# |
# +-stract => 4
#
# We see that each node in the trie has:
#
# - one or more `letters'
# - an optional value
# - zero or more child nodes
#
# The first step is to call
#
# root = StringNode( "", 0 )
# for word in map.values():
# root.add( word, map[word] )
#
# which creates a large trie where each node has only one children.
#
# Executing
#
# root = root.optimize()
#
# optimizes the trie by merging the letters of successive nodes whenever
# possible.
#
# Each node of the trie is stored as follows.
#
# - First the node's letter, according to the following scheme. We
# use the fact that in the AGL no name contains character codes > 127.
#
# name bitsize description
# ----------------------------------------------------------------
# notlast 1 Set to 1 if this is not the last letter
# in the word.
# ascii 7 The letter's ASCII value.
#
# - The letter is followed by a children count and the value of the
# current key (if any). Again we can do some optimization because all
# AGL entries are from the BMP; this means that 16 bits are sufficient
# to store its Unicode values. Additionally, no node has more than
# 127 children.
#
# name bitsize description
# -----------------------------------------
# hasvalue 1 Set to 1 if a 16-bit Unicode value follows.
# num_children 7 Number of children. Can be 0 only if
# `hasvalue' is set to 1.
# value 16 Optional Unicode value.
#
# - A node is finished by a list of 16bit absolute offsets to the
# children, which must be sorted in increasing order of their first
# letter.
#
# For simplicity, all 16bit quantities are stored in big-endian order.
#
# The root node has first letter = 0, and no value.
#
class StringNode:
def __init__( self, letter, value ):
self.letter = letter
self.value = value
self.children = {}
def __cmp__( self, other ):
return ord( self.letter[0] ) - ord( other.letter[0] )
def add( self, word, value ):
if len( word ) == 0:
self.value = value
return
letter = word[0]
word = word[1:]
if self.children.has_key( letter ):
child = self.children[letter]
else:
child = StringNode( letter, 0 )
self.children[letter] = child
child.add( word, value )
def optimize( self ):
# optimize all children first
children = self.children.values()
self.children = {}
for child in children:
self.children[child.letter[0]] = child.optimize()
# don't optimize if there's a value,
# if we don't have any child or if we
# have more than one child
if ( self.value != 0 ) or ( not children ) or len( children ) > 1:
return self
child = children[0]
self.letter += child.letter
self.value = child.value
self.children = child.children
return self
def dump_debug( self, write, margin ):
# this is used during debugging
line = margin + "+-"
if len( self.letter ) == 0:
line += "<NOLETTER>"
else:
line += self.letter
if self.value:
line += " => " + repr( self.value )
write( line + "\n" )
if self.children:
margin += "| "
for child in self.children.values():
child.dump_debug( write, margin )
def locate( self, index ):
self.index = index
if len( self.letter ) > 0:
index += len( self.letter ) + 1
else:
index += 2
if self.value != 0:
index += 2
children = self.children.values()
children.sort()
index += 2 * len( children )
for child in children:
index = child.locate( index )
return index
def store( self, storage ):
# write the letters
l = len( self.letter )
if l == 0:
storage += struct.pack( "B", 0 )
else:
for n in range( l ):
val = ord( self.letter[n] )
if n < l - 1:
val += 128
storage += struct.pack( "B", val )
# write the count
children = self.children.values()
children.sort()
count = len( children )
if self.value != 0:
storage += struct.pack( "!BH", count + 128, self.value )
else:
storage += struct.pack( "B", count )
for child in children:
storage += struct.pack( "!H", child.index )
for child in children:
storage = child.store( storage )
return storage
def adobe_glyph_values():
"""return the list of glyph names and their unicode values"""
lines = string.split( adobe_glyph_list, '\n' )
glyphs = []
values = []
for line in lines:
if line:
fields = string.split( line, ';' )
# print fields[1] + ' - ' + fields[0]
subfields = string.split( fields[1], ' ' )
if len( subfields ) == 1:
glyphs.append( fields[0] )
values.append( fields[1] )
return glyphs, values
def filter_glyph_names( alist, filter ):
"""filter `alist' by taking _out_ all glyph names that are in `filter'"""
count = 0
extras = []
for name in alist:
try:
filtered_index = filter.index( name )
except:
extras.append( name )
return extras
def dump_encoding( file, encoding_name, encoding_list ):
"""dump a given encoding"""
write = file.write
write( " /* the following are indices into the SID name table */\n" )
write( " static const unsigned short " + encoding_name +
"[" + repr( len( encoding_list ) ) + "] =\n" )
write( " {\n" )
line = " "
comma = ""
col = 0
for value in encoding_list:
line += comma
line += "%3d" % value
comma = ","
col += 1
if col == 16:
col = 0
comma = ",\n "
write( line + "\n };\n\n\n" )
def dump_array( the_array, write, array_name ):
"""dumps a given encoding"""
write( " static const unsigned char " + array_name +
"[" + repr( len( the_array ) ) + "L] =\n" )
write( " {\n" )
line = ""
comma = " "
col = 0
for value in the_array:
line += comma
line += "%3d" % ord( value )
comma = ","
col += 1
if col == 16:
col = 0
comma = ",\n "
if len( line ) > 1024:
write( line )
line = ""
write( line + "\n };\n\n\n" )
def main():
"""main program body"""
if len( sys.argv ) != 2:
print __doc__ % sys.argv[0]
sys.exit( 1 )
file = open( sys.argv[1], "w\n" )
write = file.write
count_sid = len( sid_standard_names )
# `mac_extras' contains the list of glyph names in the Macintosh standard
# encoding which are not in the SID Standard Names.
#
mac_extras = filter_glyph_names( mac_standard_names, sid_standard_names )
# `base_list' contains the names of our final glyph names table.
# It consists of the `mac_extras' glyph names, followed by the SID
# standard names.
#
mac_extras_count = len( mac_extras )
base_list = mac_extras + sid_standard_names
write( "/***************************************************************************/\n" )
write( "/* */\n" )
write( "/* %-71s*/\n" % os.path.basename( sys.argv[1] ) )
write( "/* */\n" )
write( "/* PostScript glyph names. */\n" )
write( "/* */\n" )
write( "/* Copyright 2005, 2008 by */\n" )
write( "/* David Turner, Robert Wilhelm, and Werner Lemberg. */\n" )
write( "/* */\n" )
write( "/* This file is part of the FreeType project, and may only be used, */\n" )
write( "/* modified, and distributed under the terms of the FreeType project */\n" )
write( "/* license, LICENSE.TXT. By continuing to use, modify, or distribute */\n" )
write( "/* this file you indicate that you have read the license and */\n" )
write( "/* understand and accept it fully. */\n" )
write( "/* */\n" )
write( "/***************************************************************************/\n" )
write( "\n" )
write( "\n" )
write( " /* This file has been generated automatically -- do not edit! */\n" )
write( "\n" )
write( "\n" )
# dump final glyph list (mac extras + sid standard names)
#
st = StringTable( base_list, "ft_standard_glyph_names" )
st.dump( file )
st.dump_sublist( file, "ft_mac_names",
"FT_NUM_MAC_NAMES", mac_standard_names )
st.dump_sublist( file, "ft_sid_names",
"FT_NUM_SID_NAMES", sid_standard_names )
dump_encoding( file, "t1_standard_encoding", t1_standard_encoding )
dump_encoding( file, "t1_expert_encoding", t1_expert_encoding )
# dump the AGL in its compressed form
#
agl_glyphs, agl_values = adobe_glyph_values()
dict = StringNode( "", 0 )
for g in range( len( agl_glyphs ) ):
dict.add( agl_glyphs[g], eval( "0x" + agl_values[g] ) )
dict = dict.optimize()
dict_len = dict.locate( 0 )
dict_array = dict.store( "" )
write( """\
/*
* This table is a compressed version of the Adobe Glyph List (AGL),
* optimized for efficient searching. It has been generated by the
* `glnames.py' python script located in the `src/tools' directory.
*
* The lookup function to get the Unicode value for a given string
* is defined below the table.
*/
#ifdef FT_CONFIG_OPTION_ADOBE_GLYPH_LIST
""" )
dump_array( dict_array, write, "ft_adobe_glyph_list" )
# write the lookup routine now
#
write( """\
/*
* This function searches the compressed table efficiently.
*/
static unsigned long
ft_get_adobe_glyph_index( const char* name,
const char* limit )
{
int c = 0;
int count, min, max;
const unsigned char* p = ft_adobe_glyph_list;
if ( name == 0 || name >= limit )
goto NotFound;
c = *name++;
count = p[1];
p += 2;
min = 0;
max = count;
while ( min < max )
{
int mid = ( min + max ) >> 1;
const unsigned char* q = p + mid * 2;
int c2;
q = ft_adobe_glyph_list + ( ( (int)q[0] << 8 ) | q[1] );
c2 = q[0] & 127;
if ( c2 == c )
{
p = q;
goto Found;
}
if ( c2 < c )
min = mid + 1;
else
max = mid;
}
goto NotFound;
Found:
for (;;)
{
/* assert (*p & 127) == c */
if ( name >= limit )
{
if ( (p[0] & 128) == 0 &&
(p[1] & 128) != 0 )
return (unsigned long)( ( (int)p[2] << 8 ) | p[3] );
goto NotFound;
}
c = *name++;
if ( p[0] & 128 )
{
p++;
if ( c != (p[0] & 127) )
goto NotFound;
continue;
}
p++;
count = p[0] & 127;
if ( p[0] & 128 )
p += 2;
p++;
for ( ; count > 0; count--, p += 2 )
{
int offset = ( (int)p[0] << 8 ) | p[1];
const unsigned char* q = ft_adobe_glyph_list + offset;
if ( c == ( q[0] & 127 ) )
{
p = q;
goto NextIter;
}
}
goto NotFound;
NextIter:
;
}
NotFound:
return 0;
}
#endif /* FT_CONFIG_OPTION_ADOBE_GLYPH_LIST */
""" )
if 0: # generate unit test, or don't
#
# now write the unit test to check that everything works OK
#
write( "#ifdef TEST\n\n" )
write( "static const char* const the_names[] = {\n" )
for name in agl_glyphs:
write( ' "' + name + '",\n' )
write( " 0\n};\n" )
write( "static const unsigned long the_values[] = {\n" )
for val in agl_values:
write( ' 0x' + val + ',\n' )
write( " 0\n};\n" )
write( """
#include <stdlib.h>
#include <stdio.h>
int
main( void )
{
int result = 0;
const char* const* names = the_names;
const unsigned long* values = the_values;
for ( ; *names; names++, values++ )
{
const char* name = *names;
unsigned long reference = *values;
unsigned long value;
value = ft_get_adobe_glyph_index( name, name + strlen( name ) );
if ( value != reference )
{
result = 1;
fprintf( stderr, "name '%s' => %04x instead of %04x\\n",
name, value, reference );
}
}
return result;
}
""" )
write( "#endif /* TEST */\n" )
write("\n/* END */\n")
# Now run the main routine
#
main()
# END
| bsd-3-clause |
adeepkit01/networks | src/csma/bindings/modulegen__gcc_ILP32.py | 28 | 367346 | from pybindgen import Module, FileCodeSink, param, retval, cppclass, typehandlers
import pybindgen.settings
import warnings
class ErrorHandler(pybindgen.settings.ErrorHandler):
def handle_error(self, wrapper, exception, traceback_):
warnings.warn("exception %r in wrapper %s" % (exception, wrapper))
return True
pybindgen.settings.error_handler = ErrorHandler()
import sys
def module_init():
root_module = Module('ns.csma', cpp_namespace='::ns3')
return root_module
def register_types(module):
root_module = module.get_root()
## csma-channel.h (module 'csma'): ns3::WireState [enumeration]
module.add_enum('WireState', ['IDLE', 'TRANSMITTING', 'PROPAGATING'])
## address.h (module 'network'): ns3::Address [class]
module.add_class('Address', import_from_module='ns.network')
## address.h (module 'network'): ns3::Address::MaxSize_e [enumeration]
module.add_enum('MaxSize_e', ['MAX_SIZE'], outer_class=root_module['ns3::Address'], import_from_module='ns.network')
## trace-helper.h (module 'network'): ns3::AsciiTraceHelper [class]
module.add_class('AsciiTraceHelper', import_from_module='ns.network')
## trace-helper.h (module 'network'): ns3::AsciiTraceHelperForDevice [class]
module.add_class('AsciiTraceHelperForDevice', allow_subclassing=True, import_from_module='ns.network')
## attribute-construction-list.h (module 'core'): ns3::AttributeConstructionList [class]
module.add_class('AttributeConstructionList', import_from_module='ns.core')
## attribute-construction-list.h (module 'core'): ns3::AttributeConstructionList::Item [struct]
module.add_class('Item', import_from_module='ns.core', outer_class=root_module['ns3::AttributeConstructionList'])
## backoff.h (module 'csma'): ns3::Backoff [class]
module.add_class('Backoff')
## buffer.h (module 'network'): ns3::Buffer [class]
module.add_class('Buffer', import_from_module='ns.network')
## buffer.h (module 'network'): ns3::Buffer::Iterator [class]
module.add_class('Iterator', import_from_module='ns.network', outer_class=root_module['ns3::Buffer'])
## packet.h (module 'network'): ns3::ByteTagIterator [class]
module.add_class('ByteTagIterator', import_from_module='ns.network')
## packet.h (module 'network'): ns3::ByteTagIterator::Item [class]
module.add_class('Item', import_from_module='ns.network', outer_class=root_module['ns3::ByteTagIterator'])
## byte-tag-list.h (module 'network'): ns3::ByteTagList [class]
module.add_class('ByteTagList', import_from_module='ns.network')
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator [class]
module.add_class('Iterator', import_from_module='ns.network', outer_class=root_module['ns3::ByteTagList'])
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator::Item [struct]
module.add_class('Item', import_from_module='ns.network', outer_class=root_module['ns3::ByteTagList::Iterator'])
## callback.h (module 'core'): ns3::CallbackBase [class]
module.add_class('CallbackBase', import_from_module='ns.core')
## csma-channel.h (module 'csma'): ns3::CsmaDeviceRec [class]
module.add_class('CsmaDeviceRec')
## data-rate.h (module 'network'): ns3::DataRate [class]
module.add_class('DataRate', import_from_module='ns.network')
## event-id.h (module 'core'): ns3::EventId [class]
module.add_class('EventId', import_from_module='ns.core')
## hash.h (module 'core'): ns3::Hasher [class]
module.add_class('Hasher', import_from_module='ns.core')
## ipv4-address.h (module 'network'): ns3::Ipv4Address [class]
module.add_class('Ipv4Address', import_from_module='ns.network')
## ipv4-address.h (module 'network'): ns3::Ipv4Address [class]
root_module['ns3::Ipv4Address'].implicitly_converts_to(root_module['ns3::Address'])
## ipv4-address.h (module 'network'): ns3::Ipv4Mask [class]
module.add_class('Ipv4Mask', import_from_module='ns.network')
## ipv6-address.h (module 'network'): ns3::Ipv6Address [class]
module.add_class('Ipv6Address', import_from_module='ns.network')
## ipv6-address.h (module 'network'): ns3::Ipv6Address [class]
root_module['ns3::Ipv6Address'].implicitly_converts_to(root_module['ns3::Address'])
## ipv6-address.h (module 'network'): ns3::Ipv6Prefix [class]
module.add_class('Ipv6Prefix', import_from_module='ns.network')
## mac48-address.h (module 'network'): ns3::Mac48Address [class]
module.add_class('Mac48Address', import_from_module='ns.network')
## mac48-address.h (module 'network'): ns3::Mac48Address [class]
root_module['ns3::Mac48Address'].implicitly_converts_to(root_module['ns3::Address'])
## net-device-container.h (module 'network'): ns3::NetDeviceContainer [class]
module.add_class('NetDeviceContainer', import_from_module='ns.network')
## node-container.h (module 'network'): ns3::NodeContainer [class]
module.add_class('NodeContainer', import_from_module='ns.network')
## object-base.h (module 'core'): ns3::ObjectBase [class]
module.add_class('ObjectBase', allow_subclassing=True, import_from_module='ns.core')
## object.h (module 'core'): ns3::ObjectDeleter [struct]
module.add_class('ObjectDeleter', import_from_module='ns.core')
## object-factory.h (module 'core'): ns3::ObjectFactory [class]
module.add_class('ObjectFactory', import_from_module='ns.core')
## packet-metadata.h (module 'network'): ns3::PacketMetadata [class]
module.add_class('PacketMetadata', import_from_module='ns.network')
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item [struct]
module.add_class('Item', import_from_module='ns.network', outer_class=root_module['ns3::PacketMetadata'])
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item [enumeration]
module.add_enum('', ['PAYLOAD', 'HEADER', 'TRAILER'], outer_class=root_module['ns3::PacketMetadata::Item'], import_from_module='ns.network')
## packet-metadata.h (module 'network'): ns3::PacketMetadata::ItemIterator [class]
module.add_class('ItemIterator', import_from_module='ns.network', outer_class=root_module['ns3::PacketMetadata'])
## packet.h (module 'network'): ns3::PacketTagIterator [class]
module.add_class('PacketTagIterator', import_from_module='ns.network')
## packet.h (module 'network'): ns3::PacketTagIterator::Item [class]
module.add_class('Item', import_from_module='ns.network', outer_class=root_module['ns3::PacketTagIterator'])
## packet-tag-list.h (module 'network'): ns3::PacketTagList [class]
module.add_class('PacketTagList', import_from_module='ns.network')
## packet-tag-list.h (module 'network'): ns3::PacketTagList::TagData [struct]
module.add_class('TagData', import_from_module='ns.network', outer_class=root_module['ns3::PacketTagList'])
## packet-tag-list.h (module 'network'): ns3::PacketTagList::TagData::TagData_e [enumeration]
module.add_enum('TagData_e', ['MAX_SIZE'], outer_class=root_module['ns3::PacketTagList::TagData'], import_from_module='ns.network')
## pcap-file.h (module 'network'): ns3::PcapFile [class]
module.add_class('PcapFile', import_from_module='ns.network')
## trace-helper.h (module 'network'): ns3::PcapHelper [class]
module.add_class('PcapHelper', import_from_module='ns.network')
## trace-helper.h (module 'network'): ns3::PcapHelper [enumeration]
module.add_enum('', ['DLT_NULL', 'DLT_EN10MB', 'DLT_PPP', 'DLT_RAW', 'DLT_IEEE802_11', 'DLT_LINUX_SSL', 'DLT_PRISM_HEADER', 'DLT_IEEE802_11_RADIO', 'DLT_IEEE802_15_4', 'DLT_NETLINK'], outer_class=root_module['ns3::PcapHelper'], import_from_module='ns.network')
## trace-helper.h (module 'network'): ns3::PcapHelperForDevice [class]
module.add_class('PcapHelperForDevice', allow_subclassing=True, import_from_module='ns.network')
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::Object, ns3::ObjectBase, ns3::ObjectDeleter> [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::Object', 'ns3::ObjectBase', 'ns3::ObjectDeleter'], parent=root_module['ns3::ObjectBase'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## simulator.h (module 'core'): ns3::Simulator [class]
module.add_class('Simulator', destructor_visibility='private', import_from_module='ns.core')
## tag.h (module 'network'): ns3::Tag [class]
module.add_class('Tag', import_from_module='ns.network', parent=root_module['ns3::ObjectBase'])
## tag-buffer.h (module 'network'): ns3::TagBuffer [class]
module.add_class('TagBuffer', import_from_module='ns.network')
## nstime.h (module 'core'): ns3::TimeWithUnit [class]
module.add_class('TimeWithUnit', import_from_module='ns.core')
## type-id.h (module 'core'): ns3::TypeId [class]
module.add_class('TypeId', import_from_module='ns.core')
## type-id.h (module 'core'): ns3::TypeId::AttributeFlag [enumeration]
module.add_enum('AttributeFlag', ['ATTR_GET', 'ATTR_SET', 'ATTR_CONSTRUCT', 'ATTR_SGC'], outer_class=root_module['ns3::TypeId'], import_from_module='ns.core')
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation [struct]
module.add_class('AttributeInformation', import_from_module='ns.core', outer_class=root_module['ns3::TypeId'])
## type-id.h (module 'core'): ns3::TypeId::TraceSourceInformation [struct]
module.add_class('TraceSourceInformation', import_from_module='ns.core', outer_class=root_module['ns3::TypeId'])
## empty.h (module 'core'): ns3::empty [class]
module.add_class('empty', import_from_module='ns.core')
## int64x64-double.h (module 'core'): ns3::int64x64_t [class]
module.add_class('int64x64_t', import_from_module='ns.core')
## int64x64-double.h (module 'core'): ns3::int64x64_t::impl_type [enumeration]
module.add_enum('impl_type', ['int128_impl', 'cairo_impl', 'ld_impl'], outer_class=root_module['ns3::int64x64_t'], import_from_module='ns.core')
## chunk.h (module 'network'): ns3::Chunk [class]
module.add_class('Chunk', import_from_module='ns.network', parent=root_module['ns3::ObjectBase'])
## csma-helper.h (module 'csma'): ns3::CsmaHelper [class]
module.add_class('CsmaHelper', parent=[root_module['ns3::PcapHelperForDevice'], root_module['ns3::AsciiTraceHelperForDevice']])
## header.h (module 'network'): ns3::Header [class]
module.add_class('Header', import_from_module='ns.network', parent=root_module['ns3::Chunk'])
## object.h (module 'core'): ns3::Object [class]
module.add_class('Object', import_from_module='ns.core', parent=root_module['ns3::SimpleRefCount< ns3::Object, ns3::ObjectBase, ns3::ObjectDeleter >'])
## object.h (module 'core'): ns3::Object::AggregateIterator [class]
module.add_class('AggregateIterator', import_from_module='ns.core', outer_class=root_module['ns3::Object'])
## pcap-file-wrapper.h (module 'network'): ns3::PcapFileWrapper [class]
module.add_class('PcapFileWrapper', import_from_module='ns.network', parent=root_module['ns3::Object'])
## queue.h (module 'network'): ns3::Queue [class]
module.add_class('Queue', import_from_module='ns.network', parent=root_module['ns3::Object'])
## queue.h (module 'network'): ns3::Queue::QueueMode [enumeration]
module.add_enum('QueueMode', ['QUEUE_MODE_PACKETS', 'QUEUE_MODE_BYTES'], outer_class=root_module['ns3::Queue'], import_from_module='ns.network')
## random-variable-stream.h (module 'core'): ns3::RandomVariableStream [class]
module.add_class('RandomVariableStream', import_from_module='ns.core', parent=root_module['ns3::Object'])
## random-variable-stream.h (module 'core'): ns3::SequentialRandomVariable [class]
module.add_class('SequentialRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::AttributeAccessor, ns3::empty, ns3::DefaultDeleter<ns3::AttributeAccessor> > [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::AttributeAccessor', 'ns3::empty', 'ns3::DefaultDeleter<ns3::AttributeAccessor>'], parent=root_module['ns3::empty'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::AttributeChecker, ns3::empty, ns3::DefaultDeleter<ns3::AttributeChecker> > [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::AttributeChecker', 'ns3::empty', 'ns3::DefaultDeleter<ns3::AttributeChecker>'], parent=root_module['ns3::empty'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::AttributeValue, ns3::empty, ns3::DefaultDeleter<ns3::AttributeValue> > [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::AttributeValue', 'ns3::empty', 'ns3::DefaultDeleter<ns3::AttributeValue>'], parent=root_module['ns3::empty'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::CallbackImplBase, ns3::empty, ns3::DefaultDeleter<ns3::CallbackImplBase> > [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::CallbackImplBase', 'ns3::empty', 'ns3::DefaultDeleter<ns3::CallbackImplBase>'], parent=root_module['ns3::empty'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::EventImpl, ns3::empty, ns3::DefaultDeleter<ns3::EventImpl> > [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::EventImpl', 'ns3::empty', 'ns3::DefaultDeleter<ns3::EventImpl>'], parent=root_module['ns3::empty'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::Hash::Implementation, ns3::empty, ns3::DefaultDeleter<ns3::Hash::Implementation> > [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::Hash::Implementation', 'ns3::empty', 'ns3::DefaultDeleter<ns3::Hash::Implementation>'], parent=root_module['ns3::empty'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::NixVector, ns3::empty, ns3::DefaultDeleter<ns3::NixVector> > [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::NixVector', 'ns3::empty', 'ns3::DefaultDeleter<ns3::NixVector>'], parent=root_module['ns3::empty'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::OutputStreamWrapper, ns3::empty, ns3::DefaultDeleter<ns3::OutputStreamWrapper> > [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::OutputStreamWrapper', 'ns3::empty', 'ns3::DefaultDeleter<ns3::OutputStreamWrapper>'], parent=root_module['ns3::empty'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::Packet, ns3::empty, ns3::DefaultDeleter<ns3::Packet> > [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::Packet', 'ns3::empty', 'ns3::DefaultDeleter<ns3::Packet>'], parent=root_module['ns3::empty'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::TraceSourceAccessor, ns3::empty, ns3::DefaultDeleter<ns3::TraceSourceAccessor> > [class]
module.add_class('SimpleRefCount', automatic_type_narrowing=True, import_from_module='ns.core', template_parameters=['ns3::TraceSourceAccessor', 'ns3::empty', 'ns3::DefaultDeleter<ns3::TraceSourceAccessor>'], parent=root_module['ns3::empty'], memory_policy=cppclass.ReferenceCountingMethodsPolicy(incref_method='Ref', decref_method='Unref', peekref_method='GetReferenceCount'))
## nstime.h (module 'core'): ns3::Time [class]
module.add_class('Time', import_from_module='ns.core')
## nstime.h (module 'core'): ns3::Time::Unit [enumeration]
module.add_enum('Unit', ['Y', 'D', 'H', 'MIN', 'S', 'MS', 'US', 'NS', 'PS', 'FS', 'LAST'], outer_class=root_module['ns3::Time'], import_from_module='ns.core')
## nstime.h (module 'core'): ns3::Time [class]
root_module['ns3::Time'].implicitly_converts_to(root_module['ns3::int64x64_t'])
## trace-source-accessor.h (module 'core'): ns3::TraceSourceAccessor [class]
module.add_class('TraceSourceAccessor', import_from_module='ns.core', parent=root_module['ns3::SimpleRefCount< ns3::TraceSourceAccessor, ns3::empty, ns3::DefaultDeleter<ns3::TraceSourceAccessor> >'])
## trailer.h (module 'network'): ns3::Trailer [class]
module.add_class('Trailer', import_from_module='ns.network', parent=root_module['ns3::Chunk'])
## random-variable-stream.h (module 'core'): ns3::TriangularRandomVariable [class]
module.add_class('TriangularRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## random-variable-stream.h (module 'core'): ns3::UniformRandomVariable [class]
module.add_class('UniformRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## random-variable-stream.h (module 'core'): ns3::WeibullRandomVariable [class]
module.add_class('WeibullRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## random-variable-stream.h (module 'core'): ns3::ZetaRandomVariable [class]
module.add_class('ZetaRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## random-variable-stream.h (module 'core'): ns3::ZipfRandomVariable [class]
module.add_class('ZipfRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## attribute.h (module 'core'): ns3::AttributeAccessor [class]
module.add_class('AttributeAccessor', import_from_module='ns.core', parent=root_module['ns3::SimpleRefCount< ns3::AttributeAccessor, ns3::empty, ns3::DefaultDeleter<ns3::AttributeAccessor> >'])
## attribute.h (module 'core'): ns3::AttributeChecker [class]
module.add_class('AttributeChecker', allow_subclassing=False, automatic_type_narrowing=True, import_from_module='ns.core', parent=root_module['ns3::SimpleRefCount< ns3::AttributeChecker, ns3::empty, ns3::DefaultDeleter<ns3::AttributeChecker> >'])
## attribute.h (module 'core'): ns3::AttributeValue [class]
module.add_class('AttributeValue', allow_subclassing=False, automatic_type_narrowing=True, import_from_module='ns.core', parent=root_module['ns3::SimpleRefCount< ns3::AttributeValue, ns3::empty, ns3::DefaultDeleter<ns3::AttributeValue> >'])
## callback.h (module 'core'): ns3::CallbackChecker [class]
module.add_class('CallbackChecker', import_from_module='ns.core', parent=root_module['ns3::AttributeChecker'])
## callback.h (module 'core'): ns3::CallbackImplBase [class]
module.add_class('CallbackImplBase', import_from_module='ns.core', parent=root_module['ns3::SimpleRefCount< ns3::CallbackImplBase, ns3::empty, ns3::DefaultDeleter<ns3::CallbackImplBase> >'])
## callback.h (module 'core'): ns3::CallbackValue [class]
module.add_class('CallbackValue', import_from_module='ns.core', parent=root_module['ns3::AttributeValue'])
## channel.h (module 'network'): ns3::Channel [class]
module.add_class('Channel', import_from_module='ns.network', parent=root_module['ns3::Object'])
## random-variable-stream.h (module 'core'): ns3::ConstantRandomVariable [class]
module.add_class('ConstantRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## csma-channel.h (module 'csma'): ns3::CsmaChannel [class]
module.add_class('CsmaChannel', parent=root_module['ns3::Channel'])
## data-rate.h (module 'network'): ns3::DataRateChecker [class]
module.add_class('DataRateChecker', import_from_module='ns.network', parent=root_module['ns3::AttributeChecker'])
## data-rate.h (module 'network'): ns3::DataRateValue [class]
module.add_class('DataRateValue', import_from_module='ns.network', parent=root_module['ns3::AttributeValue'])
## random-variable-stream.h (module 'core'): ns3::DeterministicRandomVariable [class]
module.add_class('DeterministicRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## random-variable-stream.h (module 'core'): ns3::EmpiricalRandomVariable [class]
module.add_class('EmpiricalRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## attribute.h (module 'core'): ns3::EmptyAttributeValue [class]
module.add_class('EmptyAttributeValue', import_from_module='ns.core', parent=root_module['ns3::AttributeValue'])
## random-variable-stream.h (module 'core'): ns3::ErlangRandomVariable [class]
module.add_class('ErlangRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## error-model.h (module 'network'): ns3::ErrorModel [class]
module.add_class('ErrorModel', import_from_module='ns.network', parent=root_module['ns3::Object'])
## event-impl.h (module 'core'): ns3::EventImpl [class]
module.add_class('EventImpl', import_from_module='ns.core', parent=root_module['ns3::SimpleRefCount< ns3::EventImpl, ns3::empty, ns3::DefaultDeleter<ns3::EventImpl> >'])
## random-variable-stream.h (module 'core'): ns3::ExponentialRandomVariable [class]
module.add_class('ExponentialRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## random-variable-stream.h (module 'core'): ns3::GammaRandomVariable [class]
module.add_class('GammaRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## ipv4-address.h (module 'network'): ns3::Ipv4AddressChecker [class]
module.add_class('Ipv4AddressChecker', import_from_module='ns.network', parent=root_module['ns3::AttributeChecker'])
## ipv4-address.h (module 'network'): ns3::Ipv4AddressValue [class]
module.add_class('Ipv4AddressValue', import_from_module='ns.network', parent=root_module['ns3::AttributeValue'])
## ipv4-address.h (module 'network'): ns3::Ipv4MaskChecker [class]
module.add_class('Ipv4MaskChecker', import_from_module='ns.network', parent=root_module['ns3::AttributeChecker'])
## ipv4-address.h (module 'network'): ns3::Ipv4MaskValue [class]
module.add_class('Ipv4MaskValue', import_from_module='ns.network', parent=root_module['ns3::AttributeValue'])
## ipv6-address.h (module 'network'): ns3::Ipv6AddressChecker [class]
module.add_class('Ipv6AddressChecker', import_from_module='ns.network', parent=root_module['ns3::AttributeChecker'])
## ipv6-address.h (module 'network'): ns3::Ipv6AddressValue [class]
module.add_class('Ipv6AddressValue', import_from_module='ns.network', parent=root_module['ns3::AttributeValue'])
## ipv6-address.h (module 'network'): ns3::Ipv6PrefixChecker [class]
module.add_class('Ipv6PrefixChecker', import_from_module='ns.network', parent=root_module['ns3::AttributeChecker'])
## ipv6-address.h (module 'network'): ns3::Ipv6PrefixValue [class]
module.add_class('Ipv6PrefixValue', import_from_module='ns.network', parent=root_module['ns3::AttributeValue'])
## error-model.h (module 'network'): ns3::ListErrorModel [class]
module.add_class('ListErrorModel', import_from_module='ns.network', parent=root_module['ns3::ErrorModel'])
## random-variable-stream.h (module 'core'): ns3::LogNormalRandomVariable [class]
module.add_class('LogNormalRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## mac48-address.h (module 'network'): ns3::Mac48AddressChecker [class]
module.add_class('Mac48AddressChecker', import_from_module='ns.network', parent=root_module['ns3::AttributeChecker'])
## mac48-address.h (module 'network'): ns3::Mac48AddressValue [class]
module.add_class('Mac48AddressValue', import_from_module='ns.network', parent=root_module['ns3::AttributeValue'])
## net-device.h (module 'network'): ns3::NetDevice [class]
module.add_class('NetDevice', import_from_module='ns.network', parent=root_module['ns3::Object'])
## net-device.h (module 'network'): ns3::NetDevice::PacketType [enumeration]
module.add_enum('PacketType', ['PACKET_HOST', 'NS3_PACKET_HOST', 'PACKET_BROADCAST', 'NS3_PACKET_BROADCAST', 'PACKET_MULTICAST', 'NS3_PACKET_MULTICAST', 'PACKET_OTHERHOST', 'NS3_PACKET_OTHERHOST'], outer_class=root_module['ns3::NetDevice'], import_from_module='ns.network')
## nix-vector.h (module 'network'): ns3::NixVector [class]
module.add_class('NixVector', import_from_module='ns.network', parent=root_module['ns3::SimpleRefCount< ns3::NixVector, ns3::empty, ns3::DefaultDeleter<ns3::NixVector> >'])
## node.h (module 'network'): ns3::Node [class]
module.add_class('Node', import_from_module='ns.network', parent=root_module['ns3::Object'])
## random-variable-stream.h (module 'core'): ns3::NormalRandomVariable [class]
module.add_class('NormalRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## object-factory.h (module 'core'): ns3::ObjectFactoryChecker [class]
module.add_class('ObjectFactoryChecker', import_from_module='ns.core', parent=root_module['ns3::AttributeChecker'])
## object-factory.h (module 'core'): ns3::ObjectFactoryValue [class]
module.add_class('ObjectFactoryValue', import_from_module='ns.core', parent=root_module['ns3::AttributeValue'])
## output-stream-wrapper.h (module 'network'): ns3::OutputStreamWrapper [class]
module.add_class('OutputStreamWrapper', import_from_module='ns.network', parent=root_module['ns3::SimpleRefCount< ns3::OutputStreamWrapper, ns3::empty, ns3::DefaultDeleter<ns3::OutputStreamWrapper> >'])
## packet.h (module 'network'): ns3::Packet [class]
module.add_class('Packet', import_from_module='ns.network', parent=root_module['ns3::SimpleRefCount< ns3::Packet, ns3::empty, ns3::DefaultDeleter<ns3::Packet> >'])
## random-variable-stream.h (module 'core'): ns3::ParetoRandomVariable [class]
module.add_class('ParetoRandomVariable', import_from_module='ns.core', parent=root_module['ns3::RandomVariableStream'])
## error-model.h (module 'network'): ns3::RateErrorModel [class]
module.add_class('RateErrorModel', import_from_module='ns.network', parent=root_module['ns3::ErrorModel'])
## error-model.h (module 'network'): ns3::RateErrorModel::ErrorUnit [enumeration]
module.add_enum('ErrorUnit', ['ERROR_UNIT_BIT', 'ERROR_UNIT_BYTE', 'ERROR_UNIT_PACKET'], outer_class=root_module['ns3::RateErrorModel'], import_from_module='ns.network')
## error-model.h (module 'network'): ns3::ReceiveListErrorModel [class]
module.add_class('ReceiveListErrorModel', import_from_module='ns.network', parent=root_module['ns3::ErrorModel'])
## nstime.h (module 'core'): ns3::TimeValue [class]
module.add_class('TimeValue', import_from_module='ns.core', parent=root_module['ns3::AttributeValue'])
## type-id.h (module 'core'): ns3::TypeIdChecker [class]
module.add_class('TypeIdChecker', import_from_module='ns.core', parent=root_module['ns3::AttributeChecker'])
## type-id.h (module 'core'): ns3::TypeIdValue [class]
module.add_class('TypeIdValue', import_from_module='ns.core', parent=root_module['ns3::AttributeValue'])
## address.h (module 'network'): ns3::AddressChecker [class]
module.add_class('AddressChecker', import_from_module='ns.network', parent=root_module['ns3::AttributeChecker'])
## address.h (module 'network'): ns3::AddressValue [class]
module.add_class('AddressValue', import_from_module='ns.network', parent=root_module['ns3::AttributeValue'])
## error-model.h (module 'network'): ns3::BurstErrorModel [class]
module.add_class('BurstErrorModel', import_from_module='ns.network', parent=root_module['ns3::ErrorModel'])
## csma-net-device.h (module 'csma'): ns3::CsmaNetDevice [class]
module.add_class('CsmaNetDevice', parent=root_module['ns3::NetDevice'])
## csma-net-device.h (module 'csma'): ns3::CsmaNetDevice::EncapsulationMode [enumeration]
module.add_enum('EncapsulationMode', ['ILLEGAL', 'DIX', 'LLC'], outer_class=root_module['ns3::CsmaNetDevice'])
module.add_container('std::list< unsigned int >', 'unsigned int', container_type=u'list')
## Register a nested module for the namespace FatalImpl
nested_module = module.add_cpp_namespace('FatalImpl')
register_types_ns3_FatalImpl(nested_module)
## Register a nested module for the namespace Hash
nested_module = module.add_cpp_namespace('Hash')
register_types_ns3_Hash(nested_module)
## Register a nested module for the namespace TracedValueCallback
nested_module = module.add_cpp_namespace('TracedValueCallback')
register_types_ns3_TracedValueCallback(nested_module)
def register_types_ns3_FatalImpl(module):
root_module = module.get_root()
def register_types_ns3_Hash(module):
root_module = module.get_root()
## hash-function.h (module 'core'): ns3::Hash::Implementation [class]
module.add_class('Implementation', import_from_module='ns.core', parent=root_module['ns3::SimpleRefCount< ns3::Hash::Implementation, ns3::empty, ns3::DefaultDeleter<ns3::Hash::Implementation> >'])
typehandlers.add_type_alias(u'uint32_t ( * ) ( char const *, size_t ) *', u'ns3::Hash::Hash32Function_ptr')
typehandlers.add_type_alias(u'uint32_t ( * ) ( char const *, size_t ) **', u'ns3::Hash::Hash32Function_ptr*')
typehandlers.add_type_alias(u'uint32_t ( * ) ( char const *, size_t ) *&', u'ns3::Hash::Hash32Function_ptr&')
typehandlers.add_type_alias(u'uint64_t ( * ) ( char const *, size_t ) *', u'ns3::Hash::Hash64Function_ptr')
typehandlers.add_type_alias(u'uint64_t ( * ) ( char const *, size_t ) **', u'ns3::Hash::Hash64Function_ptr*')
typehandlers.add_type_alias(u'uint64_t ( * ) ( char const *, size_t ) *&', u'ns3::Hash::Hash64Function_ptr&')
## Register a nested module for the namespace Function
nested_module = module.add_cpp_namespace('Function')
register_types_ns3_Hash_Function(nested_module)
def register_types_ns3_Hash_Function(module):
root_module = module.get_root()
## hash-fnv.h (module 'core'): ns3::Hash::Function::Fnv1a [class]
module.add_class('Fnv1a', import_from_module='ns.core', parent=root_module['ns3::Hash::Implementation'])
## hash-function.h (module 'core'): ns3::Hash::Function::Hash32 [class]
module.add_class('Hash32', import_from_module='ns.core', parent=root_module['ns3::Hash::Implementation'])
## hash-function.h (module 'core'): ns3::Hash::Function::Hash64 [class]
module.add_class('Hash64', import_from_module='ns.core', parent=root_module['ns3::Hash::Implementation'])
## hash-murmur3.h (module 'core'): ns3::Hash::Function::Murmur3 [class]
module.add_class('Murmur3', import_from_module='ns.core', parent=root_module['ns3::Hash::Implementation'])
def register_types_ns3_TracedValueCallback(module):
root_module = module.get_root()
typehandlers.add_type_alias(u'void ( * ) ( ns3::Time, ns3::Time ) *', u'ns3::TracedValueCallback::Time')
typehandlers.add_type_alias(u'void ( * ) ( ns3::Time, ns3::Time ) **', u'ns3::TracedValueCallback::Time*')
typehandlers.add_type_alias(u'void ( * ) ( ns3::Time, ns3::Time ) *&', u'ns3::TracedValueCallback::Time&')
def register_methods(root_module):
register_Ns3Address_methods(root_module, root_module['ns3::Address'])
register_Ns3AsciiTraceHelper_methods(root_module, root_module['ns3::AsciiTraceHelper'])
register_Ns3AsciiTraceHelperForDevice_methods(root_module, root_module['ns3::AsciiTraceHelperForDevice'])
register_Ns3AttributeConstructionList_methods(root_module, root_module['ns3::AttributeConstructionList'])
register_Ns3AttributeConstructionListItem_methods(root_module, root_module['ns3::AttributeConstructionList::Item'])
register_Ns3Backoff_methods(root_module, root_module['ns3::Backoff'])
register_Ns3Buffer_methods(root_module, root_module['ns3::Buffer'])
register_Ns3BufferIterator_methods(root_module, root_module['ns3::Buffer::Iterator'])
register_Ns3ByteTagIterator_methods(root_module, root_module['ns3::ByteTagIterator'])
register_Ns3ByteTagIteratorItem_methods(root_module, root_module['ns3::ByteTagIterator::Item'])
register_Ns3ByteTagList_methods(root_module, root_module['ns3::ByteTagList'])
register_Ns3ByteTagListIterator_methods(root_module, root_module['ns3::ByteTagList::Iterator'])
register_Ns3ByteTagListIteratorItem_methods(root_module, root_module['ns3::ByteTagList::Iterator::Item'])
register_Ns3CallbackBase_methods(root_module, root_module['ns3::CallbackBase'])
register_Ns3CsmaDeviceRec_methods(root_module, root_module['ns3::CsmaDeviceRec'])
register_Ns3DataRate_methods(root_module, root_module['ns3::DataRate'])
register_Ns3EventId_methods(root_module, root_module['ns3::EventId'])
register_Ns3Hasher_methods(root_module, root_module['ns3::Hasher'])
register_Ns3Ipv4Address_methods(root_module, root_module['ns3::Ipv4Address'])
register_Ns3Ipv4Mask_methods(root_module, root_module['ns3::Ipv4Mask'])
register_Ns3Ipv6Address_methods(root_module, root_module['ns3::Ipv6Address'])
register_Ns3Ipv6Prefix_methods(root_module, root_module['ns3::Ipv6Prefix'])
register_Ns3Mac48Address_methods(root_module, root_module['ns3::Mac48Address'])
register_Ns3NetDeviceContainer_methods(root_module, root_module['ns3::NetDeviceContainer'])
register_Ns3NodeContainer_methods(root_module, root_module['ns3::NodeContainer'])
register_Ns3ObjectBase_methods(root_module, root_module['ns3::ObjectBase'])
register_Ns3ObjectDeleter_methods(root_module, root_module['ns3::ObjectDeleter'])
register_Ns3ObjectFactory_methods(root_module, root_module['ns3::ObjectFactory'])
register_Ns3PacketMetadata_methods(root_module, root_module['ns3::PacketMetadata'])
register_Ns3PacketMetadataItem_methods(root_module, root_module['ns3::PacketMetadata::Item'])
register_Ns3PacketMetadataItemIterator_methods(root_module, root_module['ns3::PacketMetadata::ItemIterator'])
register_Ns3PacketTagIterator_methods(root_module, root_module['ns3::PacketTagIterator'])
register_Ns3PacketTagIteratorItem_methods(root_module, root_module['ns3::PacketTagIterator::Item'])
register_Ns3PacketTagList_methods(root_module, root_module['ns3::PacketTagList'])
register_Ns3PacketTagListTagData_methods(root_module, root_module['ns3::PacketTagList::TagData'])
register_Ns3PcapFile_methods(root_module, root_module['ns3::PcapFile'])
register_Ns3PcapHelper_methods(root_module, root_module['ns3::PcapHelper'])
register_Ns3PcapHelperForDevice_methods(root_module, root_module['ns3::PcapHelperForDevice'])
register_Ns3SimpleRefCount__Ns3Object_Ns3ObjectBase_Ns3ObjectDeleter_methods(root_module, root_module['ns3::SimpleRefCount< ns3::Object, ns3::ObjectBase, ns3::ObjectDeleter >'])
register_Ns3Simulator_methods(root_module, root_module['ns3::Simulator'])
register_Ns3Tag_methods(root_module, root_module['ns3::Tag'])
register_Ns3TagBuffer_methods(root_module, root_module['ns3::TagBuffer'])
register_Ns3TimeWithUnit_methods(root_module, root_module['ns3::TimeWithUnit'])
register_Ns3TypeId_methods(root_module, root_module['ns3::TypeId'])
register_Ns3TypeIdAttributeInformation_methods(root_module, root_module['ns3::TypeId::AttributeInformation'])
register_Ns3TypeIdTraceSourceInformation_methods(root_module, root_module['ns3::TypeId::TraceSourceInformation'])
register_Ns3Empty_methods(root_module, root_module['ns3::empty'])
register_Ns3Int64x64_t_methods(root_module, root_module['ns3::int64x64_t'])
register_Ns3Chunk_methods(root_module, root_module['ns3::Chunk'])
register_Ns3CsmaHelper_methods(root_module, root_module['ns3::CsmaHelper'])
register_Ns3Header_methods(root_module, root_module['ns3::Header'])
register_Ns3Object_methods(root_module, root_module['ns3::Object'])
register_Ns3ObjectAggregateIterator_methods(root_module, root_module['ns3::Object::AggregateIterator'])
register_Ns3PcapFileWrapper_methods(root_module, root_module['ns3::PcapFileWrapper'])
register_Ns3Queue_methods(root_module, root_module['ns3::Queue'])
register_Ns3RandomVariableStream_methods(root_module, root_module['ns3::RandomVariableStream'])
register_Ns3SequentialRandomVariable_methods(root_module, root_module['ns3::SequentialRandomVariable'])
register_Ns3SimpleRefCount__Ns3AttributeAccessor_Ns3Empty_Ns3DefaultDeleter__lt__ns3AttributeAccessor__gt___methods(root_module, root_module['ns3::SimpleRefCount< ns3::AttributeAccessor, ns3::empty, ns3::DefaultDeleter<ns3::AttributeAccessor> >'])
register_Ns3SimpleRefCount__Ns3AttributeChecker_Ns3Empty_Ns3DefaultDeleter__lt__ns3AttributeChecker__gt___methods(root_module, root_module['ns3::SimpleRefCount< ns3::AttributeChecker, ns3::empty, ns3::DefaultDeleter<ns3::AttributeChecker> >'])
register_Ns3SimpleRefCount__Ns3AttributeValue_Ns3Empty_Ns3DefaultDeleter__lt__ns3AttributeValue__gt___methods(root_module, root_module['ns3::SimpleRefCount< ns3::AttributeValue, ns3::empty, ns3::DefaultDeleter<ns3::AttributeValue> >'])
register_Ns3SimpleRefCount__Ns3CallbackImplBase_Ns3Empty_Ns3DefaultDeleter__lt__ns3CallbackImplBase__gt___methods(root_module, root_module['ns3::SimpleRefCount< ns3::CallbackImplBase, ns3::empty, ns3::DefaultDeleter<ns3::CallbackImplBase> >'])
register_Ns3SimpleRefCount__Ns3EventImpl_Ns3Empty_Ns3DefaultDeleter__lt__ns3EventImpl__gt___methods(root_module, root_module['ns3::SimpleRefCount< ns3::EventImpl, ns3::empty, ns3::DefaultDeleter<ns3::EventImpl> >'])
register_Ns3SimpleRefCount__Ns3HashImplementation_Ns3Empty_Ns3DefaultDeleter__lt__ns3HashImplementation__gt___methods(root_module, root_module['ns3::SimpleRefCount< ns3::Hash::Implementation, ns3::empty, ns3::DefaultDeleter<ns3::Hash::Implementation> >'])
register_Ns3SimpleRefCount__Ns3NixVector_Ns3Empty_Ns3DefaultDeleter__lt__ns3NixVector__gt___methods(root_module, root_module['ns3::SimpleRefCount< ns3::NixVector, ns3::empty, ns3::DefaultDeleter<ns3::NixVector> >'])
register_Ns3SimpleRefCount__Ns3OutputStreamWrapper_Ns3Empty_Ns3DefaultDeleter__lt__ns3OutputStreamWrapper__gt___methods(root_module, root_module['ns3::SimpleRefCount< ns3::OutputStreamWrapper, ns3::empty, ns3::DefaultDeleter<ns3::OutputStreamWrapper> >'])
register_Ns3SimpleRefCount__Ns3Packet_Ns3Empty_Ns3DefaultDeleter__lt__ns3Packet__gt___methods(root_module, root_module['ns3::SimpleRefCount< ns3::Packet, ns3::empty, ns3::DefaultDeleter<ns3::Packet> >'])
register_Ns3SimpleRefCount__Ns3TraceSourceAccessor_Ns3Empty_Ns3DefaultDeleter__lt__ns3TraceSourceAccessor__gt___methods(root_module, root_module['ns3::SimpleRefCount< ns3::TraceSourceAccessor, ns3::empty, ns3::DefaultDeleter<ns3::TraceSourceAccessor> >'])
register_Ns3Time_methods(root_module, root_module['ns3::Time'])
register_Ns3TraceSourceAccessor_methods(root_module, root_module['ns3::TraceSourceAccessor'])
register_Ns3Trailer_methods(root_module, root_module['ns3::Trailer'])
register_Ns3TriangularRandomVariable_methods(root_module, root_module['ns3::TriangularRandomVariable'])
register_Ns3UniformRandomVariable_methods(root_module, root_module['ns3::UniformRandomVariable'])
register_Ns3WeibullRandomVariable_methods(root_module, root_module['ns3::WeibullRandomVariable'])
register_Ns3ZetaRandomVariable_methods(root_module, root_module['ns3::ZetaRandomVariable'])
register_Ns3ZipfRandomVariable_methods(root_module, root_module['ns3::ZipfRandomVariable'])
register_Ns3AttributeAccessor_methods(root_module, root_module['ns3::AttributeAccessor'])
register_Ns3AttributeChecker_methods(root_module, root_module['ns3::AttributeChecker'])
register_Ns3AttributeValue_methods(root_module, root_module['ns3::AttributeValue'])
register_Ns3CallbackChecker_methods(root_module, root_module['ns3::CallbackChecker'])
register_Ns3CallbackImplBase_methods(root_module, root_module['ns3::CallbackImplBase'])
register_Ns3CallbackValue_methods(root_module, root_module['ns3::CallbackValue'])
register_Ns3Channel_methods(root_module, root_module['ns3::Channel'])
register_Ns3ConstantRandomVariable_methods(root_module, root_module['ns3::ConstantRandomVariable'])
register_Ns3CsmaChannel_methods(root_module, root_module['ns3::CsmaChannel'])
register_Ns3DataRateChecker_methods(root_module, root_module['ns3::DataRateChecker'])
register_Ns3DataRateValue_methods(root_module, root_module['ns3::DataRateValue'])
register_Ns3DeterministicRandomVariable_methods(root_module, root_module['ns3::DeterministicRandomVariable'])
register_Ns3EmpiricalRandomVariable_methods(root_module, root_module['ns3::EmpiricalRandomVariable'])
register_Ns3EmptyAttributeValue_methods(root_module, root_module['ns3::EmptyAttributeValue'])
register_Ns3ErlangRandomVariable_methods(root_module, root_module['ns3::ErlangRandomVariable'])
register_Ns3ErrorModel_methods(root_module, root_module['ns3::ErrorModel'])
register_Ns3EventImpl_methods(root_module, root_module['ns3::EventImpl'])
register_Ns3ExponentialRandomVariable_methods(root_module, root_module['ns3::ExponentialRandomVariable'])
register_Ns3GammaRandomVariable_methods(root_module, root_module['ns3::GammaRandomVariable'])
register_Ns3Ipv4AddressChecker_methods(root_module, root_module['ns3::Ipv4AddressChecker'])
register_Ns3Ipv4AddressValue_methods(root_module, root_module['ns3::Ipv4AddressValue'])
register_Ns3Ipv4MaskChecker_methods(root_module, root_module['ns3::Ipv4MaskChecker'])
register_Ns3Ipv4MaskValue_methods(root_module, root_module['ns3::Ipv4MaskValue'])
register_Ns3Ipv6AddressChecker_methods(root_module, root_module['ns3::Ipv6AddressChecker'])
register_Ns3Ipv6AddressValue_methods(root_module, root_module['ns3::Ipv6AddressValue'])
register_Ns3Ipv6PrefixChecker_methods(root_module, root_module['ns3::Ipv6PrefixChecker'])
register_Ns3Ipv6PrefixValue_methods(root_module, root_module['ns3::Ipv6PrefixValue'])
register_Ns3ListErrorModel_methods(root_module, root_module['ns3::ListErrorModel'])
register_Ns3LogNormalRandomVariable_methods(root_module, root_module['ns3::LogNormalRandomVariable'])
register_Ns3Mac48AddressChecker_methods(root_module, root_module['ns3::Mac48AddressChecker'])
register_Ns3Mac48AddressValue_methods(root_module, root_module['ns3::Mac48AddressValue'])
register_Ns3NetDevice_methods(root_module, root_module['ns3::NetDevice'])
register_Ns3NixVector_methods(root_module, root_module['ns3::NixVector'])
register_Ns3Node_methods(root_module, root_module['ns3::Node'])
register_Ns3NormalRandomVariable_methods(root_module, root_module['ns3::NormalRandomVariable'])
register_Ns3ObjectFactoryChecker_methods(root_module, root_module['ns3::ObjectFactoryChecker'])
register_Ns3ObjectFactoryValue_methods(root_module, root_module['ns3::ObjectFactoryValue'])
register_Ns3OutputStreamWrapper_methods(root_module, root_module['ns3::OutputStreamWrapper'])
register_Ns3Packet_methods(root_module, root_module['ns3::Packet'])
register_Ns3ParetoRandomVariable_methods(root_module, root_module['ns3::ParetoRandomVariable'])
register_Ns3RateErrorModel_methods(root_module, root_module['ns3::RateErrorModel'])
register_Ns3ReceiveListErrorModel_methods(root_module, root_module['ns3::ReceiveListErrorModel'])
register_Ns3TimeValue_methods(root_module, root_module['ns3::TimeValue'])
register_Ns3TypeIdChecker_methods(root_module, root_module['ns3::TypeIdChecker'])
register_Ns3TypeIdValue_methods(root_module, root_module['ns3::TypeIdValue'])
register_Ns3AddressChecker_methods(root_module, root_module['ns3::AddressChecker'])
register_Ns3AddressValue_methods(root_module, root_module['ns3::AddressValue'])
register_Ns3BurstErrorModel_methods(root_module, root_module['ns3::BurstErrorModel'])
register_Ns3CsmaNetDevice_methods(root_module, root_module['ns3::CsmaNetDevice'])
register_Ns3HashImplementation_methods(root_module, root_module['ns3::Hash::Implementation'])
register_Ns3HashFunctionFnv1a_methods(root_module, root_module['ns3::Hash::Function::Fnv1a'])
register_Ns3HashFunctionHash32_methods(root_module, root_module['ns3::Hash::Function::Hash32'])
register_Ns3HashFunctionHash64_methods(root_module, root_module['ns3::Hash::Function::Hash64'])
register_Ns3HashFunctionMurmur3_methods(root_module, root_module['ns3::Hash::Function::Murmur3'])
return
def register_Ns3Address_methods(root_module, cls):
cls.add_binary_comparison_operator('<')
cls.add_binary_comparison_operator('!=')
cls.add_output_stream_operator()
cls.add_binary_comparison_operator('==')
## address.h (module 'network'): ns3::Address::Address() [constructor]
cls.add_constructor([])
## address.h (module 'network'): ns3::Address::Address(uint8_t type, uint8_t const * buffer, uint8_t len) [constructor]
cls.add_constructor([param('uint8_t', 'type'), param('uint8_t const *', 'buffer'), param('uint8_t', 'len')])
## address.h (module 'network'): ns3::Address::Address(ns3::Address const & address) [copy constructor]
cls.add_constructor([param('ns3::Address const &', 'address')])
## address.h (module 'network'): bool ns3::Address::CheckCompatible(uint8_t type, uint8_t len) const [member function]
cls.add_method('CheckCompatible',
'bool',
[param('uint8_t', 'type'), param('uint8_t', 'len')],
is_const=True)
## address.h (module 'network'): uint32_t ns3::Address::CopyAllFrom(uint8_t const * buffer, uint8_t len) [member function]
cls.add_method('CopyAllFrom',
'uint32_t',
[param('uint8_t const *', 'buffer'), param('uint8_t', 'len')])
## address.h (module 'network'): uint32_t ns3::Address::CopyAllTo(uint8_t * buffer, uint8_t len) const [member function]
cls.add_method('CopyAllTo',
'uint32_t',
[param('uint8_t *', 'buffer'), param('uint8_t', 'len')],
is_const=True)
## address.h (module 'network'): uint32_t ns3::Address::CopyFrom(uint8_t const * buffer, uint8_t len) [member function]
cls.add_method('CopyFrom',
'uint32_t',
[param('uint8_t const *', 'buffer'), param('uint8_t', 'len')])
## address.h (module 'network'): uint32_t ns3::Address::CopyTo(uint8_t * buffer) const [member function]
cls.add_method('CopyTo',
'uint32_t',
[param('uint8_t *', 'buffer')],
is_const=True)
## address.h (module 'network'): void ns3::Address::Deserialize(ns3::TagBuffer buffer) [member function]
cls.add_method('Deserialize',
'void',
[param('ns3::TagBuffer', 'buffer')])
## address.h (module 'network'): uint8_t ns3::Address::GetLength() const [member function]
cls.add_method('GetLength',
'uint8_t',
[],
is_const=True)
## address.h (module 'network'): uint32_t ns3::Address::GetSerializedSize() const [member function]
cls.add_method('GetSerializedSize',
'uint32_t',
[],
is_const=True)
## address.h (module 'network'): bool ns3::Address::IsInvalid() const [member function]
cls.add_method('IsInvalid',
'bool',
[],
is_const=True)
## address.h (module 'network'): bool ns3::Address::IsMatchingType(uint8_t type) const [member function]
cls.add_method('IsMatchingType',
'bool',
[param('uint8_t', 'type')],
is_const=True)
## address.h (module 'network'): static uint8_t ns3::Address::Register() [member function]
cls.add_method('Register',
'uint8_t',
[],
is_static=True)
## address.h (module 'network'): void ns3::Address::Serialize(ns3::TagBuffer buffer) const [member function]
cls.add_method('Serialize',
'void',
[param('ns3::TagBuffer', 'buffer')],
is_const=True)
return
def register_Ns3AsciiTraceHelper_methods(root_module, cls):
## trace-helper.h (module 'network'): ns3::AsciiTraceHelper::AsciiTraceHelper(ns3::AsciiTraceHelper const & arg0) [copy constructor]
cls.add_constructor([param('ns3::AsciiTraceHelper const &', 'arg0')])
## trace-helper.h (module 'network'): ns3::AsciiTraceHelper::AsciiTraceHelper() [constructor]
cls.add_constructor([])
## trace-helper.h (module 'network'): ns3::Ptr<ns3::OutputStreamWrapper> ns3::AsciiTraceHelper::CreateFileStream(std::string filename, std::_Ios_Openmode filemode=std::ios_base::out) [member function]
cls.add_method('CreateFileStream',
'ns3::Ptr< ns3::OutputStreamWrapper >',
[param('std::string', 'filename'), param('std::_Ios_Openmode', 'filemode', default_value='std::ios_base::out')])
## trace-helper.h (module 'network'): static void ns3::AsciiTraceHelper::DefaultDequeueSinkWithContext(ns3::Ptr<ns3::OutputStreamWrapper> file, std::string context, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('DefaultDequeueSinkWithContext',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'file'), param('std::string', 'context'), param('ns3::Ptr< ns3::Packet const >', 'p')],
is_static=True)
## trace-helper.h (module 'network'): static void ns3::AsciiTraceHelper::DefaultDequeueSinkWithoutContext(ns3::Ptr<ns3::OutputStreamWrapper> file, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('DefaultDequeueSinkWithoutContext',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'file'), param('ns3::Ptr< ns3::Packet const >', 'p')],
is_static=True)
## trace-helper.h (module 'network'): static void ns3::AsciiTraceHelper::DefaultDropSinkWithContext(ns3::Ptr<ns3::OutputStreamWrapper> file, std::string context, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('DefaultDropSinkWithContext',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'file'), param('std::string', 'context'), param('ns3::Ptr< ns3::Packet const >', 'p')],
is_static=True)
## trace-helper.h (module 'network'): static void ns3::AsciiTraceHelper::DefaultDropSinkWithoutContext(ns3::Ptr<ns3::OutputStreamWrapper> file, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('DefaultDropSinkWithoutContext',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'file'), param('ns3::Ptr< ns3::Packet const >', 'p')],
is_static=True)
## trace-helper.h (module 'network'): static void ns3::AsciiTraceHelper::DefaultEnqueueSinkWithContext(ns3::Ptr<ns3::OutputStreamWrapper> file, std::string context, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('DefaultEnqueueSinkWithContext',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'file'), param('std::string', 'context'), param('ns3::Ptr< ns3::Packet const >', 'p')],
is_static=True)
## trace-helper.h (module 'network'): static void ns3::AsciiTraceHelper::DefaultEnqueueSinkWithoutContext(ns3::Ptr<ns3::OutputStreamWrapper> file, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('DefaultEnqueueSinkWithoutContext',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'file'), param('ns3::Ptr< ns3::Packet const >', 'p')],
is_static=True)
## trace-helper.h (module 'network'): static void ns3::AsciiTraceHelper::DefaultReceiveSinkWithContext(ns3::Ptr<ns3::OutputStreamWrapper> file, std::string context, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('DefaultReceiveSinkWithContext',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'file'), param('std::string', 'context'), param('ns3::Ptr< ns3::Packet const >', 'p')],
is_static=True)
## trace-helper.h (module 'network'): static void ns3::AsciiTraceHelper::DefaultReceiveSinkWithoutContext(ns3::Ptr<ns3::OutputStreamWrapper> file, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('DefaultReceiveSinkWithoutContext',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'file'), param('ns3::Ptr< ns3::Packet const >', 'p')],
is_static=True)
## trace-helper.h (module 'network'): std::string ns3::AsciiTraceHelper::GetFilenameFromDevice(std::string prefix, ns3::Ptr<ns3::NetDevice> device, bool useObjectNames=true) [member function]
cls.add_method('GetFilenameFromDevice',
'std::string',
[param('std::string', 'prefix'), param('ns3::Ptr< ns3::NetDevice >', 'device'), param('bool', 'useObjectNames', default_value='true')])
## trace-helper.h (module 'network'): std::string ns3::AsciiTraceHelper::GetFilenameFromInterfacePair(std::string prefix, ns3::Ptr<ns3::Object> object, uint32_t interface, bool useObjectNames=true) [member function]
cls.add_method('GetFilenameFromInterfacePair',
'std::string',
[param('std::string', 'prefix'), param('ns3::Ptr< ns3::Object >', 'object'), param('uint32_t', 'interface'), param('bool', 'useObjectNames', default_value='true')])
return
def register_Ns3AsciiTraceHelperForDevice_methods(root_module, cls):
## trace-helper.h (module 'network'): ns3::AsciiTraceHelperForDevice::AsciiTraceHelperForDevice(ns3::AsciiTraceHelperForDevice const & arg0) [copy constructor]
cls.add_constructor([param('ns3::AsciiTraceHelperForDevice const &', 'arg0')])
## trace-helper.h (module 'network'): ns3::AsciiTraceHelperForDevice::AsciiTraceHelperForDevice() [constructor]
cls.add_constructor([])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAscii(std::string prefix, ns3::Ptr<ns3::NetDevice> nd, bool explicitFilename=false) [member function]
cls.add_method('EnableAscii',
'void',
[param('std::string', 'prefix'), param('ns3::Ptr< ns3::NetDevice >', 'nd'), param('bool', 'explicitFilename', default_value='false')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAscii(ns3::Ptr<ns3::OutputStreamWrapper> stream, ns3::Ptr<ns3::NetDevice> nd) [member function]
cls.add_method('EnableAscii',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream'), param('ns3::Ptr< ns3::NetDevice >', 'nd')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAscii(std::string prefix, std::string ndName, bool explicitFilename=false) [member function]
cls.add_method('EnableAscii',
'void',
[param('std::string', 'prefix'), param('std::string', 'ndName'), param('bool', 'explicitFilename', default_value='false')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAscii(ns3::Ptr<ns3::OutputStreamWrapper> stream, std::string ndName) [member function]
cls.add_method('EnableAscii',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream'), param('std::string', 'ndName')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAscii(std::string prefix, ns3::NetDeviceContainer d) [member function]
cls.add_method('EnableAscii',
'void',
[param('std::string', 'prefix'), param('ns3::NetDeviceContainer', 'd')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAscii(ns3::Ptr<ns3::OutputStreamWrapper> stream, ns3::NetDeviceContainer d) [member function]
cls.add_method('EnableAscii',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream'), param('ns3::NetDeviceContainer', 'd')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAscii(std::string prefix, ns3::NodeContainer n) [member function]
cls.add_method('EnableAscii',
'void',
[param('std::string', 'prefix'), param('ns3::NodeContainer', 'n')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAscii(ns3::Ptr<ns3::OutputStreamWrapper> stream, ns3::NodeContainer n) [member function]
cls.add_method('EnableAscii',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream'), param('ns3::NodeContainer', 'n')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAscii(std::string prefix, uint32_t nodeid, uint32_t deviceid, bool explicitFilename) [member function]
cls.add_method('EnableAscii',
'void',
[param('std::string', 'prefix'), param('uint32_t', 'nodeid'), param('uint32_t', 'deviceid'), param('bool', 'explicitFilename')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAscii(ns3::Ptr<ns3::OutputStreamWrapper> stream, uint32_t nodeid, uint32_t deviceid) [member function]
cls.add_method('EnableAscii',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream'), param('uint32_t', 'nodeid'), param('uint32_t', 'deviceid')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAsciiAll(std::string prefix) [member function]
cls.add_method('EnableAsciiAll',
'void',
[param('std::string', 'prefix')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAsciiAll(ns3::Ptr<ns3::OutputStreamWrapper> stream) [member function]
cls.add_method('EnableAsciiAll',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream')])
## trace-helper.h (module 'network'): void ns3::AsciiTraceHelperForDevice::EnableAsciiInternal(ns3::Ptr<ns3::OutputStreamWrapper> stream, std::string prefix, ns3::Ptr<ns3::NetDevice> nd, bool explicitFilename) [member function]
cls.add_method('EnableAsciiInternal',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream'), param('std::string', 'prefix'), param('ns3::Ptr< ns3::NetDevice >', 'nd'), param('bool', 'explicitFilename')],
is_pure_virtual=True, is_virtual=True)
return
def register_Ns3AttributeConstructionList_methods(root_module, cls):
## attribute-construction-list.h (module 'core'): ns3::AttributeConstructionList::AttributeConstructionList(ns3::AttributeConstructionList const & arg0) [copy constructor]
cls.add_constructor([param('ns3::AttributeConstructionList const &', 'arg0')])
## attribute-construction-list.h (module 'core'): ns3::AttributeConstructionList::AttributeConstructionList() [constructor]
cls.add_constructor([])
## attribute-construction-list.h (module 'core'): void ns3::AttributeConstructionList::Add(std::string name, ns3::Ptr<ns3::AttributeChecker const> checker, ns3::Ptr<ns3::AttributeValue> value) [member function]
cls.add_method('Add',
'void',
[param('std::string', 'name'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker'), param('ns3::Ptr< ns3::AttributeValue >', 'value')])
## attribute-construction-list.h (module 'core'): std::_List_const_iterator<ns3::AttributeConstructionList::Item> ns3::AttributeConstructionList::Begin() const [member function]
cls.add_method('Begin',
'std::_List_const_iterator< ns3::AttributeConstructionList::Item >',
[],
is_const=True)
## attribute-construction-list.h (module 'core'): std::_List_const_iterator<ns3::AttributeConstructionList::Item> ns3::AttributeConstructionList::End() const [member function]
cls.add_method('End',
'std::_List_const_iterator< ns3::AttributeConstructionList::Item >',
[],
is_const=True)
## attribute-construction-list.h (module 'core'): ns3::Ptr<ns3::AttributeValue> ns3::AttributeConstructionList::Find(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('Find',
'ns3::Ptr< ns3::AttributeValue >',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True)
return
def register_Ns3AttributeConstructionListItem_methods(root_module, cls):
## attribute-construction-list.h (module 'core'): ns3::AttributeConstructionList::Item::Item() [constructor]
cls.add_constructor([])
## attribute-construction-list.h (module 'core'): ns3::AttributeConstructionList::Item::Item(ns3::AttributeConstructionList::Item const & arg0) [copy constructor]
cls.add_constructor([param('ns3::AttributeConstructionList::Item const &', 'arg0')])
## attribute-construction-list.h (module 'core'): ns3::AttributeConstructionList::Item::checker [variable]
cls.add_instance_attribute('checker', 'ns3::Ptr< ns3::AttributeChecker const >', is_const=False)
## attribute-construction-list.h (module 'core'): ns3::AttributeConstructionList::Item::name [variable]
cls.add_instance_attribute('name', 'std::string', is_const=False)
## attribute-construction-list.h (module 'core'): ns3::AttributeConstructionList::Item::value [variable]
cls.add_instance_attribute('value', 'ns3::Ptr< ns3::AttributeValue >', is_const=False)
return
def register_Ns3Backoff_methods(root_module, cls):
## backoff.h (module 'csma'): ns3::Backoff::Backoff(ns3::Backoff const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Backoff const &', 'arg0')])
## backoff.h (module 'csma'): ns3::Backoff::Backoff() [constructor]
cls.add_constructor([])
## backoff.h (module 'csma'): ns3::Backoff::Backoff(ns3::Time slotTime, uint32_t minSlots, uint32_t maxSlots, uint32_t ceiling, uint32_t maxRetries) [constructor]
cls.add_constructor([param('ns3::Time', 'slotTime'), param('uint32_t', 'minSlots'), param('uint32_t', 'maxSlots'), param('uint32_t', 'ceiling'), param('uint32_t', 'maxRetries')])
## backoff.h (module 'csma'): int64_t ns3::Backoff::AssignStreams(int64_t stream) [member function]
cls.add_method('AssignStreams',
'int64_t',
[param('int64_t', 'stream')])
## backoff.h (module 'csma'): ns3::Time ns3::Backoff::GetBackoffTime() [member function]
cls.add_method('GetBackoffTime',
'ns3::Time',
[])
## backoff.h (module 'csma'): void ns3::Backoff::IncrNumRetries() [member function]
cls.add_method('IncrNumRetries',
'void',
[])
## backoff.h (module 'csma'): bool ns3::Backoff::MaxRetriesReached() [member function]
cls.add_method('MaxRetriesReached',
'bool',
[])
## backoff.h (module 'csma'): void ns3::Backoff::ResetBackoffTime() [member function]
cls.add_method('ResetBackoffTime',
'void',
[])
## backoff.h (module 'csma'): ns3::Backoff::m_ceiling [variable]
cls.add_instance_attribute('m_ceiling', 'uint32_t', is_const=False)
## backoff.h (module 'csma'): ns3::Backoff::m_maxRetries [variable]
cls.add_instance_attribute('m_maxRetries', 'uint32_t', is_const=False)
## backoff.h (module 'csma'): ns3::Backoff::m_maxSlots [variable]
cls.add_instance_attribute('m_maxSlots', 'uint32_t', is_const=False)
## backoff.h (module 'csma'): ns3::Backoff::m_minSlots [variable]
cls.add_instance_attribute('m_minSlots', 'uint32_t', is_const=False)
## backoff.h (module 'csma'): ns3::Backoff::m_slotTime [variable]
cls.add_instance_attribute('m_slotTime', 'ns3::Time', is_const=False)
return
def register_Ns3Buffer_methods(root_module, cls):
## buffer.h (module 'network'): ns3::Buffer::Buffer() [constructor]
cls.add_constructor([])
## buffer.h (module 'network'): ns3::Buffer::Buffer(uint32_t dataSize) [constructor]
cls.add_constructor([param('uint32_t', 'dataSize')])
## buffer.h (module 'network'): ns3::Buffer::Buffer(uint32_t dataSize, bool initialize) [constructor]
cls.add_constructor([param('uint32_t', 'dataSize'), param('bool', 'initialize')])
## buffer.h (module 'network'): ns3::Buffer::Buffer(ns3::Buffer const & o) [copy constructor]
cls.add_constructor([param('ns3::Buffer const &', 'o')])
## buffer.h (module 'network'): void ns3::Buffer::AddAtEnd(uint32_t end) [member function]
cls.add_method('AddAtEnd',
'void',
[param('uint32_t', 'end')])
## buffer.h (module 'network'): void ns3::Buffer::AddAtEnd(ns3::Buffer const & o) [member function]
cls.add_method('AddAtEnd',
'void',
[param('ns3::Buffer const &', 'o')])
## buffer.h (module 'network'): void ns3::Buffer::AddAtStart(uint32_t start) [member function]
cls.add_method('AddAtStart',
'void',
[param('uint32_t', 'start')])
## buffer.h (module 'network'): ns3::Buffer::Iterator ns3::Buffer::Begin() const [member function]
cls.add_method('Begin',
'ns3::Buffer::Iterator',
[],
is_const=True)
## buffer.h (module 'network'): void ns3::Buffer::CopyData(std::ostream * os, uint32_t size) const [member function]
cls.add_method('CopyData',
'void',
[param('std::ostream *', 'os'), param('uint32_t', 'size')],
is_const=True)
## buffer.h (module 'network'): uint32_t ns3::Buffer::CopyData(uint8_t * buffer, uint32_t size) const [member function]
cls.add_method('CopyData',
'uint32_t',
[param('uint8_t *', 'buffer'), param('uint32_t', 'size')],
is_const=True)
## buffer.h (module 'network'): ns3::Buffer ns3::Buffer::CreateFragment(uint32_t start, uint32_t length) const [member function]
cls.add_method('CreateFragment',
'ns3::Buffer',
[param('uint32_t', 'start'), param('uint32_t', 'length')],
is_const=True)
## buffer.h (module 'network'): uint32_t ns3::Buffer::Deserialize(uint8_t const * buffer, uint32_t size) [member function]
cls.add_method('Deserialize',
'uint32_t',
[param('uint8_t const *', 'buffer'), param('uint32_t', 'size')])
## buffer.h (module 'network'): ns3::Buffer::Iterator ns3::Buffer::End() const [member function]
cls.add_method('End',
'ns3::Buffer::Iterator',
[],
is_const=True)
## buffer.h (module 'network'): uint32_t ns3::Buffer::GetSerializedSize() const [member function]
cls.add_method('GetSerializedSize',
'uint32_t',
[],
is_const=True)
## buffer.h (module 'network'): uint32_t ns3::Buffer::GetSize() const [member function]
cls.add_method('GetSize',
'uint32_t',
[],
is_const=True)
## buffer.h (module 'network'): uint8_t const * ns3::Buffer::PeekData() const [member function]
cls.add_method('PeekData',
'uint8_t const *',
[],
is_const=True)
## buffer.h (module 'network'): void ns3::Buffer::RemoveAtEnd(uint32_t end) [member function]
cls.add_method('RemoveAtEnd',
'void',
[param('uint32_t', 'end')])
## buffer.h (module 'network'): void ns3::Buffer::RemoveAtStart(uint32_t start) [member function]
cls.add_method('RemoveAtStart',
'void',
[param('uint32_t', 'start')])
## buffer.h (module 'network'): uint32_t ns3::Buffer::Serialize(uint8_t * buffer, uint32_t maxSize) const [member function]
cls.add_method('Serialize',
'uint32_t',
[param('uint8_t *', 'buffer'), param('uint32_t', 'maxSize')],
is_const=True)
return
def register_Ns3BufferIterator_methods(root_module, cls):
## buffer.h (module 'network'): ns3::Buffer::Iterator::Iterator(ns3::Buffer::Iterator const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Buffer::Iterator const &', 'arg0')])
## buffer.h (module 'network'): ns3::Buffer::Iterator::Iterator() [constructor]
cls.add_constructor([])
## buffer.h (module 'network'): uint16_t ns3::Buffer::Iterator::CalculateIpChecksum(uint16_t size) [member function]
cls.add_method('CalculateIpChecksum',
'uint16_t',
[param('uint16_t', 'size')])
## buffer.h (module 'network'): uint16_t ns3::Buffer::Iterator::CalculateIpChecksum(uint16_t size, uint32_t initialChecksum) [member function]
cls.add_method('CalculateIpChecksum',
'uint16_t',
[param('uint16_t', 'size'), param('uint32_t', 'initialChecksum')])
## buffer.h (module 'network'): uint32_t ns3::Buffer::Iterator::GetDistanceFrom(ns3::Buffer::Iterator const & o) const [member function]
cls.add_method('GetDistanceFrom',
'uint32_t',
[param('ns3::Buffer::Iterator const &', 'o')],
is_const=True)
## buffer.h (module 'network'): uint32_t ns3::Buffer::Iterator::GetSize() const [member function]
cls.add_method('GetSize',
'uint32_t',
[],
is_const=True)
## buffer.h (module 'network'): bool ns3::Buffer::Iterator::IsEnd() const [member function]
cls.add_method('IsEnd',
'bool',
[],
is_const=True)
## buffer.h (module 'network'): bool ns3::Buffer::Iterator::IsStart() const [member function]
cls.add_method('IsStart',
'bool',
[],
is_const=True)
## buffer.h (module 'network'): void ns3::Buffer::Iterator::Next() [member function]
cls.add_method('Next',
'void',
[])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::Next(uint32_t delta) [member function]
cls.add_method('Next',
'void',
[param('uint32_t', 'delta')])
## buffer.h (module 'network'): uint8_t ns3::Buffer::Iterator::PeekU8() [member function]
cls.add_method('PeekU8',
'uint8_t',
[])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::Prev() [member function]
cls.add_method('Prev',
'void',
[])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::Prev(uint32_t delta) [member function]
cls.add_method('Prev',
'void',
[param('uint32_t', 'delta')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::Read(uint8_t * buffer, uint32_t size) [member function]
cls.add_method('Read',
'void',
[param('uint8_t *', 'buffer'), param('uint32_t', 'size')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::Read(ns3::Buffer::Iterator start, uint32_t size) [member function]
cls.add_method('Read',
'void',
[param('ns3::Buffer::Iterator', 'start'), param('uint32_t', 'size')])
## buffer.h (module 'network'): uint16_t ns3::Buffer::Iterator::ReadLsbtohU16() [member function]
cls.add_method('ReadLsbtohU16',
'uint16_t',
[])
## buffer.h (module 'network'): uint32_t ns3::Buffer::Iterator::ReadLsbtohU32() [member function]
cls.add_method('ReadLsbtohU32',
'uint32_t',
[])
## buffer.h (module 'network'): uint64_t ns3::Buffer::Iterator::ReadLsbtohU64() [member function]
cls.add_method('ReadLsbtohU64',
'uint64_t',
[])
## buffer.h (module 'network'): uint16_t ns3::Buffer::Iterator::ReadNtohU16() [member function]
cls.add_method('ReadNtohU16',
'uint16_t',
[])
## buffer.h (module 'network'): uint32_t ns3::Buffer::Iterator::ReadNtohU32() [member function]
cls.add_method('ReadNtohU32',
'uint32_t',
[])
## buffer.h (module 'network'): uint64_t ns3::Buffer::Iterator::ReadNtohU64() [member function]
cls.add_method('ReadNtohU64',
'uint64_t',
[])
## buffer.h (module 'network'): uint16_t ns3::Buffer::Iterator::ReadU16() [member function]
cls.add_method('ReadU16',
'uint16_t',
[])
## buffer.h (module 'network'): uint32_t ns3::Buffer::Iterator::ReadU32() [member function]
cls.add_method('ReadU32',
'uint32_t',
[])
## buffer.h (module 'network'): uint64_t ns3::Buffer::Iterator::ReadU64() [member function]
cls.add_method('ReadU64',
'uint64_t',
[])
## buffer.h (module 'network'): uint8_t ns3::Buffer::Iterator::ReadU8() [member function]
cls.add_method('ReadU8',
'uint8_t',
[])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::Write(uint8_t const * buffer, uint32_t size) [member function]
cls.add_method('Write',
'void',
[param('uint8_t const *', 'buffer'), param('uint32_t', 'size')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::Write(ns3::Buffer::Iterator start, ns3::Buffer::Iterator end) [member function]
cls.add_method('Write',
'void',
[param('ns3::Buffer::Iterator', 'start'), param('ns3::Buffer::Iterator', 'end')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteHtolsbU16(uint16_t data) [member function]
cls.add_method('WriteHtolsbU16',
'void',
[param('uint16_t', 'data')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteHtolsbU32(uint32_t data) [member function]
cls.add_method('WriteHtolsbU32',
'void',
[param('uint32_t', 'data')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteHtolsbU64(uint64_t data) [member function]
cls.add_method('WriteHtolsbU64',
'void',
[param('uint64_t', 'data')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteHtonU16(uint16_t data) [member function]
cls.add_method('WriteHtonU16',
'void',
[param('uint16_t', 'data')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteHtonU32(uint32_t data) [member function]
cls.add_method('WriteHtonU32',
'void',
[param('uint32_t', 'data')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteHtonU64(uint64_t data) [member function]
cls.add_method('WriteHtonU64',
'void',
[param('uint64_t', 'data')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteU16(uint16_t data) [member function]
cls.add_method('WriteU16',
'void',
[param('uint16_t', 'data')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteU32(uint32_t data) [member function]
cls.add_method('WriteU32',
'void',
[param('uint32_t', 'data')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteU64(uint64_t data) [member function]
cls.add_method('WriteU64',
'void',
[param('uint64_t', 'data')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteU8(uint8_t data) [member function]
cls.add_method('WriteU8',
'void',
[param('uint8_t', 'data')])
## buffer.h (module 'network'): void ns3::Buffer::Iterator::WriteU8(uint8_t data, uint32_t len) [member function]
cls.add_method('WriteU8',
'void',
[param('uint8_t', 'data'), param('uint32_t', 'len')])
return
def register_Ns3ByteTagIterator_methods(root_module, cls):
## packet.h (module 'network'): ns3::ByteTagIterator::ByteTagIterator(ns3::ByteTagIterator const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ByteTagIterator const &', 'arg0')])
## packet.h (module 'network'): bool ns3::ByteTagIterator::HasNext() const [member function]
cls.add_method('HasNext',
'bool',
[],
is_const=True)
## packet.h (module 'network'): ns3::ByteTagIterator::Item ns3::ByteTagIterator::Next() [member function]
cls.add_method('Next',
'ns3::ByteTagIterator::Item',
[])
return
def register_Ns3ByteTagIteratorItem_methods(root_module, cls):
## packet.h (module 'network'): ns3::ByteTagIterator::Item::Item(ns3::ByteTagIterator::Item const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ByteTagIterator::Item const &', 'arg0')])
## packet.h (module 'network'): uint32_t ns3::ByteTagIterator::Item::GetEnd() const [member function]
cls.add_method('GetEnd',
'uint32_t',
[],
is_const=True)
## packet.h (module 'network'): uint32_t ns3::ByteTagIterator::Item::GetStart() const [member function]
cls.add_method('GetStart',
'uint32_t',
[],
is_const=True)
## packet.h (module 'network'): void ns3::ByteTagIterator::Item::GetTag(ns3::Tag & tag) const [member function]
cls.add_method('GetTag',
'void',
[param('ns3::Tag &', 'tag')],
is_const=True)
## packet.h (module 'network'): ns3::TypeId ns3::ByteTagIterator::Item::GetTypeId() const [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_const=True)
return
def register_Ns3ByteTagList_methods(root_module, cls):
## byte-tag-list.h (module 'network'): ns3::ByteTagList::ByteTagList() [constructor]
cls.add_constructor([])
## byte-tag-list.h (module 'network'): ns3::ByteTagList::ByteTagList(ns3::ByteTagList const & o) [copy constructor]
cls.add_constructor([param('ns3::ByteTagList const &', 'o')])
## byte-tag-list.h (module 'network'): ns3::TagBuffer ns3::ByteTagList::Add(ns3::TypeId tid, uint32_t bufferSize, int32_t start, int32_t end) [member function]
cls.add_method('Add',
'ns3::TagBuffer',
[param('ns3::TypeId', 'tid'), param('uint32_t', 'bufferSize'), param('int32_t', 'start'), param('int32_t', 'end')])
## byte-tag-list.h (module 'network'): void ns3::ByteTagList::Add(ns3::ByteTagList const & o) [member function]
cls.add_method('Add',
'void',
[param('ns3::ByteTagList const &', 'o')])
## byte-tag-list.h (module 'network'): void ns3::ByteTagList::AddAtEnd(int32_t appendOffset) [member function]
cls.add_method('AddAtEnd',
'void',
[param('int32_t', 'appendOffset')])
## byte-tag-list.h (module 'network'): void ns3::ByteTagList::AddAtStart(int32_t prependOffset) [member function]
cls.add_method('AddAtStart',
'void',
[param('int32_t', 'prependOffset')])
## byte-tag-list.h (module 'network'): void ns3::ByteTagList::Adjust(int32_t adjustment) [member function]
cls.add_method('Adjust',
'void',
[param('int32_t', 'adjustment')])
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator ns3::ByteTagList::Begin(int32_t offsetStart, int32_t offsetEnd) const [member function]
cls.add_method('Begin',
'ns3::ByteTagList::Iterator',
[param('int32_t', 'offsetStart'), param('int32_t', 'offsetEnd')],
is_const=True)
## byte-tag-list.h (module 'network'): void ns3::ByteTagList::RemoveAll() [member function]
cls.add_method('RemoveAll',
'void',
[])
return
def register_Ns3ByteTagListIterator_methods(root_module, cls):
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator::Iterator(ns3::ByteTagList::Iterator const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ByteTagList::Iterator const &', 'arg0')])
## byte-tag-list.h (module 'network'): uint32_t ns3::ByteTagList::Iterator::GetOffsetStart() const [member function]
cls.add_method('GetOffsetStart',
'uint32_t',
[],
is_const=True)
## byte-tag-list.h (module 'network'): bool ns3::ByteTagList::Iterator::HasNext() const [member function]
cls.add_method('HasNext',
'bool',
[],
is_const=True)
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator::Item ns3::ByteTagList::Iterator::Next() [member function]
cls.add_method('Next',
'ns3::ByteTagList::Iterator::Item',
[])
return
def register_Ns3ByteTagListIteratorItem_methods(root_module, cls):
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator::Item::Item(ns3::ByteTagList::Iterator::Item const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ByteTagList::Iterator::Item const &', 'arg0')])
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator::Item::Item(ns3::TagBuffer buf) [constructor]
cls.add_constructor([param('ns3::TagBuffer', 'buf')])
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator::Item::buf [variable]
cls.add_instance_attribute('buf', 'ns3::TagBuffer', is_const=False)
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator::Item::end [variable]
cls.add_instance_attribute('end', 'int32_t', is_const=False)
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator::Item::size [variable]
cls.add_instance_attribute('size', 'uint32_t', is_const=False)
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator::Item::start [variable]
cls.add_instance_attribute('start', 'int32_t', is_const=False)
## byte-tag-list.h (module 'network'): ns3::ByteTagList::Iterator::Item::tid [variable]
cls.add_instance_attribute('tid', 'ns3::TypeId', is_const=False)
return
def register_Ns3CallbackBase_methods(root_module, cls):
## callback.h (module 'core'): ns3::CallbackBase::CallbackBase(ns3::CallbackBase const & arg0) [copy constructor]
cls.add_constructor([param('ns3::CallbackBase const &', 'arg0')])
## callback.h (module 'core'): ns3::CallbackBase::CallbackBase() [constructor]
cls.add_constructor([])
## callback.h (module 'core'): ns3::Ptr<ns3::CallbackImplBase> ns3::CallbackBase::GetImpl() const [member function]
cls.add_method('GetImpl',
'ns3::Ptr< ns3::CallbackImplBase >',
[],
is_const=True)
## callback.h (module 'core'): ns3::CallbackBase::CallbackBase(ns3::Ptr<ns3::CallbackImplBase> impl) [constructor]
cls.add_constructor([param('ns3::Ptr< ns3::CallbackImplBase >', 'impl')],
visibility='protected')
return
def register_Ns3CsmaDeviceRec_methods(root_module, cls):
## csma-channel.h (module 'csma'): ns3::CsmaDeviceRec::CsmaDeviceRec() [constructor]
cls.add_constructor([])
## csma-channel.h (module 'csma'): ns3::CsmaDeviceRec::CsmaDeviceRec(ns3::Ptr<ns3::CsmaNetDevice> device) [constructor]
cls.add_constructor([param('ns3::Ptr< ns3::CsmaNetDevice >', 'device')])
## csma-channel.h (module 'csma'): ns3::CsmaDeviceRec::CsmaDeviceRec(ns3::CsmaDeviceRec const & o) [copy constructor]
cls.add_constructor([param('ns3::CsmaDeviceRec const &', 'o')])
## csma-channel.h (module 'csma'): bool ns3::CsmaDeviceRec::IsActive() [member function]
cls.add_method('IsActive',
'bool',
[])
## csma-channel.h (module 'csma'): ns3::CsmaDeviceRec::active [variable]
cls.add_instance_attribute('active', 'bool', is_const=False)
## csma-channel.h (module 'csma'): ns3::CsmaDeviceRec::devicePtr [variable]
cls.add_instance_attribute('devicePtr', 'ns3::Ptr< ns3::CsmaNetDevice >', is_const=False)
return
def register_Ns3DataRate_methods(root_module, cls):
cls.add_output_stream_operator()
cls.add_binary_comparison_operator('!=')
cls.add_binary_comparison_operator('<')
cls.add_binary_comparison_operator('<=')
cls.add_binary_comparison_operator('==')
cls.add_binary_comparison_operator('>')
cls.add_binary_comparison_operator('>=')
## data-rate.h (module 'network'): ns3::DataRate::DataRate(ns3::DataRate const & arg0) [copy constructor]
cls.add_constructor([param('ns3::DataRate const &', 'arg0')])
## data-rate.h (module 'network'): ns3::DataRate::DataRate() [constructor]
cls.add_constructor([])
## data-rate.h (module 'network'): ns3::DataRate::DataRate(uint64_t bps) [constructor]
cls.add_constructor([param('uint64_t', 'bps')])
## data-rate.h (module 'network'): ns3::DataRate::DataRate(std::string rate) [constructor]
cls.add_constructor([param('std::string', 'rate')])
## data-rate.h (module 'network'): ns3::Time ns3::DataRate::CalculateBitsTxTime(uint32_t bits) const [member function]
cls.add_method('CalculateBitsTxTime',
'ns3::Time',
[param('uint32_t', 'bits')],
is_const=True)
## data-rate.h (module 'network'): ns3::Time ns3::DataRate::CalculateBytesTxTime(uint32_t bytes) const [member function]
cls.add_method('CalculateBytesTxTime',
'ns3::Time',
[param('uint32_t', 'bytes')],
is_const=True)
## data-rate.h (module 'network'): double ns3::DataRate::CalculateTxTime(uint32_t bytes) const [member function]
cls.add_method('CalculateTxTime',
'double',
[param('uint32_t', 'bytes')],
deprecated=True, is_const=True)
## data-rate.h (module 'network'): uint64_t ns3::DataRate::GetBitRate() const [member function]
cls.add_method('GetBitRate',
'uint64_t',
[],
is_const=True)
return
def register_Ns3EventId_methods(root_module, cls):
cls.add_binary_comparison_operator('!=')
cls.add_binary_comparison_operator('==')
## event-id.h (module 'core'): ns3::EventId::EventId(ns3::EventId const & arg0) [copy constructor]
cls.add_constructor([param('ns3::EventId const &', 'arg0')])
## event-id.h (module 'core'): ns3::EventId::EventId() [constructor]
cls.add_constructor([])
## event-id.h (module 'core'): ns3::EventId::EventId(ns3::Ptr<ns3::EventImpl> const & impl, uint64_t ts, uint32_t context, uint32_t uid) [constructor]
cls.add_constructor([param('ns3::Ptr< ns3::EventImpl > const &', 'impl'), param('uint64_t', 'ts'), param('uint32_t', 'context'), param('uint32_t', 'uid')])
## event-id.h (module 'core'): void ns3::EventId::Cancel() [member function]
cls.add_method('Cancel',
'void',
[])
## event-id.h (module 'core'): uint32_t ns3::EventId::GetContext() const [member function]
cls.add_method('GetContext',
'uint32_t',
[],
is_const=True)
## event-id.h (module 'core'): uint64_t ns3::EventId::GetTs() const [member function]
cls.add_method('GetTs',
'uint64_t',
[],
is_const=True)
## event-id.h (module 'core'): uint32_t ns3::EventId::GetUid() const [member function]
cls.add_method('GetUid',
'uint32_t',
[],
is_const=True)
## event-id.h (module 'core'): bool ns3::EventId::IsExpired() const [member function]
cls.add_method('IsExpired',
'bool',
[],
is_const=True)
## event-id.h (module 'core'): bool ns3::EventId::IsRunning() const [member function]
cls.add_method('IsRunning',
'bool',
[],
is_const=True)
## event-id.h (module 'core'): ns3::EventImpl * ns3::EventId::PeekEventImpl() const [member function]
cls.add_method('PeekEventImpl',
'ns3::EventImpl *',
[],
is_const=True)
return
def register_Ns3Hasher_methods(root_module, cls):
## hash.h (module 'core'): ns3::Hasher::Hasher(ns3::Hasher const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Hasher const &', 'arg0')])
## hash.h (module 'core'): ns3::Hasher::Hasher() [constructor]
cls.add_constructor([])
## hash.h (module 'core'): ns3::Hasher::Hasher(ns3::Ptr<ns3::Hash::Implementation> hp) [constructor]
cls.add_constructor([param('ns3::Ptr< ns3::Hash::Implementation >', 'hp')])
## hash.h (module 'core'): uint32_t ns3::Hasher::GetHash32(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash32',
'uint32_t',
[param('char const *', 'buffer'), param('size_t const', 'size')])
## hash.h (module 'core'): uint32_t ns3::Hasher::GetHash32(std::string const s) [member function]
cls.add_method('GetHash32',
'uint32_t',
[param('std::string const', 's')])
## hash.h (module 'core'): uint64_t ns3::Hasher::GetHash64(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash64',
'uint64_t',
[param('char const *', 'buffer'), param('size_t const', 'size')])
## hash.h (module 'core'): uint64_t ns3::Hasher::GetHash64(std::string const s) [member function]
cls.add_method('GetHash64',
'uint64_t',
[param('std::string const', 's')])
## hash.h (module 'core'): ns3::Hasher & ns3::Hasher::clear() [member function]
cls.add_method('clear',
'ns3::Hasher &',
[])
return
def register_Ns3Ipv4Address_methods(root_module, cls):
cls.add_binary_comparison_operator('<')
cls.add_binary_comparison_operator('!=')
cls.add_output_stream_operator()
cls.add_binary_comparison_operator('==')
## ipv4-address.h (module 'network'): ns3::Ipv4Address::Ipv4Address(ns3::Ipv4Address const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Ipv4Address const &', 'arg0')])
## ipv4-address.h (module 'network'): ns3::Ipv4Address::Ipv4Address() [constructor]
cls.add_constructor([])
## ipv4-address.h (module 'network'): ns3::Ipv4Address::Ipv4Address(uint32_t address) [constructor]
cls.add_constructor([param('uint32_t', 'address')])
## ipv4-address.h (module 'network'): ns3::Ipv4Address::Ipv4Address(char const * address) [constructor]
cls.add_constructor([param('char const *', 'address')])
## ipv4-address.h (module 'network'): ns3::Ipv4Address ns3::Ipv4Address::CombineMask(ns3::Ipv4Mask const & mask) const [member function]
cls.add_method('CombineMask',
'ns3::Ipv4Address',
[param('ns3::Ipv4Mask const &', 'mask')],
is_const=True)
## ipv4-address.h (module 'network'): static ns3::Ipv4Address ns3::Ipv4Address::ConvertFrom(ns3::Address const & address) [member function]
cls.add_method('ConvertFrom',
'ns3::Ipv4Address',
[param('ns3::Address const &', 'address')],
is_static=True)
## ipv4-address.h (module 'network'): static ns3::Ipv4Address ns3::Ipv4Address::Deserialize(uint8_t const * buf) [member function]
cls.add_method('Deserialize',
'ns3::Ipv4Address',
[param('uint8_t const *', 'buf')],
is_static=True)
## ipv4-address.h (module 'network'): uint32_t ns3::Ipv4Address::Get() const [member function]
cls.add_method('Get',
'uint32_t',
[],
is_const=True)
## ipv4-address.h (module 'network'): static ns3::Ipv4Address ns3::Ipv4Address::GetAny() [member function]
cls.add_method('GetAny',
'ns3::Ipv4Address',
[],
is_static=True)
## ipv4-address.h (module 'network'): static ns3::Ipv4Address ns3::Ipv4Address::GetBroadcast() [member function]
cls.add_method('GetBroadcast',
'ns3::Ipv4Address',
[],
is_static=True)
## ipv4-address.h (module 'network'): static ns3::Ipv4Address ns3::Ipv4Address::GetLoopback() [member function]
cls.add_method('GetLoopback',
'ns3::Ipv4Address',
[],
is_static=True)
## ipv4-address.h (module 'network'): ns3::Ipv4Address ns3::Ipv4Address::GetSubnetDirectedBroadcast(ns3::Ipv4Mask const & mask) const [member function]
cls.add_method('GetSubnetDirectedBroadcast',
'ns3::Ipv4Address',
[param('ns3::Ipv4Mask const &', 'mask')],
is_const=True)
## ipv4-address.h (module 'network'): static ns3::Ipv4Address ns3::Ipv4Address::GetZero() [member function]
cls.add_method('GetZero',
'ns3::Ipv4Address',
[],
is_static=True)
## ipv4-address.h (module 'network'): bool ns3::Ipv4Address::IsBroadcast() const [member function]
cls.add_method('IsBroadcast',
'bool',
[],
is_const=True)
## ipv4-address.h (module 'network'): bool ns3::Ipv4Address::IsEqual(ns3::Ipv4Address const & other) const [member function]
cls.add_method('IsEqual',
'bool',
[param('ns3::Ipv4Address const &', 'other')],
is_const=True)
## ipv4-address.h (module 'network'): bool ns3::Ipv4Address::IsLocalMulticast() const [member function]
cls.add_method('IsLocalMulticast',
'bool',
[],
is_const=True)
## ipv4-address.h (module 'network'): static bool ns3::Ipv4Address::IsMatchingType(ns3::Address const & address) [member function]
cls.add_method('IsMatchingType',
'bool',
[param('ns3::Address const &', 'address')],
is_static=True)
## ipv4-address.h (module 'network'): bool ns3::Ipv4Address::IsMulticast() const [member function]
cls.add_method('IsMulticast',
'bool',
[],
is_const=True)
## ipv4-address.h (module 'network'): bool ns3::Ipv4Address::IsSubnetDirectedBroadcast(ns3::Ipv4Mask const & mask) const [member function]
cls.add_method('IsSubnetDirectedBroadcast',
'bool',
[param('ns3::Ipv4Mask const &', 'mask')],
is_const=True)
## ipv4-address.h (module 'network'): void ns3::Ipv4Address::Print(std::ostream & os) const [member function]
cls.add_method('Print',
'void',
[param('std::ostream &', 'os')],
is_const=True)
## ipv4-address.h (module 'network'): void ns3::Ipv4Address::Serialize(uint8_t * buf) const [member function]
cls.add_method('Serialize',
'void',
[param('uint8_t *', 'buf')],
is_const=True)
## ipv4-address.h (module 'network'): void ns3::Ipv4Address::Set(uint32_t address) [member function]
cls.add_method('Set',
'void',
[param('uint32_t', 'address')])
## ipv4-address.h (module 'network'): void ns3::Ipv4Address::Set(char const * address) [member function]
cls.add_method('Set',
'void',
[param('char const *', 'address')])
return
def register_Ns3Ipv4Mask_methods(root_module, cls):
cls.add_binary_comparison_operator('!=')
cls.add_output_stream_operator()
cls.add_binary_comparison_operator('==')
## ipv4-address.h (module 'network'): ns3::Ipv4Mask::Ipv4Mask(ns3::Ipv4Mask const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Ipv4Mask const &', 'arg0')])
## ipv4-address.h (module 'network'): ns3::Ipv4Mask::Ipv4Mask() [constructor]
cls.add_constructor([])
## ipv4-address.h (module 'network'): ns3::Ipv4Mask::Ipv4Mask(uint32_t mask) [constructor]
cls.add_constructor([param('uint32_t', 'mask')])
## ipv4-address.h (module 'network'): ns3::Ipv4Mask::Ipv4Mask(char const * mask) [constructor]
cls.add_constructor([param('char const *', 'mask')])
## ipv4-address.h (module 'network'): uint32_t ns3::Ipv4Mask::Get() const [member function]
cls.add_method('Get',
'uint32_t',
[],
is_const=True)
## ipv4-address.h (module 'network'): uint32_t ns3::Ipv4Mask::GetInverse() const [member function]
cls.add_method('GetInverse',
'uint32_t',
[],
is_const=True)
## ipv4-address.h (module 'network'): static ns3::Ipv4Mask ns3::Ipv4Mask::GetLoopback() [member function]
cls.add_method('GetLoopback',
'ns3::Ipv4Mask',
[],
is_static=True)
## ipv4-address.h (module 'network'): static ns3::Ipv4Mask ns3::Ipv4Mask::GetOnes() [member function]
cls.add_method('GetOnes',
'ns3::Ipv4Mask',
[],
is_static=True)
## ipv4-address.h (module 'network'): uint16_t ns3::Ipv4Mask::GetPrefixLength() const [member function]
cls.add_method('GetPrefixLength',
'uint16_t',
[],
is_const=True)
## ipv4-address.h (module 'network'): static ns3::Ipv4Mask ns3::Ipv4Mask::GetZero() [member function]
cls.add_method('GetZero',
'ns3::Ipv4Mask',
[],
is_static=True)
## ipv4-address.h (module 'network'): bool ns3::Ipv4Mask::IsEqual(ns3::Ipv4Mask other) const [member function]
cls.add_method('IsEqual',
'bool',
[param('ns3::Ipv4Mask', 'other')],
is_const=True)
## ipv4-address.h (module 'network'): bool ns3::Ipv4Mask::IsMatch(ns3::Ipv4Address a, ns3::Ipv4Address b) const [member function]
cls.add_method('IsMatch',
'bool',
[param('ns3::Ipv4Address', 'a'), param('ns3::Ipv4Address', 'b')],
is_const=True)
## ipv4-address.h (module 'network'): void ns3::Ipv4Mask::Print(std::ostream & os) const [member function]
cls.add_method('Print',
'void',
[param('std::ostream &', 'os')],
is_const=True)
## ipv4-address.h (module 'network'): void ns3::Ipv4Mask::Set(uint32_t mask) [member function]
cls.add_method('Set',
'void',
[param('uint32_t', 'mask')])
return
def register_Ns3Ipv6Address_methods(root_module, cls):
cls.add_binary_comparison_operator('<')
cls.add_binary_comparison_operator('!=')
cls.add_output_stream_operator()
cls.add_binary_comparison_operator('==')
## ipv6-address.h (module 'network'): ns3::Ipv6Address::Ipv6Address() [constructor]
cls.add_constructor([])
## ipv6-address.h (module 'network'): ns3::Ipv6Address::Ipv6Address(char const * address) [constructor]
cls.add_constructor([param('char const *', 'address')])
## ipv6-address.h (module 'network'): ns3::Ipv6Address::Ipv6Address(uint8_t * address) [constructor]
cls.add_constructor([param('uint8_t *', 'address')])
## ipv6-address.h (module 'network'): ns3::Ipv6Address::Ipv6Address(ns3::Ipv6Address const & addr) [copy constructor]
cls.add_constructor([param('ns3::Ipv6Address const &', 'addr')])
## ipv6-address.h (module 'network'): ns3::Ipv6Address::Ipv6Address(ns3::Ipv6Address const * addr) [constructor]
cls.add_constructor([param('ns3::Ipv6Address const *', 'addr')])
## ipv6-address.h (module 'network'): ns3::Ipv6Address ns3::Ipv6Address::CombinePrefix(ns3::Ipv6Prefix const & prefix) [member function]
cls.add_method('CombinePrefix',
'ns3::Ipv6Address',
[param('ns3::Ipv6Prefix const &', 'prefix')])
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::ConvertFrom(ns3::Address const & address) [member function]
cls.add_method('ConvertFrom',
'ns3::Ipv6Address',
[param('ns3::Address const &', 'address')],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::Deserialize(uint8_t const * buf) [member function]
cls.add_method('Deserialize',
'ns3::Ipv6Address',
[param('uint8_t const *', 'buf')],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::GetAllHostsMulticast() [member function]
cls.add_method('GetAllHostsMulticast',
'ns3::Ipv6Address',
[],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::GetAllNodesMulticast() [member function]
cls.add_method('GetAllNodesMulticast',
'ns3::Ipv6Address',
[],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::GetAllRoutersMulticast() [member function]
cls.add_method('GetAllRoutersMulticast',
'ns3::Ipv6Address',
[],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::GetAny() [member function]
cls.add_method('GetAny',
'ns3::Ipv6Address',
[],
is_static=True)
## ipv6-address.h (module 'network'): void ns3::Ipv6Address::GetBytes(uint8_t * buf) const [member function]
cls.add_method('GetBytes',
'void',
[param('uint8_t *', 'buf')],
is_const=True)
## ipv6-address.h (module 'network'): ns3::Ipv4Address ns3::Ipv6Address::GetIpv4MappedAddress() const [member function]
cls.add_method('GetIpv4MappedAddress',
'ns3::Ipv4Address',
[],
is_const=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::GetLoopback() [member function]
cls.add_method('GetLoopback',
'ns3::Ipv6Address',
[],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::GetOnes() [member function]
cls.add_method('GetOnes',
'ns3::Ipv6Address',
[],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::GetZero() [member function]
cls.add_method('GetZero',
'ns3::Ipv6Address',
[],
is_static=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsAllHostsMulticast() const [member function]
cls.add_method('IsAllHostsMulticast',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsAllNodesMulticast() const [member function]
cls.add_method('IsAllNodesMulticast',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsAllRoutersMulticast() const [member function]
cls.add_method('IsAllRoutersMulticast',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsAny() const [member function]
cls.add_method('IsAny',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsDocumentation() const [member function]
cls.add_method('IsDocumentation',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsEqual(ns3::Ipv6Address const & other) const [member function]
cls.add_method('IsEqual',
'bool',
[param('ns3::Ipv6Address const &', 'other')],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsIpv4MappedAddress() const [member function]
cls.add_method('IsIpv4MappedAddress',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsLinkLocal() const [member function]
cls.add_method('IsLinkLocal',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsLinkLocalMulticast() const [member function]
cls.add_method('IsLinkLocalMulticast',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsLocalhost() const [member function]
cls.add_method('IsLocalhost',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): static bool ns3::Ipv6Address::IsMatchingType(ns3::Address const & address) [member function]
cls.add_method('IsMatchingType',
'bool',
[param('ns3::Address const &', 'address')],
is_static=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsMulticast() const [member function]
cls.add_method('IsMulticast',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Address::IsSolicitedMulticast() const [member function]
cls.add_method('IsSolicitedMulticast',
'bool',
[],
is_const=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::MakeAutoconfiguredAddress(ns3::Mac16Address addr, ns3::Ipv6Address prefix) [member function]
cls.add_method('MakeAutoconfiguredAddress',
'ns3::Ipv6Address',
[param('ns3::Mac16Address', 'addr'), param('ns3::Ipv6Address', 'prefix')],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::MakeAutoconfiguredAddress(ns3::Mac48Address addr, ns3::Ipv6Address prefix) [member function]
cls.add_method('MakeAutoconfiguredAddress',
'ns3::Ipv6Address',
[param('ns3::Mac48Address', 'addr'), param('ns3::Ipv6Address', 'prefix')],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::MakeAutoconfiguredAddress(ns3::Mac64Address addr, ns3::Ipv6Address prefix) [member function]
cls.add_method('MakeAutoconfiguredAddress',
'ns3::Ipv6Address',
[param('ns3::Mac64Address', 'addr'), param('ns3::Ipv6Address', 'prefix')],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::MakeAutoconfiguredLinkLocalAddress(ns3::Mac16Address mac) [member function]
cls.add_method('MakeAutoconfiguredLinkLocalAddress',
'ns3::Ipv6Address',
[param('ns3::Mac16Address', 'mac')],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::MakeAutoconfiguredLinkLocalAddress(ns3::Mac48Address mac) [member function]
cls.add_method('MakeAutoconfiguredLinkLocalAddress',
'ns3::Ipv6Address',
[param('ns3::Mac48Address', 'mac')],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::MakeAutoconfiguredLinkLocalAddress(ns3::Mac64Address mac) [member function]
cls.add_method('MakeAutoconfiguredLinkLocalAddress',
'ns3::Ipv6Address',
[param('ns3::Mac64Address', 'mac')],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::MakeIpv4MappedAddress(ns3::Ipv4Address addr) [member function]
cls.add_method('MakeIpv4MappedAddress',
'ns3::Ipv6Address',
[param('ns3::Ipv4Address', 'addr')],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Address ns3::Ipv6Address::MakeSolicitedAddress(ns3::Ipv6Address addr) [member function]
cls.add_method('MakeSolicitedAddress',
'ns3::Ipv6Address',
[param('ns3::Ipv6Address', 'addr')],
is_static=True)
## ipv6-address.h (module 'network'): void ns3::Ipv6Address::Print(std::ostream & os) const [member function]
cls.add_method('Print',
'void',
[param('std::ostream &', 'os')],
is_const=True)
## ipv6-address.h (module 'network'): void ns3::Ipv6Address::Serialize(uint8_t * buf) const [member function]
cls.add_method('Serialize',
'void',
[param('uint8_t *', 'buf')],
is_const=True)
## ipv6-address.h (module 'network'): void ns3::Ipv6Address::Set(char const * address) [member function]
cls.add_method('Set',
'void',
[param('char const *', 'address')])
## ipv6-address.h (module 'network'): void ns3::Ipv6Address::Set(uint8_t * address) [member function]
cls.add_method('Set',
'void',
[param('uint8_t *', 'address')])
return
def register_Ns3Ipv6Prefix_methods(root_module, cls):
cls.add_binary_comparison_operator('!=')
cls.add_output_stream_operator()
cls.add_binary_comparison_operator('==')
## ipv6-address.h (module 'network'): ns3::Ipv6Prefix::Ipv6Prefix() [constructor]
cls.add_constructor([])
## ipv6-address.h (module 'network'): ns3::Ipv6Prefix::Ipv6Prefix(uint8_t * prefix) [constructor]
cls.add_constructor([param('uint8_t *', 'prefix')])
## ipv6-address.h (module 'network'): ns3::Ipv6Prefix::Ipv6Prefix(char const * prefix) [constructor]
cls.add_constructor([param('char const *', 'prefix')])
## ipv6-address.h (module 'network'): ns3::Ipv6Prefix::Ipv6Prefix(uint8_t prefix) [constructor]
cls.add_constructor([param('uint8_t', 'prefix')])
## ipv6-address.h (module 'network'): ns3::Ipv6Prefix::Ipv6Prefix(ns3::Ipv6Prefix const & prefix) [copy constructor]
cls.add_constructor([param('ns3::Ipv6Prefix const &', 'prefix')])
## ipv6-address.h (module 'network'): ns3::Ipv6Prefix::Ipv6Prefix(ns3::Ipv6Prefix const * prefix) [constructor]
cls.add_constructor([param('ns3::Ipv6Prefix const *', 'prefix')])
## ipv6-address.h (module 'network'): void ns3::Ipv6Prefix::GetBytes(uint8_t * buf) const [member function]
cls.add_method('GetBytes',
'void',
[param('uint8_t *', 'buf')],
is_const=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Prefix ns3::Ipv6Prefix::GetLoopback() [member function]
cls.add_method('GetLoopback',
'ns3::Ipv6Prefix',
[],
is_static=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Prefix ns3::Ipv6Prefix::GetOnes() [member function]
cls.add_method('GetOnes',
'ns3::Ipv6Prefix',
[],
is_static=True)
## ipv6-address.h (module 'network'): uint8_t ns3::Ipv6Prefix::GetPrefixLength() const [member function]
cls.add_method('GetPrefixLength',
'uint8_t',
[],
is_const=True)
## ipv6-address.h (module 'network'): static ns3::Ipv6Prefix ns3::Ipv6Prefix::GetZero() [member function]
cls.add_method('GetZero',
'ns3::Ipv6Prefix',
[],
is_static=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Prefix::IsEqual(ns3::Ipv6Prefix const & other) const [member function]
cls.add_method('IsEqual',
'bool',
[param('ns3::Ipv6Prefix const &', 'other')],
is_const=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6Prefix::IsMatch(ns3::Ipv6Address a, ns3::Ipv6Address b) const [member function]
cls.add_method('IsMatch',
'bool',
[param('ns3::Ipv6Address', 'a'), param('ns3::Ipv6Address', 'b')],
is_const=True)
## ipv6-address.h (module 'network'): void ns3::Ipv6Prefix::Print(std::ostream & os) const [member function]
cls.add_method('Print',
'void',
[param('std::ostream &', 'os')],
is_const=True)
return
def register_Ns3Mac48Address_methods(root_module, cls):
cls.add_binary_comparison_operator('<')
cls.add_binary_comparison_operator('!=')
cls.add_output_stream_operator()
cls.add_binary_comparison_operator('==')
## mac48-address.h (module 'network'): ns3::Mac48Address::Mac48Address(ns3::Mac48Address const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Mac48Address const &', 'arg0')])
## mac48-address.h (module 'network'): ns3::Mac48Address::Mac48Address() [constructor]
cls.add_constructor([])
## mac48-address.h (module 'network'): ns3::Mac48Address::Mac48Address(char const * str) [constructor]
cls.add_constructor([param('char const *', 'str')])
## mac48-address.h (module 'network'): static ns3::Mac48Address ns3::Mac48Address::Allocate() [member function]
cls.add_method('Allocate',
'ns3::Mac48Address',
[],
is_static=True)
## mac48-address.h (module 'network'): static ns3::Mac48Address ns3::Mac48Address::ConvertFrom(ns3::Address const & address) [member function]
cls.add_method('ConvertFrom',
'ns3::Mac48Address',
[param('ns3::Address const &', 'address')],
is_static=True)
## mac48-address.h (module 'network'): void ns3::Mac48Address::CopyFrom(uint8_t const * buffer) [member function]
cls.add_method('CopyFrom',
'void',
[param('uint8_t const *', 'buffer')])
## mac48-address.h (module 'network'): void ns3::Mac48Address::CopyTo(uint8_t * buffer) const [member function]
cls.add_method('CopyTo',
'void',
[param('uint8_t *', 'buffer')],
is_const=True)
## mac48-address.h (module 'network'): static ns3::Mac48Address ns3::Mac48Address::GetBroadcast() [member function]
cls.add_method('GetBroadcast',
'ns3::Mac48Address',
[],
is_static=True)
## mac48-address.h (module 'network'): static ns3::Mac48Address ns3::Mac48Address::GetMulticast(ns3::Ipv4Address address) [member function]
cls.add_method('GetMulticast',
'ns3::Mac48Address',
[param('ns3::Ipv4Address', 'address')],
is_static=True)
## mac48-address.h (module 'network'): static ns3::Mac48Address ns3::Mac48Address::GetMulticast(ns3::Ipv6Address address) [member function]
cls.add_method('GetMulticast',
'ns3::Mac48Address',
[param('ns3::Ipv6Address', 'address')],
is_static=True)
## mac48-address.h (module 'network'): static ns3::Mac48Address ns3::Mac48Address::GetMulticast6Prefix() [member function]
cls.add_method('GetMulticast6Prefix',
'ns3::Mac48Address',
[],
is_static=True)
## mac48-address.h (module 'network'): static ns3::Mac48Address ns3::Mac48Address::GetMulticastPrefix() [member function]
cls.add_method('GetMulticastPrefix',
'ns3::Mac48Address',
[],
is_static=True)
## mac48-address.h (module 'network'): bool ns3::Mac48Address::IsBroadcast() const [member function]
cls.add_method('IsBroadcast',
'bool',
[],
is_const=True)
## mac48-address.h (module 'network'): bool ns3::Mac48Address::IsGroup() const [member function]
cls.add_method('IsGroup',
'bool',
[],
is_const=True)
## mac48-address.h (module 'network'): static bool ns3::Mac48Address::IsMatchingType(ns3::Address const & address) [member function]
cls.add_method('IsMatchingType',
'bool',
[param('ns3::Address const &', 'address')],
is_static=True)
return
def register_Ns3NetDeviceContainer_methods(root_module, cls):
## net-device-container.h (module 'network'): ns3::NetDeviceContainer::NetDeviceContainer(ns3::NetDeviceContainer const & arg0) [copy constructor]
cls.add_constructor([param('ns3::NetDeviceContainer const &', 'arg0')])
## net-device-container.h (module 'network'): ns3::NetDeviceContainer::NetDeviceContainer() [constructor]
cls.add_constructor([])
## net-device-container.h (module 'network'): ns3::NetDeviceContainer::NetDeviceContainer(ns3::Ptr<ns3::NetDevice> dev) [constructor]
cls.add_constructor([param('ns3::Ptr< ns3::NetDevice >', 'dev')])
## net-device-container.h (module 'network'): ns3::NetDeviceContainer::NetDeviceContainer(std::string devName) [constructor]
cls.add_constructor([param('std::string', 'devName')])
## net-device-container.h (module 'network'): ns3::NetDeviceContainer::NetDeviceContainer(ns3::NetDeviceContainer const & a, ns3::NetDeviceContainer const & b) [constructor]
cls.add_constructor([param('ns3::NetDeviceContainer const &', 'a'), param('ns3::NetDeviceContainer const &', 'b')])
## net-device-container.h (module 'network'): void ns3::NetDeviceContainer::Add(ns3::NetDeviceContainer other) [member function]
cls.add_method('Add',
'void',
[param('ns3::NetDeviceContainer', 'other')])
## net-device-container.h (module 'network'): void ns3::NetDeviceContainer::Add(ns3::Ptr<ns3::NetDevice> device) [member function]
cls.add_method('Add',
'void',
[param('ns3::Ptr< ns3::NetDevice >', 'device')])
## net-device-container.h (module 'network'): void ns3::NetDeviceContainer::Add(std::string deviceName) [member function]
cls.add_method('Add',
'void',
[param('std::string', 'deviceName')])
## net-device-container.h (module 'network'): __gnu_cxx::__normal_iterator<const ns3::Ptr<ns3::NetDevice>*,std::vector<ns3::Ptr<ns3::NetDevice>, std::allocator<ns3::Ptr<ns3::NetDevice> > > > ns3::NetDeviceContainer::Begin() const [member function]
cls.add_method('Begin',
'__gnu_cxx::__normal_iterator< ns3::Ptr< ns3::NetDevice > const, std::vector< ns3::Ptr< ns3::NetDevice > > >',
[],
is_const=True)
## net-device-container.h (module 'network'): __gnu_cxx::__normal_iterator<const ns3::Ptr<ns3::NetDevice>*,std::vector<ns3::Ptr<ns3::NetDevice>, std::allocator<ns3::Ptr<ns3::NetDevice> > > > ns3::NetDeviceContainer::End() const [member function]
cls.add_method('End',
'__gnu_cxx::__normal_iterator< ns3::Ptr< ns3::NetDevice > const, std::vector< ns3::Ptr< ns3::NetDevice > > >',
[],
is_const=True)
## net-device-container.h (module 'network'): ns3::Ptr<ns3::NetDevice> ns3::NetDeviceContainer::Get(uint32_t i) const [member function]
cls.add_method('Get',
'ns3::Ptr< ns3::NetDevice >',
[param('uint32_t', 'i')],
is_const=True)
## net-device-container.h (module 'network'): uint32_t ns3::NetDeviceContainer::GetN() const [member function]
cls.add_method('GetN',
'uint32_t',
[],
is_const=True)
return
def register_Ns3NodeContainer_methods(root_module, cls):
## node-container.h (module 'network'): ns3::NodeContainer::NodeContainer(ns3::NodeContainer const & arg0) [copy constructor]
cls.add_constructor([param('ns3::NodeContainer const &', 'arg0')])
## node-container.h (module 'network'): ns3::NodeContainer::NodeContainer() [constructor]
cls.add_constructor([])
## node-container.h (module 'network'): ns3::NodeContainer::NodeContainer(ns3::Ptr<ns3::Node> node) [constructor]
cls.add_constructor([param('ns3::Ptr< ns3::Node >', 'node')])
## node-container.h (module 'network'): ns3::NodeContainer::NodeContainer(std::string nodeName) [constructor]
cls.add_constructor([param('std::string', 'nodeName')])
## node-container.h (module 'network'): ns3::NodeContainer::NodeContainer(ns3::NodeContainer const & a, ns3::NodeContainer const & b) [constructor]
cls.add_constructor([param('ns3::NodeContainer const &', 'a'), param('ns3::NodeContainer const &', 'b')])
## node-container.h (module 'network'): ns3::NodeContainer::NodeContainer(ns3::NodeContainer const & a, ns3::NodeContainer const & b, ns3::NodeContainer const & c) [constructor]
cls.add_constructor([param('ns3::NodeContainer const &', 'a'), param('ns3::NodeContainer const &', 'b'), param('ns3::NodeContainer const &', 'c')])
## node-container.h (module 'network'): ns3::NodeContainer::NodeContainer(ns3::NodeContainer const & a, ns3::NodeContainer const & b, ns3::NodeContainer const & c, ns3::NodeContainer const & d) [constructor]
cls.add_constructor([param('ns3::NodeContainer const &', 'a'), param('ns3::NodeContainer const &', 'b'), param('ns3::NodeContainer const &', 'c'), param('ns3::NodeContainer const &', 'd')])
## node-container.h (module 'network'): ns3::NodeContainer::NodeContainer(ns3::NodeContainer const & a, ns3::NodeContainer const & b, ns3::NodeContainer const & c, ns3::NodeContainer const & d, ns3::NodeContainer const & e) [constructor]
cls.add_constructor([param('ns3::NodeContainer const &', 'a'), param('ns3::NodeContainer const &', 'b'), param('ns3::NodeContainer const &', 'c'), param('ns3::NodeContainer const &', 'd'), param('ns3::NodeContainer const &', 'e')])
## node-container.h (module 'network'): void ns3::NodeContainer::Add(ns3::NodeContainer other) [member function]
cls.add_method('Add',
'void',
[param('ns3::NodeContainer', 'other')])
## node-container.h (module 'network'): void ns3::NodeContainer::Add(ns3::Ptr<ns3::Node> node) [member function]
cls.add_method('Add',
'void',
[param('ns3::Ptr< ns3::Node >', 'node')])
## node-container.h (module 'network'): void ns3::NodeContainer::Add(std::string nodeName) [member function]
cls.add_method('Add',
'void',
[param('std::string', 'nodeName')])
## node-container.h (module 'network'): __gnu_cxx::__normal_iterator<const ns3::Ptr<ns3::Node>*,std::vector<ns3::Ptr<ns3::Node>, std::allocator<ns3::Ptr<ns3::Node> > > > ns3::NodeContainer::Begin() const [member function]
cls.add_method('Begin',
'__gnu_cxx::__normal_iterator< ns3::Ptr< ns3::Node > const, std::vector< ns3::Ptr< ns3::Node > > >',
[],
is_const=True)
## node-container.h (module 'network'): void ns3::NodeContainer::Create(uint32_t n) [member function]
cls.add_method('Create',
'void',
[param('uint32_t', 'n')])
## node-container.h (module 'network'): void ns3::NodeContainer::Create(uint32_t n, uint32_t systemId) [member function]
cls.add_method('Create',
'void',
[param('uint32_t', 'n'), param('uint32_t', 'systemId')])
## node-container.h (module 'network'): __gnu_cxx::__normal_iterator<const ns3::Ptr<ns3::Node>*,std::vector<ns3::Ptr<ns3::Node>, std::allocator<ns3::Ptr<ns3::Node> > > > ns3::NodeContainer::End() const [member function]
cls.add_method('End',
'__gnu_cxx::__normal_iterator< ns3::Ptr< ns3::Node > const, std::vector< ns3::Ptr< ns3::Node > > >',
[],
is_const=True)
## node-container.h (module 'network'): ns3::Ptr<ns3::Node> ns3::NodeContainer::Get(uint32_t i) const [member function]
cls.add_method('Get',
'ns3::Ptr< ns3::Node >',
[param('uint32_t', 'i')],
is_const=True)
## node-container.h (module 'network'): static ns3::NodeContainer ns3::NodeContainer::GetGlobal() [member function]
cls.add_method('GetGlobal',
'ns3::NodeContainer',
[],
is_static=True)
## node-container.h (module 'network'): uint32_t ns3::NodeContainer::GetN() const [member function]
cls.add_method('GetN',
'uint32_t',
[],
is_const=True)
return
def register_Ns3ObjectBase_methods(root_module, cls):
## object-base.h (module 'core'): ns3::ObjectBase::ObjectBase() [constructor]
cls.add_constructor([])
## object-base.h (module 'core'): ns3::ObjectBase::ObjectBase(ns3::ObjectBase const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ObjectBase const &', 'arg0')])
## object-base.h (module 'core'): void ns3::ObjectBase::GetAttribute(std::string name, ns3::AttributeValue & value) const [member function]
cls.add_method('GetAttribute',
'void',
[param('std::string', 'name'), param('ns3::AttributeValue &', 'value')],
is_const=True)
## object-base.h (module 'core'): bool ns3::ObjectBase::GetAttributeFailSafe(std::string name, ns3::AttributeValue & value) const [member function]
cls.add_method('GetAttributeFailSafe',
'bool',
[param('std::string', 'name'), param('ns3::AttributeValue &', 'value')],
is_const=True)
## object-base.h (module 'core'): ns3::TypeId ns3::ObjectBase::GetInstanceTypeId() const [member function]
cls.add_method('GetInstanceTypeId',
'ns3::TypeId',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## object-base.h (module 'core'): static ns3::TypeId ns3::ObjectBase::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## object-base.h (module 'core'): void ns3::ObjectBase::SetAttribute(std::string name, ns3::AttributeValue const & value) [member function]
cls.add_method('SetAttribute',
'void',
[param('std::string', 'name'), param('ns3::AttributeValue const &', 'value')])
## object-base.h (module 'core'): bool ns3::ObjectBase::SetAttributeFailSafe(std::string name, ns3::AttributeValue const & value) [member function]
cls.add_method('SetAttributeFailSafe',
'bool',
[param('std::string', 'name'), param('ns3::AttributeValue const &', 'value')])
## object-base.h (module 'core'): bool ns3::ObjectBase::TraceConnect(std::string name, std::string context, ns3::CallbackBase const & cb) [member function]
cls.add_method('TraceConnect',
'bool',
[param('std::string', 'name'), param('std::string', 'context'), param('ns3::CallbackBase const &', 'cb')])
## object-base.h (module 'core'): bool ns3::ObjectBase::TraceConnectWithoutContext(std::string name, ns3::CallbackBase const & cb) [member function]
cls.add_method('TraceConnectWithoutContext',
'bool',
[param('std::string', 'name'), param('ns3::CallbackBase const &', 'cb')])
## object-base.h (module 'core'): bool ns3::ObjectBase::TraceDisconnect(std::string name, std::string context, ns3::CallbackBase const & cb) [member function]
cls.add_method('TraceDisconnect',
'bool',
[param('std::string', 'name'), param('std::string', 'context'), param('ns3::CallbackBase const &', 'cb')])
## object-base.h (module 'core'): bool ns3::ObjectBase::TraceDisconnectWithoutContext(std::string name, ns3::CallbackBase const & cb) [member function]
cls.add_method('TraceDisconnectWithoutContext',
'bool',
[param('std::string', 'name'), param('ns3::CallbackBase const &', 'cb')])
## object-base.h (module 'core'): void ns3::ObjectBase::ConstructSelf(ns3::AttributeConstructionList const & attributes) [member function]
cls.add_method('ConstructSelf',
'void',
[param('ns3::AttributeConstructionList const &', 'attributes')],
visibility='protected')
## object-base.h (module 'core'): void ns3::ObjectBase::NotifyConstructionCompleted() [member function]
cls.add_method('NotifyConstructionCompleted',
'void',
[],
visibility='protected', is_virtual=True)
return
def register_Ns3ObjectDeleter_methods(root_module, cls):
## object.h (module 'core'): ns3::ObjectDeleter::ObjectDeleter() [constructor]
cls.add_constructor([])
## object.h (module 'core'): ns3::ObjectDeleter::ObjectDeleter(ns3::ObjectDeleter const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ObjectDeleter const &', 'arg0')])
## object.h (module 'core'): static void ns3::ObjectDeleter::Delete(ns3::Object * object) [member function]
cls.add_method('Delete',
'void',
[param('ns3::Object *', 'object')],
is_static=True)
return
def register_Ns3ObjectFactory_methods(root_module, cls):
cls.add_output_stream_operator()
## object-factory.h (module 'core'): ns3::ObjectFactory::ObjectFactory(ns3::ObjectFactory const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ObjectFactory const &', 'arg0')])
## object-factory.h (module 'core'): ns3::ObjectFactory::ObjectFactory() [constructor]
cls.add_constructor([])
## object-factory.h (module 'core'): ns3::ObjectFactory::ObjectFactory(std::string typeId) [constructor]
cls.add_constructor([param('std::string', 'typeId')])
## object-factory.h (module 'core'): ns3::Ptr<ns3::Object> ns3::ObjectFactory::Create() const [member function]
cls.add_method('Create',
'ns3::Ptr< ns3::Object >',
[],
is_const=True)
## object-factory.h (module 'core'): ns3::TypeId ns3::ObjectFactory::GetTypeId() const [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_const=True)
## object-factory.h (module 'core'): void ns3::ObjectFactory::Set(std::string name, ns3::AttributeValue const & value) [member function]
cls.add_method('Set',
'void',
[param('std::string', 'name'), param('ns3::AttributeValue const &', 'value')])
## object-factory.h (module 'core'): void ns3::ObjectFactory::SetTypeId(ns3::TypeId tid) [member function]
cls.add_method('SetTypeId',
'void',
[param('ns3::TypeId', 'tid')])
## object-factory.h (module 'core'): void ns3::ObjectFactory::SetTypeId(char const * tid) [member function]
cls.add_method('SetTypeId',
'void',
[param('char const *', 'tid')])
## object-factory.h (module 'core'): void ns3::ObjectFactory::SetTypeId(std::string tid) [member function]
cls.add_method('SetTypeId',
'void',
[param('std::string', 'tid')])
return
def register_Ns3PacketMetadata_methods(root_module, cls):
## packet-metadata.h (module 'network'): ns3::PacketMetadata::PacketMetadata(uint64_t uid, uint32_t size) [constructor]
cls.add_constructor([param('uint64_t', 'uid'), param('uint32_t', 'size')])
## packet-metadata.h (module 'network'): ns3::PacketMetadata::PacketMetadata(ns3::PacketMetadata const & o) [copy constructor]
cls.add_constructor([param('ns3::PacketMetadata const &', 'o')])
## packet-metadata.h (module 'network'): void ns3::PacketMetadata::AddAtEnd(ns3::PacketMetadata const & o) [member function]
cls.add_method('AddAtEnd',
'void',
[param('ns3::PacketMetadata const &', 'o')])
## packet-metadata.h (module 'network'): void ns3::PacketMetadata::AddHeader(ns3::Header const & header, uint32_t size) [member function]
cls.add_method('AddHeader',
'void',
[param('ns3::Header const &', 'header'), param('uint32_t', 'size')])
## packet-metadata.h (module 'network'): void ns3::PacketMetadata::AddPaddingAtEnd(uint32_t end) [member function]
cls.add_method('AddPaddingAtEnd',
'void',
[param('uint32_t', 'end')])
## packet-metadata.h (module 'network'): void ns3::PacketMetadata::AddTrailer(ns3::Trailer const & trailer, uint32_t size) [member function]
cls.add_method('AddTrailer',
'void',
[param('ns3::Trailer const &', 'trailer'), param('uint32_t', 'size')])
## packet-metadata.h (module 'network'): ns3::PacketMetadata::ItemIterator ns3::PacketMetadata::BeginItem(ns3::Buffer buffer) const [member function]
cls.add_method('BeginItem',
'ns3::PacketMetadata::ItemIterator',
[param('ns3::Buffer', 'buffer')],
is_const=True)
## packet-metadata.h (module 'network'): ns3::PacketMetadata ns3::PacketMetadata::CreateFragment(uint32_t start, uint32_t end) const [member function]
cls.add_method('CreateFragment',
'ns3::PacketMetadata',
[param('uint32_t', 'start'), param('uint32_t', 'end')],
is_const=True)
## packet-metadata.h (module 'network'): uint32_t ns3::PacketMetadata::Deserialize(uint8_t const * buffer, uint32_t size) [member function]
cls.add_method('Deserialize',
'uint32_t',
[param('uint8_t const *', 'buffer'), param('uint32_t', 'size')])
## packet-metadata.h (module 'network'): static void ns3::PacketMetadata::Enable() [member function]
cls.add_method('Enable',
'void',
[],
is_static=True)
## packet-metadata.h (module 'network'): static void ns3::PacketMetadata::EnableChecking() [member function]
cls.add_method('EnableChecking',
'void',
[],
is_static=True)
## packet-metadata.h (module 'network'): uint32_t ns3::PacketMetadata::GetSerializedSize() const [member function]
cls.add_method('GetSerializedSize',
'uint32_t',
[],
is_const=True)
## packet-metadata.h (module 'network'): uint64_t ns3::PacketMetadata::GetUid() const [member function]
cls.add_method('GetUid',
'uint64_t',
[],
is_const=True)
## packet-metadata.h (module 'network'): void ns3::PacketMetadata::RemoveAtEnd(uint32_t end) [member function]
cls.add_method('RemoveAtEnd',
'void',
[param('uint32_t', 'end')])
## packet-metadata.h (module 'network'): void ns3::PacketMetadata::RemoveAtStart(uint32_t start) [member function]
cls.add_method('RemoveAtStart',
'void',
[param('uint32_t', 'start')])
## packet-metadata.h (module 'network'): void ns3::PacketMetadata::RemoveHeader(ns3::Header const & header, uint32_t size) [member function]
cls.add_method('RemoveHeader',
'void',
[param('ns3::Header const &', 'header'), param('uint32_t', 'size')])
## packet-metadata.h (module 'network'): void ns3::PacketMetadata::RemoveTrailer(ns3::Trailer const & trailer, uint32_t size) [member function]
cls.add_method('RemoveTrailer',
'void',
[param('ns3::Trailer const &', 'trailer'), param('uint32_t', 'size')])
## packet-metadata.h (module 'network'): uint32_t ns3::PacketMetadata::Serialize(uint8_t * buffer, uint32_t maxSize) const [member function]
cls.add_method('Serialize',
'uint32_t',
[param('uint8_t *', 'buffer'), param('uint32_t', 'maxSize')],
is_const=True)
return
def register_Ns3PacketMetadataItem_methods(root_module, cls):
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item::Item() [constructor]
cls.add_constructor([])
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item::Item(ns3::PacketMetadata::Item const & arg0) [copy constructor]
cls.add_constructor([param('ns3::PacketMetadata::Item const &', 'arg0')])
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item::current [variable]
cls.add_instance_attribute('current', 'ns3::Buffer::Iterator', is_const=False)
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item::currentSize [variable]
cls.add_instance_attribute('currentSize', 'uint32_t', is_const=False)
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item::currentTrimedFromEnd [variable]
cls.add_instance_attribute('currentTrimedFromEnd', 'uint32_t', is_const=False)
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item::currentTrimedFromStart [variable]
cls.add_instance_attribute('currentTrimedFromStart', 'uint32_t', is_const=False)
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item::isFragment [variable]
cls.add_instance_attribute('isFragment', 'bool', is_const=False)
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item::tid [variable]
cls.add_instance_attribute('tid', 'ns3::TypeId', is_const=False)
return
def register_Ns3PacketMetadataItemIterator_methods(root_module, cls):
## packet-metadata.h (module 'network'): ns3::PacketMetadata::ItemIterator::ItemIterator(ns3::PacketMetadata::ItemIterator const & arg0) [copy constructor]
cls.add_constructor([param('ns3::PacketMetadata::ItemIterator const &', 'arg0')])
## packet-metadata.h (module 'network'): ns3::PacketMetadata::ItemIterator::ItemIterator(ns3::PacketMetadata const * metadata, ns3::Buffer buffer) [constructor]
cls.add_constructor([param('ns3::PacketMetadata const *', 'metadata'), param('ns3::Buffer', 'buffer')])
## packet-metadata.h (module 'network'): bool ns3::PacketMetadata::ItemIterator::HasNext() const [member function]
cls.add_method('HasNext',
'bool',
[],
is_const=True)
## packet-metadata.h (module 'network'): ns3::PacketMetadata::Item ns3::PacketMetadata::ItemIterator::Next() [member function]
cls.add_method('Next',
'ns3::PacketMetadata::Item',
[])
return
def register_Ns3PacketTagIterator_methods(root_module, cls):
## packet.h (module 'network'): ns3::PacketTagIterator::PacketTagIterator(ns3::PacketTagIterator const & arg0) [copy constructor]
cls.add_constructor([param('ns3::PacketTagIterator const &', 'arg0')])
## packet.h (module 'network'): bool ns3::PacketTagIterator::HasNext() const [member function]
cls.add_method('HasNext',
'bool',
[],
is_const=True)
## packet.h (module 'network'): ns3::PacketTagIterator::Item ns3::PacketTagIterator::Next() [member function]
cls.add_method('Next',
'ns3::PacketTagIterator::Item',
[])
return
def register_Ns3PacketTagIteratorItem_methods(root_module, cls):
## packet.h (module 'network'): ns3::PacketTagIterator::Item::Item(ns3::PacketTagIterator::Item const & arg0) [copy constructor]
cls.add_constructor([param('ns3::PacketTagIterator::Item const &', 'arg0')])
## packet.h (module 'network'): void ns3::PacketTagIterator::Item::GetTag(ns3::Tag & tag) const [member function]
cls.add_method('GetTag',
'void',
[param('ns3::Tag &', 'tag')],
is_const=True)
## packet.h (module 'network'): ns3::TypeId ns3::PacketTagIterator::Item::GetTypeId() const [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_const=True)
return
def register_Ns3PacketTagList_methods(root_module, cls):
## packet-tag-list.h (module 'network'): ns3::PacketTagList::PacketTagList() [constructor]
cls.add_constructor([])
## packet-tag-list.h (module 'network'): ns3::PacketTagList::PacketTagList(ns3::PacketTagList const & o) [copy constructor]
cls.add_constructor([param('ns3::PacketTagList const &', 'o')])
## packet-tag-list.h (module 'network'): void ns3::PacketTagList::Add(ns3::Tag const & tag) const [member function]
cls.add_method('Add',
'void',
[param('ns3::Tag const &', 'tag')],
is_const=True)
## packet-tag-list.h (module 'network'): ns3::PacketTagList::TagData const * ns3::PacketTagList::Head() const [member function]
cls.add_method('Head',
'ns3::PacketTagList::TagData const *',
[],
is_const=True)
## packet-tag-list.h (module 'network'): bool ns3::PacketTagList::Peek(ns3::Tag & tag) const [member function]
cls.add_method('Peek',
'bool',
[param('ns3::Tag &', 'tag')],
is_const=True)
## packet-tag-list.h (module 'network'): bool ns3::PacketTagList::Remove(ns3::Tag & tag) [member function]
cls.add_method('Remove',
'bool',
[param('ns3::Tag &', 'tag')])
## packet-tag-list.h (module 'network'): void ns3::PacketTagList::RemoveAll() [member function]
cls.add_method('RemoveAll',
'void',
[])
## packet-tag-list.h (module 'network'): bool ns3::PacketTagList::Replace(ns3::Tag & tag) [member function]
cls.add_method('Replace',
'bool',
[param('ns3::Tag &', 'tag')])
return
def register_Ns3PacketTagListTagData_methods(root_module, cls):
## packet-tag-list.h (module 'network'): ns3::PacketTagList::TagData::TagData() [constructor]
cls.add_constructor([])
## packet-tag-list.h (module 'network'): ns3::PacketTagList::TagData::TagData(ns3::PacketTagList::TagData const & arg0) [copy constructor]
cls.add_constructor([param('ns3::PacketTagList::TagData const &', 'arg0')])
## packet-tag-list.h (module 'network'): ns3::PacketTagList::TagData::count [variable]
cls.add_instance_attribute('count', 'uint32_t', is_const=False)
## packet-tag-list.h (module 'network'): ns3::PacketTagList::TagData::data [variable]
cls.add_instance_attribute('data', 'uint8_t [ 21 ]', is_const=False)
## packet-tag-list.h (module 'network'): ns3::PacketTagList::TagData::next [variable]
cls.add_instance_attribute('next', 'ns3::PacketTagList::TagData *', is_const=False)
## packet-tag-list.h (module 'network'): ns3::PacketTagList::TagData::tid [variable]
cls.add_instance_attribute('tid', 'ns3::TypeId', is_const=False)
return
def register_Ns3PcapFile_methods(root_module, cls):
## pcap-file.h (module 'network'): ns3::PcapFile::PcapFile() [constructor]
cls.add_constructor([])
## pcap-file.h (module 'network'): void ns3::PcapFile::Clear() [member function]
cls.add_method('Clear',
'void',
[])
## pcap-file.h (module 'network'): void ns3::PcapFile::Close() [member function]
cls.add_method('Close',
'void',
[])
## pcap-file.h (module 'network'): static bool ns3::PcapFile::Diff(std::string const & f1, std::string const & f2, uint32_t & sec, uint32_t & usec, uint32_t & packets, uint32_t snapLen=ns3::PcapFile::SNAPLEN_DEFAULT) [member function]
cls.add_method('Diff',
'bool',
[param('std::string const &', 'f1'), param('std::string const &', 'f2'), param('uint32_t &', 'sec'), param('uint32_t &', 'usec'), param('uint32_t &', 'packets'), param('uint32_t', 'snapLen', default_value='ns3::PcapFile::SNAPLEN_DEFAULT')],
is_static=True)
## pcap-file.h (module 'network'): bool ns3::PcapFile::Eof() const [member function]
cls.add_method('Eof',
'bool',
[],
is_const=True)
## pcap-file.h (module 'network'): bool ns3::PcapFile::Fail() const [member function]
cls.add_method('Fail',
'bool',
[],
is_const=True)
## pcap-file.h (module 'network'): uint32_t ns3::PcapFile::GetDataLinkType() [member function]
cls.add_method('GetDataLinkType',
'uint32_t',
[])
## pcap-file.h (module 'network'): uint32_t ns3::PcapFile::GetMagic() [member function]
cls.add_method('GetMagic',
'uint32_t',
[])
## pcap-file.h (module 'network'): uint32_t ns3::PcapFile::GetSigFigs() [member function]
cls.add_method('GetSigFigs',
'uint32_t',
[])
## pcap-file.h (module 'network'): uint32_t ns3::PcapFile::GetSnapLen() [member function]
cls.add_method('GetSnapLen',
'uint32_t',
[])
## pcap-file.h (module 'network'): bool ns3::PcapFile::GetSwapMode() [member function]
cls.add_method('GetSwapMode',
'bool',
[])
## pcap-file.h (module 'network'): int32_t ns3::PcapFile::GetTimeZoneOffset() [member function]
cls.add_method('GetTimeZoneOffset',
'int32_t',
[])
## pcap-file.h (module 'network'): uint16_t ns3::PcapFile::GetVersionMajor() [member function]
cls.add_method('GetVersionMajor',
'uint16_t',
[])
## pcap-file.h (module 'network'): uint16_t ns3::PcapFile::GetVersionMinor() [member function]
cls.add_method('GetVersionMinor',
'uint16_t',
[])
## pcap-file.h (module 'network'): void ns3::PcapFile::Init(uint32_t dataLinkType, uint32_t snapLen=ns3::PcapFile::SNAPLEN_DEFAULT, int32_t timeZoneCorrection=ns3::PcapFile::ZONE_DEFAULT, bool swapMode=false) [member function]
cls.add_method('Init',
'void',
[param('uint32_t', 'dataLinkType'), param('uint32_t', 'snapLen', default_value='ns3::PcapFile::SNAPLEN_DEFAULT'), param('int32_t', 'timeZoneCorrection', default_value='ns3::PcapFile::ZONE_DEFAULT'), param('bool', 'swapMode', default_value='false')])
## pcap-file.h (module 'network'): void ns3::PcapFile::Open(std::string const & filename, std::_Ios_Openmode mode) [member function]
cls.add_method('Open',
'void',
[param('std::string const &', 'filename'), param('std::_Ios_Openmode', 'mode')])
## pcap-file.h (module 'network'): void ns3::PcapFile::Read(uint8_t * const data, uint32_t maxBytes, uint32_t & tsSec, uint32_t & tsUsec, uint32_t & inclLen, uint32_t & origLen, uint32_t & readLen) [member function]
cls.add_method('Read',
'void',
[param('uint8_t * const', 'data'), param('uint32_t', 'maxBytes'), param('uint32_t &', 'tsSec'), param('uint32_t &', 'tsUsec'), param('uint32_t &', 'inclLen'), param('uint32_t &', 'origLen'), param('uint32_t &', 'readLen')])
## pcap-file.h (module 'network'): void ns3::PcapFile::Write(uint32_t tsSec, uint32_t tsUsec, uint8_t const * const data, uint32_t totalLen) [member function]
cls.add_method('Write',
'void',
[param('uint32_t', 'tsSec'), param('uint32_t', 'tsUsec'), param('uint8_t const * const', 'data'), param('uint32_t', 'totalLen')])
## pcap-file.h (module 'network'): void ns3::PcapFile::Write(uint32_t tsSec, uint32_t tsUsec, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('Write',
'void',
[param('uint32_t', 'tsSec'), param('uint32_t', 'tsUsec'), param('ns3::Ptr< ns3::Packet const >', 'p')])
## pcap-file.h (module 'network'): void ns3::PcapFile::Write(uint32_t tsSec, uint32_t tsUsec, ns3::Header const & header, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('Write',
'void',
[param('uint32_t', 'tsSec'), param('uint32_t', 'tsUsec'), param('ns3::Header const &', 'header'), param('ns3::Ptr< ns3::Packet const >', 'p')])
## pcap-file.h (module 'network'): ns3::PcapFile::SNAPLEN_DEFAULT [variable]
cls.add_static_attribute('SNAPLEN_DEFAULT', 'uint32_t const', is_const=True)
## pcap-file.h (module 'network'): ns3::PcapFile::ZONE_DEFAULT [variable]
cls.add_static_attribute('ZONE_DEFAULT', 'int32_t const', is_const=True)
return
def register_Ns3PcapHelper_methods(root_module, cls):
## trace-helper.h (module 'network'): ns3::PcapHelper::PcapHelper(ns3::PcapHelper const & arg0) [copy constructor]
cls.add_constructor([param('ns3::PcapHelper const &', 'arg0')])
## trace-helper.h (module 'network'): ns3::PcapHelper::PcapHelper() [constructor]
cls.add_constructor([])
## trace-helper.h (module 'network'): ns3::Ptr<ns3::PcapFileWrapper> ns3::PcapHelper::CreateFile(std::string filename, std::_Ios_Openmode filemode, uint32_t dataLinkType, uint32_t snapLen=std::numeric_limits<unsigned int>::max(), int32_t tzCorrection=0) [member function]
cls.add_method('CreateFile',
'ns3::Ptr< ns3::PcapFileWrapper >',
[param('std::string', 'filename'), param('std::_Ios_Openmode', 'filemode'), param('uint32_t', 'dataLinkType'), param('uint32_t', 'snapLen', default_value='std::numeric_limits<unsigned int>::max()'), param('int32_t', 'tzCorrection', default_value='0')])
## trace-helper.h (module 'network'): std::string ns3::PcapHelper::GetFilenameFromDevice(std::string prefix, ns3::Ptr<ns3::NetDevice> device, bool useObjectNames=true) [member function]
cls.add_method('GetFilenameFromDevice',
'std::string',
[param('std::string', 'prefix'), param('ns3::Ptr< ns3::NetDevice >', 'device'), param('bool', 'useObjectNames', default_value='true')])
## trace-helper.h (module 'network'): std::string ns3::PcapHelper::GetFilenameFromInterfacePair(std::string prefix, ns3::Ptr<ns3::Object> object, uint32_t interface, bool useObjectNames=true) [member function]
cls.add_method('GetFilenameFromInterfacePair',
'std::string',
[param('std::string', 'prefix'), param('ns3::Ptr< ns3::Object >', 'object'), param('uint32_t', 'interface'), param('bool', 'useObjectNames', default_value='true')])
return
def register_Ns3PcapHelperForDevice_methods(root_module, cls):
## trace-helper.h (module 'network'): ns3::PcapHelperForDevice::PcapHelperForDevice(ns3::PcapHelperForDevice const & arg0) [copy constructor]
cls.add_constructor([param('ns3::PcapHelperForDevice const &', 'arg0')])
## trace-helper.h (module 'network'): ns3::PcapHelperForDevice::PcapHelperForDevice() [constructor]
cls.add_constructor([])
## trace-helper.h (module 'network'): void ns3::PcapHelperForDevice::EnablePcap(std::string prefix, ns3::Ptr<ns3::NetDevice> nd, bool promiscuous=false, bool explicitFilename=false) [member function]
cls.add_method('EnablePcap',
'void',
[param('std::string', 'prefix'), param('ns3::Ptr< ns3::NetDevice >', 'nd'), param('bool', 'promiscuous', default_value='false'), param('bool', 'explicitFilename', default_value='false')])
## trace-helper.h (module 'network'): void ns3::PcapHelperForDevice::EnablePcap(std::string prefix, std::string ndName, bool promiscuous=false, bool explicitFilename=false) [member function]
cls.add_method('EnablePcap',
'void',
[param('std::string', 'prefix'), param('std::string', 'ndName'), param('bool', 'promiscuous', default_value='false'), param('bool', 'explicitFilename', default_value='false')])
## trace-helper.h (module 'network'): void ns3::PcapHelperForDevice::EnablePcap(std::string prefix, ns3::NetDeviceContainer d, bool promiscuous=false) [member function]
cls.add_method('EnablePcap',
'void',
[param('std::string', 'prefix'), param('ns3::NetDeviceContainer', 'd'), param('bool', 'promiscuous', default_value='false')])
## trace-helper.h (module 'network'): void ns3::PcapHelperForDevice::EnablePcap(std::string prefix, ns3::NodeContainer n, bool promiscuous=false) [member function]
cls.add_method('EnablePcap',
'void',
[param('std::string', 'prefix'), param('ns3::NodeContainer', 'n'), param('bool', 'promiscuous', default_value='false')])
## trace-helper.h (module 'network'): void ns3::PcapHelperForDevice::EnablePcap(std::string prefix, uint32_t nodeid, uint32_t deviceid, bool promiscuous=false) [member function]
cls.add_method('EnablePcap',
'void',
[param('std::string', 'prefix'), param('uint32_t', 'nodeid'), param('uint32_t', 'deviceid'), param('bool', 'promiscuous', default_value='false')])
## trace-helper.h (module 'network'): void ns3::PcapHelperForDevice::EnablePcapAll(std::string prefix, bool promiscuous=false) [member function]
cls.add_method('EnablePcapAll',
'void',
[param('std::string', 'prefix'), param('bool', 'promiscuous', default_value='false')])
## trace-helper.h (module 'network'): void ns3::PcapHelperForDevice::EnablePcapInternal(std::string prefix, ns3::Ptr<ns3::NetDevice> nd, bool promiscuous, bool explicitFilename) [member function]
cls.add_method('EnablePcapInternal',
'void',
[param('std::string', 'prefix'), param('ns3::Ptr< ns3::NetDevice >', 'nd'), param('bool', 'promiscuous'), param('bool', 'explicitFilename')],
is_pure_virtual=True, is_virtual=True)
return
def register_Ns3SimpleRefCount__Ns3Object_Ns3ObjectBase_Ns3ObjectDeleter_methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::Object, ns3::ObjectBase, ns3::ObjectDeleter>::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::Object, ns3::ObjectBase, ns3::ObjectDeleter>::SimpleRefCount(ns3::SimpleRefCount<ns3::Object, ns3::ObjectBase, ns3::ObjectDeleter> const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::Object, ns3::ObjectBase, ns3::ObjectDeleter > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::Object, ns3::ObjectBase, ns3::ObjectDeleter>::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3Simulator_methods(root_module, cls):
## simulator.h (module 'core'): ns3::Simulator::Simulator(ns3::Simulator const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Simulator const &', 'arg0')])
## simulator.h (module 'core'): static void ns3::Simulator::Cancel(ns3::EventId const & id) [member function]
cls.add_method('Cancel',
'void',
[param('ns3::EventId const &', 'id')],
is_static=True)
## simulator.h (module 'core'): static void ns3::Simulator::Destroy() [member function]
cls.add_method('Destroy',
'void',
[],
is_static=True)
## simulator.h (module 'core'): static uint32_t ns3::Simulator::GetContext() [member function]
cls.add_method('GetContext',
'uint32_t',
[],
is_static=True)
## simulator.h (module 'core'): static ns3::Time ns3::Simulator::GetDelayLeft(ns3::EventId const & id) [member function]
cls.add_method('GetDelayLeft',
'ns3::Time',
[param('ns3::EventId const &', 'id')],
is_static=True)
## simulator.h (module 'core'): static ns3::Ptr<ns3::SimulatorImpl> ns3::Simulator::GetImplementation() [member function]
cls.add_method('GetImplementation',
'ns3::Ptr< ns3::SimulatorImpl >',
[],
is_static=True)
## simulator.h (module 'core'): static ns3::Time ns3::Simulator::GetMaximumSimulationTime() [member function]
cls.add_method('GetMaximumSimulationTime',
'ns3::Time',
[],
is_static=True)
## simulator.h (module 'core'): static uint32_t ns3::Simulator::GetSystemId() [member function]
cls.add_method('GetSystemId',
'uint32_t',
[],
is_static=True)
## simulator.h (module 'core'): static bool ns3::Simulator::IsExpired(ns3::EventId const & id) [member function]
cls.add_method('IsExpired',
'bool',
[param('ns3::EventId const &', 'id')],
is_static=True)
## simulator.h (module 'core'): static bool ns3::Simulator::IsFinished() [member function]
cls.add_method('IsFinished',
'bool',
[],
is_static=True)
## simulator.h (module 'core'): static ns3::Time ns3::Simulator::Now() [member function]
cls.add_method('Now',
'ns3::Time',
[],
is_static=True)
## simulator.h (module 'core'): static void ns3::Simulator::Remove(ns3::EventId const & id) [member function]
cls.add_method('Remove',
'void',
[param('ns3::EventId const &', 'id')],
is_static=True)
## simulator.h (module 'core'): static void ns3::Simulator::SetImplementation(ns3::Ptr<ns3::SimulatorImpl> impl) [member function]
cls.add_method('SetImplementation',
'void',
[param('ns3::Ptr< ns3::SimulatorImpl >', 'impl')],
is_static=True)
## simulator.h (module 'core'): static void ns3::Simulator::SetScheduler(ns3::ObjectFactory schedulerFactory) [member function]
cls.add_method('SetScheduler',
'void',
[param('ns3::ObjectFactory', 'schedulerFactory')],
is_static=True)
## simulator.h (module 'core'): static void ns3::Simulator::Stop() [member function]
cls.add_method('Stop',
'void',
[],
is_static=True)
## simulator.h (module 'core'): static void ns3::Simulator::Stop(ns3::Time const & delay) [member function]
cls.add_method('Stop',
'void',
[param('ns3::Time const &', 'delay')],
is_static=True)
return
def register_Ns3Tag_methods(root_module, cls):
## tag.h (module 'network'): ns3::Tag::Tag() [constructor]
cls.add_constructor([])
## tag.h (module 'network'): ns3::Tag::Tag(ns3::Tag const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Tag const &', 'arg0')])
## tag.h (module 'network'): void ns3::Tag::Deserialize(ns3::TagBuffer i) [member function]
cls.add_method('Deserialize',
'void',
[param('ns3::TagBuffer', 'i')],
is_pure_virtual=True, is_virtual=True)
## tag.h (module 'network'): uint32_t ns3::Tag::GetSerializedSize() const [member function]
cls.add_method('GetSerializedSize',
'uint32_t',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## tag.h (module 'network'): static ns3::TypeId ns3::Tag::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## tag.h (module 'network'): void ns3::Tag::Print(std::ostream & os) const [member function]
cls.add_method('Print',
'void',
[param('std::ostream &', 'os')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## tag.h (module 'network'): void ns3::Tag::Serialize(ns3::TagBuffer i) const [member function]
cls.add_method('Serialize',
'void',
[param('ns3::TagBuffer', 'i')],
is_pure_virtual=True, is_const=True, is_virtual=True)
return
def register_Ns3TagBuffer_methods(root_module, cls):
## tag-buffer.h (module 'network'): ns3::TagBuffer::TagBuffer(ns3::TagBuffer const & arg0) [copy constructor]
cls.add_constructor([param('ns3::TagBuffer const &', 'arg0')])
## tag-buffer.h (module 'network'): ns3::TagBuffer::TagBuffer(uint8_t * start, uint8_t * end) [constructor]
cls.add_constructor([param('uint8_t *', 'start'), param('uint8_t *', 'end')])
## tag-buffer.h (module 'network'): void ns3::TagBuffer::CopyFrom(ns3::TagBuffer o) [member function]
cls.add_method('CopyFrom',
'void',
[param('ns3::TagBuffer', 'o')])
## tag-buffer.h (module 'network'): void ns3::TagBuffer::Read(uint8_t * buffer, uint32_t size) [member function]
cls.add_method('Read',
'void',
[param('uint8_t *', 'buffer'), param('uint32_t', 'size')])
## tag-buffer.h (module 'network'): double ns3::TagBuffer::ReadDouble() [member function]
cls.add_method('ReadDouble',
'double',
[])
## tag-buffer.h (module 'network'): uint16_t ns3::TagBuffer::ReadU16() [member function]
cls.add_method('ReadU16',
'uint16_t',
[])
## tag-buffer.h (module 'network'): uint32_t ns3::TagBuffer::ReadU32() [member function]
cls.add_method('ReadU32',
'uint32_t',
[])
## tag-buffer.h (module 'network'): uint64_t ns3::TagBuffer::ReadU64() [member function]
cls.add_method('ReadU64',
'uint64_t',
[])
## tag-buffer.h (module 'network'): uint8_t ns3::TagBuffer::ReadU8() [member function]
cls.add_method('ReadU8',
'uint8_t',
[])
## tag-buffer.h (module 'network'): void ns3::TagBuffer::TrimAtEnd(uint32_t trim) [member function]
cls.add_method('TrimAtEnd',
'void',
[param('uint32_t', 'trim')])
## tag-buffer.h (module 'network'): void ns3::TagBuffer::Write(uint8_t const * buffer, uint32_t size) [member function]
cls.add_method('Write',
'void',
[param('uint8_t const *', 'buffer'), param('uint32_t', 'size')])
## tag-buffer.h (module 'network'): void ns3::TagBuffer::WriteDouble(double v) [member function]
cls.add_method('WriteDouble',
'void',
[param('double', 'v')])
## tag-buffer.h (module 'network'): void ns3::TagBuffer::WriteU16(uint16_t data) [member function]
cls.add_method('WriteU16',
'void',
[param('uint16_t', 'data')])
## tag-buffer.h (module 'network'): void ns3::TagBuffer::WriteU32(uint32_t data) [member function]
cls.add_method('WriteU32',
'void',
[param('uint32_t', 'data')])
## tag-buffer.h (module 'network'): void ns3::TagBuffer::WriteU64(uint64_t v) [member function]
cls.add_method('WriteU64',
'void',
[param('uint64_t', 'v')])
## tag-buffer.h (module 'network'): void ns3::TagBuffer::WriteU8(uint8_t v) [member function]
cls.add_method('WriteU8',
'void',
[param('uint8_t', 'v')])
return
def register_Ns3TimeWithUnit_methods(root_module, cls):
cls.add_output_stream_operator()
## nstime.h (module 'core'): ns3::TimeWithUnit::TimeWithUnit(ns3::TimeWithUnit const & arg0) [copy constructor]
cls.add_constructor([param('ns3::TimeWithUnit const &', 'arg0')])
## nstime.h (module 'core'): ns3::TimeWithUnit::TimeWithUnit(ns3::Time const time, ns3::Time::Unit const unit) [constructor]
cls.add_constructor([param('ns3::Time const', 'time'), param('ns3::Time::Unit const', 'unit')])
return
def register_Ns3TypeId_methods(root_module, cls):
cls.add_binary_comparison_operator('<')
cls.add_binary_comparison_operator('!=')
cls.add_output_stream_operator()
cls.add_binary_comparison_operator('==')
## type-id.h (module 'core'): ns3::TypeId::TypeId(char const * name) [constructor]
cls.add_constructor([param('char const *', 'name')])
## type-id.h (module 'core'): ns3::TypeId::TypeId() [constructor]
cls.add_constructor([])
## type-id.h (module 'core'): ns3::TypeId::TypeId(ns3::TypeId const & o) [copy constructor]
cls.add_constructor([param('ns3::TypeId const &', 'o')])
## type-id.h (module 'core'): ns3::TypeId ns3::TypeId::AddAttribute(std::string name, std::string help, ns3::AttributeValue const & initialValue, ns3::Ptr<ns3::AttributeAccessor const> accessor, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('AddAttribute',
'ns3::TypeId',
[param('std::string', 'name'), param('std::string', 'help'), param('ns3::AttributeValue const &', 'initialValue'), param('ns3::Ptr< ns3::AttributeAccessor const >', 'accessor'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')])
## type-id.h (module 'core'): ns3::TypeId ns3::TypeId::AddAttribute(std::string name, std::string help, uint32_t flags, ns3::AttributeValue const & initialValue, ns3::Ptr<ns3::AttributeAccessor const> accessor, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('AddAttribute',
'ns3::TypeId',
[param('std::string', 'name'), param('std::string', 'help'), param('uint32_t', 'flags'), param('ns3::AttributeValue const &', 'initialValue'), param('ns3::Ptr< ns3::AttributeAccessor const >', 'accessor'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')])
## type-id.h (module 'core'): ns3::TypeId ns3::TypeId::AddTraceSource(std::string name, std::string help, ns3::Ptr<ns3::TraceSourceAccessor const> accessor) [member function]
cls.add_method('AddTraceSource',
'ns3::TypeId',
[param('std::string', 'name'), param('std::string', 'help'), param('ns3::Ptr< ns3::TraceSourceAccessor const >', 'accessor')],
deprecated=True)
## type-id.h (module 'core'): ns3::TypeId ns3::TypeId::AddTraceSource(std::string name, std::string help, ns3::Ptr<ns3::TraceSourceAccessor const> accessor, std::string callback) [member function]
cls.add_method('AddTraceSource',
'ns3::TypeId',
[param('std::string', 'name'), param('std::string', 'help'), param('ns3::Ptr< ns3::TraceSourceAccessor const >', 'accessor'), param('std::string', 'callback')])
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation ns3::TypeId::GetAttribute(uint32_t i) const [member function]
cls.add_method('GetAttribute',
'ns3::TypeId::AttributeInformation',
[param('uint32_t', 'i')],
is_const=True)
## type-id.h (module 'core'): std::string ns3::TypeId::GetAttributeFullName(uint32_t i) const [member function]
cls.add_method('GetAttributeFullName',
'std::string',
[param('uint32_t', 'i')],
is_const=True)
## type-id.h (module 'core'): uint32_t ns3::TypeId::GetAttributeN() const [member function]
cls.add_method('GetAttributeN',
'uint32_t',
[],
is_const=True)
## type-id.h (module 'core'): ns3::Callback<ns3::ObjectBase*,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> ns3::TypeId::GetConstructor() const [member function]
cls.add_method('GetConstructor',
'ns3::Callback< ns3::ObjectBase *, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >',
[],
is_const=True)
## type-id.h (module 'core'): std::string ns3::TypeId::GetGroupName() const [member function]
cls.add_method('GetGroupName',
'std::string',
[],
is_const=True)
## type-id.h (module 'core'): uint32_t ns3::TypeId::GetHash() const [member function]
cls.add_method('GetHash',
'uint32_t',
[],
is_const=True)
## type-id.h (module 'core'): std::string ns3::TypeId::GetName() const [member function]
cls.add_method('GetName',
'std::string',
[],
is_const=True)
## type-id.h (module 'core'): ns3::TypeId ns3::TypeId::GetParent() const [member function]
cls.add_method('GetParent',
'ns3::TypeId',
[],
is_const=True)
## type-id.h (module 'core'): static ns3::TypeId ns3::TypeId::GetRegistered(uint32_t i) [member function]
cls.add_method('GetRegistered',
'ns3::TypeId',
[param('uint32_t', 'i')],
is_static=True)
## type-id.h (module 'core'): static uint32_t ns3::TypeId::GetRegisteredN() [member function]
cls.add_method('GetRegisteredN',
'uint32_t',
[],
is_static=True)
## type-id.h (module 'core'): std::size_t ns3::TypeId::GetSize() const [member function]
cls.add_method('GetSize',
'std::size_t',
[],
is_const=True)
## type-id.h (module 'core'): ns3::TypeId::TraceSourceInformation ns3::TypeId::GetTraceSource(uint32_t i) const [member function]
cls.add_method('GetTraceSource',
'ns3::TypeId::TraceSourceInformation',
[param('uint32_t', 'i')],
is_const=True)
## type-id.h (module 'core'): uint32_t ns3::TypeId::GetTraceSourceN() const [member function]
cls.add_method('GetTraceSourceN',
'uint32_t',
[],
is_const=True)
## type-id.h (module 'core'): uint16_t ns3::TypeId::GetUid() const [member function]
cls.add_method('GetUid',
'uint16_t',
[],
is_const=True)
## type-id.h (module 'core'): bool ns3::TypeId::HasConstructor() const [member function]
cls.add_method('HasConstructor',
'bool',
[],
is_const=True)
## type-id.h (module 'core'): bool ns3::TypeId::HasParent() const [member function]
cls.add_method('HasParent',
'bool',
[],
is_const=True)
## type-id.h (module 'core'): ns3::TypeId ns3::TypeId::HideFromDocumentation() [member function]
cls.add_method('HideFromDocumentation',
'ns3::TypeId',
[])
## type-id.h (module 'core'): bool ns3::TypeId::IsChildOf(ns3::TypeId other) const [member function]
cls.add_method('IsChildOf',
'bool',
[param('ns3::TypeId', 'other')],
is_const=True)
## type-id.h (module 'core'): bool ns3::TypeId::LookupAttributeByName(std::string name, ns3::TypeId::AttributeInformation * info) const [member function]
cls.add_method('LookupAttributeByName',
'bool',
[param('std::string', 'name'), param('ns3::TypeId::AttributeInformation *', 'info', transfer_ownership=False)],
is_const=True)
## type-id.h (module 'core'): static ns3::TypeId ns3::TypeId::LookupByHash(uint32_t hash) [member function]
cls.add_method('LookupByHash',
'ns3::TypeId',
[param('uint32_t', 'hash')],
is_static=True)
## type-id.h (module 'core'): static bool ns3::TypeId::LookupByHashFailSafe(uint32_t hash, ns3::TypeId * tid) [member function]
cls.add_method('LookupByHashFailSafe',
'bool',
[param('uint32_t', 'hash'), param('ns3::TypeId *', 'tid')],
is_static=True)
## type-id.h (module 'core'): static ns3::TypeId ns3::TypeId::LookupByName(std::string name) [member function]
cls.add_method('LookupByName',
'ns3::TypeId',
[param('std::string', 'name')],
is_static=True)
## type-id.h (module 'core'): ns3::Ptr<ns3::TraceSourceAccessor const> ns3::TypeId::LookupTraceSourceByName(std::string name) const [member function]
cls.add_method('LookupTraceSourceByName',
'ns3::Ptr< ns3::TraceSourceAccessor const >',
[param('std::string', 'name')],
is_const=True)
## type-id.h (module 'core'): bool ns3::TypeId::MustHideFromDocumentation() const [member function]
cls.add_method('MustHideFromDocumentation',
'bool',
[],
is_const=True)
## type-id.h (module 'core'): bool ns3::TypeId::SetAttributeInitialValue(uint32_t i, ns3::Ptr<ns3::AttributeValue const> initialValue) [member function]
cls.add_method('SetAttributeInitialValue',
'bool',
[param('uint32_t', 'i'), param('ns3::Ptr< ns3::AttributeValue const >', 'initialValue')])
## type-id.h (module 'core'): ns3::TypeId ns3::TypeId::SetGroupName(std::string groupName) [member function]
cls.add_method('SetGroupName',
'ns3::TypeId',
[param('std::string', 'groupName')])
## type-id.h (module 'core'): ns3::TypeId ns3::TypeId::SetParent(ns3::TypeId tid) [member function]
cls.add_method('SetParent',
'ns3::TypeId',
[param('ns3::TypeId', 'tid')])
## type-id.h (module 'core'): ns3::TypeId ns3::TypeId::SetSize(std::size_t size) [member function]
cls.add_method('SetSize',
'ns3::TypeId',
[param('std::size_t', 'size')])
## type-id.h (module 'core'): void ns3::TypeId::SetUid(uint16_t tid) [member function]
cls.add_method('SetUid',
'void',
[param('uint16_t', 'tid')])
return
def register_Ns3TypeIdAttributeInformation_methods(root_module, cls):
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation::AttributeInformation() [constructor]
cls.add_constructor([])
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation::AttributeInformation(ns3::TypeId::AttributeInformation const & arg0) [copy constructor]
cls.add_constructor([param('ns3::TypeId::AttributeInformation const &', 'arg0')])
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation::accessor [variable]
cls.add_instance_attribute('accessor', 'ns3::Ptr< ns3::AttributeAccessor const >', is_const=False)
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation::checker [variable]
cls.add_instance_attribute('checker', 'ns3::Ptr< ns3::AttributeChecker const >', is_const=False)
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation::flags [variable]
cls.add_instance_attribute('flags', 'uint32_t', is_const=False)
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation::help [variable]
cls.add_instance_attribute('help', 'std::string', is_const=False)
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation::initialValue [variable]
cls.add_instance_attribute('initialValue', 'ns3::Ptr< ns3::AttributeValue const >', is_const=False)
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation::name [variable]
cls.add_instance_attribute('name', 'std::string', is_const=False)
## type-id.h (module 'core'): ns3::TypeId::AttributeInformation::originalInitialValue [variable]
cls.add_instance_attribute('originalInitialValue', 'ns3::Ptr< ns3::AttributeValue const >', is_const=False)
return
def register_Ns3TypeIdTraceSourceInformation_methods(root_module, cls):
## type-id.h (module 'core'): ns3::TypeId::TraceSourceInformation::TraceSourceInformation() [constructor]
cls.add_constructor([])
## type-id.h (module 'core'): ns3::TypeId::TraceSourceInformation::TraceSourceInformation(ns3::TypeId::TraceSourceInformation const & arg0) [copy constructor]
cls.add_constructor([param('ns3::TypeId::TraceSourceInformation const &', 'arg0')])
## type-id.h (module 'core'): ns3::TypeId::TraceSourceInformation::accessor [variable]
cls.add_instance_attribute('accessor', 'ns3::Ptr< ns3::TraceSourceAccessor const >', is_const=False)
## type-id.h (module 'core'): ns3::TypeId::TraceSourceInformation::callback [variable]
cls.add_instance_attribute('callback', 'std::string', is_const=False)
## type-id.h (module 'core'): ns3::TypeId::TraceSourceInformation::help [variable]
cls.add_instance_attribute('help', 'std::string', is_const=False)
## type-id.h (module 'core'): ns3::TypeId::TraceSourceInformation::name [variable]
cls.add_instance_attribute('name', 'std::string', is_const=False)
return
def register_Ns3Empty_methods(root_module, cls):
## empty.h (module 'core'): ns3::empty::empty() [constructor]
cls.add_constructor([])
## empty.h (module 'core'): ns3::empty::empty(ns3::empty const & arg0) [copy constructor]
cls.add_constructor([param('ns3::empty const &', 'arg0')])
return
def register_Ns3Int64x64_t_methods(root_module, cls):
cls.add_binary_numeric_operator('*', root_module['ns3::int64x64_t'], root_module['ns3::int64x64_t'], param('ns3::int64x64_t const &', u'right'))
cls.add_binary_numeric_operator('+', root_module['ns3::int64x64_t'], root_module['ns3::int64x64_t'], param('ns3::int64x64_t const &', u'right'))
cls.add_binary_numeric_operator('-', root_module['ns3::int64x64_t'], root_module['ns3::int64x64_t'], param('ns3::int64x64_t const &', u'right'))
cls.add_unary_numeric_operator('-')
cls.add_binary_numeric_operator('/', root_module['ns3::int64x64_t'], root_module['ns3::int64x64_t'], param('ns3::int64x64_t const &', u'right'))
cls.add_binary_comparison_operator('<')
cls.add_binary_comparison_operator('>')
cls.add_binary_comparison_operator('!=')
cls.add_inplace_numeric_operator('*=', param('ns3::int64x64_t const &', u'right'))
cls.add_inplace_numeric_operator('+=', param('ns3::int64x64_t const &', u'right'))
cls.add_inplace_numeric_operator('-=', param('ns3::int64x64_t const &', u'right'))
cls.add_inplace_numeric_operator('/=', param('ns3::int64x64_t const &', u'right'))
cls.add_output_stream_operator()
cls.add_binary_comparison_operator('<=')
cls.add_binary_comparison_operator('==')
cls.add_binary_comparison_operator('>=')
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t() [constructor]
cls.add_constructor([])
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t(double v) [constructor]
cls.add_constructor([param('double', 'v')])
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t(long double v) [constructor]
cls.add_constructor([param('long double', 'v')])
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t(int v) [constructor]
cls.add_constructor([param('int', 'v')])
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t(long int v) [constructor]
cls.add_constructor([param('long int', 'v')])
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t(long long int v) [constructor]
cls.add_constructor([param('long long int', 'v')])
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t(unsigned int v) [constructor]
cls.add_constructor([param('unsigned int', 'v')])
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t(long unsigned int v) [constructor]
cls.add_constructor([param('long unsigned int', 'v')])
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t(long long unsigned int v) [constructor]
cls.add_constructor([param('long long unsigned int', 'v')])
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t(int64_t hi, uint64_t lo) [constructor]
cls.add_constructor([param('int64_t', 'hi'), param('uint64_t', 'lo')])
## int64x64-double.h (module 'core'): ns3::int64x64_t::int64x64_t(ns3::int64x64_t const & o) [copy constructor]
cls.add_constructor([param('ns3::int64x64_t const &', 'o')])
## int64x64-double.h (module 'core'): double ns3::int64x64_t::GetDouble() const [member function]
cls.add_method('GetDouble',
'double',
[],
is_const=True)
## int64x64-double.h (module 'core'): int64_t ns3::int64x64_t::GetHigh() const [member function]
cls.add_method('GetHigh',
'int64_t',
[],
is_const=True)
## int64x64-double.h (module 'core'): uint64_t ns3::int64x64_t::GetLow() const [member function]
cls.add_method('GetLow',
'uint64_t',
[],
is_const=True)
## int64x64-double.h (module 'core'): static ns3::int64x64_t ns3::int64x64_t::Invert(uint64_t v) [member function]
cls.add_method('Invert',
'ns3::int64x64_t',
[param('uint64_t', 'v')],
is_static=True)
## int64x64-double.h (module 'core'): void ns3::int64x64_t::MulByInvert(ns3::int64x64_t const & o) [member function]
cls.add_method('MulByInvert',
'void',
[param('ns3::int64x64_t const &', 'o')])
## int64x64-double.h (module 'core'): ns3::int64x64_t::implementation [variable]
cls.add_static_attribute('implementation', 'ns3::int64x64_t::impl_type const', is_const=True)
return
def register_Ns3Chunk_methods(root_module, cls):
## chunk.h (module 'network'): ns3::Chunk::Chunk() [constructor]
cls.add_constructor([])
## chunk.h (module 'network'): ns3::Chunk::Chunk(ns3::Chunk const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Chunk const &', 'arg0')])
## chunk.h (module 'network'): uint32_t ns3::Chunk::Deserialize(ns3::Buffer::Iterator start) [member function]
cls.add_method('Deserialize',
'uint32_t',
[param('ns3::Buffer::Iterator', 'start')],
is_pure_virtual=True, is_virtual=True)
## chunk.h (module 'network'): static ns3::TypeId ns3::Chunk::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## chunk.h (module 'network'): void ns3::Chunk::Print(std::ostream & os) const [member function]
cls.add_method('Print',
'void',
[param('std::ostream &', 'os')],
is_pure_virtual=True, is_const=True, is_virtual=True)
return
def register_Ns3CsmaHelper_methods(root_module, cls):
## csma-helper.h (module 'csma'): ns3::CsmaHelper::CsmaHelper(ns3::CsmaHelper const & arg0) [copy constructor]
cls.add_constructor([param('ns3::CsmaHelper const &', 'arg0')])
## csma-helper.h (module 'csma'): ns3::CsmaHelper::CsmaHelper() [constructor]
cls.add_constructor([])
## csma-helper.h (module 'csma'): int64_t ns3::CsmaHelper::AssignStreams(ns3::NetDeviceContainer c, int64_t stream) [member function]
cls.add_method('AssignStreams',
'int64_t',
[param('ns3::NetDeviceContainer', 'c'), param('int64_t', 'stream')])
## csma-helper.h (module 'csma'): ns3::NetDeviceContainer ns3::CsmaHelper::Install(ns3::Ptr<ns3::Node> node) const [member function]
cls.add_method('Install',
'ns3::NetDeviceContainer',
[param('ns3::Ptr< ns3::Node >', 'node')],
is_const=True)
## csma-helper.h (module 'csma'): ns3::NetDeviceContainer ns3::CsmaHelper::Install(std::string name) const [member function]
cls.add_method('Install',
'ns3::NetDeviceContainer',
[param('std::string', 'name')],
is_const=True)
## csma-helper.h (module 'csma'): ns3::NetDeviceContainer ns3::CsmaHelper::Install(ns3::Ptr<ns3::Node> node, ns3::Ptr<ns3::CsmaChannel> channel) const [member function]
cls.add_method('Install',
'ns3::NetDeviceContainer',
[param('ns3::Ptr< ns3::Node >', 'node'), param('ns3::Ptr< ns3::CsmaChannel >', 'channel')],
is_const=True)
## csma-helper.h (module 'csma'): ns3::NetDeviceContainer ns3::CsmaHelper::Install(ns3::Ptr<ns3::Node> node, std::string channelName) const [member function]
cls.add_method('Install',
'ns3::NetDeviceContainer',
[param('ns3::Ptr< ns3::Node >', 'node'), param('std::string', 'channelName')],
is_const=True)
## csma-helper.h (module 'csma'): ns3::NetDeviceContainer ns3::CsmaHelper::Install(std::string nodeName, ns3::Ptr<ns3::CsmaChannel> channel) const [member function]
cls.add_method('Install',
'ns3::NetDeviceContainer',
[param('std::string', 'nodeName'), param('ns3::Ptr< ns3::CsmaChannel >', 'channel')],
is_const=True)
## csma-helper.h (module 'csma'): ns3::NetDeviceContainer ns3::CsmaHelper::Install(std::string nodeName, std::string channelName) const [member function]
cls.add_method('Install',
'ns3::NetDeviceContainer',
[param('std::string', 'nodeName'), param('std::string', 'channelName')],
is_const=True)
## csma-helper.h (module 'csma'): ns3::NetDeviceContainer ns3::CsmaHelper::Install(ns3::NodeContainer const & c) const [member function]
cls.add_method('Install',
'ns3::NetDeviceContainer',
[param('ns3::NodeContainer const &', 'c')],
is_const=True)
## csma-helper.h (module 'csma'): ns3::NetDeviceContainer ns3::CsmaHelper::Install(ns3::NodeContainer const & c, ns3::Ptr<ns3::CsmaChannel> channel) const [member function]
cls.add_method('Install',
'ns3::NetDeviceContainer',
[param('ns3::NodeContainer const &', 'c'), param('ns3::Ptr< ns3::CsmaChannel >', 'channel')],
is_const=True)
## csma-helper.h (module 'csma'): ns3::NetDeviceContainer ns3::CsmaHelper::Install(ns3::NodeContainer const & c, std::string channelName) const [member function]
cls.add_method('Install',
'ns3::NetDeviceContainer',
[param('ns3::NodeContainer const &', 'c'), param('std::string', 'channelName')],
is_const=True)
## csma-helper.h (module 'csma'): void ns3::CsmaHelper::SetChannelAttribute(std::string n1, ns3::AttributeValue const & v1) [member function]
cls.add_method('SetChannelAttribute',
'void',
[param('std::string', 'n1'), param('ns3::AttributeValue const &', 'v1')])
## csma-helper.h (module 'csma'): void ns3::CsmaHelper::SetDeviceAttribute(std::string n1, ns3::AttributeValue const & v1) [member function]
cls.add_method('SetDeviceAttribute',
'void',
[param('std::string', 'n1'), param('ns3::AttributeValue const &', 'v1')])
## csma-helper.h (module 'csma'): void ns3::CsmaHelper::SetQueue(std::string type, std::string n1="", ns3::AttributeValue const & v1=ns3::EmptyAttributeValue(), std::string n2="", ns3::AttributeValue const & v2=ns3::EmptyAttributeValue(), std::string n3="", ns3::AttributeValue const & v3=ns3::EmptyAttributeValue(), std::string n4="", ns3::AttributeValue const & v4=ns3::EmptyAttributeValue()) [member function]
cls.add_method('SetQueue',
'void',
[param('std::string', 'type'), param('std::string', 'n1', default_value='""'), param('ns3::AttributeValue const &', 'v1', default_value='ns3::EmptyAttributeValue()'), param('std::string', 'n2', default_value='""'), param('ns3::AttributeValue const &', 'v2', default_value='ns3::EmptyAttributeValue()'), param('std::string', 'n3', default_value='""'), param('ns3::AttributeValue const &', 'v3', default_value='ns3::EmptyAttributeValue()'), param('std::string', 'n4', default_value='""'), param('ns3::AttributeValue const &', 'v4', default_value='ns3::EmptyAttributeValue()')])
## csma-helper.h (module 'csma'): void ns3::CsmaHelper::EnableAsciiInternal(ns3::Ptr<ns3::OutputStreamWrapper> stream, std::string prefix, ns3::Ptr<ns3::NetDevice> nd, bool explicitFilename) [member function]
cls.add_method('EnableAsciiInternal',
'void',
[param('ns3::Ptr< ns3::OutputStreamWrapper >', 'stream'), param('std::string', 'prefix'), param('ns3::Ptr< ns3::NetDevice >', 'nd'), param('bool', 'explicitFilename')],
visibility='private', is_virtual=True)
## csma-helper.h (module 'csma'): void ns3::CsmaHelper::EnablePcapInternal(std::string prefix, ns3::Ptr<ns3::NetDevice> nd, bool promiscuous, bool explicitFilename) [member function]
cls.add_method('EnablePcapInternal',
'void',
[param('std::string', 'prefix'), param('ns3::Ptr< ns3::NetDevice >', 'nd'), param('bool', 'promiscuous'), param('bool', 'explicitFilename')],
visibility='private', is_virtual=True)
return
def register_Ns3Header_methods(root_module, cls):
cls.add_output_stream_operator()
## header.h (module 'network'): ns3::Header::Header() [constructor]
cls.add_constructor([])
## header.h (module 'network'): ns3::Header::Header(ns3::Header const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Header const &', 'arg0')])
## header.h (module 'network'): uint32_t ns3::Header::Deserialize(ns3::Buffer::Iterator start) [member function]
cls.add_method('Deserialize',
'uint32_t',
[param('ns3::Buffer::Iterator', 'start')],
is_pure_virtual=True, is_virtual=True)
## header.h (module 'network'): uint32_t ns3::Header::GetSerializedSize() const [member function]
cls.add_method('GetSerializedSize',
'uint32_t',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## header.h (module 'network'): static ns3::TypeId ns3::Header::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## header.h (module 'network'): void ns3::Header::Print(std::ostream & os) const [member function]
cls.add_method('Print',
'void',
[param('std::ostream &', 'os')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## header.h (module 'network'): void ns3::Header::Serialize(ns3::Buffer::Iterator start) const [member function]
cls.add_method('Serialize',
'void',
[param('ns3::Buffer::Iterator', 'start')],
is_pure_virtual=True, is_const=True, is_virtual=True)
return
def register_Ns3Object_methods(root_module, cls):
## object.h (module 'core'): ns3::Object::Object() [constructor]
cls.add_constructor([])
## object.h (module 'core'): void ns3::Object::AggregateObject(ns3::Ptr<ns3::Object> other) [member function]
cls.add_method('AggregateObject',
'void',
[param('ns3::Ptr< ns3::Object >', 'other')])
## object.h (module 'core'): void ns3::Object::Dispose() [member function]
cls.add_method('Dispose',
'void',
[])
## object.h (module 'core'): ns3::Object::AggregateIterator ns3::Object::GetAggregateIterator() const [member function]
cls.add_method('GetAggregateIterator',
'ns3::Object::AggregateIterator',
[],
is_const=True)
## object.h (module 'core'): ns3::TypeId ns3::Object::GetInstanceTypeId() const [member function]
cls.add_method('GetInstanceTypeId',
'ns3::TypeId',
[],
is_const=True, is_virtual=True)
## object.h (module 'core'): static ns3::TypeId ns3::Object::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## object.h (module 'core'): void ns3::Object::Initialize() [member function]
cls.add_method('Initialize',
'void',
[])
## object.h (module 'core'): ns3::Object::Object(ns3::Object const & o) [copy constructor]
cls.add_constructor([param('ns3::Object const &', 'o')],
visibility='protected')
## object.h (module 'core'): void ns3::Object::DoDispose() [member function]
cls.add_method('DoDispose',
'void',
[],
visibility='protected', is_virtual=True)
## object.h (module 'core'): void ns3::Object::DoInitialize() [member function]
cls.add_method('DoInitialize',
'void',
[],
visibility='protected', is_virtual=True)
## object.h (module 'core'): void ns3::Object::NotifyNewAggregate() [member function]
cls.add_method('NotifyNewAggregate',
'void',
[],
visibility='protected', is_virtual=True)
return
def register_Ns3ObjectAggregateIterator_methods(root_module, cls):
## object.h (module 'core'): ns3::Object::AggregateIterator::AggregateIterator(ns3::Object::AggregateIterator const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Object::AggregateIterator const &', 'arg0')])
## object.h (module 'core'): ns3::Object::AggregateIterator::AggregateIterator() [constructor]
cls.add_constructor([])
## object.h (module 'core'): bool ns3::Object::AggregateIterator::HasNext() const [member function]
cls.add_method('HasNext',
'bool',
[],
is_const=True)
## object.h (module 'core'): ns3::Ptr<ns3::Object const> ns3::Object::AggregateIterator::Next() [member function]
cls.add_method('Next',
'ns3::Ptr< ns3::Object const >',
[])
return
def register_Ns3PcapFileWrapper_methods(root_module, cls):
## pcap-file-wrapper.h (module 'network'): static ns3::TypeId ns3::PcapFileWrapper::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## pcap-file-wrapper.h (module 'network'): ns3::PcapFileWrapper::PcapFileWrapper() [constructor]
cls.add_constructor([])
## pcap-file-wrapper.h (module 'network'): bool ns3::PcapFileWrapper::Fail() const [member function]
cls.add_method('Fail',
'bool',
[],
is_const=True)
## pcap-file-wrapper.h (module 'network'): bool ns3::PcapFileWrapper::Eof() const [member function]
cls.add_method('Eof',
'bool',
[],
is_const=True)
## pcap-file-wrapper.h (module 'network'): void ns3::PcapFileWrapper::Clear() [member function]
cls.add_method('Clear',
'void',
[])
## pcap-file-wrapper.h (module 'network'): void ns3::PcapFileWrapper::Open(std::string const & filename, std::_Ios_Openmode mode) [member function]
cls.add_method('Open',
'void',
[param('std::string const &', 'filename'), param('std::_Ios_Openmode', 'mode')])
## pcap-file-wrapper.h (module 'network'): void ns3::PcapFileWrapper::Close() [member function]
cls.add_method('Close',
'void',
[])
## pcap-file-wrapper.h (module 'network'): void ns3::PcapFileWrapper::Init(uint32_t dataLinkType, uint32_t snapLen=std::numeric_limits<unsigned int>::max(), int32_t tzCorrection=ns3::PcapFile::ZONE_DEFAULT) [member function]
cls.add_method('Init',
'void',
[param('uint32_t', 'dataLinkType'), param('uint32_t', 'snapLen', default_value='std::numeric_limits<unsigned int>::max()'), param('int32_t', 'tzCorrection', default_value='ns3::PcapFile::ZONE_DEFAULT')])
## pcap-file-wrapper.h (module 'network'): void ns3::PcapFileWrapper::Write(ns3::Time t, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('Write',
'void',
[param('ns3::Time', 't'), param('ns3::Ptr< ns3::Packet const >', 'p')])
## pcap-file-wrapper.h (module 'network'): void ns3::PcapFileWrapper::Write(ns3::Time t, ns3::Header const & header, ns3::Ptr<const ns3::Packet> p) [member function]
cls.add_method('Write',
'void',
[param('ns3::Time', 't'), param('ns3::Header const &', 'header'), param('ns3::Ptr< ns3::Packet const >', 'p')])
## pcap-file-wrapper.h (module 'network'): void ns3::PcapFileWrapper::Write(ns3::Time t, uint8_t const * buffer, uint32_t length) [member function]
cls.add_method('Write',
'void',
[param('ns3::Time', 't'), param('uint8_t const *', 'buffer'), param('uint32_t', 'length')])
## pcap-file-wrapper.h (module 'network'): uint32_t ns3::PcapFileWrapper::GetMagic() [member function]
cls.add_method('GetMagic',
'uint32_t',
[])
## pcap-file-wrapper.h (module 'network'): uint16_t ns3::PcapFileWrapper::GetVersionMajor() [member function]
cls.add_method('GetVersionMajor',
'uint16_t',
[])
## pcap-file-wrapper.h (module 'network'): uint16_t ns3::PcapFileWrapper::GetVersionMinor() [member function]
cls.add_method('GetVersionMinor',
'uint16_t',
[])
## pcap-file-wrapper.h (module 'network'): int32_t ns3::PcapFileWrapper::GetTimeZoneOffset() [member function]
cls.add_method('GetTimeZoneOffset',
'int32_t',
[])
## pcap-file-wrapper.h (module 'network'): uint32_t ns3::PcapFileWrapper::GetSigFigs() [member function]
cls.add_method('GetSigFigs',
'uint32_t',
[])
## pcap-file-wrapper.h (module 'network'): uint32_t ns3::PcapFileWrapper::GetSnapLen() [member function]
cls.add_method('GetSnapLen',
'uint32_t',
[])
## pcap-file-wrapper.h (module 'network'): uint32_t ns3::PcapFileWrapper::GetDataLinkType() [member function]
cls.add_method('GetDataLinkType',
'uint32_t',
[])
return
def register_Ns3Queue_methods(root_module, cls):
## queue.h (module 'network'): ns3::Queue::Queue(ns3::Queue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Queue const &', 'arg0')])
## queue.h (module 'network'): ns3::Queue::Queue() [constructor]
cls.add_constructor([])
## queue.h (module 'network'): ns3::Ptr<ns3::Packet> ns3::Queue::Dequeue() [member function]
cls.add_method('Dequeue',
'ns3::Ptr< ns3::Packet >',
[])
## queue.h (module 'network'): void ns3::Queue::DequeueAll() [member function]
cls.add_method('DequeueAll',
'void',
[])
## queue.h (module 'network'): bool ns3::Queue::Enqueue(ns3::Ptr<ns3::Packet> p) [member function]
cls.add_method('Enqueue',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p')])
## queue.h (module 'network'): uint32_t ns3::Queue::GetNBytes() const [member function]
cls.add_method('GetNBytes',
'uint32_t',
[],
is_const=True)
## queue.h (module 'network'): uint32_t ns3::Queue::GetNPackets() const [member function]
cls.add_method('GetNPackets',
'uint32_t',
[],
is_const=True)
## queue.h (module 'network'): uint32_t ns3::Queue::GetTotalDroppedBytes() const [member function]
cls.add_method('GetTotalDroppedBytes',
'uint32_t',
[],
is_const=True)
## queue.h (module 'network'): uint32_t ns3::Queue::GetTotalDroppedPackets() const [member function]
cls.add_method('GetTotalDroppedPackets',
'uint32_t',
[],
is_const=True)
## queue.h (module 'network'): uint32_t ns3::Queue::GetTotalReceivedBytes() const [member function]
cls.add_method('GetTotalReceivedBytes',
'uint32_t',
[],
is_const=True)
## queue.h (module 'network'): uint32_t ns3::Queue::GetTotalReceivedPackets() const [member function]
cls.add_method('GetTotalReceivedPackets',
'uint32_t',
[],
is_const=True)
## queue.h (module 'network'): static ns3::TypeId ns3::Queue::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## queue.h (module 'network'): bool ns3::Queue::IsEmpty() const [member function]
cls.add_method('IsEmpty',
'bool',
[],
is_const=True)
## queue.h (module 'network'): ns3::Ptr<const ns3::Packet> ns3::Queue::Peek() const [member function]
cls.add_method('Peek',
'ns3::Ptr< ns3::Packet const >',
[],
is_const=True)
## queue.h (module 'network'): void ns3::Queue::ResetStatistics() [member function]
cls.add_method('ResetStatistics',
'void',
[])
## queue.h (module 'network'): void ns3::Queue::Drop(ns3::Ptr<ns3::Packet> packet) [member function]
cls.add_method('Drop',
'void',
[param('ns3::Ptr< ns3::Packet >', 'packet')],
visibility='protected')
## queue.h (module 'network'): ns3::Ptr<ns3::Packet> ns3::Queue::DoDequeue() [member function]
cls.add_method('DoDequeue',
'ns3::Ptr< ns3::Packet >',
[],
is_pure_virtual=True, visibility='private', is_virtual=True)
## queue.h (module 'network'): bool ns3::Queue::DoEnqueue(ns3::Ptr<ns3::Packet> p) [member function]
cls.add_method('DoEnqueue',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p')],
is_pure_virtual=True, visibility='private', is_virtual=True)
## queue.h (module 'network'): ns3::Ptr<const ns3::Packet> ns3::Queue::DoPeek() const [member function]
cls.add_method('DoPeek',
'ns3::Ptr< ns3::Packet const >',
[],
is_pure_virtual=True, is_const=True, visibility='private', is_virtual=True)
return
def register_Ns3RandomVariableStream_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::RandomVariableStream::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::RandomVariableStream::RandomVariableStream() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): void ns3::RandomVariableStream::SetStream(int64_t stream) [member function]
cls.add_method('SetStream',
'void',
[param('int64_t', 'stream')])
## random-variable-stream.h (module 'core'): int64_t ns3::RandomVariableStream::GetStream() const [member function]
cls.add_method('GetStream',
'int64_t',
[],
is_const=True)
## random-variable-stream.h (module 'core'): void ns3::RandomVariableStream::SetAntithetic(bool isAntithetic) [member function]
cls.add_method('SetAntithetic',
'void',
[param('bool', 'isAntithetic')])
## random-variable-stream.h (module 'core'): bool ns3::RandomVariableStream::IsAntithetic() const [member function]
cls.add_method('IsAntithetic',
'bool',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::RandomVariableStream::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_pure_virtual=True, is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::RandomVariableStream::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_pure_virtual=True, is_virtual=True)
## random-variable-stream.h (module 'core'): ns3::RngStream * ns3::RandomVariableStream::Peek() const [member function]
cls.add_method('Peek',
'ns3::RngStream *',
[],
is_const=True, visibility='protected')
return
def register_Ns3SequentialRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::SequentialRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::SequentialRandomVariable::SequentialRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::SequentialRandomVariable::GetMin() const [member function]
cls.add_method('GetMin',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::SequentialRandomVariable::GetMax() const [member function]
cls.add_method('GetMax',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): ns3::Ptr<ns3::RandomVariableStream> ns3::SequentialRandomVariable::GetIncrement() const [member function]
cls.add_method('GetIncrement',
'ns3::Ptr< ns3::RandomVariableStream >',
[],
is_const=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::SequentialRandomVariable::GetConsecutive() const [member function]
cls.add_method('GetConsecutive',
'uint32_t',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::SequentialRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::SequentialRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3SimpleRefCount__Ns3AttributeAccessor_Ns3Empty_Ns3DefaultDeleter__lt__ns3AttributeAccessor__gt___methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::AttributeAccessor, ns3::empty, ns3::DefaultDeleter<ns3::AttributeAccessor> >::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::AttributeAccessor, ns3::empty, ns3::DefaultDeleter<ns3::AttributeAccessor> >::SimpleRefCount(ns3::SimpleRefCount<ns3::AttributeAccessor, ns3::empty, ns3::DefaultDeleter<ns3::AttributeAccessor> > const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::AttributeAccessor, ns3::empty, ns3::DefaultDeleter< ns3::AttributeAccessor > > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::AttributeAccessor, ns3::empty, ns3::DefaultDeleter<ns3::AttributeAccessor> >::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3SimpleRefCount__Ns3AttributeChecker_Ns3Empty_Ns3DefaultDeleter__lt__ns3AttributeChecker__gt___methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::AttributeChecker, ns3::empty, ns3::DefaultDeleter<ns3::AttributeChecker> >::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::AttributeChecker, ns3::empty, ns3::DefaultDeleter<ns3::AttributeChecker> >::SimpleRefCount(ns3::SimpleRefCount<ns3::AttributeChecker, ns3::empty, ns3::DefaultDeleter<ns3::AttributeChecker> > const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::AttributeChecker, ns3::empty, ns3::DefaultDeleter< ns3::AttributeChecker > > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::AttributeChecker, ns3::empty, ns3::DefaultDeleter<ns3::AttributeChecker> >::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3SimpleRefCount__Ns3AttributeValue_Ns3Empty_Ns3DefaultDeleter__lt__ns3AttributeValue__gt___methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::AttributeValue, ns3::empty, ns3::DefaultDeleter<ns3::AttributeValue> >::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::AttributeValue, ns3::empty, ns3::DefaultDeleter<ns3::AttributeValue> >::SimpleRefCount(ns3::SimpleRefCount<ns3::AttributeValue, ns3::empty, ns3::DefaultDeleter<ns3::AttributeValue> > const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::AttributeValue, ns3::empty, ns3::DefaultDeleter< ns3::AttributeValue > > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::AttributeValue, ns3::empty, ns3::DefaultDeleter<ns3::AttributeValue> >::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3SimpleRefCount__Ns3CallbackImplBase_Ns3Empty_Ns3DefaultDeleter__lt__ns3CallbackImplBase__gt___methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::CallbackImplBase, ns3::empty, ns3::DefaultDeleter<ns3::CallbackImplBase> >::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::CallbackImplBase, ns3::empty, ns3::DefaultDeleter<ns3::CallbackImplBase> >::SimpleRefCount(ns3::SimpleRefCount<ns3::CallbackImplBase, ns3::empty, ns3::DefaultDeleter<ns3::CallbackImplBase> > const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::CallbackImplBase, ns3::empty, ns3::DefaultDeleter< ns3::CallbackImplBase > > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::CallbackImplBase, ns3::empty, ns3::DefaultDeleter<ns3::CallbackImplBase> >::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3SimpleRefCount__Ns3EventImpl_Ns3Empty_Ns3DefaultDeleter__lt__ns3EventImpl__gt___methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::EventImpl, ns3::empty, ns3::DefaultDeleter<ns3::EventImpl> >::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::EventImpl, ns3::empty, ns3::DefaultDeleter<ns3::EventImpl> >::SimpleRefCount(ns3::SimpleRefCount<ns3::EventImpl, ns3::empty, ns3::DefaultDeleter<ns3::EventImpl> > const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::EventImpl, ns3::empty, ns3::DefaultDeleter< ns3::EventImpl > > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::EventImpl, ns3::empty, ns3::DefaultDeleter<ns3::EventImpl> >::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3SimpleRefCount__Ns3HashImplementation_Ns3Empty_Ns3DefaultDeleter__lt__ns3HashImplementation__gt___methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::Hash::Implementation, ns3::empty, ns3::DefaultDeleter<ns3::Hash::Implementation> >::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::Hash::Implementation, ns3::empty, ns3::DefaultDeleter<ns3::Hash::Implementation> >::SimpleRefCount(ns3::SimpleRefCount<ns3::Hash::Implementation, ns3::empty, ns3::DefaultDeleter<ns3::Hash::Implementation> > const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::Hash::Implementation, ns3::empty, ns3::DefaultDeleter< ns3::Hash::Implementation > > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::Hash::Implementation, ns3::empty, ns3::DefaultDeleter<ns3::Hash::Implementation> >::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3SimpleRefCount__Ns3NixVector_Ns3Empty_Ns3DefaultDeleter__lt__ns3NixVector__gt___methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::NixVector, ns3::empty, ns3::DefaultDeleter<ns3::NixVector> >::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::NixVector, ns3::empty, ns3::DefaultDeleter<ns3::NixVector> >::SimpleRefCount(ns3::SimpleRefCount<ns3::NixVector, ns3::empty, ns3::DefaultDeleter<ns3::NixVector> > const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::NixVector, ns3::empty, ns3::DefaultDeleter< ns3::NixVector > > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::NixVector, ns3::empty, ns3::DefaultDeleter<ns3::NixVector> >::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3SimpleRefCount__Ns3OutputStreamWrapper_Ns3Empty_Ns3DefaultDeleter__lt__ns3OutputStreamWrapper__gt___methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::OutputStreamWrapper, ns3::empty, ns3::DefaultDeleter<ns3::OutputStreamWrapper> >::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::OutputStreamWrapper, ns3::empty, ns3::DefaultDeleter<ns3::OutputStreamWrapper> >::SimpleRefCount(ns3::SimpleRefCount<ns3::OutputStreamWrapper, ns3::empty, ns3::DefaultDeleter<ns3::OutputStreamWrapper> > const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::OutputStreamWrapper, ns3::empty, ns3::DefaultDeleter< ns3::OutputStreamWrapper > > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::OutputStreamWrapper, ns3::empty, ns3::DefaultDeleter<ns3::OutputStreamWrapper> >::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3SimpleRefCount__Ns3Packet_Ns3Empty_Ns3DefaultDeleter__lt__ns3Packet__gt___methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::Packet, ns3::empty, ns3::DefaultDeleter<ns3::Packet> >::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::Packet, ns3::empty, ns3::DefaultDeleter<ns3::Packet> >::SimpleRefCount(ns3::SimpleRefCount<ns3::Packet, ns3::empty, ns3::DefaultDeleter<ns3::Packet> > const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::Packet, ns3::empty, ns3::DefaultDeleter< ns3::Packet > > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::Packet, ns3::empty, ns3::DefaultDeleter<ns3::Packet> >::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3SimpleRefCount__Ns3TraceSourceAccessor_Ns3Empty_Ns3DefaultDeleter__lt__ns3TraceSourceAccessor__gt___methods(root_module, cls):
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::TraceSourceAccessor, ns3::empty, ns3::DefaultDeleter<ns3::TraceSourceAccessor> >::SimpleRefCount() [constructor]
cls.add_constructor([])
## simple-ref-count.h (module 'core'): ns3::SimpleRefCount<ns3::TraceSourceAccessor, ns3::empty, ns3::DefaultDeleter<ns3::TraceSourceAccessor> >::SimpleRefCount(ns3::SimpleRefCount<ns3::TraceSourceAccessor, ns3::empty, ns3::DefaultDeleter<ns3::TraceSourceAccessor> > const & o) [copy constructor]
cls.add_constructor([param('ns3::SimpleRefCount< ns3::TraceSourceAccessor, ns3::empty, ns3::DefaultDeleter< ns3::TraceSourceAccessor > > const &', 'o')])
## simple-ref-count.h (module 'core'): static void ns3::SimpleRefCount<ns3::TraceSourceAccessor, ns3::empty, ns3::DefaultDeleter<ns3::TraceSourceAccessor> >::Cleanup() [member function]
cls.add_method('Cleanup',
'void',
[],
is_static=True)
return
def register_Ns3Time_methods(root_module, cls):
cls.add_binary_numeric_operator('*', root_module['ns3::Time'], root_module['ns3::Time'], param('int64_t const &', u'right'))
cls.add_binary_numeric_operator('+', root_module['ns3::Time'], root_module['ns3::Time'], param('ns3::Time const &', u'right'))
cls.add_binary_numeric_operator('-', root_module['ns3::Time'], root_module['ns3::Time'], param('ns3::Time const &', u'right'))
cls.add_binary_numeric_operator('/', root_module['ns3::Time'], root_module['ns3::Time'], param('int64_t const &', u'right'))
cls.add_binary_comparison_operator('<')
cls.add_binary_comparison_operator('>')
cls.add_binary_comparison_operator('!=')
cls.add_inplace_numeric_operator('+=', param('ns3::Time const &', u'right'))
cls.add_inplace_numeric_operator('-=', param('ns3::Time const &', u'right'))
cls.add_output_stream_operator()
cls.add_binary_comparison_operator('<=')
cls.add_binary_comparison_operator('==')
cls.add_binary_comparison_operator('>=')
## nstime.h (module 'core'): ns3::Time::Time() [constructor]
cls.add_constructor([])
## nstime.h (module 'core'): ns3::Time::Time(ns3::Time const & o) [copy constructor]
cls.add_constructor([param('ns3::Time const &', 'o')])
## nstime.h (module 'core'): ns3::Time::Time(double v) [constructor]
cls.add_constructor([param('double', 'v')])
## nstime.h (module 'core'): ns3::Time::Time(int v) [constructor]
cls.add_constructor([param('int', 'v')])
## nstime.h (module 'core'): ns3::Time::Time(long int v) [constructor]
cls.add_constructor([param('long int', 'v')])
## nstime.h (module 'core'): ns3::Time::Time(long long int v) [constructor]
cls.add_constructor([param('long long int', 'v')])
## nstime.h (module 'core'): ns3::Time::Time(unsigned int v) [constructor]
cls.add_constructor([param('unsigned int', 'v')])
## nstime.h (module 'core'): ns3::Time::Time(long unsigned int v) [constructor]
cls.add_constructor([param('long unsigned int', 'v')])
## nstime.h (module 'core'): ns3::Time::Time(long long unsigned int v) [constructor]
cls.add_constructor([param('long long unsigned int', 'v')])
## nstime.h (module 'core'): ns3::Time::Time(ns3::int64x64_t const & v) [constructor]
cls.add_constructor([param('ns3::int64x64_t const &', 'v')])
## nstime.h (module 'core'): ns3::Time::Time(std::string const & s) [constructor]
cls.add_constructor([param('std::string const &', 's')])
## nstime.h (module 'core'): ns3::TimeWithUnit ns3::Time::As(ns3::Time::Unit const unit) const [member function]
cls.add_method('As',
'ns3::TimeWithUnit',
[param('ns3::Time::Unit const', 'unit')],
is_const=True)
## nstime.h (module 'core'): int ns3::Time::Compare(ns3::Time const & o) const [member function]
cls.add_method('Compare',
'int',
[param('ns3::Time const &', 'o')],
is_const=True)
## nstime.h (module 'core'): static ns3::Time ns3::Time::From(ns3::int64x64_t const & value) [member function]
cls.add_method('From',
'ns3::Time',
[param('ns3::int64x64_t const &', 'value')],
is_static=True)
## nstime.h (module 'core'): static ns3::Time ns3::Time::From(ns3::int64x64_t const & value, ns3::Time::Unit unit) [member function]
cls.add_method('From',
'ns3::Time',
[param('ns3::int64x64_t const &', 'value'), param('ns3::Time::Unit', 'unit')],
is_static=True)
## nstime.h (module 'core'): static ns3::Time ns3::Time::FromDouble(double value, ns3::Time::Unit unit) [member function]
cls.add_method('FromDouble',
'ns3::Time',
[param('double', 'value'), param('ns3::Time::Unit', 'unit')],
is_static=True)
## nstime.h (module 'core'): static ns3::Time ns3::Time::FromInteger(uint64_t value, ns3::Time::Unit unit) [member function]
cls.add_method('FromInteger',
'ns3::Time',
[param('uint64_t', 'value'), param('ns3::Time::Unit', 'unit')],
is_static=True)
## nstime.h (module 'core'): double ns3::Time::GetDays() const [member function]
cls.add_method('GetDays',
'double',
[],
is_const=True)
## nstime.h (module 'core'): double ns3::Time::GetDouble() const [member function]
cls.add_method('GetDouble',
'double',
[],
is_const=True)
## nstime.h (module 'core'): int64_t ns3::Time::GetFemtoSeconds() const [member function]
cls.add_method('GetFemtoSeconds',
'int64_t',
[],
is_const=True)
## nstime.h (module 'core'): double ns3::Time::GetHours() const [member function]
cls.add_method('GetHours',
'double',
[],
is_const=True)
## nstime.h (module 'core'): int64_t ns3::Time::GetInteger() const [member function]
cls.add_method('GetInteger',
'int64_t',
[],
is_const=True)
## nstime.h (module 'core'): int64_t ns3::Time::GetMicroSeconds() const [member function]
cls.add_method('GetMicroSeconds',
'int64_t',
[],
is_const=True)
## nstime.h (module 'core'): int64_t ns3::Time::GetMilliSeconds() const [member function]
cls.add_method('GetMilliSeconds',
'int64_t',
[],
is_const=True)
## nstime.h (module 'core'): double ns3::Time::GetMinutes() const [member function]
cls.add_method('GetMinutes',
'double',
[],
is_const=True)
## nstime.h (module 'core'): int64_t ns3::Time::GetNanoSeconds() const [member function]
cls.add_method('GetNanoSeconds',
'int64_t',
[],
is_const=True)
## nstime.h (module 'core'): int64_t ns3::Time::GetPicoSeconds() const [member function]
cls.add_method('GetPicoSeconds',
'int64_t',
[],
is_const=True)
## nstime.h (module 'core'): static ns3::Time::Unit ns3::Time::GetResolution() [member function]
cls.add_method('GetResolution',
'ns3::Time::Unit',
[],
is_static=True)
## nstime.h (module 'core'): double ns3::Time::GetSeconds() const [member function]
cls.add_method('GetSeconds',
'double',
[],
is_const=True)
## nstime.h (module 'core'): int64_t ns3::Time::GetTimeStep() const [member function]
cls.add_method('GetTimeStep',
'int64_t',
[],
is_const=True)
## nstime.h (module 'core'): double ns3::Time::GetYears() const [member function]
cls.add_method('GetYears',
'double',
[],
is_const=True)
## nstime.h (module 'core'): bool ns3::Time::IsNegative() const [member function]
cls.add_method('IsNegative',
'bool',
[],
is_const=True)
## nstime.h (module 'core'): bool ns3::Time::IsPositive() const [member function]
cls.add_method('IsPositive',
'bool',
[],
is_const=True)
## nstime.h (module 'core'): bool ns3::Time::IsStrictlyNegative() const [member function]
cls.add_method('IsStrictlyNegative',
'bool',
[],
is_const=True)
## nstime.h (module 'core'): bool ns3::Time::IsStrictlyPositive() const [member function]
cls.add_method('IsStrictlyPositive',
'bool',
[],
is_const=True)
## nstime.h (module 'core'): bool ns3::Time::IsZero() const [member function]
cls.add_method('IsZero',
'bool',
[],
is_const=True)
## nstime.h (module 'core'): static ns3::Time ns3::Time::Max() [member function]
cls.add_method('Max',
'ns3::Time',
[],
is_static=True)
## nstime.h (module 'core'): static ns3::Time ns3::Time::Min() [member function]
cls.add_method('Min',
'ns3::Time',
[],
is_static=True)
## nstime.h (module 'core'): static void ns3::Time::SetResolution(ns3::Time::Unit resolution) [member function]
cls.add_method('SetResolution',
'void',
[param('ns3::Time::Unit', 'resolution')],
is_static=True)
## nstime.h (module 'core'): static bool ns3::Time::StaticInit() [member function]
cls.add_method('StaticInit',
'bool',
[],
is_static=True)
## nstime.h (module 'core'): ns3::int64x64_t ns3::Time::To(ns3::Time::Unit unit) const [member function]
cls.add_method('To',
'ns3::int64x64_t',
[param('ns3::Time::Unit', 'unit')],
is_const=True)
## nstime.h (module 'core'): double ns3::Time::ToDouble(ns3::Time::Unit unit) const [member function]
cls.add_method('ToDouble',
'double',
[param('ns3::Time::Unit', 'unit')],
is_const=True)
## nstime.h (module 'core'): int64_t ns3::Time::ToInteger(ns3::Time::Unit unit) const [member function]
cls.add_method('ToInteger',
'int64_t',
[param('ns3::Time::Unit', 'unit')],
is_const=True)
return
def register_Ns3TraceSourceAccessor_methods(root_module, cls):
## trace-source-accessor.h (module 'core'): ns3::TraceSourceAccessor::TraceSourceAccessor(ns3::TraceSourceAccessor const & arg0) [copy constructor]
cls.add_constructor([param('ns3::TraceSourceAccessor const &', 'arg0')])
## trace-source-accessor.h (module 'core'): ns3::TraceSourceAccessor::TraceSourceAccessor() [constructor]
cls.add_constructor([])
## trace-source-accessor.h (module 'core'): bool ns3::TraceSourceAccessor::Connect(ns3::ObjectBase * obj, std::string context, ns3::CallbackBase const & cb) const [member function]
cls.add_method('Connect',
'bool',
[param('ns3::ObjectBase *', 'obj', transfer_ownership=False), param('std::string', 'context'), param('ns3::CallbackBase const &', 'cb')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## trace-source-accessor.h (module 'core'): bool ns3::TraceSourceAccessor::ConnectWithoutContext(ns3::ObjectBase * obj, ns3::CallbackBase const & cb) const [member function]
cls.add_method('ConnectWithoutContext',
'bool',
[param('ns3::ObjectBase *', 'obj', transfer_ownership=False), param('ns3::CallbackBase const &', 'cb')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## trace-source-accessor.h (module 'core'): bool ns3::TraceSourceAccessor::Disconnect(ns3::ObjectBase * obj, std::string context, ns3::CallbackBase const & cb) const [member function]
cls.add_method('Disconnect',
'bool',
[param('ns3::ObjectBase *', 'obj', transfer_ownership=False), param('std::string', 'context'), param('ns3::CallbackBase const &', 'cb')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## trace-source-accessor.h (module 'core'): bool ns3::TraceSourceAccessor::DisconnectWithoutContext(ns3::ObjectBase * obj, ns3::CallbackBase const & cb) const [member function]
cls.add_method('DisconnectWithoutContext',
'bool',
[param('ns3::ObjectBase *', 'obj', transfer_ownership=False), param('ns3::CallbackBase const &', 'cb')],
is_pure_virtual=True, is_const=True, is_virtual=True)
return
def register_Ns3Trailer_methods(root_module, cls):
cls.add_output_stream_operator()
## trailer.h (module 'network'): ns3::Trailer::Trailer() [constructor]
cls.add_constructor([])
## trailer.h (module 'network'): ns3::Trailer::Trailer(ns3::Trailer const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Trailer const &', 'arg0')])
## trailer.h (module 'network'): uint32_t ns3::Trailer::Deserialize(ns3::Buffer::Iterator end) [member function]
cls.add_method('Deserialize',
'uint32_t',
[param('ns3::Buffer::Iterator', 'end')],
is_pure_virtual=True, is_virtual=True)
## trailer.h (module 'network'): uint32_t ns3::Trailer::GetSerializedSize() const [member function]
cls.add_method('GetSerializedSize',
'uint32_t',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## trailer.h (module 'network'): static ns3::TypeId ns3::Trailer::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## trailer.h (module 'network'): void ns3::Trailer::Print(std::ostream & os) const [member function]
cls.add_method('Print',
'void',
[param('std::ostream &', 'os')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## trailer.h (module 'network'): void ns3::Trailer::Serialize(ns3::Buffer::Iterator start) const [member function]
cls.add_method('Serialize',
'void',
[param('ns3::Buffer::Iterator', 'start')],
is_pure_virtual=True, is_const=True, is_virtual=True)
return
def register_Ns3TriangularRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::TriangularRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::TriangularRandomVariable::TriangularRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::TriangularRandomVariable::GetMean() const [member function]
cls.add_method('GetMean',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::TriangularRandomVariable::GetMin() const [member function]
cls.add_method('GetMin',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::TriangularRandomVariable::GetMax() const [member function]
cls.add_method('GetMax',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::TriangularRandomVariable::GetValue(double mean, double min, double max) [member function]
cls.add_method('GetValue',
'double',
[param('double', 'mean'), param('double', 'min'), param('double', 'max')])
## random-variable-stream.h (module 'core'): uint32_t ns3::TriangularRandomVariable::GetInteger(uint32_t mean, uint32_t min, uint32_t max) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'mean'), param('uint32_t', 'min'), param('uint32_t', 'max')])
## random-variable-stream.h (module 'core'): double ns3::TriangularRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::TriangularRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3UniformRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::UniformRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::UniformRandomVariable::UniformRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::UniformRandomVariable::GetMin() const [member function]
cls.add_method('GetMin',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::UniformRandomVariable::GetMax() const [member function]
cls.add_method('GetMax',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::UniformRandomVariable::GetValue(double min, double max) [member function]
cls.add_method('GetValue',
'double',
[param('double', 'min'), param('double', 'max')])
## random-variable-stream.h (module 'core'): uint32_t ns3::UniformRandomVariable::GetInteger(uint32_t min, uint32_t max) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'min'), param('uint32_t', 'max')])
## random-variable-stream.h (module 'core'): double ns3::UniformRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::UniformRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3WeibullRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::WeibullRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::WeibullRandomVariable::WeibullRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::WeibullRandomVariable::GetScale() const [member function]
cls.add_method('GetScale',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::WeibullRandomVariable::GetShape() const [member function]
cls.add_method('GetShape',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::WeibullRandomVariable::GetBound() const [member function]
cls.add_method('GetBound',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::WeibullRandomVariable::GetValue(double scale, double shape, double bound) [member function]
cls.add_method('GetValue',
'double',
[param('double', 'scale'), param('double', 'shape'), param('double', 'bound')])
## random-variable-stream.h (module 'core'): uint32_t ns3::WeibullRandomVariable::GetInteger(uint32_t scale, uint32_t shape, uint32_t bound) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'scale'), param('uint32_t', 'shape'), param('uint32_t', 'bound')])
## random-variable-stream.h (module 'core'): double ns3::WeibullRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::WeibullRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3ZetaRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ZetaRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::ZetaRandomVariable::ZetaRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::ZetaRandomVariable::GetAlpha() const [member function]
cls.add_method('GetAlpha',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ZetaRandomVariable::GetValue(double alpha) [member function]
cls.add_method('GetValue',
'double',
[param('double', 'alpha')])
## random-variable-stream.h (module 'core'): uint32_t ns3::ZetaRandomVariable::GetInteger(uint32_t alpha) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'alpha')])
## random-variable-stream.h (module 'core'): double ns3::ZetaRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::ZetaRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3ZipfRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ZipfRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::ZipfRandomVariable::ZipfRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): uint32_t ns3::ZipfRandomVariable::GetN() const [member function]
cls.add_method('GetN',
'uint32_t',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ZipfRandomVariable::GetAlpha() const [member function]
cls.add_method('GetAlpha',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ZipfRandomVariable::GetValue(uint32_t n, double alpha) [member function]
cls.add_method('GetValue',
'double',
[param('uint32_t', 'n'), param('double', 'alpha')])
## random-variable-stream.h (module 'core'): uint32_t ns3::ZipfRandomVariable::GetInteger(uint32_t n, uint32_t alpha) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'n'), param('uint32_t', 'alpha')])
## random-variable-stream.h (module 'core'): double ns3::ZipfRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::ZipfRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3AttributeAccessor_methods(root_module, cls):
## attribute.h (module 'core'): ns3::AttributeAccessor::AttributeAccessor(ns3::AttributeAccessor const & arg0) [copy constructor]
cls.add_constructor([param('ns3::AttributeAccessor const &', 'arg0')])
## attribute.h (module 'core'): ns3::AttributeAccessor::AttributeAccessor() [constructor]
cls.add_constructor([])
## attribute.h (module 'core'): bool ns3::AttributeAccessor::Get(ns3::ObjectBase const * object, ns3::AttributeValue & attribute) const [member function]
cls.add_method('Get',
'bool',
[param('ns3::ObjectBase const *', 'object'), param('ns3::AttributeValue &', 'attribute')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## attribute.h (module 'core'): bool ns3::AttributeAccessor::HasGetter() const [member function]
cls.add_method('HasGetter',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## attribute.h (module 'core'): bool ns3::AttributeAccessor::HasSetter() const [member function]
cls.add_method('HasSetter',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## attribute.h (module 'core'): bool ns3::AttributeAccessor::Set(ns3::ObjectBase * object, ns3::AttributeValue const & value) const [member function]
cls.add_method('Set',
'bool',
[param('ns3::ObjectBase *', 'object', transfer_ownership=False), param('ns3::AttributeValue const &', 'value')],
is_pure_virtual=True, is_const=True, is_virtual=True)
return
def register_Ns3AttributeChecker_methods(root_module, cls):
## attribute.h (module 'core'): ns3::AttributeChecker::AttributeChecker(ns3::AttributeChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::AttributeChecker const &', 'arg0')])
## attribute.h (module 'core'): ns3::AttributeChecker::AttributeChecker() [constructor]
cls.add_constructor([])
## attribute.h (module 'core'): bool ns3::AttributeChecker::Check(ns3::AttributeValue const & value) const [member function]
cls.add_method('Check',
'bool',
[param('ns3::AttributeValue const &', 'value')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## attribute.h (module 'core'): bool ns3::AttributeChecker::Copy(ns3::AttributeValue const & source, ns3::AttributeValue & destination) const [member function]
cls.add_method('Copy',
'bool',
[param('ns3::AttributeValue const &', 'source'), param('ns3::AttributeValue &', 'destination')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## attribute.h (module 'core'): ns3::Ptr<ns3::AttributeValue> ns3::AttributeChecker::Create() const [member function]
cls.add_method('Create',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## attribute.h (module 'core'): ns3::Ptr<ns3::AttributeValue> ns3::AttributeChecker::CreateValidValue(ns3::AttributeValue const & value) const [member function]
cls.add_method('CreateValidValue',
'ns3::Ptr< ns3::AttributeValue >',
[param('ns3::AttributeValue const &', 'value')],
is_const=True)
## attribute.h (module 'core'): std::string ns3::AttributeChecker::GetUnderlyingTypeInformation() const [member function]
cls.add_method('GetUnderlyingTypeInformation',
'std::string',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## attribute.h (module 'core'): std::string ns3::AttributeChecker::GetValueTypeName() const [member function]
cls.add_method('GetValueTypeName',
'std::string',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## attribute.h (module 'core'): bool ns3::AttributeChecker::HasUnderlyingTypeInformation() const [member function]
cls.add_method('HasUnderlyingTypeInformation',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
return
def register_Ns3AttributeValue_methods(root_module, cls):
## attribute.h (module 'core'): ns3::AttributeValue::AttributeValue(ns3::AttributeValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::AttributeValue const &', 'arg0')])
## attribute.h (module 'core'): ns3::AttributeValue::AttributeValue() [constructor]
cls.add_constructor([])
## attribute.h (module 'core'): ns3::Ptr<ns3::AttributeValue> ns3::AttributeValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## attribute.h (module 'core'): bool ns3::AttributeValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_pure_virtual=True, is_virtual=True)
## attribute.h (module 'core'): std::string ns3::AttributeValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_pure_virtual=True, is_const=True, is_virtual=True)
return
def register_Ns3CallbackChecker_methods(root_module, cls):
## callback.h (module 'core'): ns3::CallbackChecker::CallbackChecker() [constructor]
cls.add_constructor([])
## callback.h (module 'core'): ns3::CallbackChecker::CallbackChecker(ns3::CallbackChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::CallbackChecker const &', 'arg0')])
return
def register_Ns3CallbackImplBase_methods(root_module, cls):
## callback.h (module 'core'): ns3::CallbackImplBase::CallbackImplBase() [constructor]
cls.add_constructor([])
## callback.h (module 'core'): ns3::CallbackImplBase::CallbackImplBase(ns3::CallbackImplBase const & arg0) [copy constructor]
cls.add_constructor([param('ns3::CallbackImplBase const &', 'arg0')])
## callback.h (module 'core'): std::string ns3::CallbackImplBase::GetTypeid() const [member function]
cls.add_method('GetTypeid',
'std::string',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## callback.h (module 'core'): bool ns3::CallbackImplBase::IsEqual(ns3::Ptr<ns3::CallbackImplBase const> other) const [member function]
cls.add_method('IsEqual',
'bool',
[param('ns3::Ptr< ns3::CallbackImplBase const >', 'other')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## callback.h (module 'core'): static std::string ns3::CallbackImplBase::Demangle(std::string const & mangled) [member function]
cls.add_method('Demangle',
'std::string',
[param('std::string const &', 'mangled')],
is_static=True, visibility='protected')
return
def register_Ns3CallbackValue_methods(root_module, cls):
## callback.h (module 'core'): ns3::CallbackValue::CallbackValue(ns3::CallbackValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::CallbackValue const &', 'arg0')])
## callback.h (module 'core'): ns3::CallbackValue::CallbackValue() [constructor]
cls.add_constructor([])
## callback.h (module 'core'): ns3::CallbackValue::CallbackValue(ns3::CallbackBase const & base) [constructor]
cls.add_constructor([param('ns3::CallbackBase const &', 'base')])
## callback.h (module 'core'): ns3::Ptr<ns3::AttributeValue> ns3::CallbackValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## callback.h (module 'core'): bool ns3::CallbackValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## callback.h (module 'core'): std::string ns3::CallbackValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## callback.h (module 'core'): void ns3::CallbackValue::Set(ns3::CallbackBase base) [member function]
cls.add_method('Set',
'void',
[param('ns3::CallbackBase', 'base')])
return
def register_Ns3Channel_methods(root_module, cls):
## channel.h (module 'network'): ns3::Channel::Channel(ns3::Channel const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Channel const &', 'arg0')])
## channel.h (module 'network'): ns3::Channel::Channel() [constructor]
cls.add_constructor([])
## channel.h (module 'network'): ns3::Ptr<ns3::NetDevice> ns3::Channel::GetDevice(uint32_t i) const [member function]
cls.add_method('GetDevice',
'ns3::Ptr< ns3::NetDevice >',
[param('uint32_t', 'i')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## channel.h (module 'network'): uint32_t ns3::Channel::GetId() const [member function]
cls.add_method('GetId',
'uint32_t',
[],
is_const=True)
## channel.h (module 'network'): uint32_t ns3::Channel::GetNDevices() const [member function]
cls.add_method('GetNDevices',
'uint32_t',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## channel.h (module 'network'): static ns3::TypeId ns3::Channel::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
return
def register_Ns3ConstantRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ConstantRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::ConstantRandomVariable::ConstantRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::ConstantRandomVariable::GetConstant() const [member function]
cls.add_method('GetConstant',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ConstantRandomVariable::GetValue(double constant) [member function]
cls.add_method('GetValue',
'double',
[param('double', 'constant')])
## random-variable-stream.h (module 'core'): uint32_t ns3::ConstantRandomVariable::GetInteger(uint32_t constant) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'constant')])
## random-variable-stream.h (module 'core'): double ns3::ConstantRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::ConstantRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3CsmaChannel_methods(root_module, cls):
## csma-channel.h (module 'csma'): static ns3::TypeId ns3::CsmaChannel::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## csma-channel.h (module 'csma'): ns3::CsmaChannel::CsmaChannel() [constructor]
cls.add_constructor([])
## csma-channel.h (module 'csma'): int32_t ns3::CsmaChannel::Attach(ns3::Ptr<ns3::CsmaNetDevice> device) [member function]
cls.add_method('Attach',
'int32_t',
[param('ns3::Ptr< ns3::CsmaNetDevice >', 'device')])
## csma-channel.h (module 'csma'): bool ns3::CsmaChannel::Detach(ns3::Ptr<ns3::CsmaNetDevice> device) [member function]
cls.add_method('Detach',
'bool',
[param('ns3::Ptr< ns3::CsmaNetDevice >', 'device')])
## csma-channel.h (module 'csma'): bool ns3::CsmaChannel::Detach(uint32_t deviceId) [member function]
cls.add_method('Detach',
'bool',
[param('uint32_t', 'deviceId')])
## csma-channel.h (module 'csma'): bool ns3::CsmaChannel::Reattach(uint32_t deviceId) [member function]
cls.add_method('Reattach',
'bool',
[param('uint32_t', 'deviceId')])
## csma-channel.h (module 'csma'): bool ns3::CsmaChannel::Reattach(ns3::Ptr<ns3::CsmaNetDevice> device) [member function]
cls.add_method('Reattach',
'bool',
[param('ns3::Ptr< ns3::CsmaNetDevice >', 'device')])
## csma-channel.h (module 'csma'): bool ns3::CsmaChannel::TransmitStart(ns3::Ptr<ns3::Packet> p, uint32_t srcId) [member function]
cls.add_method('TransmitStart',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p'), param('uint32_t', 'srcId')])
## csma-channel.h (module 'csma'): bool ns3::CsmaChannel::TransmitEnd() [member function]
cls.add_method('TransmitEnd',
'bool',
[])
## csma-channel.h (module 'csma'): void ns3::CsmaChannel::PropagationCompleteEvent() [member function]
cls.add_method('PropagationCompleteEvent',
'void',
[])
## csma-channel.h (module 'csma'): int32_t ns3::CsmaChannel::GetDeviceNum(ns3::Ptr<ns3::CsmaNetDevice> device) [member function]
cls.add_method('GetDeviceNum',
'int32_t',
[param('ns3::Ptr< ns3::CsmaNetDevice >', 'device')])
## csma-channel.h (module 'csma'): ns3::WireState ns3::CsmaChannel::GetState() [member function]
cls.add_method('GetState',
'ns3::WireState',
[])
## csma-channel.h (module 'csma'): bool ns3::CsmaChannel::IsBusy() [member function]
cls.add_method('IsBusy',
'bool',
[])
## csma-channel.h (module 'csma'): bool ns3::CsmaChannel::IsActive(uint32_t deviceId) [member function]
cls.add_method('IsActive',
'bool',
[param('uint32_t', 'deviceId')])
## csma-channel.h (module 'csma'): uint32_t ns3::CsmaChannel::GetNumActDevices() [member function]
cls.add_method('GetNumActDevices',
'uint32_t',
[])
## csma-channel.h (module 'csma'): uint32_t ns3::CsmaChannel::GetNDevices() const [member function]
cls.add_method('GetNDevices',
'uint32_t',
[],
is_const=True, is_virtual=True)
## csma-channel.h (module 'csma'): ns3::Ptr<ns3::NetDevice> ns3::CsmaChannel::GetDevice(uint32_t i) const [member function]
cls.add_method('GetDevice',
'ns3::Ptr< ns3::NetDevice >',
[param('uint32_t', 'i')],
is_const=True, is_virtual=True)
## csma-channel.h (module 'csma'): ns3::Ptr<ns3::CsmaNetDevice> ns3::CsmaChannel::GetCsmaDevice(uint32_t i) const [member function]
cls.add_method('GetCsmaDevice',
'ns3::Ptr< ns3::CsmaNetDevice >',
[param('uint32_t', 'i')],
is_const=True)
## csma-channel.h (module 'csma'): ns3::DataRate ns3::CsmaChannel::GetDataRate() [member function]
cls.add_method('GetDataRate',
'ns3::DataRate',
[])
## csma-channel.h (module 'csma'): ns3::Time ns3::CsmaChannel::GetDelay() [member function]
cls.add_method('GetDelay',
'ns3::Time',
[])
return
def register_Ns3DataRateChecker_methods(root_module, cls):
## data-rate.h (module 'network'): ns3::DataRateChecker::DataRateChecker() [constructor]
cls.add_constructor([])
## data-rate.h (module 'network'): ns3::DataRateChecker::DataRateChecker(ns3::DataRateChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::DataRateChecker const &', 'arg0')])
return
def register_Ns3DataRateValue_methods(root_module, cls):
## data-rate.h (module 'network'): ns3::DataRateValue::DataRateValue() [constructor]
cls.add_constructor([])
## data-rate.h (module 'network'): ns3::DataRateValue::DataRateValue(ns3::DataRateValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::DataRateValue const &', 'arg0')])
## data-rate.h (module 'network'): ns3::DataRateValue::DataRateValue(ns3::DataRate const & value) [constructor]
cls.add_constructor([param('ns3::DataRate const &', 'value')])
## data-rate.h (module 'network'): ns3::Ptr<ns3::AttributeValue> ns3::DataRateValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## data-rate.h (module 'network'): bool ns3::DataRateValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## data-rate.h (module 'network'): ns3::DataRate ns3::DataRateValue::Get() const [member function]
cls.add_method('Get',
'ns3::DataRate',
[],
is_const=True)
## data-rate.h (module 'network'): std::string ns3::DataRateValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## data-rate.h (module 'network'): void ns3::DataRateValue::Set(ns3::DataRate const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::DataRate const &', 'value')])
return
def register_Ns3DeterministicRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::DeterministicRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::DeterministicRandomVariable::DeterministicRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): void ns3::DeterministicRandomVariable::SetValueArray(double * values, uint64_t length) [member function]
cls.add_method('SetValueArray',
'void',
[param('double *', 'values'), param('uint64_t', 'length')])
## random-variable-stream.h (module 'core'): double ns3::DeterministicRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::DeterministicRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3EmpiricalRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): ns3::EmpiricalRandomVariable::EmpiricalRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): void ns3::EmpiricalRandomVariable::CDF(double v, double c) [member function]
cls.add_method('CDF',
'void',
[param('double', 'v'), param('double', 'c')])
## random-variable-stream.h (module 'core'): uint32_t ns3::EmpiricalRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::EmpiricalRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): double ns3::EmpiricalRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): double ns3::EmpiricalRandomVariable::Interpolate(double c1, double c2, double v1, double v2, double r) [member function]
cls.add_method('Interpolate',
'double',
[param('double', 'c1'), param('double', 'c2'), param('double', 'v1'), param('double', 'v2'), param('double', 'r')],
visibility='private', is_virtual=True)
## random-variable-stream.h (module 'core'): void ns3::EmpiricalRandomVariable::Validate() [member function]
cls.add_method('Validate',
'void',
[],
visibility='private', is_virtual=True)
return
def register_Ns3EmptyAttributeValue_methods(root_module, cls):
## attribute.h (module 'core'): ns3::EmptyAttributeValue::EmptyAttributeValue(ns3::EmptyAttributeValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::EmptyAttributeValue const &', 'arg0')])
## attribute.h (module 'core'): ns3::EmptyAttributeValue::EmptyAttributeValue() [constructor]
cls.add_constructor([])
## attribute.h (module 'core'): ns3::Ptr<ns3::AttributeValue> ns3::EmptyAttributeValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, visibility='private', is_virtual=True)
## attribute.h (module 'core'): bool ns3::EmptyAttributeValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
visibility='private', is_virtual=True)
## attribute.h (module 'core'): std::string ns3::EmptyAttributeValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, visibility='private', is_virtual=True)
return
def register_Ns3ErlangRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ErlangRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::ErlangRandomVariable::ErlangRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): uint32_t ns3::ErlangRandomVariable::GetK() const [member function]
cls.add_method('GetK',
'uint32_t',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ErlangRandomVariable::GetLambda() const [member function]
cls.add_method('GetLambda',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ErlangRandomVariable::GetValue(uint32_t k, double lambda) [member function]
cls.add_method('GetValue',
'double',
[param('uint32_t', 'k'), param('double', 'lambda')])
## random-variable-stream.h (module 'core'): uint32_t ns3::ErlangRandomVariable::GetInteger(uint32_t k, uint32_t lambda) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'k'), param('uint32_t', 'lambda')])
## random-variable-stream.h (module 'core'): double ns3::ErlangRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::ErlangRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3ErrorModel_methods(root_module, cls):
## error-model.h (module 'network'): ns3::ErrorModel::ErrorModel(ns3::ErrorModel const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ErrorModel const &', 'arg0')])
## error-model.h (module 'network'): ns3::ErrorModel::ErrorModel() [constructor]
cls.add_constructor([])
## error-model.h (module 'network'): void ns3::ErrorModel::Disable() [member function]
cls.add_method('Disable',
'void',
[])
## error-model.h (module 'network'): void ns3::ErrorModel::Enable() [member function]
cls.add_method('Enable',
'void',
[])
## error-model.h (module 'network'): static ns3::TypeId ns3::ErrorModel::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## error-model.h (module 'network'): bool ns3::ErrorModel::IsCorrupt(ns3::Ptr<ns3::Packet> pkt) [member function]
cls.add_method('IsCorrupt',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'pkt')])
## error-model.h (module 'network'): bool ns3::ErrorModel::IsEnabled() const [member function]
cls.add_method('IsEnabled',
'bool',
[],
is_const=True)
## error-model.h (module 'network'): void ns3::ErrorModel::Reset() [member function]
cls.add_method('Reset',
'void',
[])
## error-model.h (module 'network'): bool ns3::ErrorModel::DoCorrupt(ns3::Ptr<ns3::Packet> p) [member function]
cls.add_method('DoCorrupt',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p')],
is_pure_virtual=True, visibility='private', is_virtual=True)
## error-model.h (module 'network'): void ns3::ErrorModel::DoReset() [member function]
cls.add_method('DoReset',
'void',
[],
is_pure_virtual=True, visibility='private', is_virtual=True)
return
def register_Ns3EventImpl_methods(root_module, cls):
## event-impl.h (module 'core'): ns3::EventImpl::EventImpl(ns3::EventImpl const & arg0) [copy constructor]
cls.add_constructor([param('ns3::EventImpl const &', 'arg0')])
## event-impl.h (module 'core'): ns3::EventImpl::EventImpl() [constructor]
cls.add_constructor([])
## event-impl.h (module 'core'): void ns3::EventImpl::Cancel() [member function]
cls.add_method('Cancel',
'void',
[])
## event-impl.h (module 'core'): void ns3::EventImpl::Invoke() [member function]
cls.add_method('Invoke',
'void',
[])
## event-impl.h (module 'core'): bool ns3::EventImpl::IsCancelled() [member function]
cls.add_method('IsCancelled',
'bool',
[])
## event-impl.h (module 'core'): void ns3::EventImpl::Notify() [member function]
cls.add_method('Notify',
'void',
[],
is_pure_virtual=True, visibility='protected', is_virtual=True)
return
def register_Ns3ExponentialRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ExponentialRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::ExponentialRandomVariable::ExponentialRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::ExponentialRandomVariable::GetMean() const [member function]
cls.add_method('GetMean',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ExponentialRandomVariable::GetBound() const [member function]
cls.add_method('GetBound',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ExponentialRandomVariable::GetValue(double mean, double bound) [member function]
cls.add_method('GetValue',
'double',
[param('double', 'mean'), param('double', 'bound')])
## random-variable-stream.h (module 'core'): uint32_t ns3::ExponentialRandomVariable::GetInteger(uint32_t mean, uint32_t bound) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'mean'), param('uint32_t', 'bound')])
## random-variable-stream.h (module 'core'): double ns3::ExponentialRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::ExponentialRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3GammaRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::GammaRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::GammaRandomVariable::GammaRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::GammaRandomVariable::GetAlpha() const [member function]
cls.add_method('GetAlpha',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::GammaRandomVariable::GetBeta() const [member function]
cls.add_method('GetBeta',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::GammaRandomVariable::GetValue(double alpha, double beta) [member function]
cls.add_method('GetValue',
'double',
[param('double', 'alpha'), param('double', 'beta')])
## random-variable-stream.h (module 'core'): uint32_t ns3::GammaRandomVariable::GetInteger(uint32_t alpha, uint32_t beta) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'alpha'), param('uint32_t', 'beta')])
## random-variable-stream.h (module 'core'): double ns3::GammaRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::GammaRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3Ipv4AddressChecker_methods(root_module, cls):
## ipv4-address.h (module 'network'): ns3::Ipv4AddressChecker::Ipv4AddressChecker() [constructor]
cls.add_constructor([])
## ipv4-address.h (module 'network'): ns3::Ipv4AddressChecker::Ipv4AddressChecker(ns3::Ipv4AddressChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Ipv4AddressChecker const &', 'arg0')])
return
def register_Ns3Ipv4AddressValue_methods(root_module, cls):
## ipv4-address.h (module 'network'): ns3::Ipv4AddressValue::Ipv4AddressValue() [constructor]
cls.add_constructor([])
## ipv4-address.h (module 'network'): ns3::Ipv4AddressValue::Ipv4AddressValue(ns3::Ipv4AddressValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Ipv4AddressValue const &', 'arg0')])
## ipv4-address.h (module 'network'): ns3::Ipv4AddressValue::Ipv4AddressValue(ns3::Ipv4Address const & value) [constructor]
cls.add_constructor([param('ns3::Ipv4Address const &', 'value')])
## ipv4-address.h (module 'network'): ns3::Ptr<ns3::AttributeValue> ns3::Ipv4AddressValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## ipv4-address.h (module 'network'): bool ns3::Ipv4AddressValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## ipv4-address.h (module 'network'): ns3::Ipv4Address ns3::Ipv4AddressValue::Get() const [member function]
cls.add_method('Get',
'ns3::Ipv4Address',
[],
is_const=True)
## ipv4-address.h (module 'network'): std::string ns3::Ipv4AddressValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## ipv4-address.h (module 'network'): void ns3::Ipv4AddressValue::Set(ns3::Ipv4Address const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::Ipv4Address const &', 'value')])
return
def register_Ns3Ipv4MaskChecker_methods(root_module, cls):
## ipv4-address.h (module 'network'): ns3::Ipv4MaskChecker::Ipv4MaskChecker() [constructor]
cls.add_constructor([])
## ipv4-address.h (module 'network'): ns3::Ipv4MaskChecker::Ipv4MaskChecker(ns3::Ipv4MaskChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Ipv4MaskChecker const &', 'arg0')])
return
def register_Ns3Ipv4MaskValue_methods(root_module, cls):
## ipv4-address.h (module 'network'): ns3::Ipv4MaskValue::Ipv4MaskValue() [constructor]
cls.add_constructor([])
## ipv4-address.h (module 'network'): ns3::Ipv4MaskValue::Ipv4MaskValue(ns3::Ipv4MaskValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Ipv4MaskValue const &', 'arg0')])
## ipv4-address.h (module 'network'): ns3::Ipv4MaskValue::Ipv4MaskValue(ns3::Ipv4Mask const & value) [constructor]
cls.add_constructor([param('ns3::Ipv4Mask const &', 'value')])
## ipv4-address.h (module 'network'): ns3::Ptr<ns3::AttributeValue> ns3::Ipv4MaskValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## ipv4-address.h (module 'network'): bool ns3::Ipv4MaskValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## ipv4-address.h (module 'network'): ns3::Ipv4Mask ns3::Ipv4MaskValue::Get() const [member function]
cls.add_method('Get',
'ns3::Ipv4Mask',
[],
is_const=True)
## ipv4-address.h (module 'network'): std::string ns3::Ipv4MaskValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## ipv4-address.h (module 'network'): void ns3::Ipv4MaskValue::Set(ns3::Ipv4Mask const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::Ipv4Mask const &', 'value')])
return
def register_Ns3Ipv6AddressChecker_methods(root_module, cls):
## ipv6-address.h (module 'network'): ns3::Ipv6AddressChecker::Ipv6AddressChecker() [constructor]
cls.add_constructor([])
## ipv6-address.h (module 'network'): ns3::Ipv6AddressChecker::Ipv6AddressChecker(ns3::Ipv6AddressChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Ipv6AddressChecker const &', 'arg0')])
return
def register_Ns3Ipv6AddressValue_methods(root_module, cls):
## ipv6-address.h (module 'network'): ns3::Ipv6AddressValue::Ipv6AddressValue() [constructor]
cls.add_constructor([])
## ipv6-address.h (module 'network'): ns3::Ipv6AddressValue::Ipv6AddressValue(ns3::Ipv6AddressValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Ipv6AddressValue const &', 'arg0')])
## ipv6-address.h (module 'network'): ns3::Ipv6AddressValue::Ipv6AddressValue(ns3::Ipv6Address const & value) [constructor]
cls.add_constructor([param('ns3::Ipv6Address const &', 'value')])
## ipv6-address.h (module 'network'): ns3::Ptr<ns3::AttributeValue> ns3::Ipv6AddressValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6AddressValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## ipv6-address.h (module 'network'): ns3::Ipv6Address ns3::Ipv6AddressValue::Get() const [member function]
cls.add_method('Get',
'ns3::Ipv6Address',
[],
is_const=True)
## ipv6-address.h (module 'network'): std::string ns3::Ipv6AddressValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## ipv6-address.h (module 'network'): void ns3::Ipv6AddressValue::Set(ns3::Ipv6Address const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::Ipv6Address const &', 'value')])
return
def register_Ns3Ipv6PrefixChecker_methods(root_module, cls):
## ipv6-address.h (module 'network'): ns3::Ipv6PrefixChecker::Ipv6PrefixChecker() [constructor]
cls.add_constructor([])
## ipv6-address.h (module 'network'): ns3::Ipv6PrefixChecker::Ipv6PrefixChecker(ns3::Ipv6PrefixChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Ipv6PrefixChecker const &', 'arg0')])
return
def register_Ns3Ipv6PrefixValue_methods(root_module, cls):
## ipv6-address.h (module 'network'): ns3::Ipv6PrefixValue::Ipv6PrefixValue() [constructor]
cls.add_constructor([])
## ipv6-address.h (module 'network'): ns3::Ipv6PrefixValue::Ipv6PrefixValue(ns3::Ipv6PrefixValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Ipv6PrefixValue const &', 'arg0')])
## ipv6-address.h (module 'network'): ns3::Ipv6PrefixValue::Ipv6PrefixValue(ns3::Ipv6Prefix const & value) [constructor]
cls.add_constructor([param('ns3::Ipv6Prefix const &', 'value')])
## ipv6-address.h (module 'network'): ns3::Ptr<ns3::AttributeValue> ns3::Ipv6PrefixValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## ipv6-address.h (module 'network'): bool ns3::Ipv6PrefixValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## ipv6-address.h (module 'network'): ns3::Ipv6Prefix ns3::Ipv6PrefixValue::Get() const [member function]
cls.add_method('Get',
'ns3::Ipv6Prefix',
[],
is_const=True)
## ipv6-address.h (module 'network'): std::string ns3::Ipv6PrefixValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## ipv6-address.h (module 'network'): void ns3::Ipv6PrefixValue::Set(ns3::Ipv6Prefix const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::Ipv6Prefix const &', 'value')])
return
def register_Ns3ListErrorModel_methods(root_module, cls):
## error-model.h (module 'network'): ns3::ListErrorModel::ListErrorModel(ns3::ListErrorModel const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ListErrorModel const &', 'arg0')])
## error-model.h (module 'network'): ns3::ListErrorModel::ListErrorModel() [constructor]
cls.add_constructor([])
## error-model.h (module 'network'): std::list<unsigned int, std::allocator<unsigned int> > ns3::ListErrorModel::GetList() const [member function]
cls.add_method('GetList',
'std::list< unsigned int >',
[],
is_const=True)
## error-model.h (module 'network'): static ns3::TypeId ns3::ListErrorModel::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## error-model.h (module 'network'): void ns3::ListErrorModel::SetList(std::list<unsigned int, std::allocator<unsigned int> > const & packetlist) [member function]
cls.add_method('SetList',
'void',
[param('std::list< unsigned int > const &', 'packetlist')])
## error-model.h (module 'network'): bool ns3::ListErrorModel::DoCorrupt(ns3::Ptr<ns3::Packet> p) [member function]
cls.add_method('DoCorrupt',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p')],
visibility='private', is_virtual=True)
## error-model.h (module 'network'): void ns3::ListErrorModel::DoReset() [member function]
cls.add_method('DoReset',
'void',
[],
visibility='private', is_virtual=True)
return
def register_Ns3LogNormalRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::LogNormalRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::LogNormalRandomVariable::LogNormalRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::LogNormalRandomVariable::GetMu() const [member function]
cls.add_method('GetMu',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::LogNormalRandomVariable::GetSigma() const [member function]
cls.add_method('GetSigma',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::LogNormalRandomVariable::GetValue(double mu, double sigma) [member function]
cls.add_method('GetValue',
'double',
[param('double', 'mu'), param('double', 'sigma')])
## random-variable-stream.h (module 'core'): uint32_t ns3::LogNormalRandomVariable::GetInteger(uint32_t mu, uint32_t sigma) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'mu'), param('uint32_t', 'sigma')])
## random-variable-stream.h (module 'core'): double ns3::LogNormalRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::LogNormalRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3Mac48AddressChecker_methods(root_module, cls):
## mac48-address.h (module 'network'): ns3::Mac48AddressChecker::Mac48AddressChecker() [constructor]
cls.add_constructor([])
## mac48-address.h (module 'network'): ns3::Mac48AddressChecker::Mac48AddressChecker(ns3::Mac48AddressChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Mac48AddressChecker const &', 'arg0')])
return
def register_Ns3Mac48AddressValue_methods(root_module, cls):
## mac48-address.h (module 'network'): ns3::Mac48AddressValue::Mac48AddressValue() [constructor]
cls.add_constructor([])
## mac48-address.h (module 'network'): ns3::Mac48AddressValue::Mac48AddressValue(ns3::Mac48AddressValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Mac48AddressValue const &', 'arg0')])
## mac48-address.h (module 'network'): ns3::Mac48AddressValue::Mac48AddressValue(ns3::Mac48Address const & value) [constructor]
cls.add_constructor([param('ns3::Mac48Address const &', 'value')])
## mac48-address.h (module 'network'): ns3::Ptr<ns3::AttributeValue> ns3::Mac48AddressValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## mac48-address.h (module 'network'): bool ns3::Mac48AddressValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## mac48-address.h (module 'network'): ns3::Mac48Address ns3::Mac48AddressValue::Get() const [member function]
cls.add_method('Get',
'ns3::Mac48Address',
[],
is_const=True)
## mac48-address.h (module 'network'): std::string ns3::Mac48AddressValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## mac48-address.h (module 'network'): void ns3::Mac48AddressValue::Set(ns3::Mac48Address const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::Mac48Address const &', 'value')])
return
def register_Ns3NetDevice_methods(root_module, cls):
## net-device.h (module 'network'): ns3::NetDevice::NetDevice() [constructor]
cls.add_constructor([])
## net-device.h (module 'network'): ns3::NetDevice::NetDevice(ns3::NetDevice const & arg0) [copy constructor]
cls.add_constructor([param('ns3::NetDevice const &', 'arg0')])
## net-device.h (module 'network'): void ns3::NetDevice::AddLinkChangeCallback(ns3::Callback<void,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> callback) [member function]
cls.add_method('AddLinkChangeCallback',
'void',
[param('ns3::Callback< void, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'callback')],
is_pure_virtual=True, is_virtual=True)
## net-device.h (module 'network'): ns3::Address ns3::NetDevice::GetAddress() const [member function]
cls.add_method('GetAddress',
'ns3::Address',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): ns3::Address ns3::NetDevice::GetBroadcast() const [member function]
cls.add_method('GetBroadcast',
'ns3::Address',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): ns3::Ptr<ns3::Channel> ns3::NetDevice::GetChannel() const [member function]
cls.add_method('GetChannel',
'ns3::Ptr< ns3::Channel >',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): uint32_t ns3::NetDevice::GetIfIndex() const [member function]
cls.add_method('GetIfIndex',
'uint32_t',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): uint16_t ns3::NetDevice::GetMtu() const [member function]
cls.add_method('GetMtu',
'uint16_t',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): ns3::Address ns3::NetDevice::GetMulticast(ns3::Ipv4Address multicastGroup) const [member function]
cls.add_method('GetMulticast',
'ns3::Address',
[param('ns3::Ipv4Address', 'multicastGroup')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): ns3::Address ns3::NetDevice::GetMulticast(ns3::Ipv6Address addr) const [member function]
cls.add_method('GetMulticast',
'ns3::Address',
[param('ns3::Ipv6Address', 'addr')],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): ns3::Ptr<ns3::Node> ns3::NetDevice::GetNode() const [member function]
cls.add_method('GetNode',
'ns3::Ptr< ns3::Node >',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): static ns3::TypeId ns3::NetDevice::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## net-device.h (module 'network'): bool ns3::NetDevice::IsBridge() const [member function]
cls.add_method('IsBridge',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): bool ns3::NetDevice::IsBroadcast() const [member function]
cls.add_method('IsBroadcast',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): bool ns3::NetDevice::IsLinkUp() const [member function]
cls.add_method('IsLinkUp',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): bool ns3::NetDevice::IsMulticast() const [member function]
cls.add_method('IsMulticast',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): bool ns3::NetDevice::IsPointToPoint() const [member function]
cls.add_method('IsPointToPoint',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): bool ns3::NetDevice::NeedsArp() const [member function]
cls.add_method('NeedsArp',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
## net-device.h (module 'network'): bool ns3::NetDevice::Send(ns3::Ptr<ns3::Packet> packet, ns3::Address const & dest, uint16_t protocolNumber) [member function]
cls.add_method('Send',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'packet'), param('ns3::Address const &', 'dest'), param('uint16_t', 'protocolNumber')],
is_pure_virtual=True, is_virtual=True)
## net-device.h (module 'network'): bool ns3::NetDevice::SendFrom(ns3::Ptr<ns3::Packet> packet, ns3::Address const & source, ns3::Address const & dest, uint16_t protocolNumber) [member function]
cls.add_method('SendFrom',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'packet'), param('ns3::Address const &', 'source'), param('ns3::Address const &', 'dest'), param('uint16_t', 'protocolNumber')],
is_pure_virtual=True, is_virtual=True)
## net-device.h (module 'network'): void ns3::NetDevice::SetAddress(ns3::Address address) [member function]
cls.add_method('SetAddress',
'void',
[param('ns3::Address', 'address')],
is_pure_virtual=True, is_virtual=True)
## net-device.h (module 'network'): void ns3::NetDevice::SetIfIndex(uint32_t const index) [member function]
cls.add_method('SetIfIndex',
'void',
[param('uint32_t const', 'index')],
is_pure_virtual=True, is_virtual=True)
## net-device.h (module 'network'): bool ns3::NetDevice::SetMtu(uint16_t const mtu) [member function]
cls.add_method('SetMtu',
'bool',
[param('uint16_t const', 'mtu')],
is_pure_virtual=True, is_virtual=True)
## net-device.h (module 'network'): void ns3::NetDevice::SetNode(ns3::Ptr<ns3::Node> node) [member function]
cls.add_method('SetNode',
'void',
[param('ns3::Ptr< ns3::Node >', 'node')],
is_pure_virtual=True, is_virtual=True)
## net-device.h (module 'network'): void ns3::NetDevice::SetPromiscReceiveCallback(ns3::Callback<bool, ns3::Ptr<ns3::NetDevice>, ns3::Ptr<ns3::Packet const>, unsigned short, ns3::Address const&, ns3::Address const&, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty> cb) [member function]
cls.add_method('SetPromiscReceiveCallback',
'void',
[param('ns3::Callback< bool, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, unsigned short, ns3::Address const &, ns3::Address const &, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty >', 'cb')],
is_pure_virtual=True, is_virtual=True)
## net-device.h (module 'network'): void ns3::NetDevice::SetReceiveCallback(ns3::Callback<bool, ns3::Ptr<ns3::NetDevice>, ns3::Ptr<ns3::Packet const>, unsigned short, ns3::Address const&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> cb) [member function]
cls.add_method('SetReceiveCallback',
'void',
[param('ns3::Callback< bool, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, unsigned short, ns3::Address const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'cb')],
is_pure_virtual=True, is_virtual=True)
## net-device.h (module 'network'): bool ns3::NetDevice::SupportsSendFrom() const [member function]
cls.add_method('SupportsSendFrom',
'bool',
[],
is_pure_virtual=True, is_const=True, is_virtual=True)
return
def register_Ns3NixVector_methods(root_module, cls):
cls.add_output_stream_operator()
## nix-vector.h (module 'network'): ns3::NixVector::NixVector() [constructor]
cls.add_constructor([])
## nix-vector.h (module 'network'): ns3::NixVector::NixVector(ns3::NixVector const & o) [copy constructor]
cls.add_constructor([param('ns3::NixVector const &', 'o')])
## nix-vector.h (module 'network'): void ns3::NixVector::AddNeighborIndex(uint32_t newBits, uint32_t numberOfBits) [member function]
cls.add_method('AddNeighborIndex',
'void',
[param('uint32_t', 'newBits'), param('uint32_t', 'numberOfBits')])
## nix-vector.h (module 'network'): uint32_t ns3::NixVector::BitCount(uint32_t numberOfNeighbors) const [member function]
cls.add_method('BitCount',
'uint32_t',
[param('uint32_t', 'numberOfNeighbors')],
is_const=True)
## nix-vector.h (module 'network'): ns3::Ptr<ns3::NixVector> ns3::NixVector::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::NixVector >',
[],
is_const=True)
## nix-vector.h (module 'network'): uint32_t ns3::NixVector::Deserialize(uint32_t const * buffer, uint32_t size) [member function]
cls.add_method('Deserialize',
'uint32_t',
[param('uint32_t const *', 'buffer'), param('uint32_t', 'size')])
## nix-vector.h (module 'network'): uint32_t ns3::NixVector::ExtractNeighborIndex(uint32_t numberOfBits) [member function]
cls.add_method('ExtractNeighborIndex',
'uint32_t',
[param('uint32_t', 'numberOfBits')])
## nix-vector.h (module 'network'): uint32_t ns3::NixVector::GetRemainingBits() [member function]
cls.add_method('GetRemainingBits',
'uint32_t',
[])
## nix-vector.h (module 'network'): uint32_t ns3::NixVector::GetSerializedSize() const [member function]
cls.add_method('GetSerializedSize',
'uint32_t',
[],
is_const=True)
## nix-vector.h (module 'network'): uint32_t ns3::NixVector::Serialize(uint32_t * buffer, uint32_t maxSize) const [member function]
cls.add_method('Serialize',
'uint32_t',
[param('uint32_t *', 'buffer'), param('uint32_t', 'maxSize')],
is_const=True)
return
def register_Ns3Node_methods(root_module, cls):
## node.h (module 'network'): ns3::Node::Node(ns3::Node const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Node const &', 'arg0')])
## node.h (module 'network'): ns3::Node::Node() [constructor]
cls.add_constructor([])
## node.h (module 'network'): ns3::Node::Node(uint32_t systemId) [constructor]
cls.add_constructor([param('uint32_t', 'systemId')])
## node.h (module 'network'): uint32_t ns3::Node::AddApplication(ns3::Ptr<ns3::Application> application) [member function]
cls.add_method('AddApplication',
'uint32_t',
[param('ns3::Ptr< ns3::Application >', 'application')])
## node.h (module 'network'): uint32_t ns3::Node::AddDevice(ns3::Ptr<ns3::NetDevice> device) [member function]
cls.add_method('AddDevice',
'uint32_t',
[param('ns3::Ptr< ns3::NetDevice >', 'device')])
## node.h (module 'network'): static bool ns3::Node::ChecksumEnabled() [member function]
cls.add_method('ChecksumEnabled',
'bool',
[],
is_static=True)
## node.h (module 'network'): ns3::Ptr<ns3::Application> ns3::Node::GetApplication(uint32_t index) const [member function]
cls.add_method('GetApplication',
'ns3::Ptr< ns3::Application >',
[param('uint32_t', 'index')],
is_const=True)
## node.h (module 'network'): ns3::Ptr<ns3::NetDevice> ns3::Node::GetDevice(uint32_t index) const [member function]
cls.add_method('GetDevice',
'ns3::Ptr< ns3::NetDevice >',
[param('uint32_t', 'index')],
is_const=True)
## node.h (module 'network'): uint32_t ns3::Node::GetId() const [member function]
cls.add_method('GetId',
'uint32_t',
[],
is_const=True)
## node.h (module 'network'): uint32_t ns3::Node::GetNApplications() const [member function]
cls.add_method('GetNApplications',
'uint32_t',
[],
is_const=True)
## node.h (module 'network'): uint32_t ns3::Node::GetNDevices() const [member function]
cls.add_method('GetNDevices',
'uint32_t',
[],
is_const=True)
## node.h (module 'network'): uint32_t ns3::Node::GetSystemId() const [member function]
cls.add_method('GetSystemId',
'uint32_t',
[],
is_const=True)
## node.h (module 'network'): static ns3::TypeId ns3::Node::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## node.h (module 'network'): void ns3::Node::RegisterDeviceAdditionListener(ns3::Callback<void,ns3::Ptr<ns3::NetDevice>,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> listener) [member function]
cls.add_method('RegisterDeviceAdditionListener',
'void',
[param('ns3::Callback< void, ns3::Ptr< ns3::NetDevice >, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'listener')])
## node.h (module 'network'): void ns3::Node::RegisterProtocolHandler(ns3::Callback<void, ns3::Ptr<ns3::NetDevice>, ns3::Ptr<ns3::Packet const>, unsigned short, ns3::Address const&, ns3::Address const&, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty> handler, uint16_t protocolType, ns3::Ptr<ns3::NetDevice> device, bool promiscuous=false) [member function]
cls.add_method('RegisterProtocolHandler',
'void',
[param('ns3::Callback< void, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, unsigned short, ns3::Address const &, ns3::Address const &, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty >', 'handler'), param('uint16_t', 'protocolType'), param('ns3::Ptr< ns3::NetDevice >', 'device'), param('bool', 'promiscuous', default_value='false')])
## node.h (module 'network'): void ns3::Node::UnregisterDeviceAdditionListener(ns3::Callback<void,ns3::Ptr<ns3::NetDevice>,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> listener) [member function]
cls.add_method('UnregisterDeviceAdditionListener',
'void',
[param('ns3::Callback< void, ns3::Ptr< ns3::NetDevice >, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'listener')])
## node.h (module 'network'): void ns3::Node::UnregisterProtocolHandler(ns3::Callback<void, ns3::Ptr<ns3::NetDevice>, ns3::Ptr<ns3::Packet const>, unsigned short, ns3::Address const&, ns3::Address const&, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty> handler) [member function]
cls.add_method('UnregisterProtocolHandler',
'void',
[param('ns3::Callback< void, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, unsigned short, ns3::Address const &, ns3::Address const &, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty >', 'handler')])
## node.h (module 'network'): void ns3::Node::DoDispose() [member function]
cls.add_method('DoDispose',
'void',
[],
visibility='protected', is_virtual=True)
## node.h (module 'network'): void ns3::Node::DoInitialize() [member function]
cls.add_method('DoInitialize',
'void',
[],
visibility='protected', is_virtual=True)
return
def register_Ns3NormalRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): ns3::NormalRandomVariable::INFINITE_VALUE [variable]
cls.add_static_attribute('INFINITE_VALUE', 'double const', is_const=True)
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::NormalRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::NormalRandomVariable::NormalRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::NormalRandomVariable::GetMean() const [member function]
cls.add_method('GetMean',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::NormalRandomVariable::GetVariance() const [member function]
cls.add_method('GetVariance',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::NormalRandomVariable::GetBound() const [member function]
cls.add_method('GetBound',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::NormalRandomVariable::GetValue(double mean, double variance, double bound=ns3::NormalRandomVariable::INFINITE_VALUE) [member function]
cls.add_method('GetValue',
'double',
[param('double', 'mean'), param('double', 'variance'), param('double', 'bound', default_value='ns3::NormalRandomVariable::INFINITE_VALUE')])
## random-variable-stream.h (module 'core'): uint32_t ns3::NormalRandomVariable::GetInteger(uint32_t mean, uint32_t variance, uint32_t bound) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'mean'), param('uint32_t', 'variance'), param('uint32_t', 'bound')])
## random-variable-stream.h (module 'core'): double ns3::NormalRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::NormalRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3ObjectFactoryChecker_methods(root_module, cls):
## object-factory.h (module 'core'): ns3::ObjectFactoryChecker::ObjectFactoryChecker() [constructor]
cls.add_constructor([])
## object-factory.h (module 'core'): ns3::ObjectFactoryChecker::ObjectFactoryChecker(ns3::ObjectFactoryChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ObjectFactoryChecker const &', 'arg0')])
return
def register_Ns3ObjectFactoryValue_methods(root_module, cls):
## object-factory.h (module 'core'): ns3::ObjectFactoryValue::ObjectFactoryValue() [constructor]
cls.add_constructor([])
## object-factory.h (module 'core'): ns3::ObjectFactoryValue::ObjectFactoryValue(ns3::ObjectFactoryValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ObjectFactoryValue const &', 'arg0')])
## object-factory.h (module 'core'): ns3::ObjectFactoryValue::ObjectFactoryValue(ns3::ObjectFactory const & value) [constructor]
cls.add_constructor([param('ns3::ObjectFactory const &', 'value')])
## object-factory.h (module 'core'): ns3::Ptr<ns3::AttributeValue> ns3::ObjectFactoryValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## object-factory.h (module 'core'): bool ns3::ObjectFactoryValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## object-factory.h (module 'core'): ns3::ObjectFactory ns3::ObjectFactoryValue::Get() const [member function]
cls.add_method('Get',
'ns3::ObjectFactory',
[],
is_const=True)
## object-factory.h (module 'core'): std::string ns3::ObjectFactoryValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## object-factory.h (module 'core'): void ns3::ObjectFactoryValue::Set(ns3::ObjectFactory const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::ObjectFactory const &', 'value')])
return
def register_Ns3OutputStreamWrapper_methods(root_module, cls):
## output-stream-wrapper.h (module 'network'): ns3::OutputStreamWrapper::OutputStreamWrapper(ns3::OutputStreamWrapper const & arg0) [copy constructor]
cls.add_constructor([param('ns3::OutputStreamWrapper const &', 'arg0')])
## output-stream-wrapper.h (module 'network'): ns3::OutputStreamWrapper::OutputStreamWrapper(std::string filename, std::_Ios_Openmode filemode) [constructor]
cls.add_constructor([param('std::string', 'filename'), param('std::_Ios_Openmode', 'filemode')])
## output-stream-wrapper.h (module 'network'): ns3::OutputStreamWrapper::OutputStreamWrapper(std::ostream * os) [constructor]
cls.add_constructor([param('std::ostream *', 'os')])
## output-stream-wrapper.h (module 'network'): std::ostream * ns3::OutputStreamWrapper::GetStream() [member function]
cls.add_method('GetStream',
'std::ostream *',
[])
return
def register_Ns3Packet_methods(root_module, cls):
cls.add_output_stream_operator()
## packet.h (module 'network'): ns3::Packet::Packet() [constructor]
cls.add_constructor([])
## packet.h (module 'network'): ns3::Packet::Packet(ns3::Packet const & o) [copy constructor]
cls.add_constructor([param('ns3::Packet const &', 'o')])
## packet.h (module 'network'): ns3::Packet::Packet(uint32_t size) [constructor]
cls.add_constructor([param('uint32_t', 'size')])
## packet.h (module 'network'): ns3::Packet::Packet(uint8_t const * buffer, uint32_t size, bool magic) [constructor]
cls.add_constructor([param('uint8_t const *', 'buffer'), param('uint32_t', 'size'), param('bool', 'magic')])
## packet.h (module 'network'): ns3::Packet::Packet(uint8_t const * buffer, uint32_t size) [constructor]
cls.add_constructor([param('uint8_t const *', 'buffer'), param('uint32_t', 'size')])
## packet.h (module 'network'): void ns3::Packet::AddAtEnd(ns3::Ptr<const ns3::Packet> packet) [member function]
cls.add_method('AddAtEnd',
'void',
[param('ns3::Ptr< ns3::Packet const >', 'packet')])
## packet.h (module 'network'): void ns3::Packet::AddByteTag(ns3::Tag const & tag) const [member function]
cls.add_method('AddByteTag',
'void',
[param('ns3::Tag const &', 'tag')],
is_const=True)
## packet.h (module 'network'): void ns3::Packet::AddHeader(ns3::Header const & header) [member function]
cls.add_method('AddHeader',
'void',
[param('ns3::Header const &', 'header')])
## packet.h (module 'network'): void ns3::Packet::AddPacketTag(ns3::Tag const & tag) const [member function]
cls.add_method('AddPacketTag',
'void',
[param('ns3::Tag const &', 'tag')],
is_const=True)
## packet.h (module 'network'): void ns3::Packet::AddPaddingAtEnd(uint32_t size) [member function]
cls.add_method('AddPaddingAtEnd',
'void',
[param('uint32_t', 'size')])
## packet.h (module 'network'): void ns3::Packet::AddTrailer(ns3::Trailer const & trailer) [member function]
cls.add_method('AddTrailer',
'void',
[param('ns3::Trailer const &', 'trailer')])
## packet.h (module 'network'): ns3::PacketMetadata::ItemIterator ns3::Packet::BeginItem() const [member function]
cls.add_method('BeginItem',
'ns3::PacketMetadata::ItemIterator',
[],
is_const=True)
## packet.h (module 'network'): ns3::Ptr<ns3::Packet> ns3::Packet::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::Packet >',
[],
is_const=True)
## packet.h (module 'network'): uint32_t ns3::Packet::CopyData(uint8_t * buffer, uint32_t size) const [member function]
cls.add_method('CopyData',
'uint32_t',
[param('uint8_t *', 'buffer'), param('uint32_t', 'size')],
is_const=True)
## packet.h (module 'network'): void ns3::Packet::CopyData(std::ostream * os, uint32_t size) const [member function]
cls.add_method('CopyData',
'void',
[param('std::ostream *', 'os'), param('uint32_t', 'size')],
is_const=True)
## packet.h (module 'network'): ns3::Ptr<ns3::Packet> ns3::Packet::CreateFragment(uint32_t start, uint32_t length) const [member function]
cls.add_method('CreateFragment',
'ns3::Ptr< ns3::Packet >',
[param('uint32_t', 'start'), param('uint32_t', 'length')],
is_const=True)
## packet.h (module 'network'): static void ns3::Packet::EnableChecking() [member function]
cls.add_method('EnableChecking',
'void',
[],
is_static=True)
## packet.h (module 'network'): static void ns3::Packet::EnablePrinting() [member function]
cls.add_method('EnablePrinting',
'void',
[],
is_static=True)
## packet.h (module 'network'): bool ns3::Packet::FindFirstMatchingByteTag(ns3::Tag & tag) const [member function]
cls.add_method('FindFirstMatchingByteTag',
'bool',
[param('ns3::Tag &', 'tag')],
is_const=True)
## packet.h (module 'network'): ns3::ByteTagIterator ns3::Packet::GetByteTagIterator() const [member function]
cls.add_method('GetByteTagIterator',
'ns3::ByteTagIterator',
[],
is_const=True)
## packet.h (module 'network'): ns3::Ptr<ns3::NixVector> ns3::Packet::GetNixVector() const [member function]
cls.add_method('GetNixVector',
'ns3::Ptr< ns3::NixVector >',
[],
is_const=True)
## packet.h (module 'network'): ns3::PacketTagIterator ns3::Packet::GetPacketTagIterator() const [member function]
cls.add_method('GetPacketTagIterator',
'ns3::PacketTagIterator',
[],
is_const=True)
## packet.h (module 'network'): uint32_t ns3::Packet::GetSerializedSize() const [member function]
cls.add_method('GetSerializedSize',
'uint32_t',
[],
is_const=True)
## packet.h (module 'network'): uint32_t ns3::Packet::GetSize() const [member function]
cls.add_method('GetSize',
'uint32_t',
[],
is_const=True)
## packet.h (module 'network'): uint64_t ns3::Packet::GetUid() const [member function]
cls.add_method('GetUid',
'uint64_t',
[],
is_const=True)
## packet.h (module 'network'): uint32_t ns3::Packet::PeekHeader(ns3::Header & header) const [member function]
cls.add_method('PeekHeader',
'uint32_t',
[param('ns3::Header &', 'header')],
is_const=True)
## packet.h (module 'network'): bool ns3::Packet::PeekPacketTag(ns3::Tag & tag) const [member function]
cls.add_method('PeekPacketTag',
'bool',
[param('ns3::Tag &', 'tag')],
is_const=True)
## packet.h (module 'network'): uint32_t ns3::Packet::PeekTrailer(ns3::Trailer & trailer) [member function]
cls.add_method('PeekTrailer',
'uint32_t',
[param('ns3::Trailer &', 'trailer')])
## packet.h (module 'network'): void ns3::Packet::Print(std::ostream & os) const [member function]
cls.add_method('Print',
'void',
[param('std::ostream &', 'os')],
is_const=True)
## packet.h (module 'network'): void ns3::Packet::PrintByteTags(std::ostream & os) const [member function]
cls.add_method('PrintByteTags',
'void',
[param('std::ostream &', 'os')],
is_const=True)
## packet.h (module 'network'): void ns3::Packet::PrintPacketTags(std::ostream & os) const [member function]
cls.add_method('PrintPacketTags',
'void',
[param('std::ostream &', 'os')],
is_const=True)
## packet.h (module 'network'): void ns3::Packet::RemoveAllByteTags() [member function]
cls.add_method('RemoveAllByteTags',
'void',
[])
## packet.h (module 'network'): void ns3::Packet::RemoveAllPacketTags() [member function]
cls.add_method('RemoveAllPacketTags',
'void',
[])
## packet.h (module 'network'): void ns3::Packet::RemoveAtEnd(uint32_t size) [member function]
cls.add_method('RemoveAtEnd',
'void',
[param('uint32_t', 'size')])
## packet.h (module 'network'): void ns3::Packet::RemoveAtStart(uint32_t size) [member function]
cls.add_method('RemoveAtStart',
'void',
[param('uint32_t', 'size')])
## packet.h (module 'network'): uint32_t ns3::Packet::RemoveHeader(ns3::Header & header) [member function]
cls.add_method('RemoveHeader',
'uint32_t',
[param('ns3::Header &', 'header')])
## packet.h (module 'network'): bool ns3::Packet::RemovePacketTag(ns3::Tag & tag) [member function]
cls.add_method('RemovePacketTag',
'bool',
[param('ns3::Tag &', 'tag')])
## packet.h (module 'network'): uint32_t ns3::Packet::RemoveTrailer(ns3::Trailer & trailer) [member function]
cls.add_method('RemoveTrailer',
'uint32_t',
[param('ns3::Trailer &', 'trailer')])
## packet.h (module 'network'): bool ns3::Packet::ReplacePacketTag(ns3::Tag & tag) [member function]
cls.add_method('ReplacePacketTag',
'bool',
[param('ns3::Tag &', 'tag')])
## packet.h (module 'network'): uint32_t ns3::Packet::Serialize(uint8_t * buffer, uint32_t maxSize) const [member function]
cls.add_method('Serialize',
'uint32_t',
[param('uint8_t *', 'buffer'), param('uint32_t', 'maxSize')],
is_const=True)
## packet.h (module 'network'): void ns3::Packet::SetNixVector(ns3::Ptr<ns3::NixVector> nixVector) [member function]
cls.add_method('SetNixVector',
'void',
[param('ns3::Ptr< ns3::NixVector >', 'nixVector')])
## packet.h (module 'network'): std::string ns3::Packet::ToString() const [member function]
cls.add_method('ToString',
'std::string',
[],
is_const=True)
return
def register_Ns3ParetoRandomVariable_methods(root_module, cls):
## random-variable-stream.h (module 'core'): static ns3::TypeId ns3::ParetoRandomVariable::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## random-variable-stream.h (module 'core'): ns3::ParetoRandomVariable::ParetoRandomVariable() [constructor]
cls.add_constructor([])
## random-variable-stream.h (module 'core'): double ns3::ParetoRandomVariable::GetMean() const [member function]
cls.add_method('GetMean',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ParetoRandomVariable::GetShape() const [member function]
cls.add_method('GetShape',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ParetoRandomVariable::GetBound() const [member function]
cls.add_method('GetBound',
'double',
[],
is_const=True)
## random-variable-stream.h (module 'core'): double ns3::ParetoRandomVariable::GetValue(double mean, double shape, double bound) [member function]
cls.add_method('GetValue',
'double',
[param('double', 'mean'), param('double', 'shape'), param('double', 'bound')])
## random-variable-stream.h (module 'core'): uint32_t ns3::ParetoRandomVariable::GetInteger(uint32_t mean, uint32_t shape, uint32_t bound) [member function]
cls.add_method('GetInteger',
'uint32_t',
[param('uint32_t', 'mean'), param('uint32_t', 'shape'), param('uint32_t', 'bound')])
## random-variable-stream.h (module 'core'): double ns3::ParetoRandomVariable::GetValue() [member function]
cls.add_method('GetValue',
'double',
[],
is_virtual=True)
## random-variable-stream.h (module 'core'): uint32_t ns3::ParetoRandomVariable::GetInteger() [member function]
cls.add_method('GetInteger',
'uint32_t',
[],
is_virtual=True)
return
def register_Ns3RateErrorModel_methods(root_module, cls):
## error-model.h (module 'network'): ns3::RateErrorModel::RateErrorModel(ns3::RateErrorModel const & arg0) [copy constructor]
cls.add_constructor([param('ns3::RateErrorModel const &', 'arg0')])
## error-model.h (module 'network'): ns3::RateErrorModel::RateErrorModel() [constructor]
cls.add_constructor([])
## error-model.h (module 'network'): int64_t ns3::RateErrorModel::AssignStreams(int64_t stream) [member function]
cls.add_method('AssignStreams',
'int64_t',
[param('int64_t', 'stream')])
## error-model.h (module 'network'): double ns3::RateErrorModel::GetRate() const [member function]
cls.add_method('GetRate',
'double',
[],
is_const=True)
## error-model.h (module 'network'): static ns3::TypeId ns3::RateErrorModel::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## error-model.h (module 'network'): ns3::RateErrorModel::ErrorUnit ns3::RateErrorModel::GetUnit() const [member function]
cls.add_method('GetUnit',
'ns3::RateErrorModel::ErrorUnit',
[],
is_const=True)
## error-model.h (module 'network'): void ns3::RateErrorModel::SetRandomVariable(ns3::Ptr<ns3::RandomVariableStream> arg0) [member function]
cls.add_method('SetRandomVariable',
'void',
[param('ns3::Ptr< ns3::RandomVariableStream >', 'arg0')])
## error-model.h (module 'network'): void ns3::RateErrorModel::SetRate(double rate) [member function]
cls.add_method('SetRate',
'void',
[param('double', 'rate')])
## error-model.h (module 'network'): void ns3::RateErrorModel::SetUnit(ns3::RateErrorModel::ErrorUnit error_unit) [member function]
cls.add_method('SetUnit',
'void',
[param('ns3::RateErrorModel::ErrorUnit', 'error_unit')])
## error-model.h (module 'network'): bool ns3::RateErrorModel::DoCorrupt(ns3::Ptr<ns3::Packet> p) [member function]
cls.add_method('DoCorrupt',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p')],
visibility='private', is_virtual=True)
## error-model.h (module 'network'): bool ns3::RateErrorModel::DoCorruptBit(ns3::Ptr<ns3::Packet> p) [member function]
cls.add_method('DoCorruptBit',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p')],
visibility='private', is_virtual=True)
## error-model.h (module 'network'): bool ns3::RateErrorModel::DoCorruptByte(ns3::Ptr<ns3::Packet> p) [member function]
cls.add_method('DoCorruptByte',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p')],
visibility='private', is_virtual=True)
## error-model.h (module 'network'): bool ns3::RateErrorModel::DoCorruptPkt(ns3::Ptr<ns3::Packet> p) [member function]
cls.add_method('DoCorruptPkt',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p')],
visibility='private', is_virtual=True)
## error-model.h (module 'network'): void ns3::RateErrorModel::DoReset() [member function]
cls.add_method('DoReset',
'void',
[],
visibility='private', is_virtual=True)
return
def register_Ns3ReceiveListErrorModel_methods(root_module, cls):
## error-model.h (module 'network'): ns3::ReceiveListErrorModel::ReceiveListErrorModel(ns3::ReceiveListErrorModel const & arg0) [copy constructor]
cls.add_constructor([param('ns3::ReceiveListErrorModel const &', 'arg0')])
## error-model.h (module 'network'): ns3::ReceiveListErrorModel::ReceiveListErrorModel() [constructor]
cls.add_constructor([])
## error-model.h (module 'network'): std::list<unsigned int, std::allocator<unsigned int> > ns3::ReceiveListErrorModel::GetList() const [member function]
cls.add_method('GetList',
'std::list< unsigned int >',
[],
is_const=True)
## error-model.h (module 'network'): static ns3::TypeId ns3::ReceiveListErrorModel::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## error-model.h (module 'network'): void ns3::ReceiveListErrorModel::SetList(std::list<unsigned int, std::allocator<unsigned int> > const & packetlist) [member function]
cls.add_method('SetList',
'void',
[param('std::list< unsigned int > const &', 'packetlist')])
## error-model.h (module 'network'): bool ns3::ReceiveListErrorModel::DoCorrupt(ns3::Ptr<ns3::Packet> p) [member function]
cls.add_method('DoCorrupt',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p')],
visibility='private', is_virtual=True)
## error-model.h (module 'network'): void ns3::ReceiveListErrorModel::DoReset() [member function]
cls.add_method('DoReset',
'void',
[],
visibility='private', is_virtual=True)
return
def register_Ns3TimeValue_methods(root_module, cls):
## nstime.h (module 'core'): ns3::TimeValue::TimeValue() [constructor]
cls.add_constructor([])
## nstime.h (module 'core'): ns3::TimeValue::TimeValue(ns3::TimeValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::TimeValue const &', 'arg0')])
## nstime.h (module 'core'): ns3::TimeValue::TimeValue(ns3::Time const & value) [constructor]
cls.add_constructor([param('ns3::Time const &', 'value')])
## nstime.h (module 'core'): ns3::Ptr<ns3::AttributeValue> ns3::TimeValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## nstime.h (module 'core'): bool ns3::TimeValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## nstime.h (module 'core'): ns3::Time ns3::TimeValue::Get() const [member function]
cls.add_method('Get',
'ns3::Time',
[],
is_const=True)
## nstime.h (module 'core'): std::string ns3::TimeValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## nstime.h (module 'core'): void ns3::TimeValue::Set(ns3::Time const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::Time const &', 'value')])
return
def register_Ns3TypeIdChecker_methods(root_module, cls):
## type-id.h (module 'core'): ns3::TypeIdChecker::TypeIdChecker() [constructor]
cls.add_constructor([])
## type-id.h (module 'core'): ns3::TypeIdChecker::TypeIdChecker(ns3::TypeIdChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::TypeIdChecker const &', 'arg0')])
return
def register_Ns3TypeIdValue_methods(root_module, cls):
## type-id.h (module 'core'): ns3::TypeIdValue::TypeIdValue() [constructor]
cls.add_constructor([])
## type-id.h (module 'core'): ns3::TypeIdValue::TypeIdValue(ns3::TypeIdValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::TypeIdValue const &', 'arg0')])
## type-id.h (module 'core'): ns3::TypeIdValue::TypeIdValue(ns3::TypeId const & value) [constructor]
cls.add_constructor([param('ns3::TypeId const &', 'value')])
## type-id.h (module 'core'): ns3::Ptr<ns3::AttributeValue> ns3::TypeIdValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## type-id.h (module 'core'): bool ns3::TypeIdValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## type-id.h (module 'core'): ns3::TypeId ns3::TypeIdValue::Get() const [member function]
cls.add_method('Get',
'ns3::TypeId',
[],
is_const=True)
## type-id.h (module 'core'): std::string ns3::TypeIdValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## type-id.h (module 'core'): void ns3::TypeIdValue::Set(ns3::TypeId const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::TypeId const &', 'value')])
return
def register_Ns3AddressChecker_methods(root_module, cls):
## address.h (module 'network'): ns3::AddressChecker::AddressChecker() [constructor]
cls.add_constructor([])
## address.h (module 'network'): ns3::AddressChecker::AddressChecker(ns3::AddressChecker const & arg0) [copy constructor]
cls.add_constructor([param('ns3::AddressChecker const &', 'arg0')])
return
def register_Ns3AddressValue_methods(root_module, cls):
## address.h (module 'network'): ns3::AddressValue::AddressValue() [constructor]
cls.add_constructor([])
## address.h (module 'network'): ns3::AddressValue::AddressValue(ns3::AddressValue const & arg0) [copy constructor]
cls.add_constructor([param('ns3::AddressValue const &', 'arg0')])
## address.h (module 'network'): ns3::AddressValue::AddressValue(ns3::Address const & value) [constructor]
cls.add_constructor([param('ns3::Address const &', 'value')])
## address.h (module 'network'): ns3::Ptr<ns3::AttributeValue> ns3::AddressValue::Copy() const [member function]
cls.add_method('Copy',
'ns3::Ptr< ns3::AttributeValue >',
[],
is_const=True, is_virtual=True)
## address.h (module 'network'): bool ns3::AddressValue::DeserializeFromString(std::string value, ns3::Ptr<ns3::AttributeChecker const> checker) [member function]
cls.add_method('DeserializeFromString',
'bool',
[param('std::string', 'value'), param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_virtual=True)
## address.h (module 'network'): ns3::Address ns3::AddressValue::Get() const [member function]
cls.add_method('Get',
'ns3::Address',
[],
is_const=True)
## address.h (module 'network'): std::string ns3::AddressValue::SerializeToString(ns3::Ptr<ns3::AttributeChecker const> checker) const [member function]
cls.add_method('SerializeToString',
'std::string',
[param('ns3::Ptr< ns3::AttributeChecker const >', 'checker')],
is_const=True, is_virtual=True)
## address.h (module 'network'): void ns3::AddressValue::Set(ns3::Address const & value) [member function]
cls.add_method('Set',
'void',
[param('ns3::Address const &', 'value')])
return
def register_Ns3BurstErrorModel_methods(root_module, cls):
## error-model.h (module 'network'): ns3::BurstErrorModel::BurstErrorModel(ns3::BurstErrorModel const & arg0) [copy constructor]
cls.add_constructor([param('ns3::BurstErrorModel const &', 'arg0')])
## error-model.h (module 'network'): ns3::BurstErrorModel::BurstErrorModel() [constructor]
cls.add_constructor([])
## error-model.h (module 'network'): int64_t ns3::BurstErrorModel::AssignStreams(int64_t stream) [member function]
cls.add_method('AssignStreams',
'int64_t',
[param('int64_t', 'stream')])
## error-model.h (module 'network'): double ns3::BurstErrorModel::GetBurstRate() const [member function]
cls.add_method('GetBurstRate',
'double',
[],
is_const=True)
## error-model.h (module 'network'): static ns3::TypeId ns3::BurstErrorModel::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## error-model.h (module 'network'): void ns3::BurstErrorModel::SetBurstRate(double rate) [member function]
cls.add_method('SetBurstRate',
'void',
[param('double', 'rate')])
## error-model.h (module 'network'): void ns3::BurstErrorModel::SetRandomBurstSize(ns3::Ptr<ns3::RandomVariableStream> burstSz) [member function]
cls.add_method('SetRandomBurstSize',
'void',
[param('ns3::Ptr< ns3::RandomVariableStream >', 'burstSz')])
## error-model.h (module 'network'): void ns3::BurstErrorModel::SetRandomVariable(ns3::Ptr<ns3::RandomVariableStream> ranVar) [member function]
cls.add_method('SetRandomVariable',
'void',
[param('ns3::Ptr< ns3::RandomVariableStream >', 'ranVar')])
## error-model.h (module 'network'): bool ns3::BurstErrorModel::DoCorrupt(ns3::Ptr<ns3::Packet> p) [member function]
cls.add_method('DoCorrupt',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'p')],
visibility='private', is_virtual=True)
## error-model.h (module 'network'): void ns3::BurstErrorModel::DoReset() [member function]
cls.add_method('DoReset',
'void',
[],
visibility='private', is_virtual=True)
return
def register_Ns3CsmaNetDevice_methods(root_module, cls):
## csma-net-device.h (module 'csma'): static ns3::TypeId ns3::CsmaNetDevice::GetTypeId() [member function]
cls.add_method('GetTypeId',
'ns3::TypeId',
[],
is_static=True)
## csma-net-device.h (module 'csma'): ns3::CsmaNetDevice::CsmaNetDevice() [constructor]
cls.add_constructor([])
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetInterframeGap(ns3::Time t) [member function]
cls.add_method('SetInterframeGap',
'void',
[param('ns3::Time', 't')])
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetBackoffParams(ns3::Time slotTime, uint32_t minSlots, uint32_t maxSlots, uint32_t maxRetries, uint32_t ceiling) [member function]
cls.add_method('SetBackoffParams',
'void',
[param('ns3::Time', 'slotTime'), param('uint32_t', 'minSlots'), param('uint32_t', 'maxSlots'), param('uint32_t', 'maxRetries'), param('uint32_t', 'ceiling')])
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::Attach(ns3::Ptr<ns3::CsmaChannel> ch) [member function]
cls.add_method('Attach',
'bool',
[param('ns3::Ptr< ns3::CsmaChannel >', 'ch')])
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetQueue(ns3::Ptr<ns3::Queue> queue) [member function]
cls.add_method('SetQueue',
'void',
[param('ns3::Ptr< ns3::Queue >', 'queue')])
## csma-net-device.h (module 'csma'): ns3::Ptr<ns3::Queue> ns3::CsmaNetDevice::GetQueue() const [member function]
cls.add_method('GetQueue',
'ns3::Ptr< ns3::Queue >',
[],
is_const=True)
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetReceiveErrorModel(ns3::Ptr<ns3::ErrorModel> em) [member function]
cls.add_method('SetReceiveErrorModel',
'void',
[param('ns3::Ptr< ns3::ErrorModel >', 'em')])
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::Receive(ns3::Ptr<ns3::Packet> p, ns3::Ptr<ns3::CsmaNetDevice> sender) [member function]
cls.add_method('Receive',
'void',
[param('ns3::Ptr< ns3::Packet >', 'p'), param('ns3::Ptr< ns3::CsmaNetDevice >', 'sender')])
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::IsSendEnabled() [member function]
cls.add_method('IsSendEnabled',
'bool',
[])
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetSendEnable(bool enable) [member function]
cls.add_method('SetSendEnable',
'void',
[param('bool', 'enable')])
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::IsReceiveEnabled() [member function]
cls.add_method('IsReceiveEnabled',
'bool',
[])
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetReceiveEnable(bool enable) [member function]
cls.add_method('SetReceiveEnable',
'void',
[param('bool', 'enable')])
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetEncapsulationMode(ns3::CsmaNetDevice::EncapsulationMode mode) [member function]
cls.add_method('SetEncapsulationMode',
'void',
[param('ns3::CsmaNetDevice::EncapsulationMode', 'mode')])
## csma-net-device.h (module 'csma'): ns3::CsmaNetDevice::EncapsulationMode ns3::CsmaNetDevice::GetEncapsulationMode() [member function]
cls.add_method('GetEncapsulationMode',
'ns3::CsmaNetDevice::EncapsulationMode',
[])
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetIfIndex(uint32_t const index) [member function]
cls.add_method('SetIfIndex',
'void',
[param('uint32_t const', 'index')],
is_virtual=True)
## csma-net-device.h (module 'csma'): uint32_t ns3::CsmaNetDevice::GetIfIndex() const [member function]
cls.add_method('GetIfIndex',
'uint32_t',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): ns3::Ptr<ns3::Channel> ns3::CsmaNetDevice::GetChannel() const [member function]
cls.add_method('GetChannel',
'ns3::Ptr< ns3::Channel >',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::SetMtu(uint16_t const mtu) [member function]
cls.add_method('SetMtu',
'bool',
[param('uint16_t const', 'mtu')],
is_virtual=True)
## csma-net-device.h (module 'csma'): uint16_t ns3::CsmaNetDevice::GetMtu() const [member function]
cls.add_method('GetMtu',
'uint16_t',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetAddress(ns3::Address address) [member function]
cls.add_method('SetAddress',
'void',
[param('ns3::Address', 'address')],
is_virtual=True)
## csma-net-device.h (module 'csma'): ns3::Address ns3::CsmaNetDevice::GetAddress() const [member function]
cls.add_method('GetAddress',
'ns3::Address',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::IsLinkUp() const [member function]
cls.add_method('IsLinkUp',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::AddLinkChangeCallback(ns3::Callback<void,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty,ns3::empty> callback) [member function]
cls.add_method('AddLinkChangeCallback',
'void',
[param('ns3::Callback< void, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'callback')],
is_virtual=True)
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::IsBroadcast() const [member function]
cls.add_method('IsBroadcast',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): ns3::Address ns3::CsmaNetDevice::GetBroadcast() const [member function]
cls.add_method('GetBroadcast',
'ns3::Address',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::IsMulticast() const [member function]
cls.add_method('IsMulticast',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): ns3::Address ns3::CsmaNetDevice::GetMulticast(ns3::Ipv4Address multicastGroup) const [member function]
cls.add_method('GetMulticast',
'ns3::Address',
[param('ns3::Ipv4Address', 'multicastGroup')],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::IsPointToPoint() const [member function]
cls.add_method('IsPointToPoint',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::IsBridge() const [member function]
cls.add_method('IsBridge',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::Send(ns3::Ptr<ns3::Packet> packet, ns3::Address const & dest, uint16_t protocolNumber) [member function]
cls.add_method('Send',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'packet'), param('ns3::Address const &', 'dest'), param('uint16_t', 'protocolNumber')],
is_virtual=True)
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::SendFrom(ns3::Ptr<ns3::Packet> packet, ns3::Address const & source, ns3::Address const & dest, uint16_t protocolNumber) [member function]
cls.add_method('SendFrom',
'bool',
[param('ns3::Ptr< ns3::Packet >', 'packet'), param('ns3::Address const &', 'source'), param('ns3::Address const &', 'dest'), param('uint16_t', 'protocolNumber')],
is_virtual=True)
## csma-net-device.h (module 'csma'): ns3::Ptr<ns3::Node> ns3::CsmaNetDevice::GetNode() const [member function]
cls.add_method('GetNode',
'ns3::Ptr< ns3::Node >',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetNode(ns3::Ptr<ns3::Node> node) [member function]
cls.add_method('SetNode',
'void',
[param('ns3::Ptr< ns3::Node >', 'node')],
is_virtual=True)
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::NeedsArp() const [member function]
cls.add_method('NeedsArp',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetReceiveCallback(ns3::Callback<bool, ns3::Ptr<ns3::NetDevice>, ns3::Ptr<ns3::Packet const>, unsigned short, ns3::Address const&, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty> cb) [member function]
cls.add_method('SetReceiveCallback',
'void',
[param('ns3::Callback< bool, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, unsigned short, ns3::Address const &, ns3::empty, ns3::empty, ns3::empty, ns3::empty, ns3::empty >', 'cb')],
is_virtual=True)
## csma-net-device.h (module 'csma'): ns3::Address ns3::CsmaNetDevice::GetMulticast(ns3::Ipv6Address addr) const [member function]
cls.add_method('GetMulticast',
'ns3::Address',
[param('ns3::Ipv6Address', 'addr')],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::SetPromiscReceiveCallback(ns3::Callback<bool, ns3::Ptr<ns3::NetDevice>, ns3::Ptr<ns3::Packet const>, unsigned short, ns3::Address const&, ns3::Address const&, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty> cb) [member function]
cls.add_method('SetPromiscReceiveCallback',
'void',
[param('ns3::Callback< bool, ns3::Ptr< ns3::NetDevice >, ns3::Ptr< ns3::Packet const >, unsigned short, ns3::Address const &, ns3::Address const &, ns3::NetDevice::PacketType, ns3::empty, ns3::empty, ns3::empty >', 'cb')],
is_virtual=True)
## csma-net-device.h (module 'csma'): bool ns3::CsmaNetDevice::SupportsSendFrom() const [member function]
cls.add_method('SupportsSendFrom',
'bool',
[],
is_const=True, is_virtual=True)
## csma-net-device.h (module 'csma'): int64_t ns3::CsmaNetDevice::AssignStreams(int64_t stream) [member function]
cls.add_method('AssignStreams',
'int64_t',
[param('int64_t', 'stream')])
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::DoDispose() [member function]
cls.add_method('DoDispose',
'void',
[],
visibility='protected', is_virtual=True)
## csma-net-device.h (module 'csma'): void ns3::CsmaNetDevice::AddHeader(ns3::Ptr<ns3::Packet> p, ns3::Mac48Address source, ns3::Mac48Address dest, uint16_t protocolNumber) [member function]
cls.add_method('AddHeader',
'void',
[param('ns3::Ptr< ns3::Packet >', 'p'), param('ns3::Mac48Address', 'source'), param('ns3::Mac48Address', 'dest'), param('uint16_t', 'protocolNumber')],
visibility='protected')
return
def register_Ns3HashImplementation_methods(root_module, cls):
## hash-function.h (module 'core'): ns3::Hash::Implementation::Implementation(ns3::Hash::Implementation const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Hash::Implementation const &', 'arg0')])
## hash-function.h (module 'core'): ns3::Hash::Implementation::Implementation() [constructor]
cls.add_constructor([])
## hash-function.h (module 'core'): uint32_t ns3::Hash::Implementation::GetHash32(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash32',
'uint32_t',
[param('char const *', 'buffer'), param('size_t const', 'size')],
is_pure_virtual=True, is_virtual=True)
## hash-function.h (module 'core'): uint64_t ns3::Hash::Implementation::GetHash64(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash64',
'uint64_t',
[param('char const *', 'buffer'), param('size_t const', 'size')],
is_virtual=True)
## hash-function.h (module 'core'): void ns3::Hash::Implementation::clear() [member function]
cls.add_method('clear',
'void',
[],
is_pure_virtual=True, is_virtual=True)
return
def register_Ns3HashFunctionFnv1a_methods(root_module, cls):
## hash-fnv.h (module 'core'): ns3::Hash::Function::Fnv1a::Fnv1a(ns3::Hash::Function::Fnv1a const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Hash::Function::Fnv1a const &', 'arg0')])
## hash-fnv.h (module 'core'): ns3::Hash::Function::Fnv1a::Fnv1a() [constructor]
cls.add_constructor([])
## hash-fnv.h (module 'core'): uint32_t ns3::Hash::Function::Fnv1a::GetHash32(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash32',
'uint32_t',
[param('char const *', 'buffer'), param('size_t const', 'size')],
is_virtual=True)
## hash-fnv.h (module 'core'): uint64_t ns3::Hash::Function::Fnv1a::GetHash64(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash64',
'uint64_t',
[param('char const *', 'buffer'), param('size_t const', 'size')],
is_virtual=True)
## hash-fnv.h (module 'core'): void ns3::Hash::Function::Fnv1a::clear() [member function]
cls.add_method('clear',
'void',
[],
is_virtual=True)
return
def register_Ns3HashFunctionHash32_methods(root_module, cls):
## hash-function.h (module 'core'): ns3::Hash::Function::Hash32::Hash32(ns3::Hash::Function::Hash32 const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Hash::Function::Hash32 const &', 'arg0')])
## hash-function.h (module 'core'): ns3::Hash::Function::Hash32::Hash32(ns3::Hash::Hash32Function_ptr hp) [constructor]
cls.add_constructor([param('ns3::Hash::Hash32Function_ptr', 'hp')])
## hash-function.h (module 'core'): uint32_t ns3::Hash::Function::Hash32::GetHash32(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash32',
'uint32_t',
[param('char const *', 'buffer'), param('size_t const', 'size')],
is_virtual=True)
## hash-function.h (module 'core'): void ns3::Hash::Function::Hash32::clear() [member function]
cls.add_method('clear',
'void',
[],
is_virtual=True)
return
def register_Ns3HashFunctionHash64_methods(root_module, cls):
## hash-function.h (module 'core'): ns3::Hash::Function::Hash64::Hash64(ns3::Hash::Function::Hash64 const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Hash::Function::Hash64 const &', 'arg0')])
## hash-function.h (module 'core'): ns3::Hash::Function::Hash64::Hash64(ns3::Hash::Hash64Function_ptr hp) [constructor]
cls.add_constructor([param('ns3::Hash::Hash64Function_ptr', 'hp')])
## hash-function.h (module 'core'): uint32_t ns3::Hash::Function::Hash64::GetHash32(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash32',
'uint32_t',
[param('char const *', 'buffer'), param('size_t const', 'size')],
is_virtual=True)
## hash-function.h (module 'core'): uint64_t ns3::Hash::Function::Hash64::GetHash64(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash64',
'uint64_t',
[param('char const *', 'buffer'), param('size_t const', 'size')],
is_virtual=True)
## hash-function.h (module 'core'): void ns3::Hash::Function::Hash64::clear() [member function]
cls.add_method('clear',
'void',
[],
is_virtual=True)
return
def register_Ns3HashFunctionMurmur3_methods(root_module, cls):
## hash-murmur3.h (module 'core'): ns3::Hash::Function::Murmur3::Murmur3(ns3::Hash::Function::Murmur3 const & arg0) [copy constructor]
cls.add_constructor([param('ns3::Hash::Function::Murmur3 const &', 'arg0')])
## hash-murmur3.h (module 'core'): ns3::Hash::Function::Murmur3::Murmur3() [constructor]
cls.add_constructor([])
## hash-murmur3.h (module 'core'): uint32_t ns3::Hash::Function::Murmur3::GetHash32(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash32',
'uint32_t',
[param('char const *', 'buffer'), param('size_t const', 'size')],
is_virtual=True)
## hash-murmur3.h (module 'core'): uint64_t ns3::Hash::Function::Murmur3::GetHash64(char const * buffer, size_t const size) [member function]
cls.add_method('GetHash64',
'uint64_t',
[param('char const *', 'buffer'), param('size_t const', 'size')],
is_virtual=True)
## hash-murmur3.h (module 'core'): void ns3::Hash::Function::Murmur3::clear() [member function]
cls.add_method('clear',
'void',
[],
is_virtual=True)
return
def register_functions(root_module):
module = root_module
register_functions_ns3_FatalImpl(module.get_submodule('FatalImpl'), root_module)
register_functions_ns3_Hash(module.get_submodule('Hash'), root_module)
register_functions_ns3_TracedValueCallback(module.get_submodule('TracedValueCallback'), root_module)
return
def register_functions_ns3_FatalImpl(module, root_module):
return
def register_functions_ns3_Hash(module, root_module):
register_functions_ns3_Hash_Function(module.get_submodule('Function'), root_module)
return
def register_functions_ns3_Hash_Function(module, root_module):
return
def register_functions_ns3_TracedValueCallback(module, root_module):
return
def main():
out = FileCodeSink(sys.stdout)
root_module = module_init()
register_types(root_module)
register_methods(root_module)
register_functions(root_module)
root_module.generate(out)
if __name__ == '__main__':
main()
| gpl-2.0 |
EricssonResearch/monad | OpenStreetMap/routesGenerator/tests/tester.py | 2 | 4227 | #!/usr/bin/python
# -*- coding: utf-8 -*-
"""
Copyright 2015 Ericsson AB
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 json
import requests
import multiprocessing
# from multiprocessing import Pool
ROUTES_GENERATOR_HOST = 'http://localhost:'
ROUTES_GENERATOR_PORT = '9998'
# url = 'http://localhost:8888/get_nearest_stop'
headers = {'Content-type': 'application/x-www-form-urlencoded'}
print_lock = multiprocessing.Lock()
def get_nearest_stop(address):
url = ROUTES_GENERATOR_HOST + ROUTES_GENERATOR_PORT + '/get_nearest_stop'
data = {"address" : address}
data_json = json.dumps(data)
response = requests.post(url, data=data, headers=headers)
# if response.status_code == 200:
print_lock.acquire()
print '\nRequest: get_nearest_stop' \
'\nData: ', data, \
'\nResponse status: ', response.status_code, \
'\nResponse: ', response.text, '\n'
print_lock.release()
def get_nearest_stops_from_coordinates():
url = ROUTES_GENERATOR_HOST + ROUTES_GENERATOR_PORT + '/get_nearest_stops_from_coordinates'
#data = {'lon': 17.6666581, 'lat': 59.8556742}
data = {'lat': 59.8578199, 'lon': 17.6093985, 'distance': 300}
response = requests.post(url, data=data, headers=headers)
print_lock.acquire()
print '\nRequest: get_nearest_stops_from_coordinates' \
'\nData: ', data, \
'\nResponse status: ', response.status_code, \
'\nResponse: ', response.text, '\n'
print_lock.release()
def get_route():
url = ROUTES_GENERATOR_HOST + ROUTES_GENERATOR_PORT + '/get_route_from_coordinates'
data = {'list': "[(17.6130204, 59.8545318), (17.5817552, 59.8507556), (17.6476356, 59.8402173)]"}
#data = {'list': 17.6666581, 'lat': 59.8556742}
data_json = json.dumps(data)
response = requests.post(url, data=data, headers=headers)
print_lock.acquire()
print '\nRequest: get_route_from_coordinates' \
'\nData: ', data, \
'\nResponse status: ', response.status_code, \
'\nResponse: ', response.text, '\n'
print_lock.release()
def get_coordinates(address, street_no=u'None'):
url = ROUTES_GENERATOR_HOST + ROUTES_GENERATOR_PORT + '/get_coordinates_from_address'
data = {'address': address, 'street_no': street_no}
data_json = json.dumps(data)
response = requests.post(url, data=data, headers=headers)
print_lock.acquire()
print '\nRequest: get_coordinates_from_address' \
'\nData: ', data, \
'\nResponse status: ', response.status_code, \
'\nResponse: ', response.text, '\n'
print_lock.release()
def get_coordinates_string(string):
url = ROUTES_GENERATOR_HOST + ROUTES_GENERATOR_PORT + '/get_coordinates_from_string'
data = {'string': string}
response = requests.post(url, data=data, headers=headers)
print_lock.acquire()
print '\nRequest: get_coordinates_from_string' \
'\nData: ', data, \
'\nResponse status: ', response.status_code, \
'\nResponse: ', response.text, '\n'
print_lock.release()
if __name__ == '__main__':
#pool = multiprocessing.Pool(processes = 5)
#pool.map(get_nearest_stop, [i for i in range(0, 1000)])
print "----- test1 -----"
get_nearest_stops_from_coordinates()
#print "----- test2 -----"
#get_nearest_stop(1)
print "----- test3 -----"
get_route()
print "----- test4 -----"
get_coordinates("Nordengatan")
print "----- test5 -----"
get_coordinates("Studentvägen", u'20')
print "----- test6 -----"
get_coordinates_string("Studentvägen")
print "----- test7 -----"
get_coordinates_string("Studentvägen 4")
print "----- test8 -----"
get_coordinates_string("Sernanders väg")
| apache-2.0 |
squeaky-pl/japronto | src/japronto/app/__init__.py | 1 | 8668 | import signal
import asyncio
import traceback
import socket
import os
import sys
import multiprocessing
import faulthandler
import uvloop
from japronto.router import Router, RouteNotFoundException
from japronto.protocol.cprotocol import Protocol
from japronto.protocol.creaper import Reaper
signames = {
int(v): v.name for k, v in signal.__dict__.items()
if isinstance(v, signal.Signals)}
class Application:
def __init__(self, *, reaper_settings=None, log_request=None,
protocol_factory=None, debug=False):
self._router = None
self._loop = None
self._connections = set()
self._reaper_settings = reaper_settings or {}
self._error_handlers = []
self._log_request = log_request
self._request_extensions = {}
self._protocol_factory = protocol_factory or Protocol
self._debug = debug
@property
def loop(self):
if not self._loop:
self._loop = uvloop.new_event_loop()
return self._loop
@property
def router(self):
if not self._router:
self._router = Router()
return self._router
def __finalize(self):
self.loop
self.router
self._reaper = Reaper(self, **self._reaper_settings)
self._matcher = self._router.get_matcher()
def protocol_error_handler(self, error):
print(error)
error = error.encode('utf-8')
response = [
'HTTP/1.0 400 Bad Request\r\n',
'Content-Type: text/plain; charset=utf-8\r\n',
'Content-Length: {}\r\n\r\n'.format(len(error))]
return ''.join(response).encode('utf-8') + error
def default_request_logger(self, request):
print(request.remote_addr, request.method, request.path)
def add_error_handler(self, typ, handler):
self._error_handlers.append((typ, handler))
def default_error_handler(self, request, exception):
if isinstance(exception, RouteNotFoundException):
return request.Response(code=404, text='Not Found')
if isinstance(exception, asyncio.CancelledError):
return request.Response(code=503, text='Service unavailable')
tb = traceback.format_exception(
None, exception, exception.__traceback__)
tb = ''.join(tb)
print(tb, file=sys.stderr, end='')
return request.Response(
code=500,
text=tb if self._debug else 'Internal Server Error')
def error_handler(self, request, exception):
for typ, handler in self._error_handlers:
if typ is not None and not isinstance(exception, typ):
continue
try:
return handler(request, exception)
except:
print('-- Exception in error_handler occured:')
traceback.print_exc()
print('-- while handling:')
traceback.print_exception(None, exception, exception.__traceback__)
return request.Response(
code=500, text='Internal Server Error')
return self.default_error_handler(request, exception)
def _get_idle_and_busy_connections(self):
# FIXME if there is buffered data in gather the connections should be
# considered busy, now it's idle
return \
[c for c in self._connections if c.pipeline_empty], \
[c for c in self._connections if not c.pipeline_empty]
async def drain(self):
# TODO idle connections will close connection with half-read requests
idle, busy = self._get_idle_and_busy_connections()
for c in idle:
c.transport.close()
# for c in busy_connections:
# need to implement something that makes protocol.on_data
# start rejecting incoming data
# this closes transport unfortunately
# sock = c.transport.get_extra_info('socket')
# sock.shutdown(socket.SHUT_RD)
if idle or busy:
print('Draining connections...')
else:
return
if idle:
print('{} idle connections closed immediately'.format(len(idle)))
if busy:
print('{} connections busy, read-end closed'.format(len(busy)))
for x in range(5, 0, -1):
await asyncio.sleep(1)
idle, busy = self._get_idle_and_busy_connections()
for c in idle:
c.transport.close()
if not busy:
break
else:
print(
"{} seconds remaining, {} connections still busy"
.format(x, len(busy)))
_, busy = self._get_idle_and_busy_connections()
if busy:
print('Forcefully killing {} connections'.format(len(busy)))
for c in busy:
c.pipeline_cancel()
def extend_request(self, handler, *, name=None, property=False):
if not name:
name = handler.__name__
self._request_extensions[name] = (handler, property)
def serve(self, *, sock, host, port, reloader_pid):
faulthandler.enable()
self.__finalize()
loop = self.loop
asyncio.set_event_loop(loop)
server_coro = loop.create_server(
lambda: self._protocol_factory(self), sock=sock)
server = loop.run_until_complete(server_coro)
loop.add_signal_handler(signal.SIGTERM, loop.stop)
loop.add_signal_handler(signal.SIGINT, loop.stop)
if reloader_pid:
from japronto.reloader import ChangeDetector
detector = ChangeDetector(loop)
detector.start()
print('Accepting connections on http://{}:{}'.format(host, port))
try:
loop.run_forever()
finally:
server.close()
loop.run_until_complete(server.wait_closed())
loop.run_until_complete(self.drain())
self._reaper.stop()
loop.close()
# break reference and cleanup matcher buffer
del self._matcher
def _run(self, *, host, port, worker_num=None, reloader_pid=None,
debug=None):
self._debug = debug or self._debug
if self._debug and not self._log_request:
self._log_request = self._debug
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
sock.bind((host, port))
os.set_inheritable(sock.fileno(), True)
workers = set()
terminating = False
def stop(sig, frame):
nonlocal terminating
if reloader_pid and sig == signal.SIGHUP:
print('Reload request received')
elif not terminating:
terminating = True
print('Termination request received')
for worker in workers:
worker.terminate()
signal.signal(signal.SIGINT, stop)
signal.signal(signal.SIGTERM, stop)
signal.signal(signal.SIGHUP, stop)
for _ in range(worker_num or 1):
worker = multiprocessing.Process(
target=self.serve,
kwargs=dict(sock=sock, host=host, port=port,
reloader_pid=reloader_pid))
worker.daemon = True
worker.start()
workers.add(worker)
# prevent further operations on socket in parent
sock.close()
for worker in workers:
worker.join()
if worker.exitcode > 0:
print('Worker exited with code {}'.format(worker.exitcode))
elif worker.exitcode < 0:
try:
signame = signames[-worker.exitcode]
except KeyError:
print(
'Worker crashed with unknown code {}!'
.format(worker.exitcode))
else:
print('Worker crashed on signal {}!'.format(signame))
def run(self, host='0.0.0.0', port=8080, *, worker_num=None, reload=False,
debug=False):
if os.environ.get('_JAPR_IGNORE_RUN'):
return
reloader_pid = None
if reload:
if '_JAPR_RELOADER' not in os.environ:
from japronto.reloader import exec_reloader
exec_reloader(host=host, port=port, worker_num=worker_num)
else:
reloader_pid = int(os.environ['_JAPR_RELOADER'])
self._run(
host=host, port=port, worker_num=worker_num,
reloader_pid=reloader_pid, debug=debug)
| mit |
2uller/LotF | App/Lib/test/test_grammar.py | 4 | 33723 | # Python test set -- part 1, grammar.
# This just tests whether the parser accepts them all.
from test.test_support import run_unittest, check_syntax_error, \
check_py3k_warnings
import unittest
import sys
# testing import *
from sys import *
class TokenTests(unittest.TestCase):
def testBackslash(self):
# Backslash means line continuation:
x = 1 \
+ 1
self.assertEqual(x, 2, 'backslash for line continuation')
# Backslash does not means continuation in comments :\
x = 0
self.assertEqual(x, 0, 'backslash ending comment')
def testPlainIntegers(self):
self.assertEqual(0xff, 255)
self.assertEqual(0377, 255)
self.assertEqual(2147483647, 017777777777)
# "0x" is not a valid literal
self.assertRaises(SyntaxError, eval, "0x")
from sys import maxint
if maxint == 2147483647:
self.assertEqual(-2147483647-1, -020000000000)
# XXX -2147483648
self.assertTrue(037777777777 > 0)
self.assertTrue(0xffffffff > 0)
for s in '2147483648', '040000000000', '0x100000000':
try:
x = eval(s)
except OverflowError:
self.fail("OverflowError on huge integer literal %r" % s)
elif maxint == 9223372036854775807:
self.assertEqual(-9223372036854775807-1, -01000000000000000000000)
self.assertTrue(01777777777777777777777 > 0)
self.assertTrue(0xffffffffffffffff > 0)
for s in '9223372036854775808', '02000000000000000000000', \
'0x10000000000000000':
try:
x = eval(s)
except OverflowError:
self.fail("OverflowError on huge integer literal %r" % s)
else:
self.fail('Weird maxint value %r' % maxint)
def testLongIntegers(self):
x = 0L
x = 0l
x = 0xffffffffffffffffL
x = 0xffffffffffffffffl
x = 077777777777777777L
x = 077777777777777777l
x = 123456789012345678901234567890L
x = 123456789012345678901234567890l
def testFloats(self):
x = 3.14
x = 314.
x = 0.314
# XXX x = 000.314
x = .314
x = 3e14
x = 3E14
x = 3e-14
x = 3e+14
x = 3.e14
x = .3e14
x = 3.1e4
def testStringLiterals(self):
x = ''; y = ""; self.assertTrue(len(x) == 0 and x == y)
x = '\''; y = "'"; self.assertTrue(len(x) == 1 and x == y and ord(x) == 39)
x = '"'; y = "\""; self.assertTrue(len(x) == 1 and x == y and ord(x) == 34)
x = "doesn't \"shrink\" does it"
y = 'doesn\'t "shrink" does it'
self.assertTrue(len(x) == 24 and x == y)
x = "does \"shrink\" doesn't it"
y = 'does "shrink" doesn\'t it'
self.assertTrue(len(x) == 24 and x == y)
x = """
The "quick"
brown fox
jumps over
the 'lazy' dog.
"""
y = '\nThe "quick"\nbrown fox\njumps over\nthe \'lazy\' dog.\n'
self.assertEqual(x, y)
y = '''
The "quick"
brown fox
jumps over
the 'lazy' dog.
'''
self.assertEqual(x, y)
y = "\n\
The \"quick\"\n\
brown fox\n\
jumps over\n\
the 'lazy' dog.\n\
"
self.assertEqual(x, y)
y = '\n\
The \"quick\"\n\
brown fox\n\
jumps over\n\
the \'lazy\' dog.\n\
'
self.assertEqual(x, y)
class GrammarTests(unittest.TestCase):
# single_input: NEWLINE | simple_stmt | compound_stmt NEWLINE
# XXX can't test in a script -- this rule is only used when interactive
# file_input: (NEWLINE | stmt)* ENDMARKER
# Being tested as this very moment this very module
# expr_input: testlist NEWLINE
# XXX Hard to test -- used only in calls to input()
def testEvalInput(self):
# testlist ENDMARKER
x = eval('1, 0 or 1')
def testFuncdef(self):
### 'def' NAME parameters ':' suite
### parameters: '(' [varargslist] ')'
### varargslist: (fpdef ['=' test] ',')* ('*' NAME [',' ('**'|'*' '*') NAME]
### | ('**'|'*' '*') NAME)
### | fpdef ['=' test] (',' fpdef ['=' test])* [',']
### fpdef: NAME | '(' fplist ')'
### fplist: fpdef (',' fpdef)* [',']
### arglist: (argument ',')* (argument | *' test [',' '**' test] | '**' test)
### argument: [test '='] test # Really [keyword '='] test
def f1(): pass
f1()
f1(*())
f1(*(), **{})
def f2(one_argument): pass
def f3(two, arguments): pass
# Silence Py3k warning
exec('def f4(two, (compound, (argument, list))): pass')
exec('def f5((compound, first), two): pass')
self.assertEqual(f2.func_code.co_varnames, ('one_argument',))
self.assertEqual(f3.func_code.co_varnames, ('two', 'arguments'))
if sys.platform.startswith('java'):
self.assertEqual(f4.func_code.co_varnames,
('two', '(compound, (argument, list))', 'compound', 'argument',
'list',))
self.assertEqual(f5.func_code.co_varnames,
('(compound, first)', 'two', 'compound', 'first'))
else:
self.assertEqual(f4.func_code.co_varnames,
('two', '.1', 'compound', 'argument', 'list'))
self.assertEqual(f5.func_code.co_varnames,
('.0', 'two', 'compound', 'first'))
def a1(one_arg,): pass
def a2(two, args,): pass
def v0(*rest): pass
def v1(a, *rest): pass
def v2(a, b, *rest): pass
# Silence Py3k warning
exec('def v3(a, (b, c), *rest): return a, b, c, rest')
f1()
f2(1)
f2(1,)
f3(1, 2)
f3(1, 2,)
f4(1, (2, (3, 4)))
v0()
v0(1)
v0(1,)
v0(1,2)
v0(1,2,3,4,5,6,7,8,9,0)
v1(1)
v1(1,)
v1(1,2)
v1(1,2,3)
v1(1,2,3,4,5,6,7,8,9,0)
v2(1,2)
v2(1,2,3)
v2(1,2,3,4)
v2(1,2,3,4,5,6,7,8,9,0)
v3(1,(2,3))
v3(1,(2,3),4)
v3(1,(2,3),4,5,6,7,8,9,0)
# ceval unpacks the formal arguments into the first argcount names;
# thus, the names nested inside tuples must appear after these names.
if sys.platform.startswith('java'):
self.assertEqual(v3.func_code.co_varnames, ('a', '(b, c)', 'rest', 'b', 'c'))
else:
self.assertEqual(v3.func_code.co_varnames, ('a', '.1', 'rest', 'b', 'c'))
self.assertEqual(v3(1, (2, 3), 4), (1, 2, 3, (4,)))
def d01(a=1): pass
d01()
d01(1)
d01(*(1,))
d01(**{'a':2})
def d11(a, b=1): pass
d11(1)
d11(1, 2)
d11(1, **{'b':2})
def d21(a, b, c=1): pass
d21(1, 2)
d21(1, 2, 3)
d21(*(1, 2, 3))
d21(1, *(2, 3))
d21(1, 2, *(3,))
d21(1, 2, **{'c':3})
def d02(a=1, b=2): pass
d02()
d02(1)
d02(1, 2)
d02(*(1, 2))
d02(1, *(2,))
d02(1, **{'b':2})
d02(**{'a': 1, 'b': 2})
def d12(a, b=1, c=2): pass
d12(1)
d12(1, 2)
d12(1, 2, 3)
def d22(a, b, c=1, d=2): pass
d22(1, 2)
d22(1, 2, 3)
d22(1, 2, 3, 4)
def d01v(a=1, *rest): pass
d01v()
d01v(1)
d01v(1, 2)
d01v(*(1, 2, 3, 4))
d01v(*(1,))
d01v(**{'a':2})
def d11v(a, b=1, *rest): pass
d11v(1)
d11v(1, 2)
d11v(1, 2, 3)
def d21v(a, b, c=1, *rest): pass
d21v(1, 2)
d21v(1, 2, 3)
d21v(1, 2, 3, 4)
d21v(*(1, 2, 3, 4))
d21v(1, 2, **{'c': 3})
def d02v(a=1, b=2, *rest): pass
d02v()
d02v(1)
d02v(1, 2)
d02v(1, 2, 3)
d02v(1, *(2, 3, 4))
d02v(**{'a': 1, 'b': 2})
def d12v(a, b=1, c=2, *rest): pass
d12v(1)
d12v(1, 2)
d12v(1, 2, 3)
d12v(1, 2, 3, 4)
d12v(*(1, 2, 3, 4))
d12v(1, 2, *(3, 4, 5))
d12v(1, *(2,), **{'c': 3})
def d22v(a, b, c=1, d=2, *rest): pass
d22v(1, 2)
d22v(1, 2, 3)
d22v(1, 2, 3, 4)
d22v(1, 2, 3, 4, 5)
d22v(*(1, 2, 3, 4))
d22v(1, 2, *(3, 4, 5))
d22v(1, *(2, 3), **{'d': 4})
# Silence Py3k warning
exec('def d31v((x)): pass')
exec('def d32v((x,)): pass')
d31v(1)
d32v((1,))
# keyword arguments after *arglist
def f(*args, **kwargs):
return args, kwargs
self.assertEqual(f(1, x=2, *[3, 4], y=5), ((1, 3, 4),
{'x':2, 'y':5}))
self.assertRaises(SyntaxError, eval, "f(1, *(2,3), 4)")
self.assertRaises(SyntaxError, eval, "f(1, x=2, *(3,4), x=5)")
# Check ast errors in *args and *kwargs
check_syntax_error(self, "f(*g(1=2))")
check_syntax_error(self, "f(**g(1=2))")
def testLambdef(self):
### lambdef: 'lambda' [varargslist] ':' test
l1 = lambda : 0
self.assertEqual(l1(), 0)
l2 = lambda : a[d] # XXX just testing the expression
l3 = lambda : [2 < x for x in [-1, 3, 0L]]
self.assertEqual(l3(), [0, 1, 0])
l4 = lambda x = lambda y = lambda z=1 : z : y() : x()
self.assertEqual(l4(), 1)
l5 = lambda x, y, z=2: x + y + z
self.assertEqual(l5(1, 2), 5)
self.assertEqual(l5(1, 2, 3), 6)
check_syntax_error(self, "lambda x: x = 2")
check_syntax_error(self, "lambda (None,): None")
### stmt: simple_stmt | compound_stmt
# Tested below
def testSimpleStmt(self):
### simple_stmt: small_stmt (';' small_stmt)* [';']
x = 1; pass; del x
def foo():
# verify statements that end with semi-colons
x = 1; pass; del x;
foo()
### small_stmt: expr_stmt | print_stmt | pass_stmt | del_stmt | flow_stmt | import_stmt | global_stmt | access_stmt | exec_stmt
# Tested below
def testExprStmt(self):
# (exprlist '=')* exprlist
1
1, 2, 3
x = 1
x = 1, 2, 3
x = y = z = 1, 2, 3
x, y, z = 1, 2, 3
abc = a, b, c = x, y, z = xyz = 1, 2, (3, 4)
check_syntax_error(self, "x + 1 = 1")
check_syntax_error(self, "a + 1 = b + 2")
def testPrintStmt(self):
# 'print' (test ',')* [test]
import StringIO
# Can't test printing to real stdout without comparing output
# which is not available in unittest.
save_stdout = sys.stdout
sys.stdout = StringIO.StringIO()
print 1, 2, 3
print 1, 2, 3,
print
print 0 or 1, 0 or 1,
print 0 or 1
# 'print' '>>' test ','
print >> sys.stdout, 1, 2, 3
print >> sys.stdout, 1, 2, 3,
print >> sys.stdout
print >> sys.stdout, 0 or 1, 0 or 1,
print >> sys.stdout, 0 or 1
# test printing to an instance
class Gulp:
def write(self, msg): pass
gulp = Gulp()
print >> gulp, 1, 2, 3
print >> gulp, 1, 2, 3,
print >> gulp
print >> gulp, 0 or 1, 0 or 1,
print >> gulp, 0 or 1
# test print >> None
def driver():
oldstdout = sys.stdout
sys.stdout = Gulp()
try:
tellme(Gulp())
tellme()
finally:
sys.stdout = oldstdout
# we should see this once
def tellme(file=sys.stdout):
print >> file, 'hello world'
driver()
# we should not see this at all
def tellme(file=None):
print >> file, 'goodbye universe'
driver()
self.assertEqual(sys.stdout.getvalue(), '''\
1 2 3
1 2 3
1 1 1
1 2 3
1 2 3
1 1 1
hello world
''')
sys.stdout = save_stdout
# syntax errors
check_syntax_error(self, 'print ,')
check_syntax_error(self, 'print >> x,')
def testDelStmt(self):
# 'del' exprlist
abc = [1,2,3]
x, y, z = abc
xyz = x, y, z
del abc
del x, y, (z, xyz)
def testPassStmt(self):
# 'pass'
pass
# flow_stmt: break_stmt | continue_stmt | return_stmt | raise_stmt
# Tested below
def testBreakStmt(self):
# 'break'
while 1: break
def testContinueStmt(self):
# 'continue'
i = 1
while i: i = 0; continue
msg = ""
while not msg:
msg = "ok"
try:
continue
msg = "continue failed to continue inside try"
except:
msg = "continue inside try called except block"
if msg != "ok":
self.fail(msg)
msg = ""
while not msg:
msg = "finally block not called"
try:
continue
finally:
msg = "ok"
if msg != "ok":
self.fail(msg)
def test_break_continue_loop(self):
# This test warrants an explanation. It is a test specifically for SF bugs
# #463359 and #462937. The bug is that a 'break' statement executed or
# exception raised inside a try/except inside a loop, *after* a continue
# statement has been executed in that loop, will cause the wrong number of
# arguments to be popped off the stack and the instruction pointer reset to
# a very small number (usually 0.) Because of this, the following test
# *must* written as a function, and the tracking vars *must* be function
# arguments with default values. Otherwise, the test will loop and loop.
def test_inner(extra_burning_oil = 1, count=0):
big_hippo = 2
while big_hippo:
count += 1
try:
if extra_burning_oil and big_hippo == 1:
extra_burning_oil -= 1
break
big_hippo -= 1
continue
except:
raise
if count > 2 or big_hippo != 1:
self.fail("continue then break in try/except in loop broken!")
test_inner()
def testReturn(self):
# 'return' [testlist]
def g1(): return
def g2(): return 1
g1()
x = g2()
check_syntax_error(self, "class foo:return 1")
def testYield(self):
check_syntax_error(self, "class foo:yield 1")
def testRaise(self):
# 'raise' test [',' test]
try: raise RuntimeError, 'just testing'
except RuntimeError: pass
try: raise KeyboardInterrupt
except KeyboardInterrupt: pass
def testImport(self):
# 'import' dotted_as_names
import sys
import time, sys
# 'from' dotted_name 'import' ('*' | '(' import_as_names ')' | import_as_names)
from time import time
from time import (time)
# not testable inside a function, but already done at top of the module
# from sys import *
from sys import path, argv
from sys import (path, argv)
from sys import (path, argv,)
def testGlobal(self):
# 'global' NAME (',' NAME)*
global a
global a, b
global one, two, three, four, five, six, seven, eight, nine, ten
def testExec(self):
# 'exec' expr ['in' expr [',' expr]]
z = None
del z
exec 'z=1+1\n'
if z != 2: self.fail('exec \'z=1+1\'\\n')
del z
exec 'z=1+1'
if z != 2: self.fail('exec \'z=1+1\'')
z = None
del z
import types
if hasattr(types, "UnicodeType"):
exec r"""if 1:
exec u'z=1+1\n'
if z != 2: self.fail('exec u\'z=1+1\'\\n')
del z
exec u'z=1+1'
if z != 2: self.fail('exec u\'z=1+1\'')"""
g = {}
exec 'z = 1' in g
if '__builtins__' in g: del g['__builtins__']
if g != {'z': 1}: self.fail('exec \'z = 1\' in g')
g = {}
l = {}
exec 'global a; a = 1; b = 2' in g, l
if '__builtins__' in g: del g['__builtins__']
if '__builtins__' in l: del l['__builtins__']
if (g, l) != ({'a':1}, {'b':2}):
self.fail('exec ... in g (%s), l (%s)' %(g,l))
def testAssert(self):
# assertTruestmt: 'assert' test [',' test]
assert 1
assert 1, 1
assert lambda x:x
assert 1, lambda x:x+1
try:
assert True
except AssertionError as e:
self.fail("'assert True' should not have raised an AssertionError")
try:
assert True, 'this should always pass'
except AssertionError as e:
self.fail("'assert True, msg' should not have "
"raised an AssertionError")
# these tests fail if python is run with -O, so check __debug__
@unittest.skipUnless(__debug__, "Won't work if __debug__ is False")
def testAssert2(self):
try:
assert 0, "msg"
except AssertionError, e:
self.assertEqual(e.args[0], "msg")
else:
self.fail("AssertionError not raised by assert 0")
try:
assert False
except AssertionError as e:
self.assertEqual(len(e.args), 0)
else:
self.fail("AssertionError not raised by 'assert False'")
### compound_stmt: if_stmt | while_stmt | for_stmt | try_stmt | funcdef | classdef
# Tested below
def testIf(self):
# 'if' test ':' suite ('elif' test ':' suite)* ['else' ':' suite]
if 1: pass
if 1: pass
else: pass
if 0: pass
elif 0: pass
if 0: pass
elif 0: pass
elif 0: pass
elif 0: pass
else: pass
def testWhile(self):
# 'while' test ':' suite ['else' ':' suite]
while 0: pass
while 0: pass
else: pass
# Issue1920: "while 0" is optimized away,
# ensure that the "else" clause is still present.
x = 0
while 0:
x = 1
else:
x = 2
self.assertEqual(x, 2)
def testFor(self):
# 'for' exprlist 'in' exprlist ':' suite ['else' ':' suite]
for i in 1, 2, 3: pass
for i, j, k in (): pass
else: pass
class Squares:
def __init__(self, max):
self.max = max
self.sofar = []
def __len__(self): return len(self.sofar)
def __getitem__(self, i):
if not 0 <= i < self.max: raise IndexError
n = len(self.sofar)
while n <= i:
self.sofar.append(n*n)
n = n+1
return self.sofar[i]
n = 0
for x in Squares(10): n = n+x
if n != 285:
self.fail('for over growing sequence')
result = []
for x, in [(1,), (2,), (3,)]:
result.append(x)
self.assertEqual(result, [1, 2, 3])
def testTry(self):
### try_stmt: 'try' ':' suite (except_clause ':' suite)+ ['else' ':' suite]
### | 'try' ':' suite 'finally' ':' suite
### except_clause: 'except' [expr [('as' | ',') expr]]
try:
1/0
except ZeroDivisionError:
pass
else:
pass
try: 1/0
except EOFError: pass
except TypeError as msg: pass
except RuntimeError, msg: pass
except: pass
else: pass
try: 1/0
except (EOFError, TypeError, ZeroDivisionError): pass
try: 1/0
except (EOFError, TypeError, ZeroDivisionError), msg: pass
try: pass
finally: pass
def testSuite(self):
# simple_stmt | NEWLINE INDENT NEWLINE* (stmt NEWLINE*)+ DEDENT
if 1: pass
if 1:
pass
if 1:
#
#
#
pass
pass
#
pass
#
def testTest(self):
### and_test ('or' and_test)*
### and_test: not_test ('and' not_test)*
### not_test: 'not' not_test | comparison
if not 1: pass
if 1 and 1: pass
if 1 or 1: pass
if not not not 1: pass
if not 1 and 1 and 1: pass
if 1 and 1 or 1 and 1 and 1 or not 1 and 1: pass
def testComparison(self):
### comparison: expr (comp_op expr)*
### comp_op: '<'|'>'|'=='|'>='|'<='|'<>'|'!='|'in'|'not' 'in'|'is'|'is' 'not'
if 1: pass
x = (1 == 1)
if 1 == 1: pass
if 1 != 1: pass
if 1 < 1: pass
if 1 > 1: pass
if 1 <= 1: pass
if 1 >= 1: pass
if 1 is 1: pass
if 1 is not 1: pass
if 1 in (): pass
if 1 not in (): pass
if 1 < 1 > 1 == 1 >= 1 <= 1 != 1 in 1 not in 1 is 1 is not 1: pass
# Silence Py3k warning
if eval('1 <> 1'): pass
if eval('1 < 1 > 1 == 1 >= 1 <= 1 <> 1 != 1 in 1 not in 1 is 1 is not 1'): pass
def testBinaryMaskOps(self):
x = 1 & 1
x = 1 ^ 1
x = 1 | 1
def testShiftOps(self):
x = 1 << 1
x = 1 >> 1
x = 1 << 1 >> 1
def testAdditiveOps(self):
x = 1
x = 1 + 1
x = 1 - 1 - 1
x = 1 - 1 + 1 - 1 + 1
def testMultiplicativeOps(self):
x = 1 * 1
x = 1 / 1
x = 1 % 1
x = 1 / 1 * 1 % 1
def testUnaryOps(self):
x = +1
x = -1
x = ~1
x = ~1 ^ 1 & 1 | 1 & 1 ^ -1
x = -1*1/1 + 1*1 - ---1*1
def testSelectors(self):
### trailer: '(' [testlist] ')' | '[' subscript ']' | '.' NAME
### subscript: expr | [expr] ':' [expr]
import sys, time
c = sys.path[0]
x = time.time()
x = sys.modules['time'].time()
a = '01234'
c = a[0]
c = a[-1]
s = a[0:5]
s = a[:5]
s = a[0:]
s = a[:]
s = a[-5:]
s = a[:-1]
s = a[-4:-3]
# A rough test of SF bug 1333982. http://python.org/sf/1333982
# The testing here is fairly incomplete.
# Test cases should include: commas with 1 and 2 colons
d = {}
d[1] = 1
d[1,] = 2
d[1,2] = 3
d[1,2,3] = 4
L = list(d)
L.sort()
self.assertEqual(str(L), '[1, (1,), (1, 2), (1, 2, 3)]')
def testAtoms(self):
### atom: '(' [testlist] ')' | '[' [testlist] ']' | '{' [dictmaker] '}' | '`' testlist '`' | NAME | NUMBER | STRING
### dictorsetmaker: (test ':' test (',' test ':' test)* [',']) | (test (',' test)* [','])
x = (1)
x = (1 or 2 or 3)
x = (1 or 2 or 3, 2, 3)
x = []
x = [1]
x = [1 or 2 or 3]
x = [1 or 2 or 3, 2, 3]
x = []
x = {}
x = {'one': 1}
x = {'one': 1,}
x = {'one' or 'two': 1 or 2}
x = {'one': 1, 'two': 2}
x = {'one': 1, 'two': 2,}
x = {'one': 1, 'two': 2, 'three': 3, 'four': 4, 'five': 5, 'six': 6}
x = {'one'}
x = {'one', 1,}
x = {'one', 'two', 'three'}
x = {2, 3, 4,}
# Silence Py3k warning
x = eval('`x`')
x = eval('`1 or 2 or 3`')
self.assertEqual(eval('`1,2`'), '(1, 2)')
x = x
x = 'x'
x = 123
### exprlist: expr (',' expr)* [',']
### testlist: test (',' test)* [',']
# These have been exercised enough above
def testClassdef(self):
# 'class' NAME ['(' [testlist] ')'] ':' suite
class B: pass
class B2(): pass
class C1(B): pass
class C2(B): pass
class D(C1, C2, B): pass
class C:
def meth1(self): pass
def meth2(self, arg): pass
def meth3(self, a1, a2): pass
# decorator: '@' dotted_name [ '(' [arglist] ')' ] NEWLINE
# decorators: decorator+
# decorated: decorators (classdef | funcdef)
def class_decorator(x):
x.decorated = True
return x
@class_decorator
class G:
pass
self.assertEqual(G.decorated, True)
def testDictcomps(self):
# dictorsetmaker: ( (test ':' test (comp_for |
# (',' test ':' test)* [','])) |
# (test (comp_for | (',' test)* [','])) )
nums = [1, 2, 3]
self.assertEqual({i:i+1 for i in nums}, {1: 2, 2: 3, 3: 4})
def testListcomps(self):
# list comprehension tests
nums = [1, 2, 3, 4, 5]
strs = ["Apple", "Banana", "Coconut"]
spcs = [" Apple", " Banana ", "Coco nut "]
self.assertEqual([s.strip() for s in spcs], ['Apple', 'Banana', 'Coco nut'])
self.assertEqual([3 * x for x in nums], [3, 6, 9, 12, 15])
self.assertEqual([x for x in nums if x > 2], [3, 4, 5])
self.assertEqual([(i, s) for i in nums for s in strs],
[(1, 'Apple'), (1, 'Banana'), (1, 'Coconut'),
(2, 'Apple'), (2, 'Banana'), (2, 'Coconut'),
(3, 'Apple'), (3, 'Banana'), (3, 'Coconut'),
(4, 'Apple'), (4, 'Banana'), (4, 'Coconut'),
(5, 'Apple'), (5, 'Banana'), (5, 'Coconut')])
self.assertEqual([(i, s) for i in nums for s in [f for f in strs if "n" in f]],
[(1, 'Banana'), (1, 'Coconut'), (2, 'Banana'), (2, 'Coconut'),
(3, 'Banana'), (3, 'Coconut'), (4, 'Banana'), (4, 'Coconut'),
(5, 'Banana'), (5, 'Coconut')])
self.assertEqual([(lambda a:[a**i for i in range(a+1)])(j) for j in range(5)],
[[1], [1, 1], [1, 2, 4], [1, 3, 9, 27], [1, 4, 16, 64, 256]])
def test_in_func(l):
return [None < x < 3 for x in l if x > 2]
self.assertEqual(test_in_func(nums), [False, False, False])
def test_nested_front():
self.assertEqual([[y for y in [x, x + 1]] for x in [1,3,5]],
[[1, 2], [3, 4], [5, 6]])
test_nested_front()
check_syntax_error(self, "[i, s for i in nums for s in strs]")
check_syntax_error(self, "[x if y]")
suppliers = [
(1, "Boeing"),
(2, "Ford"),
(3, "Macdonalds")
]
parts = [
(10, "Airliner"),
(20, "Engine"),
(30, "Cheeseburger")
]
suppart = [
(1, 10), (1, 20), (2, 20), (3, 30)
]
x = [
(sname, pname)
for (sno, sname) in suppliers
for (pno, pname) in parts
for (sp_sno, sp_pno) in suppart
if sno == sp_sno and pno == sp_pno
]
self.assertEqual(x, [('Boeing', 'Airliner'), ('Boeing', 'Engine'), ('Ford', 'Engine'),
('Macdonalds', 'Cheeseburger')])
def testGenexps(self):
# generator expression tests
g = ([x for x in range(10)] for x in range(1))
self.assertEqual(g.next(), [x for x in range(10)])
try:
g.next()
self.fail('should produce StopIteration exception')
except StopIteration:
pass
a = 1
try:
g = (a for d in a)
g.next()
self.fail('should produce TypeError')
except TypeError:
pass
self.assertEqual(list((x, y) for x in 'abcd' for y in 'abcd'), [(x, y) for x in 'abcd' for y in 'abcd'])
self.assertEqual(list((x, y) for x in 'ab' for y in 'xy'), [(x, y) for x in 'ab' for y in 'xy'])
a = [x for x in range(10)]
b = (x for x in (y for y in a))
self.assertEqual(sum(b), sum([x for x in range(10)]))
self.assertEqual(sum(x**2 for x in range(10)), sum([x**2 for x in range(10)]))
self.assertEqual(sum(x*x for x in range(10) if x%2), sum([x*x for x in range(10) if x%2]))
self.assertEqual(sum(x for x in (y for y in range(10))), sum([x for x in range(10)]))
self.assertEqual(sum(x for x in (y for y in (z for z in range(10)))), sum([x for x in range(10)]))
self.assertEqual(sum(x for x in [y for y in (z for z in range(10))]), sum([x for x in range(10)]))
self.assertEqual(sum(x for x in (y for y in (z for z in range(10) if True)) if True), sum([x for x in range(10)]))
self.assertEqual(sum(x for x in (y for y in (z for z in range(10) if True) if False) if True), 0)
check_syntax_error(self, "foo(x for x in range(10), 100)")
check_syntax_error(self, "foo(100, x for x in range(10))")
def testComprehensionSpecials(self):
# test for outmost iterable precomputation
x = 10; g = (i for i in range(x)); x = 5
self.assertEqual(len(list(g)), 10)
# This should hold, since we're only precomputing outmost iterable.
x = 10; t = False; g = ((i,j) for i in range(x) if t for j in range(x))
x = 5; t = True;
self.assertEqual([(i,j) for i in range(10) for j in range(5)], list(g))
# Grammar allows multiple adjacent 'if's in listcomps and genexps,
# even though it's silly. Make sure it works (ifelse broke this.)
self.assertEqual([ x for x in range(10) if x % 2 if x % 3 ], [1, 5, 7])
self.assertEqual(list(x for x in range(10) if x % 2 if x % 3), [1, 5, 7])
# verify unpacking single element tuples in listcomp/genexp.
self.assertEqual([x for x, in [(4,), (5,), (6,)]], [4, 5, 6])
self.assertEqual(list(x for x, in [(7,), (8,), (9,)]), [7, 8, 9])
def test_with_statement(self):
class manager(object):
def __enter__(self):
return (1, 2)
def __exit__(self, *args):
pass
with manager():
pass
with manager() as x:
pass
with manager() as (x, y):
pass
with manager(), manager():
pass
with manager() as x, manager() as y:
pass
with manager() as x, manager():
pass
def testIfElseExpr(self):
# Test ifelse expressions in various cases
def _checkeval(msg, ret):
"helper to check that evaluation of expressions is done correctly"
print x
return ret
self.assertEqual([ x() for x in lambda: True, lambda: False if x() ], [True])
self.assertEqual([ x() for x in (lambda: True, lambda: False) if x() ], [True])
self.assertEqual([ x(False) for x in (lambda x: False if x else True, lambda x: True if x else False) if x(False) ], [True])
self.assertEqual((5 if 1 else _checkeval("check 1", 0)), 5)
self.assertEqual((_checkeval("check 2", 0) if 0 else 5), 5)
self.assertEqual((5 and 6 if 0 else 1), 1)
self.assertEqual(((5 and 6) if 0 else 1), 1)
self.assertEqual((5 and (6 if 1 else 1)), 6)
self.assertEqual((0 or _checkeval("check 3", 2) if 0 else 3), 3)
self.assertEqual((1 or _checkeval("check 4", 2) if 1 else _checkeval("check 5", 3)), 1)
self.assertEqual((0 or 5 if 1 else _checkeval("check 6", 3)), 5)
self.assertEqual((not 5 if 1 else 1), False)
self.assertEqual((not 5 if 0 else 1), 1)
self.assertEqual((6 + 1 if 1 else 2), 7)
self.assertEqual((6 - 1 if 1 else 2), 5)
self.assertEqual((6 * 2 if 1 else 4), 12)
self.assertEqual((6 / 2 if 1 else 3), 3)
self.assertEqual((6 < 4 if 0 else 2), 2)
def test_paren_evaluation(self):
self.assertEqual(16 // (4 // 2), 8)
self.assertEqual((16 // 4) // 2, 2)
self.assertEqual(16 // 4 // 2, 2)
self.assertTrue(False is (2 is 3))
self.assertFalse((False is 2) is 3)
self.assertFalse(False is 2 is 3)
def test_main():
with check_py3k_warnings(
("backquote not supported", SyntaxWarning),
("tuple parameter unpacking has been removed", SyntaxWarning),
("parenthesized argument names are invalid", SyntaxWarning),
("classic int division", DeprecationWarning),
(".+ not supported in 3.x", DeprecationWarning)):
run_unittest(TokenTests, GrammarTests)
if __name__ == '__main__':
test_main()
| gpl-2.0 |
lawrenceakka/SoCo | tests/test_discovery.py | 2 | 2492 | # -*- coding: utf-8 -*-
from __future__ import unicode_literals
import socket
import select
from mock import patch, MagicMock as Mock
from soco import discover
from soco import config
from soco.discovery import any_soco
IP_ADDR = '192.168.1.101'
TIMEOUT = 5
class TestDiscover:
def test_discover(self, monkeypatch):
# Create a fake socket, whose data is always a certain string
monkeypatch.setattr('socket.socket', Mock())
sock = socket.socket.return_value
sock.recvfrom.return_value = (
b'SERVER: Linux UPnP/1.0 Sonos/26.1-76230 (ZPS3)', [IP_ADDR]
) # (data, # address)
# Each time gethostbyname is called, it gets a different value
monkeypatch.setattr('socket.gethostbyname',
Mock(side_effect=['192.168.1.15', '192.168.1.16']))
# Stop getfqdn from working, to avoud network access
monkeypatch.setattr('socket.getfqdn', Mock())
# prevent creation of soco instances
monkeypatch.setattr('soco.config.SOCO_CLASS', Mock())
# Fake return value for select
monkeypatch.setattr(
'select.select', Mock(return_value = ([sock], 1, 1)))
# set timeout
TIMEOUT = 2
discover(timeout=TIMEOUT)
# 9 packets in total should be sent (3 to default, 3 to
# 192.168.1.15 and 3 to 192.168.1.15)
assert sock.sendto.call_count == 9
# select called with the relevant timeout
select.select.assert_called_with(
[sock, sock, sock], [], [], min(TIMEOUT, 0.1))
# SoCo should be created with the IP address received
config.SOCO_CLASS.assert_called_with(IP_ADDR)
# Now test include_visible parameter. include_invisible=True should
# result in calling SoCo.all_zones etc
# Reset gethostbyname, to always return the same value
monkeypatch.setattr('socket.gethostbyname',
Mock(return_value='192.168.1.15'))
config.SOCO_CLASS.return_value = Mock(
all_zones='ALL', visible_zones='VISIBLE')
assert discover(include_invisible=True) == 'ALL'
assert discover(include_invisible=False) == 'VISIBLE'
# if select does not return within timeout SoCo should not be called
# at all
# simulate no data being returned within timeout
select.select.return_value = (0, 1, 1)
discover(timeout=1)
# Check no SoCo instance created
config.SOCO_CLASS.assert_not_called
| mit |
kelvin13/Knockout | pygments/lexers/special.py | 49 | 3069 | # -*- coding: utf-8 -*-
"""
pygments.lexers.special
~~~~~~~~~~~~~~~~~~~~~~~
Special lexers.
:copyright: Copyright 2006-2015 by the Pygments team, see AUTHORS.
:license: BSD, see LICENSE for details.
"""
import re
from pygments.lexer import Lexer
from pygments.token import Token, Error, Text
from pygments.util import get_choice_opt, text_type, BytesIO
__all__ = ['TextLexer', 'RawTokenLexer']
class TextLexer(Lexer):
"""
"Null" lexer, doesn't highlight anything.
"""
name = 'Text only'
aliases = ['text']
filenames = ['*.txt']
mimetypes = ['text/plain']
def get_tokens_unprocessed(self, text):
yield 0, Text, text
_ttype_cache = {}
line_re = re.compile(b'.*?\n')
class RawTokenLexer(Lexer):
"""
Recreate a token stream formatted with the `RawTokenFormatter`. This
lexer raises exceptions during parsing if the token stream in the
file is malformed.
Additional options accepted:
`compress`
If set to ``"gz"`` or ``"bz2"``, decompress the token stream with
the given compression algorithm before lexing (default: ``""``).
"""
name = 'Raw token data'
aliases = ['raw']
filenames = []
mimetypes = ['application/x-pygments-tokens']
def __init__(self, **options):
self.compress = get_choice_opt(options, 'compress',
['', 'none', 'gz', 'bz2'], '')
Lexer.__init__(self, **options)
def get_tokens(self, text):
if isinstance(text, text_type):
# raw token stream never has any non-ASCII characters
text = text.encode('ascii')
if self.compress == 'gz':
import gzip
gzipfile = gzip.GzipFile('', 'rb', 9, BytesIO(text))
text = gzipfile.read()
elif self.compress == 'bz2':
import bz2
text = bz2.decompress(text)
# do not call Lexer.get_tokens() because we do not want Unicode
# decoding to occur, and stripping is not optional.
text = text.strip(b'\n') + b'\n'
for i, t, v in self.get_tokens_unprocessed(text):
yield t, v
def get_tokens_unprocessed(self, text):
length = 0
for match in line_re.finditer(text):
try:
ttypestr, val = match.group().split(b'\t', 1)
except ValueError:
val = match.group().decode('ascii', 'replace')
ttype = Error
else:
ttype = _ttype_cache.get(ttypestr)
if not ttype:
ttype = Token
ttypes = ttypestr.split('.')[1:]
for ttype_ in ttypes:
if not ttype_ or not ttype_[0].isupper():
raise ValueError('malformed token name')
ttype = getattr(ttype, ttype_)
_ttype_cache[ttypestr] = ttype
val = val[2:-2].decode('unicode-escape')
yield length, ttype, val
length += len(val)
| gpl-3.0 |
google/seqio | seqio/utils_test.py | 1 | 12588 | # Copyright 2021 The SeqIO Authors.
#
# 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.
# Lint as: python3
"""Tests for seqio.utils."""
from typing import Mapping, Sequence
from absl.testing import absltest
from absl.testing import parameterized
import numpy as np
from seqio import test_utils
from seqio import utils
import tensorflow.compat.v2 as tf
import tensorflow_datasets as tfds
tf.compat.v1.enable_eager_execution()
mock = absltest.mock
assert_dataset = test_utils.assert_dataset
class AnyArg(object):
def __eq__(self, var):
return True
class LazyTfdsLoaderTest(absltest.TestCase):
def setUp(self):
utils.LazyTfdsLoader._MEMOIZED_BUILDERS = {}
super().setUp()
@mock.patch("tensorflow_datasets.builder")
def test_builder_memoization(self, mock_tfds_builder):
mock_tfds_builder.side_effect = (
lambda name, data_dir: ",".join([name, data_dir or ""])
)
ds1 = utils.LazyTfdsLoader("ds1")
self.assertEqual("ds1,", ds1.builder)
self.assertEqual(1, tfds.builder.call_count)
# Builder should be cached with same name.
self.assertEqual("ds1,", ds1.builder)
self.assertEqual(1, tfds.builder.call_count)
# Same name but different data dir is a cache miss.
ds1_dir1 = utils.LazyTfdsLoader("ds1", "dir1")
self.assertEqual("ds1,dir1", ds1_dir1.builder)
self.assertEqual(2, tfds.builder.call_count)
# Same name and data dir is a cache hit.
self.assertEqual("ds1,dir1", ds1_dir1.builder)
self.assertEqual(2, tfds.builder.call_count)
# Different name is a cache miss.
ds2 = utils.LazyTfdsLoader("ds2")
self.assertEqual("ds2,", ds2.builder)
self.assertEqual(3, tfds.builder.call_count)
# Different split map name is a cache hit.
ds2 = utils.LazyTfdsLoader("ds2", split_map={"train": "validation"})
self.assertEqual("ds2,", ds2.builder)
self.assertEqual(3, tfds.builder.call_count)
# Try calling everything again, order shouldn't matter.
self.assertEqual("ds1,", ds1.builder)
self.assertEqual("ds1,dir1", ds1_dir1.builder)
self.assertEqual("ds2,", ds2.builder)
self.assertEqual(3, tfds.builder.call_count)
@mock.patch("tensorflow_datasets.load")
def test_split_map(self, mock_tfds_load):
seed = 0
utils.LazyTfdsLoader._MEMOIZED_BUILDERS[("ds/c1", None)] = mock.Mock(
info=mock.Mock(splits={
"validation": mock.Mock(
num_examples=420,
file_instructions=["f1", "f2"]),
"test": mock.Mock(
num_examples=42,
file_instructions=["f3"]),
}))
ds = utils.LazyTfdsLoader(
"ds/c1", split_map={"train": "validation", "validation": "test"})
# test .load()
ds.load("train", shuffle_files=False, seed=seed)
mock_tfds_load.assert_called_once_with(
"ds/c1",
split="validation",
data_dir=None,
shuffle_files=False,
download=True,
try_gcs=True,
read_config=AnyArg())
# test .size()
self.assertEqual(420, ds.size(split="train"))
self.assertEqual(42, ds.size(split="validation"))
with self.assertRaises(KeyError):
ds.size(split="test")
# test .files()
self.assertListEqual(["f1", "f2"], ds.files(split="train"))
self.assertListEqual(["f3"], ds.files(split="validation"))
with self.assertRaises(KeyError):
ds.files(split="test")
class UtilsTest(parameterized.TestCase):
def test_dict_to_tfexample(self):
tfe = utils.dict_to_tfexample({
"inputs": "this is an input",
"targets": "this is a target",
"weight": 5.0,
"idx1": np.array([1, 2], np.int32),
"idx2": np.array([3, 4], np.int64),
"is_correct": False,
})
self.assertLen(tfe.features.feature, 6)
self.assertEqual(tfe.features.feature["inputs"].bytes_list.value,
[b"this is an input"])
self.assertEqual(tfe.features.feature["targets"].bytes_list.value,
[b"this is a target"])
self.assertEqual(tfe.features.feature["weight"].float_list.value, [5.0])
np.testing.assert_array_equal(
tfe.features.feature["idx1"].int64_list.value,
np.array([1, 2], np.int64))
np.testing.assert_array_equal(
tfe.features.feature["idx2"].int64_list.value,
np.array([3, 4], np.int64))
np.testing.assert_array_equal(
tfe.features.feature["is_correct"].int64_list.value,
np.array([0], np.int64))
def test_stateless_shuffle(self):
value = np.arange(6)
expected_output_1 = np.array([0, 3, 4, 2, 1, 5])
expected_output_2 = np.array([3, 4, 0, 2, 5, 1])
np.testing.assert_array_equal(
utils.stateless_shuffle(value, (0, 1)),
expected_output_1)
np.testing.assert_array_equal(
utils.stateless_shuffle(value.reshape((2, 3)), (0, 1)),
expected_output_1.reshape((2, 3)))
np.testing.assert_array_equal(
utils.stateless_shuffle(value, (2, 3)),
expected_output_2)
def test_map_over_dataset(self):
inputs = tf.data.Dataset.range(5)
@utils.map_over_dataset
def test_fn(x):
return x + 1
self.assertEqual(list(test_fn(inputs).as_numpy_iterator()), [1, 2, 3, 4, 5])
# We disable no-value-for-parameter since the utils.map_over_dataset leads to
# a false positive when seeds are provided.
# pylint:disable=no-value-for-parameter
def test_map_over_dataset_with_one_seed(self):
inputs = tf.data.Dataset.range(2)
tf.random.set_seed(None)
utils._NEXT_MAP_SEED = 42
@utils.map_over_dataset(num_seeds=1)
def test_fn(x, seed):
return x + seed
expected = [
np.array([2985944072, 3810604164]),
np.array([4132877645, 4228622226])
]
for exp, act in zip(expected, test_fn(inputs).as_numpy_iterator()):
np.testing.assert_array_equal(exp, act)
def test_map_over_dataset_with_seeds(self):
inputs = tf.data.Dataset.range(2)
tf.random.set_seed(None)
utils._NEXT_MAP_SEED = 42
@utils.map_over_dataset(num_seeds=2)
def test_fn(x, seeds):
return x + seeds
expected = [
np.array([[2985944072, 3810604164], [64669036, 3548694723]]),
np.array([[4132877645, 4228622226], [2495033825, 798765318]])
]
for exp, act in zip(expected, test_fn(inputs).as_numpy_iterator()):
np.testing.assert_array_equal(exp, act)
# pylint:enable=no-value-for-parameter
def test_map_seed_manager(self):
utils._NEXT_MAP_SEED = None
self.assertIsNone(utils._NEXT_MAP_SEED)
with utils.map_seed_manager(42):
self.assertEqual(utils._NEXT_MAP_SEED, 42)
with utils.map_seed_manager(410):
self.assertEqual(utils._NEXT_MAP_SEED, 410)
utils._NEXT_MAP_SEED += 10
self.assertEqual(utils._NEXT_MAP_SEED, 420)
utils._NEXT_MAP_SEED += 10
self.assertEqual(utils._NEXT_MAP_SEED, 52)
self.assertIsNone(utils._NEXT_MAP_SEED)
def test_trim_and_pad_dataset(self):
x = [{"inputs": [7, 8, 5, 6, 1], "targets": [3, 9, 1], "idx": [0]},
{"inputs": [8, 4, 9, 3, 5, 7, 9, 1], "targets": [4, 1], "idx": [1, 2]}]
ds = create_default_dataset(x, feature_names=("inputs", "targets", "idx"))
padded_ds = utils.trim_and_pad_dataset(
ds,
feature_lengths={"inputs": 7, "targets": 3})
expected = [
{
"inputs": [7, 8, 5, 6, 1, 0, 0],
"targets": [3, 9, 1],
"idx": [0],
},
{
# EOS is trimmed
"inputs": [8, 4, 9, 3, 5, 7, 9],
"targets": [4, 1, 0],
"idx": [1, 2],
}
]
assert_dataset(
padded_ds, expected, {"inputs": tf.int32, "targets": tf.int32})
_PACK_PARAMETERS = ({"use_custom_ops": False},)
@parameterized.parameters(*_PACK_PARAMETERS)
def test_trim_and_pack_dataset(self, use_custom_ops):
x = [{"inputs": [7, 8, 5, 1], "targets": [3, 9, 1], "idx": [0]},
{"inputs": [8, 4, 9, 3, 1], "targets": [4, 1], "idx": [1]}]
ds = create_default_dataset(x, feature_names=("inputs", "targets", "idx"))
packed_ds = utils.trim_and_pack_dataset(
ds,
feature_lengths={"inputs": 10, "targets": 7},
use_custom_ops=use_custom_ops)
expected = {
"inputs": [7, 8, 5, 1, 8, 4, 9, 3, 1, 0],
"inputs_segment_ids": [1, 1, 1, 1, 2, 2, 2, 2, 2, 0],
"inputs_positions": [0, 1, 2, 3, 0, 1, 2, 3, 4, 0],
"targets": [3, 9, 1, 4, 1, 0, 0],
"targets_positions": [0, 1, 2, 0, 1, 0, 0],
"targets_segment_ids": [1, 1, 1, 2, 2, 0, 0],
}
assert_dataset(
packed_ds, expected, {"inputs": tf.int32, "targets": tf.int32})
@parameterized.parameters(*_PACK_PARAMETERS)
def test_trim_and_pack_dataset_no_eos(self, use_custom_ops):
x = [{"inputs": [7, 8, 5], "targets": [3, 9]},
{"inputs": [8, 4, 9, 3], "targets": [4]}]
ds = create_default_dataset(x)
packed_ds = utils.trim_and_pack_dataset(
ds,
feature_lengths={"inputs": 8, "targets": 5},
use_custom_ops=use_custom_ops)
# Packing still works without the eos.
expected = {
"inputs": [7, 8, 5, 8, 4, 9, 3, 0],
"inputs_segment_ids": [1, 1, 1, 2, 2, 2, 2, 0],
"inputs_positions": [0, 1, 2, 0, 1, 2, 3, 0],
"targets": [3, 9, 4, 0, 0],
"targets_positions": [0, 1, 0, 0, 0],
"targets_segment_ids": [1, 1, 2, 0, 0],
}
assert_dataset(
packed_ds, expected, {"inputs": tf.int32, "targets": tf.int32})
@parameterized.parameters(*_PACK_PARAMETERS)
def test_trim_and_pack_dataset_long_seq(self, use_custom_ops):
x = [{"inputs": [7, 8, 5, 6, 9, 4, 1], "targets": [3, 9, 1]},
{"inputs": [8, 4, 9, 3, 5, 7, 9, 1], "targets": [4, 1]}]
ds = create_default_dataset(x)
packed_ds = utils.trim_and_pack_dataset(
ds,
feature_lengths={"inputs": 7, "targets": 3},
use_custom_ops=use_custom_ops)
expected = [{
"inputs": [7, 8, 5, 6, 9, 4, 1],
"inputs_segment_ids": [1, 1, 1, 1, 1, 1, 1],
"inputs_positions": [0, 1, 2, 3, 4, 5, 6],
"targets": [3, 9, 1],
"targets_positions": [0, 1, 2],
"targets_segment_ids": [1, 1, 1],
}, {
# EOS is trimmed
"inputs": [8, 4, 9, 3, 5, 7, 9],
"inputs_segment_ids": [1, 1, 1, 1, 1, 1, 1],
"inputs_positions": [0, 1, 2, 3, 4, 5, 6],
"targets": [4, 1, 0],
"targets_positions": [0, 1, 0],
"targets_segment_ids": [1, 1, 0],
}]
assert_dataset(
packed_ds, expected, {"inputs": tf.int32, "targets": tf.int32})
class MixtureRateTest(test_utils.FakeTaskTest):
def test_mixing_rate_num_examples(self):
self.assertEqual(
3.0,
utils.mixing_rate_num_examples(self.cached_task))
self.assertEqual(
81.0,
utils.mixing_rate_num_examples(self.cached_task, scale=27))
self.assertEqual(
9.0,
utils.mixing_rate_num_examples(
self.cached_task, scale=27, temperature=2))
self.assertEqual(
2550.25,
utils.mixing_rate_num_examples(
self.cached_task, scale=27, temperature=0.5, maximum=50.5))
# Test fallback.
self.assertEqual(
3.0,
utils.mixing_rate_num_examples(
self.cached_task, fallback_to_num_input_examples=False))
with self.assertRaises(AssertionError):
utils.mixing_rate_num_examples(
self.uncached_task, fallback_to_num_input_examples=False)
self.assertEqual(
30.0,
utils.mixing_rate_num_examples(
self.uncached_task, fallback_to_num_input_examples=True))
def create_default_dataset(
x: Sequence[Mapping[str, int]],
feature_names: Sequence[str] = ("inputs", "targets")) -> tf.data.Dataset:
output_types = {feature_name: tf.int32 for feature_name in feature_names}
output_shapes = {feature_name: [None] for feature_name in feature_names}
ds = tf.data.Dataset.from_generator(
lambda: x, output_types=output_types, output_shapes=output_shapes)
return ds
if __name__ == "__main__":
absltest.main()
| apache-2.0 |
asimshankar/tensorflow | tensorflow/contrib/stat_summarizer/python/stat_summarizer_test.py | 22 | 2886 | # Copyright 2016 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.
# ==============================================================================
"""Tests for StatSummarizer Python wrapper."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from tensorflow.core.protobuf import config_pb2
from tensorflow.python import pywrap_tensorflow
from tensorflow.python.framework import constant_op
from tensorflow.python.framework import ops
from tensorflow.python.ops import math_ops
from tensorflow.python.ops import variables
from tensorflow.python.platform import test
class StatSummarizerTest(test.TestCase):
def testStatSummarizer(self):
with ops.Graph().as_default() as graph:
matrix1 = constant_op.constant([[3., 3.]], name=r"m1")
matrix2 = constant_op.constant([[2.], [2.]], name=r"m2")
product = math_ops.matmul(matrix1, matrix2, name=r"product")
graph_def = graph.as_graph_def()
ss = pywrap_tensorflow.NewStatSummarizer(graph_def.SerializeToString())
with self.cached_session() as sess:
sess.run(variables.global_variables_initializer())
for _ in range(20):
run_metadata = config_pb2.RunMetadata()
run_options = config_pb2.RunOptions(
trace_level=config_pb2.RunOptions.FULL_TRACE)
sess.run(product, options=run_options, run_metadata=run_metadata)
ss.ProcessStepStatsStr(run_metadata.step_stats.SerializeToString())
output_string = ss.GetOutputString()
print(output_string)
# Test it recorded running the expected number of times.
self.assertRegexpMatches(output_string, r"count=20")
# Test that a header line got printed.
self.assertRegexpMatches(output_string, r"====== .* ======")
# Test that the nodes we added were analyzed.
# The line for the op should contain both the op type (MatMul)
# and the name of the node (product)
self.assertRegexpMatches(output_string, r"MatMul.*product")
self.assertRegexpMatches(output_string, r"Const.*m1")
self.assertRegexpMatches(output_string, r"Const.*m2")
# Test that a CDF summed to 100%
self.assertRegexpMatches(output_string, r"100\.")
pywrap_tensorflow.DeleteStatSummarizer(ss)
if __name__ == "__main__":
test.main()
| apache-2.0 |
addition-it-solutions/project-all | addons/account_followup/report/account_followup_print.py | 4 | 6058 | # -*- 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 collections import defaultdict
from openerp.osv import osv, fields
from openerp.report import report_sxw
from openerp.exceptions import UserError
class report_rappel(report_sxw.rml_parse):
_name = "account_followup.report.rappel"
def __init__(self, cr, uid, name, context=None):
super(report_rappel, self).__init__(cr, uid, name, context=context)
self.localcontext.update({
'time': time,
'ids_to_objects': self._ids_to_objects,
'getLines': self._lines_get,
'get_text': self._get_text
})
def _ids_to_objects(self, ids):
all_lines = []
for line in self.pool['account_followup.stat.by.partner'].browse(self.cr, self.uid, ids):
if line not in all_lines:
all_lines.append(line)
return all_lines
def _lines_get(self, stat_by_partner_line):
return self._lines_get_with_partner(stat_by_partner_line.partner_id, stat_by_partner_line.company_id.id)
def _lines_get_with_partner(self, partner, company_id):
moveline_obj = self.pool['account.move.line']
moveline_ids = moveline_obj.search(self.cr, self.uid, [
('partner_id', '=', partner.id),
('account_id.type', '=', 'receivable'),
('reconcile_id', '=', False),
('state', '!=', 'draft'),
('company_id', '=', company_id),
('date_maturity', '<=', fields.date.context_today(self,self.cr,self.uid)),
])
# lines_per_currency = {currency: [line data, ...], ...}
lines_per_currency = defaultdict(list)
for line in moveline_obj.browse(self.cr, self.uid, moveline_ids):
currency = line.currency_id or line.company_id.currency_id
line_data = {
'name': line.move_id.name,
'ref': line.ref,
'date': line.date,
'date_maturity': line.date_maturity,
'balance': line.amount_currency if currency != line.company_id.currency_id else line.debit - line.credit,
'blocked': line.blocked,
'currency_id': currency,
}
lines_per_currency[currency].append(line_data)
return [{'line': lines, 'currency': currency} for currency, lines in lines_per_currency.items()]
def _get_text(self, stat_line, followup_id, context=None):
context = dict(context or {}, lang=stat_line.partner_id.lang)
fp_obj = self.pool['account_followup.followup']
fp_line = fp_obj.browse(self.cr, self.uid, followup_id, context=context).followup_line
if not fp_line:
raise UserError(_("The followup plan defined for the current company does not have any followup action."))
#the default text will be the first fp_line in the sequence with a description.
default_text = ''
li_delay = []
for line in fp_line:
if not default_text and line.description:
default_text = line.description
li_delay.append(line.delay)
li_delay.sort(reverse=True)
a = {}
#look into the lines of the partner that already have a followup level, and take the description of the higher level for which it is available
partner_line_ids = self.pool['account.move.line'].search(self.cr, self.uid, [('partner_id','=',stat_line.partner_id.id),('reconcile_id','=',False),('company_id','=',stat_line.company_id.id),('blocked','=',False),('state','!=','draft'),('debit','!=',False),('account_id.type','=','receivable'),('followup_line_id','!=',False)])
partner_max_delay = 0
partner_max_text = ''
for i in self.pool['account.move.line'].browse(self.cr, self.uid, partner_line_ids, context=context):
if i.followup_line_id.delay > partner_max_delay and i.followup_line_id.description:
partner_max_delay = i.followup_line_id.delay
partner_max_text = i.followup_line_id.description
text = partner_max_delay and partner_max_text or default_text
if text:
lang_obj = self.pool['res.lang']
lang_ids = lang_obj.search(self.cr, self.uid, [('code', '=', stat_line.partner_id.lang)], context=context)
date_format = lang_ids and lang_obj.browse(self.cr, self.uid, lang_ids[0], context=context).date_format or '%Y-%m-%d'
text = text % {
'partner_name': stat_line.partner_id.name,
'date': time.strftime(date_format),
'company_name': stat_line.company_id.name,
'user_signature': self.pool['res.users'].browse(self.cr, self.uid, self.uid, context).signature or '',
}
return text
class report_followup(osv.AbstractModel):
_name = 'report.account_followup.report_followup'
_inherit = 'report.abstract_report'
_template = 'account_followup.report_followup'
_wrapped_report_class = report_rappel
| agpl-3.0 |
muffinresearch/olympia | apps/applications/management/commands/addnewversion.py | 15 | 1104 | from django.core.management.base import BaseCommand, CommandError
from django.db import IntegrityError
import commonware.log
import amo.models
from applications.models import AppVersion
class Command(BaseCommand):
help = ('Add a new version of an application. Syntax: \n'
' ./manage.py addnewversion <application_name> <version>')
log = commonware.log.getLogger('z.appversions')
def handle(self, *args, **options):
try:
do_addnewversion(args[0], args[1])
except IndexError:
raise CommandError(self.help)
msg = 'Adding version %r to application %r\n' % (args[1], args[0])
self.log.info(msg)
self.stdout.write(msg)
def do_addnewversion(application, version):
if application not in amo.APPS:
raise CommandError('Application %r does not exist.' % application)
try:
AppVersion.objects.create(application=amo.APPS[application].id,
version=version)
except IntegrityError, e:
raise CommandError('Version %r already exists: %r' % (version, e))
| bsd-3-clause |
RickMohr/nyc-trees | src/nyc_trees/apps/users/routes/group.py | 1 | 2018 | # -*- coding: utf-8 -*-
from __future__ import print_function
from __future__ import unicode_literals
from __future__ import division
from django.contrib.auth.decorators import login_required
from django_tinsel.decorators import route, render_template, json_api_call
from django_tinsel.utils import decorate as do
from apps.core.decorators import group_request, group_admin_do, census_admin_do
from apps.users.views import group as v
render_follow_detail = render_template('groups/partials/follow_detail.html')
group_list_page = route(GET=do(render_template('groups/list.html'),
v.group_list_page))
group_detail = route(GET=do(group_request,
render_template('groups/detail.html'),
v.group_detail))
group_edit = group_admin_do(render_template('groups/settings.html'),
route(GET=v.edit_group,
POST=v.update_group_settings))
follow_group = do(
login_required,
group_request,
route(GET=v.redirect_to_group_detail,
POST=do(render_follow_detail, v.follow_group)))
unfollow_group = do(
login_required,
group_request,
route(GET=v.redirect_to_group_detail,
POST=do(render_follow_detail, v.unfollow_group)))
# TODO: should this have group_admin
start_group_map_print_job = route(POST=v.start_group_map_print_job)
edit_user_mapping_priveleges = group_admin_do(
render_template('groups/partials/grant_access_button.html'),
route(PUT=v.give_user_mapping_priveleges,
DELETE=v.remove_user_mapping_priveleges))
request_mapper_status = do(
login_required,
group_request,
json_api_call,
route(POST=v.request_mapper_status))
group_unmapped_territory_geojson = route(
POST=census_admin_do(json_api_call,
v.group_unmapped_territory_geojson))
group_update_territory = route(
POST=census_admin_do(json_api_call,
v.group_update_territory))
| apache-2.0 |
rbarlow/pulp | server/pulp/server/content/sources/event.py | 7 | 3328 | from gettext import gettext as _
from logging import getLogger
log = getLogger(__name__)
EVENT_FAILED = _('Listener error on event: {event}')
class Event(object):
"""
Base event.
:ivar name: The event name.
:type name: str
:ivar request: A download request.
:type request: pulp.server.content.sources.model.Request
"""
def __init__(self, name, request):
"""
:param name: The event name.
:type name: str
:param request: A download request.
:type request: pulp.server.content.sources.model.Request
"""
self.name = name
self.request = request
def __call__(self, listener):
"""
Raise the event on the listener by calling Listener.on_event().
:param listener: The target of the event.
:type listener: Listener
"""
try:
listener.on_event(self)
except AttributeError:
pass
except Exception:
log.exception(EVENT_FAILED.format(event=self.name))
class Started(Event):
"""
The download started event.
"""
NAME = 'started'
def __init__(self, request):
"""
:param request: A download request.
:type request: pulp.server.content.sources.model.Request
"""
super(Started, self).__init__(self.NAME, request)
class Succeeded(Event):
"""
The download has succeeded event.
"""
NAME = 'succeeded'
def __init__(self, request):
"""
:param request: A download request.
:type request: pulp.server.content.sources.model.Request
"""
super(Succeeded, self).__init__(self.NAME, request)
class Failed(Event):
"""
The download failed event.
"""
NAME = 'failed'
def __init__(self, request):
"""
:param request: A download request.
:type request: pulp.server.content.sources.model.Request
"""
super(Failed, self).__init__(self.NAME, request)
class Listener(object):
"""
Download event listener.
"""
def on_started(self, request):
"""
Notification that downloading has started for the specified request.
:param request: A download request.
:type request: pulp.server.content.sources.model.Request
"""
pass
def on_succeeded(self, request):
"""
Notification that downloading has succeeded for the specified request.
:param request: A download request.
:type request: pulp.server.content.sources.model.Request
"""
pass
def on_failed(self, request):
"""
Notification that downloading has failed for the specified request.
:param request: A download request.
:type request: pulp.server.content.sources.model.Request
"""
pass
def on_event(self, event):
"""
Event notification.
Safely Mapped to method with the same name as the event.
Listener classes can override and handle events directly.
:param event: An event.
:type event: Event
"""
name = 'on_{event}'.format(event=event.name)
try:
method = getattr(self, name)
method(event.request)
except AttributeError:
pass
| gpl-2.0 |
selahssea/ggrc-core | src/ggrc/migrations/versions/20160119143508_262bbe790f4c_import_squashed_migrations.py | 7 | 1939 | # Copyright (C) 2017 Google Inc.
# Licensed under http://www.apache.org/licenses/LICENSE-2.0 <see LICENSE file>
"""Import all squashed migrations from 0.9.5-Zucchini-P1.
Revision ID: 262bbe790f4c
Revises: 297131e22e28
Create Date: 2016-01-19 14:35:08.577857
These migration were generated with the following procedure:
git checkout 0.9.5-Zucchini-P1
git checkout develop bin/db_reset
git reset HEAD bin/db_reset
all_modules=$GGRC_SETTINGS_MODULE
export GGRC_SETTINGS_MODULE="development" # enable only the ggrc module
db_reset
mysqldump -uroot -proot ggrcdev > ggrcdev_ggrc.sql
export GGRC_SETTINGS_MODULE=all_modules
git checkout bin/db_reset
git checkout -
To test these migrations you can simply compare the migrations from two commits
develop - assuming the commit with this migration is rebased on top of the
last develop branch.
squash - current commit
git checkout develop
db_reset && mysqldump -uroot -proot ggrcdev > dev.sql
git checkout squash
db_reset && mysqldump -uroot -proot ggrcdev > squ.sql
Note: Some of the squashed migrations can produce different database states
depending on if there was data in the db, when the migration was run. That is
why you should check you generated file and make the minor modifications to it,
so that the end result matches the migrations run before the squash, on an
empty database. If there are any differences in the databases, they should be
handled separately and not in this migration.
"""
# disable Invalid constant name pylint warning for mandatory Alembic variables.
# pylint: disable=invalid-name
import os
from alembic import op
# revision identifiers, used by Alembic.
revision = '262bbe790f4c'
down_revision = None
def upgrade():
"""Import squashed migrations."""
dirname = os.path.dirname(os.path.realpath(__file__))
dump_file = os.path.join(dirname, "ggrcdev_ggrc.sql")
dump = open(dump_file, "r")
op.execute(dump.read())
def downgrade():
pass
| apache-2.0 |
JustinTulloss/harmonize.fm | masterapp/masterapp/controllers/people.py | 1 | 3444 | # Profile controller for viewing a friend's profile
from masterapp.lib.base import *
from masterapp.lib.amazon import *
from masterapp.lib.profile import Profile
from masterapp.lib.fbauth import ensure_fb_session
from masterapp.lib.snippets import get_session_user
from masterapp.model import User, Session, Spotlight, SpotlightComment
import sqlalchemy.sql as sql
from facebook import FacebookError
from facebook.wsgi import facebook
from pylons import config
import pylons
import time
class PeopleController(BaseController):
def __before__(self):
ensure_fb_session()
def _get_active_spotlights(self, uid):
return Session.query(Spotlight).filter(Spotlight.uid==uid).\
order_by(sql.desc(Spotlight.timestamp))[:3]
def profile(self, **kwargs):
"""
Display the main profile for a user identified by id
"""
id = kwargs['id']
if not id:
id = str(get_session_user().id)
# Make sure this user is allowed to access this profile
friend = Session.query(User).get(id)
if not friend or not get_session_user().is_friends_with(friend):
abort(404)
c.user = friend
c.current_url = '#/people/profile/'+id
c.current_user = get_session_user()
c.profile = Profile()
def l_get_asin(id,type):
return get_asin(id, type)
c.l_get_asin = l_get_asin
return render('/profile/index.mako')
def add_spotcomment(self, id):
comment = request.params.get('comment')
if not comment or not id:
abort(400)
comment = h.util.html_escape(comment)
spotcomment = SpotlightComment(session['userid'], id, comment)
Session.save(spotcomment)
Session.commit()
# send facebook notification to the person who owns this spotlight
# (unless its yours)
spot = Session.query(Spotlight).get(spotcomment.spotlightid)
if not spot.uid == session['userid']:
owner = Session.query(User).get(spot.uid)
fbml = " commented on <a href='http://harmonize.fm/player#/people/profile/" + str(owner.id) + "/spcomments/" + str(spot.id) + "' target='_blank'>" + spot.title + "</a>"
response = facebook.notifications.send(owner.fbid, fbml)
commenter = Session.query(User).get(session['userid'])
subject = '%s has commented on your Spotlight' % commenter.name
user_href = '<a href="http://harmonize.fm/player#people/profile/%s" target="_blank">%s</a>' % (commenter.id, commenter.name)
body = '%s commented on <a href="http://harmonize.fm/player#people/profile/%s/spcomments/%s" target="_blank">%s.</a>' % \
(user_href, owner.id, spot.id, spot.title)
facebook.notifications.sendEmail(owner.fbid, subject, text=body)
return str(spotcomment.id)
def invite(self, **kwargs):
id = kwargs['id']
if not id:
abort(400)
fbml = """<fb:notif-page> invited you as a private beta user to
<a href="http://harmonize.fm/player">Harmonize.fm</a>
</fb:notif-page>
"""
if ',' in id:
id = id.split(',')
id.remove('')
response = facebook.notifications.send(id,fbml)
# CANNOT find a way to get any sort of response from this call, for now just assume it worked
# :-/
return '1'
| mit |
jermowery/xos | xos/tosca/resources/sflowservice.py | 2 | 1449 | import os
import pdb
import sys
import tempfile
sys.path.append("/opt/tosca")
from translator.toscalib.tosca_template import ToscaTemplate
from core.models import ServiceAttribute
from services.ceilometer.models import SFlowService
from service import XOSService
class XOSSFlowService(XOSService):
provides = "tosca.nodes.SFlowService"
xos_model = SFlowService
copyin_props = ["view_url", "icon_url", "enabled", "published", "public_key", "versionNumber", "sflow_port", "sflow_api_port"]
def set_service_attr(self, obj, prop_name, value):
value = self.try_intrinsic_function(value)
if value:
attrs = ServiceAttribute.objects.filter(service=obj, name=prop_name)
if attrs:
attr = attrs[0]
if attr.value != value:
self.info("updating attribute %s" % prop_name)
attr.value = value
attr.save()
else:
self.info("adding attribute %s" % prop_name)
ta = ServiceAttribute(service=obj, name=prop_name, value=value)
ta.save()
def postprocess(self, obj):
props = self.nodetemplate.get_properties()
for (k,d) in props.items():
v = d.value
if k.startswith("config_"):
self.set_service_attr(obj, k, v)
elif k.startswith("rest_"):
self.set_service_attr(obj, k, v)
| apache-2.0 |
sadanandb/pmt | src/tactic/ui/tools/mail_templates.py | 6 | 1494 | {
"insert":
{
"subject": "TACTIC: a new item has been added.",
"message": '''
A new item has been added.
________________________
Code: {@GET(.code)}
Name: {@GET(.name)}
Description: {@GET(.description)}
'''
},
# When an sobject has been updated
"update":
{
"subject": "TACTIC: a new item has been updated.",
"message": '''
An item has been added.
________________________
Code: {@GET(.code)}
Name: {@GET(.name)}
Description: {@GET(.description)}
'''
},
# When a note has been added
"insert|sthpw/note":
{
"subject": "TACTIC: a new note has been added.",
"message": '''
A new note has been added.
_________________________
User: {@GET(.login)}
Note: {@GET(.note)}
'''
},
# When a task has been assigned
"change|sthpw/task|assigned":
{
"subject": "TACTIC: New task assignment {@GET(parent.code)} [{@GET(.context)}]",
"message": '''
{@GET(parent.code)} has been assigned to you.
____________________________
Task: {@GET(.context)}
Assigned: {@GET(.assigned)}
Status: {@GET(.status)}
'''
},
# When a task status has changed
"change|sthpw/task|status":
{
"subject": "TACTIC: {@GET(parent.code)} [{@GET(.context)}] Updated to {@GET(.status)}",
"message": '''
{@GET(parent.code)} has been updated.
____________________________
Task:{@GET(.context)}
Assigned: {@GET(.assigned)}
Status: {@GET(.status)}
'''
}
}
| epl-1.0 |
devdelay/home-assistant | homeassistant/components/light/tellstick.py | 7 | 3313 | """
Support for Tellstick lights.
For more details about this platform, please refer to the documentation at
https://home-assistant.io/components/light.tellstick/
"""
import voluptuous as vol
from homeassistant.components import tellstick
from homeassistant.components.light import ATTR_BRIGHTNESS, Light
from homeassistant.components.tellstick import (DEFAULT_SIGNAL_REPETITIONS,
ATTR_DISCOVER_DEVICES,
ATTR_DISCOVER_CONFIG)
PLATFORM_SCHEMA = vol.Schema({vol.Required("platform"): tellstick.DOMAIN})
# pylint: disable=unused-argument
def setup_platform(hass, config, add_devices, discovery_info=None):
"""Setup Tellstick lights."""
if (discovery_info is None or
discovery_info[ATTR_DISCOVER_DEVICES] is None or
tellstick.TELLCORE_REGISTRY is None):
return
signal_repetitions = discovery_info.get(ATTR_DISCOVER_CONFIG,
DEFAULT_SIGNAL_REPETITIONS)
add_devices(TellstickLight(
tellstick.TELLCORE_REGISTRY.get_device(switch_id), signal_repetitions)
for switch_id in discovery_info[ATTR_DISCOVER_DEVICES])
class TellstickLight(tellstick.TellstickDevice, Light):
"""Representation of a Tellstick light."""
def __init__(self, tellstick_device, signal_repetitions):
"""Initialize the light."""
self._brightness = 255
tellstick.TellstickDevice.__init__(self,
tellstick_device,
signal_repetitions)
@property
def is_on(self):
"""Return true if switch is on."""
return self._state
@property
def brightness(self):
"""Return the brightness of this light between 0..255."""
return self._brightness
def set_tellstick_state(self, last_command_sent, last_data_sent):
"""Update the internal representation of the switch."""
from tellcore.constants import TELLSTICK_TURNON, TELLSTICK_DIM
if last_command_sent == TELLSTICK_DIM:
if last_data_sent is not None:
self._brightness = int(last_data_sent)
self._state = self._brightness > 0
else:
self._state = last_command_sent == TELLSTICK_TURNON
def _send_tellstick_command(self, command, data):
"""Handle the turn_on / turn_off commands."""
from tellcore.constants import (TELLSTICK_TURNOFF, TELLSTICK_DIM)
if command == TELLSTICK_TURNOFF:
self.tellstick_device.turn_off()
elif command == TELLSTICK_DIM:
self.tellstick_device.dim(self._brightness)
else:
raise NotImplementedError(
"Command not implemented: {}".format(command))
def turn_on(self, **kwargs):
"""Turn the switch on."""
from tellcore.constants import TELLSTICK_DIM
brightness = kwargs.get(ATTR_BRIGHTNESS)
if brightness is not None:
self._brightness = brightness
self.call_tellstick(TELLSTICK_DIM, self._brightness)
def turn_off(self, **kwargs):
"""Turn the switch off."""
from tellcore.constants import TELLSTICK_TURNOFF
self.call_tellstick(TELLSTICK_TURNOFF)
| mit |
Brainiq7/Ananse | ananse_dl/extractor/generic.py | 1 | 44347 | # encoding: utf-8
from __future__ import unicode_literals
import os
import re
from .common import InfoExtractor
from .youtube import YoutubeIE
from ..compat import (
compat_urllib_parse,
compat_urlparse,
compat_xml_parse_error,
)
from ..utils import (
determine_ext,
ExtractorError,
float_or_none,
HEADRequest,
orderedSet,
parse_xml,
smuggle_url,
unescapeHTML,
unified_strdate,
unsmuggle_url,
url_basename,
)
from .brightcove import BrightcoveIE
from .ooyala import OoyalaIE
from .rutv import RUTVIE
from .smotri import SmotriIE
from .condenast import CondeNastIE
class GenericIE(InfoExtractor):
IE_DESC = 'Generic downloader that works on some sites'
_VALID_URL = r'.*'
IE_NAME = 'generic'
_TESTS = [
{
'url': 'http://www.hodiho.fr/2013/02/regis-plante-sa-jeep.html',
'md5': '85b90ccc9d73b4acd9138d3af4c27f89',
'info_dict': {
'id': '13601338388002',
'ext': 'mp4',
'uploader': 'www.hodiho.fr',
'title': 'R\u00e9gis plante sa Jeep',
}
},
# bandcamp page with custom domain
# {
# 'add_ie': ['Bandcamp'],
# 'url': 'http://bronyrock.com/track/the-pony-mash',
# 'info_dict': {
# 'id': '3235767654',
# 'ext': 'mp3',
# 'title': 'The Pony Mash',
# 'uploader': 'M_Pallante',
# },
# 'skip': 'There is a limit of 200 free downloads / month for the test song',
# },
# embedded brightcove video
# it also tests brightcove videos that need to set the 'Referer' in the
# http requests
# test failing
# {
# 'add_ie': ['Brightcove'],
# 'url': 'http://www.bfmtv.com/video/bfmbusiness/cours-bourse/cours-bourse-l-analyse-technique-154522/',
# 'info_dict': {
# 'id': '2765128793001',
# 'ext': 'mp4',
# 'title': 'Le cours de bourse : l’analyse technique',
# 'description': 'md5:7e9ad046e968cb2d1114004aba466fd9',
# 'uploader': 'BFM BUSINESS',
# },
# 'params': {
# 'skip_download': True,
# },
# },
# {
# # https://github.com/rg3/ananse/issues/2253
# 'url': 'http://bcove.me/i6nfkrc3',
# 'md5': '0ba9446db037002366bab3b3eb30c88c',
# 'info_dict': {
# 'id': '3101154703001',
# 'ext': 'mp4',
# 'title': 'Still no power',
# 'uploader': 'thestar.com',
# 'description': 'Mississauga resident David Farmer is still out of power as a result of the ice storm a month ago. To keep the house warm, Farmer cuts wood from his property for a wood burning stove downstairs.',
# },
# 'add_ie': ['Brightcove'],
# },
# {
# 'url': 'http://www.championat.com/video/football/v/87/87499.html',
# 'md5': 'fb973ecf6e4a78a67453647444222983',
# 'info_dict': {
# 'id': '3414141473001',
# 'ext': 'mp4',
# 'title': 'Видео. Удаление Дзагоева (ЦСКА)',
# 'description': 'Онлайн-трансляция матча ЦСКА - "Волга"',
# 'uploader': 'Championat',
# },
# },
{
# https://github.com/rg3/ananse/issues/3541
'add_ie': ['Brightcove'],
'url': 'http://www.kijk.nl/sbs6/leermijvrouwenkennen/videos/jqMiXKAYan2S/aflevering-1',
'info_dict': {
'id': '3866516442001',
'ext': 'mp4',
'title': 'Leer mij vrouwen kennen: Aflevering 1',
'description': 'Leer mij vrouwen kennen: Aflevering 1',
'uploader': 'SBS Broadcasting',
},
'skip': 'Restricted to Netherlands',
'params': {
'skip_download': True, # m3u8 download
},
},
# Direct link to a video
{
'url': 'http://media.w3.org/2010/05/sintel/trailer.mp4',
'md5': '67d406c2bcb6af27fa886f31aa934bbe',
'info_dict': {
'id': 'trailer',
'ext': 'mp4',
'title': 'trailer',
'upload_date': '20100513',
}
},
# ooyala video
# {
# 'url': 'http://www.rollingstone.com/music/videos/norwegian-dj-cashmere-cat-goes-spartan-on-with-me-premiere-20131219',
# 'md5': '5644c6ca5d5782c1d0d350dad9bd840c',
# 'info_dict': {
# 'id': 'BwY2RxaTrTkslxOfcan0UCf0YqyvWysJ',
# 'ext': 'mp4',
# 'title': '2cc213299525360.mov', # that's what we get
# },
# },
# # google redirect
# {
# 'url': 'http://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&cad=rja&ved=0CCUQtwIwAA&url=http%3A%2F%2Fwww.youtube.com%2Fwatch%3Fv%3DcmQHVoWB5FY&ei=F-sNU-LLCaXk4QT52ICQBQ&usg=AFQjCNEw4hL29zgOohLXvpJ-Bdh2bils1Q&bvm=bv.61965928,d.bGE',
# 'info_dict': {
# 'id': 'cmQHVoWB5FY',
# 'ext': 'mp4',
# 'upload_date': '20130224',
# 'uploader_id': 'TheVerge',
# 'description': 'Chris Ziegler takes a look at the Alcatel OneTouch Fire and the ZTE Open; two of the first Firefox OS handsets to be officially announced.',
# 'uploader': 'The Verge',
# 'title': 'First Firefox OS phones side-by-side',
# },
# 'params': {
# 'skip_download': False,
# }
# },
# # embed.ly video
# {
# 'url': 'http://www.tested.com/science/weird/460206-tested-grinding-coffee-2000-frames-second/',
# 'info_dict': {
# 'id': '9ODmcdjQcHQ',
# 'ext': 'mp4',
# 'title': 'Tested: Grinding Coffee at 2000 Frames Per Second',
# 'upload_date': '20140225',
# 'description': 'md5:06a40fbf30b220468f1e0957c0f558ff',
# 'uploader': 'Tested',
# 'uploader_id': 'testedcom',
# },
# # No need to test YoutubeIE here
# 'params': {
# 'skip_download': True,
# },
# },
# funnyordie embed
{
'url': 'http://www.theguardian.com/world/2014/mar/11/obama-zach-galifianakis-between-two-ferns',
'info_dict': {
'id': '18e820ec3f',
'ext': 'mp4',
'title': 'Between Two Ferns with Zach Galifianakis: President Barack Obama',
'description': 'Episode 18: President Barack Obama sits down with Zach Galifianakis for his most memorable interview yet.',
},
},
# RUTV embed
{
'url': 'http://www.rg.ru/2014/03/15/reg-dfo/anklav-anons.html',
'info_dict': {
'id': '776940',
'ext': 'mp4',
'title': 'Охотское море стало целиком российским',
'description': 'md5:5ed62483b14663e2a95ebbe115eb8f43',
},
'params': {
# m3u8 download
'skip_download': True,
},
},
# Embedded TED video
# test failing
# {
# 'url': 'http://en.support.wordpress.com/videos/ted-talks/',
# 'md5': '65fdff94098e4a607385a60c5177c638',
# 'info_dict': {
# 'id': '1969',
# 'ext': 'mp4',
# 'title': 'Hidden miracles of the natural world',
# 'uploader': 'Louie Schwartzberg',
# 'description': 'md5:8145d19d320ff3e52f28401f4c4283b9',
# }
# },
# Embeded Ustream video
# {
# 'url': 'http://www.american.edu/spa/pti/nsa-privacy-janus-2014.cfm',
# 'md5': '27b99cdb639c9b12a79bca876a073417',
# 'info_dict': {
# 'id': '45734260',
# 'ext': 'flv',
# 'uploader': 'AU SPA: The NSA and Privacy',
# 'title': 'NSA and Privacy Forum Debate featuring General Hayden and Barton Gellman'
# }
# },
# # nowvideo embed hidden behind percent encoding
# {
# 'url': 'http://www.waoanime.tv/the-super-dimension-fortress-macross-episode-1/',
# 'md5': '2baf4ddd70f697d94b1c18cf796d5107',
# 'info_dict': {
# 'id': '06e53103ca9aa',
# 'ext': 'flv',
# 'title': 'Macross Episode 001 Watch Macross Episode 001 onl',
# 'description': 'No description',
# },
# },
# # arte embed
# {
# 'url': 'http://www.tv-replay.fr/redirection/20-03-14/x-enius-arte-10753389.html',
# 'md5': '7653032cbb25bf6c80d80f217055fa43',
# 'info_dict': {
# 'id': '048195-004_PLUS7-F',
# 'ext': 'flv',
# 'title': 'X:enius',
# 'description': 'md5:d5fdf32ef6613cdbfd516ae658abf168',
# 'upload_date': '20140320',
# },
# 'params': {
# 'skip_download': 'Requires rtmpdump'
# }
# },
# Condé Nast embed
{
'url': 'http://www.wired.com/2014/04/honda-asimo/',
'md5': 'ba0dfe966fa007657bd1443ee672db0f',
'info_dict': {
'id': '53501be369702d3275860000',
'ext': 'mp4',
'title': 'Honda’s New Asimo Robot Is More Human Than Ever',
}
},
# Dailymotion embed
{
'url': 'http://www.spi0n.com/zap-spi0n-com-n216/',
'md5': '441aeeb82eb72c422c7f14ec533999cd',
'info_dict': {
'id': 'k2mm4bCdJ6CQ2i7c8o2',
'ext': 'mp4',
'title': 'Le Zap de Spi0n n°216 - Zapping du Web',
'uploader': 'Spi0n',
},
'add_ie': ['Dailymotion'],
},
# YouTube embed
# {
# 'url': 'http://www.badzine.de/ansicht/datum/2014/06/09/so-funktioniert-die-neue-englische-badminton-liga.html',
# 'info_dict': {
# 'id': 'FXRb4ykk4S0',
# 'ext': 'mp4',
# 'title': 'The NBL Auction 2014',
# 'uploader': 'BADMINTON England',
# 'uploader_id': 'BADMINTONEvents',
# 'upload_date': '20140603',
# 'description': 'md5:9ef128a69f1e262a700ed83edb163a73',
# },
# 'add_ie': ['Youtube'],
# 'params': {
# 'skip_download': True,
# }
# },
# MTVSercices embed
{
'url': 'http://www.gametrailers.com/news-post/76093/north-america-europe-is-getting-that-mario-kart-8-mercedes-dlc-too',
'md5': '35727f82f58c76d996fc188f9755b0d5',
'info_dict': {
'id': '0306a69b-8adf-4fb5-aace-75f8e8cbfca9',
'ext': 'mp4',
'title': 'Review',
'description': 'Mario\'s life in the fast lane has never looked so good.',
},
},
# YouTube embed via <data-embed-url="">
{
'url': 'https://play.google.com/store/apps/details?id=com.gameloft.android.ANMP.GloftA8HM',
'info_dict': {
'id': '4vAffPZIT44',
'ext': 'mp4',
'title': 'Asphalt 8: Airborne - Update - Welcome to Dubai!',
'uploader': 'Gameloft',
'uploader_id': 'gameloft',
'upload_date': '20140828',
'description': 'md5:c80da9ed3d83ae6d1876c834de03e1c4',
},
'params': {
'skip_download': True,
}
},
# Camtasia studio
{
'url': 'http://www.ll.mit.edu/workshops/education/videocourses/antennas/lecture1/video/',
'playlist': [{
'md5': '0c5e352edabf715d762b0ad4e6d9ee67',
'info_dict': {
'id': 'Fenn-AA_PA_Radar_Course_Lecture_1c_Final',
'title': 'Fenn-AA_PA_Radar_Course_Lecture_1c_Final - video1',
'ext': 'flv',
'duration': 2235.90,
}
}, {
'md5': '10e4bb3aaca9fd630e273ff92d9f3c63',
'info_dict': {
'id': 'Fenn-AA_PA_Radar_Course_Lecture_1c_Final_PIP',
'title': 'Fenn-AA_PA_Radar_Course_Lecture_1c_Final - pip',
'ext': 'flv',
'duration': 2235.93,
}
}],
'info_dict': {
'title': 'Fenn-AA_PA_Radar_Course_Lecture_1c_Final',
}
},
# Flowplayer
# {
# 'url': 'http://www.handjobhub.com/video/busty-blonde-siri-tit-fuck-while-wank-6313.html',
# 'md5': '9d65602bf31c6e20014319c7d07fba27',
# 'info_dict': {
# 'id': '5123ea6d5e5a7',
# 'ext': 'mp4',
# 'age_limit': 18,
# 'uploader': 'www.handjobhub.com',
# 'title': 'Busty Blonde Siri Tit Fuck While Wank at HandjobHub.com',
# }
# },
# RSS feed
{
'url': 'http://phihag.de/2014/youtube-dl/rss2.xml',
'info_dict': {
'id': 'http://phihag.de/2014/youtube-dl/rss2.xml',
'title': 'Zero Punctuation',
'description': 're:'
},
'playlist_mincount': 11,
},
# Multiple brightcove videos
# https://github.com/rg3/ananse/issues/2283
{
'url': 'http://www.newyorker.com/online/blogs/newsdesk/2014/01/always-never-nuclear-command-and-control.html',
'info_dict': {
'id': 'always-never',
'title': 'Always / Never - The New Yorker',
},
'playlist_count': 3,
'params': {
'extract_flat': False,
'skip_download': True,
}
},
# MLB embed
# {
# 'url': 'http://umpire-empire.com/index.php/topic/58125-laz-decides-no-thats-low/',
# 'md5': '96f09a37e44da40dd083e12d9a683327',
# 'info_dict': {
# 'id': '33322633',
# 'ext': 'mp4',
# 'title': 'Ump changes call to ball',
# 'description': 'md5:71c11215384298a172a6dcb4c2e20685',
# 'duration': 48,
# 'timestamp': 1401537900,
# 'upload_date': '20140531',
# 'thumbnail': 're:^https?://.*\.jpg$',
# },
# },
# Wistia embed
{
'url': 'http://education-portal.com/academy/lesson/north-american-exploration-failed-colonies-of-spain-france-england.html#lesson',
'md5': '8788b683c777a5cf25621eaf286d0c23',
'info_dict': {
'id': '1cfaf6b7ea',
'ext': 'mov',
'title': 'md5:e00b62e97bc1324ce5186d23547e80df',
'duration': 643.0,
'filesize': 182808282,
'uploader': 'education-portal.com',
},
},
{
'url': 'http://thoughtworks.wistia.com/medias/uxjb0lwrcz',
'md5': 'baf49c2baa8a7de5f3fc145a8506dcd4',
'info_dict': {
'id': 'uxjb0lwrcz',
'ext': 'mp4',
'title': 'Conversation about Hexagonal Rails Part 1 - ThoughtWorks',
'duration': 1715.0,
'uploader': 'thoughtworks.wistia.com',
},
},
# Direct download with broken HEAD
{
'url': 'http://ai-radio.org:8000/radio.opus',
'info_dict': {
'id': 'radio',
'ext': 'opus',
'title': 'radio',
},
'params': {
'skip_download': True, # infinite live stream
},
'expected_warnings': [
r'501.*Not Implemented'
],
},
# Soundcloud embed
# {
# 'url': 'http://nakedsecurity.sophos.com/2014/10/29/sscc-171-are-you-sure-that-1234-is-a-bad-password-podcast/',
# 'info_dict': {
# 'id': '174391317',
# 'ext': 'mp3',
# 'description': 'md5:ff867d6b555488ad3c52572bb33d432c',
# 'uploader': 'Sophos Security',
# 'title': 'Chet Chat 171 - Oct 29, 2014',
# 'upload_date': '20141029',
# }
# },
# Livestream embed
# {
# 'url': 'http://www.esa.int/Our_Activities/Space_Science/Rosetta/Philae_comet_touch-down_webcast',
# 'info_dict': {
# 'id': '67864563',
# 'ext': 'flv',
# 'upload_date': '20141112',
# 'title': 'Rosetta #CometLanding webcast HL 10',
# }
# },
# LazyYT
{
'url': 'http://discourse.ubuntu.com/t/unity-8-desktop-mode-windows-on-mir/1986',
'info_dict': {
'title': 'Unity 8 desktop-mode windows on Mir! - Ubuntu Discourse',
},
'playlist_mincount': 2,
},
# Direct link with incorrect MIME type
{
'url': 'http://ftp.nluug.nl/video/nluug/2014-11-20_nj14/zaal-2/5_Lennart_Poettering_-_Systemd.webm',
'md5': '4ccbebe5f36706d85221f204d7eb5913',
'info_dict': {
'url': 'http://ftp.nluug.nl/video/nluug/2014-11-20_nj14/zaal-2/5_Lennart_Poettering_-_Systemd.webm',
'id': '5_Lennart_Poettering_-_Systemd',
'ext': 'webm',
'title': '5_Lennart_Poettering_-_Systemd',
'upload_date': '20141120',
},
'expected_warnings': [
'URL could be a direct video link, returning it as such.'
]
},
# Cinchcast embed
{
'url': 'http://undergroundwellness.com/podcasts/306-5-steps-to-permanent-gut-healing/',
'info_dict': {
'id': '7141703',
'ext': 'mp3',
'upload_date': '20141126',
'title': 'Jack Tips: 5 Steps to Permanent Gut Healing',
}
},
]
def report_following_redirect(self, new_url):
"""Report information extraction."""
self._downloader.to_screen('[redirect] Following redirect to %s' % new_url)
def _extract_rss(self, url, video_id, doc):
playlist_title = doc.find('./channel/title').text
playlist_desc_el = doc.find('./channel/description')
playlist_desc = None if playlist_desc_el is None else playlist_desc_el.text
entries = [{
'_type': 'url',
'url': e.find('link').text,
'title': e.find('title').text,
} for e in doc.findall('./channel/item')]
return {
'_type': 'playlist',
'id': url,
'title': playlist_title,
'description': playlist_desc,
'entries': entries,
}
def _extract_camtasia(self, url, video_id, webpage):
""" Returns None if no camtasia video can be found. """
camtasia_cfg = self._search_regex(
r'fo\.addVariable\(\s*"csConfigFile",\s*"([^"]+)"\s*\);',
webpage, 'camtasia configuration file', default=None)
if camtasia_cfg is None:
return None
title = self._html_search_meta('DC.title', webpage, fatal=True)
camtasia_url = compat_urlparse.urljoin(url, camtasia_cfg)
camtasia_cfg = self._download_xml(
camtasia_url, video_id,
note='Downloading camtasia configuration',
errnote='Failed to download camtasia configuration')
fileset_node = camtasia_cfg.find('./playlist/array/fileset')
entries = []
for n in fileset_node.getchildren():
url_n = n.find('./uri')
if url_n is None:
continue
entries.append({
'id': os.path.splitext(url_n.text.rpartition('/')[2])[0],
'title': '%s - %s' % (title, n.tag),
'url': compat_urlparse.urljoin(url, url_n.text),
'duration': float_or_none(n.find('./duration').text),
})
return {
'_type': 'playlist',
'entries': entries,
'title': title,
}
def _real_extract(self, url):
if url.startswith('//'):
return {
'_type': 'url',
'url': self.http_scheme() + url,
}
parsed_url = compat_urlparse.urlparse(url)
if not parsed_url.scheme:
default_search = self._downloader.params.get('default_search')
if default_search is None:
default_search = 'fixup_error'
if default_search in ('auto', 'auto_warning', 'fixup_error'):
if '/' in url:
self._downloader.report_warning('The url doesn\'t specify the protocol, trying with http')
return self.url_result('http://' + url)
elif default_search != 'fixup_error':
if default_search == 'auto_warning':
if re.match(r'^(?:url|URL)$', url):
raise ExtractorError(
'Invalid URL: %r . Call ananse like this: ananse -v "https://www.youtube.com/watch?v=BaW_jenozKc" ' % url,
expected=True)
else:
self._downloader.report_warning(
'Falling back to youtube search for %s . Set --default-search "auto" to suppress this warning.' % url)
return self.url_result('ytsearch:' + url)
if default_search in ('error', 'fixup_error'):
raise ExtractorError(
'%r is not a valid URL. '
'Set --default-search "ytsearch" (or run ananse "ytsearch:%s" ) to search YouTube'
% (url, url), expected=True)
else:
if ':' not in default_search:
default_search += ':'
return self.url_result(default_search + url)
url, smuggled_data = unsmuggle_url(url)
force_videoid = None
is_intentional = smuggled_data and smuggled_data.get('to_generic')
if smuggled_data and 'force_videoid' in smuggled_data:
force_videoid = smuggled_data['force_videoid']
video_id = force_videoid
else:
video_id = os.path.splitext(url.rstrip('/').split('/')[-1])[0]
self.to_screen('%s: Requesting header' % video_id)
head_req = HEADRequest(url)
head_response = self._request_webpage(
head_req, video_id,
note=False, errnote='Could not send HEAD request to %s' % url,
fatal=False)
if head_response is not False:
# Check for redirect
new_url = head_response.geturl()
if url != new_url:
self.report_following_redirect(new_url)
if force_videoid:
new_url = smuggle_url(
new_url, {'force_videoid': force_videoid})
return self.url_result(new_url)
full_response = None
if head_response is False:
full_response = self._request_webpage(url, video_id)
head_response = full_response
# Check for direct link to a video
content_type = head_response.headers.get('Content-Type', '')
m = re.match(r'^(?P<type>audio|video|application(?=/ogg$))/(?P<format_id>.+)$', content_type)
if m:
upload_date = unified_strdate(
head_response.headers.get('Last-Modified'))
return {
'id': video_id,
'title': os.path.splitext(url_basename(url))[0],
'direct': True,
'formats': [{
'format_id': m.group('format_id'),
'url': url,
'vcodec': 'none' if m.group('type') == 'audio' else None
}],
'upload_date': upload_date,
}
if not self._downloader.params.get('test', False) and not is_intentional:
self._downloader.report_warning('Falling back on generic information extractor.')
if not full_response:
full_response = self._request_webpage(url, video_id)
# Maybe it's a direct link to a video?
# Be careful not to download the whole thing!
first_bytes = full_response.read(512)
if not re.match(r'^\s*<', first_bytes.decode('utf-8', 'replace')):
self._downloader.report_warning(
'URL could be a direct video link, returning it as such.')
upload_date = unified_strdate(
head_response.headers.get('Last-Modified'))
return {
'id': video_id,
'title': os.path.splitext(url_basename(url))[0],
'direct': True,
'url': url,
'upload_date': upload_date,
}
webpage = self._webpage_read_content(
full_response, url, video_id, prefix=first_bytes)
self.report_extraction(video_id)
# Is it an RSS feed?
try:
doc = parse_xml(webpage)
if doc.tag == 'rss':
return self._extract_rss(url, video_id, doc)
except compat_xml_parse_error:
pass
# Is it a Camtasia project?
camtasia_res = self._extract_camtasia(url, video_id, webpage)
if camtasia_res is not None:
return camtasia_res
# Sometimes embedded video player is hidden behind percent encoding
# (e.g. https://github.com/rg3/ananse/issues/2448)
# Unescaping the whole page allows to handle those cases in a generic way
webpage = compat_urllib_parse.unquote(webpage)
# it's tempting to parse this further, but you would
# have to take into account all the variations like
# Video Title - Site Name
# Site Name | Video Title
# Video Title - Tagline | Site Name
# and so on and so forth; it's just not practical
video_title = self._html_search_regex(
r'(?s)<title>(.*?)</title>', webpage, 'video title',
default='video')
# Try to detect age limit automatically
age_limit = self._rta_search(webpage)
# And then there are the jokers who advertise that they use RTA,
# but actually don't.
AGE_LIMIT_MARKERS = [
r'Proudly Labeled <a href="http://www.rtalabel.org/" title="Restricted to Adults">RTA</a>',
]
if any(re.search(marker, webpage) for marker in AGE_LIMIT_MARKERS):
age_limit = 18
# video uploader is domain name
video_uploader = self._search_regex(
r'^(?:https?://)?([^/]*)/.*', url, 'video uploader')
# Helper method
def _playlist_from_matches(matches, getter, ie=None):
urlrs = orderedSet(
self.url_result(self._proto_relative_url(getter(m)), ie)
for m in matches)
return self.playlist_result(
urlrs, playlist_id=video_id, playlist_title=video_title)
# Look for BrightCove:
bc_urls = BrightcoveIE._extract_brightcove_urls(webpage)
if bc_urls:
self.to_screen('Brightcove video detected.')
entries = [{
'_type': 'url',
'url': smuggle_url(bc_url, {'Referer': url}),
'ie_key': 'Brightcove'
} for bc_url in bc_urls]
return {
'_type': 'playlist',
'title': video_title,
'id': video_id,
'entries': entries,
}
# Look for embedded (iframe) Vimeo player
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>(?:https?:)?//player\.vimeo\.com/video/.+?)\1', webpage)
if mobj:
player_url = unescapeHTML(mobj.group('url'))
surl = smuggle_url(player_url, {'Referer': url})
return self.url_result(surl)
# Look for embedded (swf embed) Vimeo player
mobj = re.search(
r'<embed[^>]+?src="((?:https?:)?//(?:www\.)?vimeo\.com/moogaloop\.swf.+?)"', webpage)
if mobj:
return self.url_result(mobj.group(1))
# Look for embedded YouTube player
matches = re.findall(r'''(?x)
(?:
<iframe[^>]+?src=|
data-video-url=|
<embed[^>]+?src=|
embedSWF\(?:\s*|
new\s+SWFObject\(
)
(["\'])
(?P<url>(?:https?:)?//(?:www\.)?youtube(?:-nocookie)?\.com/
(?:embed|v|p)/.+?)
\1''', webpage)
if matches:
return _playlist_from_matches(
matches, lambda m: unescapeHTML(m[1]))
# Look for lazyYT YouTube embed
matches = re.findall(
r'class="lazyYT" data-youtube-id="([^"]+)"', webpage)
if matches:
return _playlist_from_matches(matches, lambda m: unescapeHTML(m))
# Look for embedded Dailymotion player
matches = re.findall(
r'<iframe[^>]+?src=(["\'])(?P<url>(?:https?:)?//(?:www\.)?dailymotion\.com/embed/video/.+?)\1', webpage)
if matches:
return _playlist_from_matches(
matches, lambda m: unescapeHTML(m[1]))
# Look for embedded Dailymotion playlist player (#3822)
m = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>(?:https?:)?//(?:www\.)?dailymotion\.[a-z]{2,3}/widget/jukebox\?.+?)\1', webpage)
if m:
playlists = re.findall(
r'list\[\]=/playlist/([^/]+)/', unescapeHTML(m.group('url')))
if playlists:
return _playlist_from_matches(
playlists, lambda p: '//dailymotion.com/playlist/%s' % p)
# Look for embedded Wistia player
match = re.search(
r'<(?:meta[^>]+?content|iframe[^>]+?src)=(["\'])(?P<url>(?:https?:)?//(?:fast\.)?wistia\.net/embed/iframe/.+?)\1', webpage)
if match:
embed_url = self._proto_relative_url(
unescapeHTML(match.group('url')))
return {
'_type': 'url_transparent',
'url': embed_url,
'ie_key': 'Wistia',
'uploader': video_uploader,
'title': video_title,
'id': video_id,
}
match = re.search(r'(?:id=["\']wistia_|data-wistia-?id=["\']|Wistia\.embed\(["\'])(?P<id>[^"\']+)', webpage)
if match:
return {
'_type': 'url_transparent',
'url': 'http://fast.wistia.net/embed/iframe/{0:}'.format(match.group('id')),
'ie_key': 'Wistia',
'uploader': video_uploader,
'title': video_title,
'id': match.group('id')
}
# Look for embedded blip.tv player
mobj = re.search(r'<meta\s[^>]*https?://api\.blip\.tv/\w+/redirect/\w+/(\d+)', webpage)
if mobj:
return self.url_result('http://blip.tv/a/a-' + mobj.group(1), 'BlipTV')
mobj = re.search(r'<(?:iframe|embed|object)\s[^>]*(https?://(?:\w+\.)?blip\.tv/(?:play/|api\.swf#)[a-zA-Z0-9_]+)', webpage)
if mobj:
return self.url_result(mobj.group(1), 'BlipTV')
# Look for embedded condenast player
matches = re.findall(
r'<iframe\s+(?:[a-zA-Z-]+="[^"]+"\s+)*?src="(https?://player\.cnevids\.com/embed/[^"]+")',
webpage)
if matches:
return {
'_type': 'playlist',
'entries': [{
'_type': 'url',
'ie_key': 'CondeNast',
'url': ma,
} for ma in matches],
'title': video_title,
'id': video_id,
}
# Look for Bandcamp pages with custom domain
mobj = re.search(r'<meta property="og:url"[^>]*?content="(.*?bandcamp\.com.*?)"', webpage)
if mobj is not None:
burl = unescapeHTML(mobj.group(1))
# Don't set the extractor because it can be a track url or an album
return self.url_result(burl)
# Look for embedded Vevo player
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>(?:https?:)?//(?:cache\.)?vevo\.com/.+?)\1', webpage)
if mobj is not None:
return self.url_result(mobj.group('url'))
# Look for Ooyala videos
mobj = (re.search(r'player.ooyala.com/[^"?]+\?[^"]*?(?:embedCode|ec)=(?P<ec>[^"&]+)', webpage) or
re.search(r'OO.Player.create\([\'"].*?[\'"],\s*[\'"](?P<ec>.{32})[\'"]', webpage))
if mobj is not None:
return OoyalaIE._build_url_result(mobj.group('ec'))
# Look for Aparat videos
mobj = re.search(r'<iframe .*?src="(http://www\.aparat\.com/video/[^"]+)"', webpage)
if mobj is not None:
return self.url_result(mobj.group(1), 'Aparat')
# Look for MPORA videos
mobj = re.search(r'<iframe .*?src="(http://mpora\.(?:com|de)/videos/[^"]+)"', webpage)
if mobj is not None:
return self.url_result(mobj.group(1), 'Mpora')
# Look for embedded NovaMov-based player
mobj = re.search(
r'''(?x)<(?:pagespeed_)?iframe[^>]+?src=(["\'])
(?P<url>http://(?:(?:embed|www)\.)?
(?:novamov\.com|
nowvideo\.(?:ch|sx|eu|at|ag|co)|
videoweed\.(?:es|com)|
movshare\.(?:net|sx|ag)|
divxstage\.(?:eu|net|ch|co|at|ag))
/embed\.php.+?)\1''', webpage)
if mobj is not None:
return self.url_result(mobj.group('url'))
# Look for embedded Facebook player
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>https://www\.facebook\.com/video/embed.+?)\1', webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'Facebook')
# Look for embedded VK player
mobj = re.search(r'<iframe[^>]+?src=(["\'])(?P<url>https?://vk\.com/video_ext\.php.+?)\1', webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'VK')
# Look for embedded ivi player
mobj = re.search(r'<embed[^>]+?src=(["\'])(?P<url>https?://(?:www\.)?ivi\.ru/video/player.+?)\1', webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'Ivi')
# Look for embedded Huffington Post player
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>https?://embed\.live\.huffingtonpost\.com/.+?)\1', webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'HuffPost')
# Look for embed.ly
mobj = re.search(r'class=["\']embedly-card["\'][^>]href=["\'](?P<url>[^"\']+)', webpage)
if mobj is not None:
return self.url_result(mobj.group('url'))
mobj = re.search(r'class=["\']embedly-embed["\'][^>]src=["\'][^"\']*url=(?P<url>[^&]+)', webpage)
if mobj is not None:
return self.url_result(compat_urllib_parse.unquote(mobj.group('url')))
# Look for funnyordie embed
matches = re.findall(r'<iframe[^>]+?src="(https?://(?:www\.)?funnyordie\.com/embed/[^"]+)"', webpage)
if matches:
return _playlist_from_matches(
matches, getter=unescapeHTML, ie='FunnyOrDie')
# Look for embedded RUTV player
rutv_url = RUTVIE._extract_url(webpage)
if rutv_url:
return self.url_result(rutv_url, 'RUTV')
# Look for embedded TED player
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>http://embed\.ted\.com/.+?)\1', webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'TED')
# Look for embedded Ustream videos
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>http://www\.ustream\.tv/embed/.+?)\1', webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'Ustream')
# Look for embedded arte.tv player
mobj = re.search(
r'<script [^>]*?src="(?P<url>http://www\.arte\.tv/playerv2/embed[^"]+)"',
webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'ArteTVEmbed')
# Look for embedded smotri.com player
smotri_url = SmotriIE._extract_url(webpage)
if smotri_url:
return self.url_result(smotri_url, 'Smotri')
# Look for embeded soundcloud player
mobj = re.search(
r'<iframe\s+(?:[a-zA-Z0-9_-]+="[^"]+"\s+)*src="(?P<url>https?://(?:w\.)?soundcloud\.com/player[^"]+)"',
webpage)
if mobj is not None:
url = unescapeHTML(mobj.group('url'))
return self.url_result(url)
# Look for embedded vulture.com player
mobj = re.search(
r'<iframe src="(?P<url>https?://video\.vulture\.com/[^"]+)"',
webpage)
if mobj is not None:
url = unescapeHTML(mobj.group('url'))
return self.url_result(url, ie='Vulture')
# Look for embedded mtvservices player
mobj = re.search(
r'<iframe src="(?P<url>https?://media\.mtvnservices\.com/embed/[^"]+)"',
webpage)
if mobj is not None:
url = unescapeHTML(mobj.group('url'))
return self.url_result(url, ie='MTVServicesEmbedded')
# Look for embedded yahoo player
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>https?://(?:screen|movies)\.yahoo\.com/.+?\.html\?format=embed)\1',
webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'Yahoo')
# Look for embedded sbs.com.au player
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>https?://(?:www\.)sbs\.com\.au/ondemand/video/single/.+?)\1',
webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'SBS')
# Look for embedded Cinchcast player
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>https?://player\.cinchcast\.com/.+?)\1',
webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'Cinchcast')
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>https?://m(?:lb)?\.mlb\.com/shared/video/embed/embed\.html\?.+?)\1',
webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'MLB')
mobj = re.search(
r'<iframe[^>]+?src=(["\'])(?P<url>%s)\1' % CondeNastIE.EMBED_URL,
webpage)
if mobj is not None:
return self.url_result(self._proto_relative_url(mobj.group('url'), scheme='http:'), 'CondeNast')
mobj = re.search(
r'<iframe[^>]+src="(?P<url>https?://new\.livestream\.com/[^"]+/player[^"]+)"',
webpage)
if mobj is not None:
return self.url_result(mobj.group('url'), 'Livestream')
def check_video(vurl):
vpath = compat_urlparse.urlparse(vurl).path
vext = determine_ext(vpath)
return '.' in vpath and vext not in ('swf', 'png', 'jpg', 'srt', 'sbv', 'sub', 'vtt', 'ttml')
def filter_video(urls):
return list(filter(check_video, urls))
# Start with something easy: JW Player in SWFObject
found = filter_video(re.findall(r'flashvars: [\'"](?:.*&)?file=(http[^\'"&]*)', webpage))
if not found:
# Look for gorilla-vid style embedding
found = filter_video(re.findall(r'''(?sx)
(?:
jw_plugins|
JWPlayerOptions|
jwplayer\s*\(\s*["'][^'"]+["']\s*\)\s*\.setup
)
.*?file\s*:\s*["\'](.*?)["\']''', webpage))
if not found:
# Broaden the search a little bit
found = filter_video(re.findall(r'[^A-Za-z0-9]?(?:file|source)=(http[^\'"&]*)', webpage))
if not found:
# Broaden the findall a little bit: JWPlayer JS loader
found = filter_video(re.findall(
r'[^A-Za-z0-9]?file["\']?:\s*["\'](http(?![^\'"]+\.[0-9]+[\'"])[^\'"]+)["\']', webpage))
if not found:
# Flow player
found = filter_video(re.findall(r'''(?xs)
flowplayer\("[^"]+",\s*
\{[^}]+?\}\s*,
\s*{[^}]+? ["']?clip["']?\s*:\s*\{\s*
["']?url["']?\s*:\s*["']([^"']+)["']
''', webpage))
if not found:
# Try to find twitter cards info
found = filter_video(re.findall(
r'<meta (?:property|name)="twitter:player:stream" (?:content|value)="(.+?)"', webpage))
if not found:
# We look for Open Graph info:
# We have to match any number spaces between elements, some sites try to align them (eg.: statigr.am)
m_video_type = re.findall(r'<meta.*?property="og:video:type".*?content="video/(.*?)"', webpage)
# We only look in og:video if the MIME type is a video, don't try if it's a Flash player:
if m_video_type is not None:
found = filter_video(re.findall(r'<meta.*?property="og:video".*?content="(.*?)"', webpage))
if not found:
# HTML5 video
found = re.findall(r'(?s)<video[^<]*(?:>.*?<source[^>]*)?\s+src=["\'](.*?)["\']', webpage)
if not found:
found = re.search(
r'(?i)<meta\s+(?=(?:[a-z-]+="[^"]+"\s+)*http-equiv="refresh")'
r'(?:[a-z-]+="[^"]+"\s+)*?content="[0-9]{,2};url=\'?([^\'"]+)',
webpage)
if found:
new_url = found.group(1)
self.report_following_redirect(new_url)
return {
'_type': 'url',
'url': new_url,
}
if not found:
raise ExtractorError('Unsupported URL: %s' % url)
entries = []
for video_url in found:
video_url = compat_urlparse.urljoin(url, video_url)
video_id = compat_urllib_parse.unquote(os.path.basename(video_url))
# Sometimes, jwplayer extraction will result in a YouTube URL
if YoutubeIE.suitable(video_url):
entries.append(self.url_result(video_url, 'Youtube'))
continue
# here's a fun little line of code for you:
video_id = os.path.splitext(video_id)[0]
entries.append({
'id': video_id,
'url': video_url,
'uploader': video_uploader,
'title': video_title,
'age_limit': age_limit,
})
if len(entries) == 1:
return entries[0]
else:
for num, e in enumerate(entries, start=1):
e['title'] = '%s (%d)' % (e['title'], num)
return {
'_type': 'playlist',
'entries': entries,
}
| unlicense |
klmitch/neutron | neutron/tests/unit/ipam/fake_driver.py | 38 | 1074 | # Copyright (c) 2015 Infoblox Inc.
# 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 neutron.ipam import driver
class FakeDriver(driver.Pool):
"""Fake IPAM driver for tests only
Just implement IPAM Driver interface without any functionality inside
"""
def allocate_subnet(self, subnet):
return driver.Subnet()
def get_subnet(self, cidr):
return driver.Subnet()
def update_subnet(self, request):
return driver.Subnet()
def remove_subnet(self, cidr):
pass
| apache-2.0 |
galtys/odoo | addons/google_calendar/controllers/main.py | 420 | 3002 | import openerp.addons.web.http as http
from openerp.addons.web.http import request
class google_calendar_controller(http.Controller):
@http.route('/google_calendar/sync_data', type='json', auth='user')
def sync_data(self, arch, fields, model, **kw):
"""
This route/function is called when we want to synchronize openERP calendar with Google Calendar
Function return a dictionary with the status : need_config_from_admin, need_auth, need_refresh, success if not calendar_event
The dictionary may contains an url, to allow OpenERP Client to redirect user on this URL for authorization for example
"""
if model == 'calendar.event':
gs_obj = request.registry['google.service']
gc_obj = request.registry['google.calendar']
# Checking that admin have already configured Google API for google synchronization !
client_id = gs_obj.get_client_id(request.cr, request.uid, 'calendar', context=kw.get('local_context'))
if not client_id or client_id == '':
action = ''
if gc_obj.can_authorize_google(request.cr, request.uid):
dummy, action = request.registry.get('ir.model.data').get_object_reference(request.cr, request.uid,
'google_calendar', 'action_config_settings_google_calendar')
return {
"status": "need_config_from_admin",
"url": '',
"action": action
}
# Checking that user have already accepted OpenERP to access his calendar !
if gc_obj.need_authorize(request.cr, request.uid, context=kw.get('local_context')):
url = gc_obj.authorize_google_uri(request.cr, request.uid, from_url=kw.get('fromurl'), context=kw.get('local_context'))
return {
"status": "need_auth",
"url": url
}
# If App authorized, and user access accepted, We launch the synchronization
return gc_obj.synchronize_events(request.cr, request.uid, [], context=kw.get('local_context'))
return {"status": "success"}
@http.route('/google_calendar/remove_references', type='json', auth='user')
def remove_references(self, model, **kw):
"""
This route/function is called when we want to remove all the references between one calendar OpenERP and one Google Calendar
"""
status = "NOP"
if model == 'calendar.event':
gc_obj = request.registry['google.calendar']
# Checking that user have already accepted OpenERP to access his calendar !
if gc_obj.remove_references(request.cr, request.uid, context=kw.get('local_context')):
status = "OK"
else:
status = "KO"
return {"status": status}
| agpl-3.0 |
fernandog/Medusa | ext/sqlalchemy/dialects/oracle/base.py | 1 | 65069 | # oracle/base.py
# Copyright (C) 2005-2018 the SQLAlchemy authors and contributors
# <see AUTHORS file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php
"""
.. dialect:: oracle
:name: Oracle
Oracle version 8 through current (11g at the time of this writing) are
supported.
Connect Arguments
-----------------
The dialect supports several :func:`~sqlalchemy.create_engine()` arguments
which affect the behavior of the dialect regardless of driver in use.
* ``use_ansi`` - Use ANSI JOIN constructs (see the section on Oracle 8).
Defaults to ``True``. If ``False``, Oracle-8 compatible constructs are used
for joins.
* ``optimize_limits`` - defaults to ``False``. see the section on
LIMIT/OFFSET.
* ``use_binds_for_limits`` - defaults to ``True``. see the section on
LIMIT/OFFSET.
Auto Increment Behavior
-----------------------
SQLAlchemy Table objects which include integer primary keys are usually
assumed to have "autoincrementing" behavior, meaning they can generate their
own primary key values upon INSERT. Since Oracle has no "autoincrement"
feature, SQLAlchemy relies upon sequences to produce these values. With the
Oracle dialect, *a sequence must always be explicitly specified to enable
autoincrement*. This is divergent with the majority of documentation
examples which assume the usage of an autoincrement-capable database. To
specify sequences, use the sqlalchemy.schema.Sequence object which is passed
to a Column construct::
t = Table('mytable', metadata,
Column('id', Integer, Sequence('id_seq'), primary_key=True),
Column(...), ...
)
This step is also required when using table reflection, i.e. autoload=True::
t = Table('mytable', metadata,
Column('id', Integer, Sequence('id_seq'), primary_key=True),
autoload=True
)
Identifier Casing
-----------------
In Oracle, the data dictionary represents all case insensitive identifier
names using UPPERCASE text. SQLAlchemy on the other hand considers an
all-lower case identifier name to be case insensitive. The Oracle dialect
converts all case insensitive identifiers to and from those two formats during
schema level communication, such as reflection of tables and indexes. Using
an UPPERCASE name on the SQLAlchemy side indicates a case sensitive
identifier, and SQLAlchemy will quote the name - this will cause mismatches
against data dictionary data received from Oracle, so unless identifier names
have been truly created as case sensitive (i.e. using quoted names), all
lowercase names should be used on the SQLAlchemy side.
LIMIT/OFFSET Support
--------------------
Oracle has no support for the LIMIT or OFFSET keywords. SQLAlchemy uses
a wrapped subquery approach in conjunction with ROWNUM. The exact methodology
is taken from
http://www.oracle.com/technetwork/issue-archive/2006/06-sep/o56asktom-086197.html .
There are two options which affect its behavior:
* the "FIRST ROWS()" optimization keyword is not used by default. To enable
the usage of this optimization directive, specify ``optimize_limits=True``
to :func:`.create_engine`.
* the values passed for the limit/offset are sent as bound parameters. Some
users have observed that Oracle produces a poor query plan when the values
are sent as binds and not rendered literally. To render the limit/offset
values literally within the SQL statement, specify
``use_binds_for_limits=False`` to :func:`.create_engine`.
Some users have reported better performance when the entirely different
approach of a window query is used, i.e. ROW_NUMBER() OVER (ORDER BY), to
provide LIMIT/OFFSET (note that the majority of users don't observe this).
To suit this case the method used for LIMIT/OFFSET can be replaced entirely.
See the recipe at
http://www.sqlalchemy.org/trac/wiki/UsageRecipes/WindowFunctionsByDefault
which installs a select compiler that overrides the generation of limit/offset
with a window function.
.. _oracle_returning:
RETURNING Support
-----------------
The Oracle database supports a limited form of RETURNING, in order to retrieve
result sets of matched rows from INSERT, UPDATE and DELETE statements.
Oracle's RETURNING..INTO syntax only supports one row being returned, as it
relies upon OUT parameters in order to function. In addition, supported
DBAPIs have further limitations (see :ref:`cx_oracle_returning`).
SQLAlchemy's "implicit returning" feature, which employs RETURNING within an
INSERT and sometimes an UPDATE statement in order to fetch newly generated
primary key values and other SQL defaults and expressions, is normally enabled
on the Oracle backend. By default, "implicit returning" typically only
fetches the value of a single ``nextval(some_seq)`` expression embedded into
an INSERT in order to increment a sequence within an INSERT statement and get
the value back at the same time. To disable this feature across the board,
specify ``implicit_returning=False`` to :func:`.create_engine`::
engine = create_engine("oracle://scott:tiger@dsn",
implicit_returning=False)
Implicit returning can also be disabled on a table-by-table basis as a table
option::
# Core Table
my_table = Table("my_table", metadata, ..., implicit_returning=False)
# declarative
class MyClass(Base):
__tablename__ = 'my_table'
__table_args__ = {"implicit_returning": False}
.. seealso::
:ref:`cx_oracle_returning` - additional cx_oracle-specific restrictions on
implicit returning.
ON UPDATE CASCADE
-----------------
Oracle doesn't have native ON UPDATE CASCADE functionality. A trigger based
solution is available at
http://asktom.oracle.com/tkyte/update_cascade/index.html .
When using the SQLAlchemy ORM, the ORM has limited ability to manually issue
cascading updates - specify ForeignKey objects using the
"deferrable=True, initially='deferred'" keyword arguments,
and specify "passive_updates=False" on each relationship().
Oracle 8 Compatibility
----------------------
When Oracle 8 is detected, the dialect internally configures itself to the
following behaviors:
* the use_ansi flag is set to False. This has the effect of converting all
JOIN phrases into the WHERE clause, and in the case of LEFT OUTER JOIN
makes use of Oracle's (+) operator.
* the NVARCHAR2 and NCLOB datatypes are no longer generated as DDL when
the :class:`~sqlalchemy.types.Unicode` is used - VARCHAR2 and CLOB are
issued instead. This because these types don't seem to work correctly on
Oracle 8 even though they are available. The
:class:`~sqlalchemy.types.NVARCHAR` and
:class:`~sqlalchemy.dialects.oracle.NCLOB` types will always generate
NVARCHAR2 and NCLOB.
* the "native unicode" mode is disabled when using cx_oracle, i.e. SQLAlchemy
encodes all Python unicode objects to "string" before passing in as bind
parameters.
Synonym/DBLINK Reflection
-------------------------
When using reflection with Table objects, the dialect can optionally search
for tables indicated by synonyms, either in local or remote schemas or
accessed over DBLINK, by passing the flag ``oracle_resolve_synonyms=True`` as
a keyword argument to the :class:`.Table` construct::
some_table = Table('some_table', autoload=True,
autoload_with=some_engine,
oracle_resolve_synonyms=True)
When this flag is set, the given name (such as ``some_table`` above) will
be searched not just in the ``ALL_TABLES`` view, but also within the
``ALL_SYNONYMS`` view to see if this name is actually a synonym to another
name. If the synonym is located and refers to a DBLINK, the oracle dialect
knows how to locate the table's information using DBLINK syntax(e.g.
``@dblink``).
``oracle_resolve_synonyms`` is accepted wherever reflection arguments are
accepted, including methods such as :meth:`.MetaData.reflect` and
:meth:`.Inspector.get_columns`.
If synonyms are not in use, this flag should be left disabled.
.. _oracle_constraint_reflection:
Constraint Reflection
---------------------
The Oracle dialect can return information about foreign key, unique, and
CHECK constraints, as well as indexes on tables.
Raw information regarding these constraints can be acquired using
:meth:`.Inspector.get_foreign_keys`, :meth:`.Inspector.get_unique_constraints`,
:meth:`.Inspector.get_check_constraints`, and :meth:`.Inspector.get_indexes`.
.. versionchanged:: 1.2 The Oracle dialect can now reflect UNIQUE and
CHECK constraints.
When using reflection at the :class:`.Table` level, the :class:`.Table`
will also include these constraints.
Note the following caveats:
* When using the :meth:`.Inspector.get_check_constraints` method, Oracle
builds a special "IS NOT NULL" constraint for columns that specify
"NOT NULL". This constraint is **not** returned by default; to include
the "IS NOT NULL" constraints, pass the flag ``include_all=True``::
from sqlalchemy import create_engine, inspect
engine = create_engine("oracle+cx_oracle://s:t@dsn")
inspector = inspect(engine)
all_check_constraints = inspector.get_check_constraints(
"some_table", include_all=True)
* in most cases, when reflecting a :class:`.Table`, a UNIQUE constraint will
**not** be available as a :class:`.UniqueConstraint` object, as Oracle
mirrors unique constraints with a UNIQUE index in most cases (the exception
seems to be when two or more unique constraints represent the same columns);
the :class:`.Table` will instead represent these using :class:`.Index`
with the ``unique=True`` flag set.
* Oracle creates an implicit index for the primary key of a table; this index
is **excluded** from all index results.
* the list of columns reflected for an index will not include column names
that start with SYS_NC.
Table names with SYSTEM/SYSAUX tablespaces
-------------------------------------------
The :meth:`.Inspector.get_table_names` and
:meth:`.Inspector.get_temp_table_names`
methods each return a list of table names for the current engine. These methods
are also part of the reflection which occurs within an operation such as
:meth:`.MetaData.reflect`. By default, these operations exclude the ``SYSTEM``
and ``SYSAUX`` tablespaces from the operation. In order to change this, the
default list of tablespaces excluded can be changed at the engine level using
the ``exclude_tablespaces`` parameter::
# exclude SYSAUX and SOME_TABLESPACE, but not SYSTEM
e = create_engine(
"oracle://scott:tiger@xe",
exclude_tablespaces=["SYSAUX", "SOME_TABLESPACE"])
.. versionadded:: 1.1
DateTime Compatibility
----------------------
Oracle has no datatype known as ``DATETIME``, it instead has only ``DATE``,
which can actually store a date and time value. For this reason, the Oracle
dialect provides a type :class:`.oracle.DATE` which is a subclass of
:class:`.DateTime`. This type has no special behavior, and is only
present as a "marker" for this type; additionally, when a database column
is reflected and the type is reported as ``DATE``, the time-supporting
:class:`.oracle.DATE` type is used.
.. versionchanged:: 0.9.4 Added :class:`.oracle.DATE` to subclass
:class:`.DateTime`. This is a change as previous versions
would reflect a ``DATE`` column as :class:`.types.DATE`, which subclasses
:class:`.Date`. The only significance here is for schemes that are
examining the type of column for use in special Python translations or
for migrating schemas to other database backends.
.. _oracle_table_options:
Oracle Table Options
-------------------------
The CREATE TABLE phrase supports the following options with Oracle
in conjunction with the :class:`.Table` construct:
* ``ON COMMIT``::
Table(
"some_table", metadata, ...,
prefixes=['GLOBAL TEMPORARY'], oracle_on_commit='PRESERVE ROWS')
.. versionadded:: 1.0.0
* ``COMPRESS``::
Table('mytable', metadata, Column('data', String(32)),
oracle_compress=True)
Table('mytable', metadata, Column('data', String(32)),
oracle_compress=6)
The ``oracle_compress`` parameter accepts either an integer compression
level, or ``True`` to use the default compression level.
.. versionadded:: 1.0.0
.. _oracle_index_options:
Oracle Specific Index Options
-----------------------------
Bitmap Indexes
~~~~~~~~~~~~~~
You can specify the ``oracle_bitmap`` parameter to create a bitmap index
instead of a B-tree index::
Index('my_index', my_table.c.data, oracle_bitmap=True)
Bitmap indexes cannot be unique and cannot be compressed. SQLAlchemy will not
check for such limitations, only the database will.
.. versionadded:: 1.0.0
Index compression
~~~~~~~~~~~~~~~~~
Oracle has a more efficient storage mode for indexes containing lots of
repeated values. Use the ``oracle_compress`` parameter to turn on key c
ompression::
Index('my_index', my_table.c.data, oracle_compress=True)
Index('my_index', my_table.c.data1, my_table.c.data2, unique=True,
oracle_compress=1)
The ``oracle_compress`` parameter accepts either an integer specifying the
number of prefix columns to compress, or ``True`` to use the default (all
columns for non-unique indexes, all but the last column for unique indexes).
.. versionadded:: 1.0.0
"""
import re
from sqlalchemy import util, sql
from sqlalchemy.engine import default, reflection
from sqlalchemy.sql import compiler, visitors, expression, util as sql_util
from sqlalchemy.sql import operators as sql_operators
from sqlalchemy.sql.elements import quoted_name
from sqlalchemy import types as sqltypes, schema as sa_schema
from sqlalchemy.types import VARCHAR, NVARCHAR, CHAR, \
BLOB, CLOB, TIMESTAMP, FLOAT
from itertools import groupby
RESERVED_WORDS = \
set('SHARE RAW DROP BETWEEN FROM DESC OPTION PRIOR LONG THEN '
'DEFAULT ALTER IS INTO MINUS INTEGER NUMBER GRANT IDENTIFIED '
'ALL TO ORDER ON FLOAT DATE HAVING CLUSTER NOWAIT RESOURCE '
'ANY TABLE INDEX FOR UPDATE WHERE CHECK SMALLINT WITH DELETE '
'BY ASC REVOKE LIKE SIZE RENAME NOCOMPRESS NULL GROUP VALUES '
'AS IN VIEW EXCLUSIVE COMPRESS SYNONYM SELECT INSERT EXISTS '
'NOT TRIGGER ELSE CREATE INTERSECT PCTFREE DISTINCT USER '
'CONNECT SET MODE OF UNIQUE VARCHAR2 VARCHAR LOCK OR CHAR '
'DECIMAL UNION PUBLIC AND START UID COMMENT CURRENT LEVEL'.split())
NO_ARG_FNS = set('UID CURRENT_DATE SYSDATE USER '
'CURRENT_TIME CURRENT_TIMESTAMP'.split())
class RAW(sqltypes._Binary):
__visit_name__ = 'RAW'
OracleRaw = RAW
class NCLOB(sqltypes.Text):
__visit_name__ = 'NCLOB'
class VARCHAR2(VARCHAR):
__visit_name__ = 'VARCHAR2'
NVARCHAR2 = NVARCHAR
class NUMBER(sqltypes.Numeric, sqltypes.Integer):
__visit_name__ = 'NUMBER'
def __init__(self, precision=None, scale=None, asdecimal=None):
if asdecimal is None:
asdecimal = bool(scale and scale > 0)
super(NUMBER, self).__init__(
precision=precision, scale=scale, asdecimal=asdecimal)
def adapt(self, impltype):
ret = super(NUMBER, self).adapt(impltype)
# leave a hint for the DBAPI handler
ret._is_oracle_number = True
return ret
@property
def _type_affinity(self):
if bool(self.scale and self.scale > 0):
return sqltypes.Numeric
else:
return sqltypes.Integer
class DOUBLE_PRECISION(sqltypes.Numeric):
__visit_name__ = 'DOUBLE_PRECISION'
def __init__(self, precision=None, scale=None, asdecimal=None):
if asdecimal is None:
asdecimal = False
super(DOUBLE_PRECISION, self).__init__(
precision=precision, scale=scale, asdecimal=asdecimal)
class BINARY_DOUBLE(sqltypes.Numeric):
__visit_name__ = 'BINARY_DOUBLE'
def __init__(self, precision=None, scale=None, asdecimal=None):
if asdecimal is None:
asdecimal = False
super(BINARY_DOUBLE, self).__init__(
precision=precision, scale=scale, asdecimal=asdecimal)
class BINARY_FLOAT(sqltypes.Numeric):
__visit_name__ = 'BINARY_FLOAT'
def __init__(self, precision=None, scale=None, asdecimal=None):
if asdecimal is None:
asdecimal = False
super(BINARY_FLOAT, self).__init__(
precision=precision, scale=scale, asdecimal=asdecimal)
class BFILE(sqltypes.LargeBinary):
__visit_name__ = 'BFILE'
class LONG(sqltypes.Text):
__visit_name__ = 'LONG'
class DATE(sqltypes.DateTime):
"""Provide the oracle DATE type.
This type has no special Python behavior, except that it subclasses
:class:`.types.DateTime`; this is to suit the fact that the Oracle
``DATE`` type supports a time value.
.. versionadded:: 0.9.4
"""
__visit_name__ = 'DATE'
def _compare_type_affinity(self, other):
return other._type_affinity in (sqltypes.DateTime, sqltypes.Date)
class INTERVAL(sqltypes.TypeEngine):
__visit_name__ = 'INTERVAL'
def __init__(self,
day_precision=None,
second_precision=None):
"""Construct an INTERVAL.
Note that only DAY TO SECOND intervals are currently supported.
This is due to a lack of support for YEAR TO MONTH intervals
within available DBAPIs (cx_oracle and zxjdbc).
:param day_precision: the day precision value. this is the number of
digits to store for the day field. Defaults to "2"
:param second_precision: the second precision value. this is the
number of digits to store for the fractional seconds field.
Defaults to "6".
"""
self.day_precision = day_precision
self.second_precision = second_precision
@classmethod
def _adapt_from_generic_interval(cls, interval):
return INTERVAL(day_precision=interval.day_precision,
second_precision=interval.second_precision)
@property
def _type_affinity(self):
return sqltypes.Interval
class ROWID(sqltypes.TypeEngine):
"""Oracle ROWID type.
When used in a cast() or similar, generates ROWID.
"""
__visit_name__ = 'ROWID'
class _OracleBoolean(sqltypes.Boolean):
def get_dbapi_type(self, dbapi):
return dbapi.NUMBER
colspecs = {
sqltypes.Boolean: _OracleBoolean,
sqltypes.Interval: INTERVAL,
sqltypes.DateTime: DATE
}
ischema_names = {
'VARCHAR2': VARCHAR,
'NVARCHAR2': NVARCHAR,
'CHAR': CHAR,
'DATE': DATE,
'NUMBER': NUMBER,
'BLOB': BLOB,
'BFILE': BFILE,
'CLOB': CLOB,
'NCLOB': NCLOB,
'TIMESTAMP': TIMESTAMP,
'TIMESTAMP WITH TIME ZONE': TIMESTAMP,
'INTERVAL DAY TO SECOND': INTERVAL,
'RAW': RAW,
'FLOAT': FLOAT,
'DOUBLE PRECISION': DOUBLE_PRECISION,
'LONG': LONG,
}
class OracleTypeCompiler(compiler.GenericTypeCompiler):
# Note:
# Oracle DATE == DATETIME
# Oracle does not allow milliseconds in DATE
# Oracle does not support TIME columns
def visit_datetime(self, type_, **kw):
return self.visit_DATE(type_, **kw)
def visit_float(self, type_, **kw):
return self.visit_FLOAT(type_, **kw)
def visit_unicode(self, type_, **kw):
if self.dialect._supports_nchar:
return self.visit_NVARCHAR2(type_, **kw)
else:
return self.visit_VARCHAR2(type_, **kw)
def visit_INTERVAL(self, type_, **kw):
return "INTERVAL DAY%s TO SECOND%s" % (
type_.day_precision is not None and
"(%d)" % type_.day_precision or
"",
type_.second_precision is not None and
"(%d)" % type_.second_precision or
"",
)
def visit_LONG(self, type_, **kw):
return "LONG"
def visit_TIMESTAMP(self, type_, **kw):
if type_.timezone:
return "TIMESTAMP WITH TIME ZONE"
else:
return "TIMESTAMP"
def visit_DOUBLE_PRECISION(self, type_, **kw):
return self._generate_numeric(type_, "DOUBLE PRECISION", **kw)
def visit_BINARY_DOUBLE(self, type_, **kw):
return self._generate_numeric(type_, "BINARY_DOUBLE", **kw)
def visit_BINARY_FLOAT(self, type_, **kw):
return self._generate_numeric(type_, "BINARY_FLOAT", **kw)
def visit_NUMBER(self, type_, **kw):
return self._generate_numeric(type_, "NUMBER", **kw)
def _generate_numeric(self, type_, name, precision=None, scale=None, **kw):
if precision is None:
precision = type_.precision
if scale is None:
scale = getattr(type_, 'scale', None)
if precision is None:
return name
elif scale is None:
n = "%(name)s(%(precision)s)"
return n % {'name': name, 'precision': precision}
else:
n = "%(name)s(%(precision)s, %(scale)s)"
return n % {'name': name, 'precision': precision, 'scale': scale}
def visit_string(self, type_, **kw):
return self.visit_VARCHAR2(type_, **kw)
def visit_VARCHAR2(self, type_, **kw):
return self._visit_varchar(type_, '', '2')
def visit_NVARCHAR2(self, type_, **kw):
return self._visit_varchar(type_, 'N', '2')
visit_NVARCHAR = visit_NVARCHAR2
def visit_VARCHAR(self, type_, **kw):
return self._visit_varchar(type_, '', '')
def _visit_varchar(self, type_, n, num):
if not type_.length:
return "%(n)sVARCHAR%(two)s" % {'two': num, 'n': n}
elif not n and self.dialect._supports_char_length:
varchar = "VARCHAR%(two)s(%(length)s CHAR)"
return varchar % {'length': type_.length, 'two': num}
else:
varchar = "%(n)sVARCHAR%(two)s(%(length)s)"
return varchar % {'length': type_.length, 'two': num, 'n': n}
def visit_text(self, type_, **kw):
return self.visit_CLOB(type_, **kw)
def visit_unicode_text(self, type_, **kw):
if self.dialect._supports_nchar:
return self.visit_NCLOB(type_, **kw)
else:
return self.visit_CLOB(type_, **kw)
def visit_large_binary(self, type_, **kw):
return self.visit_BLOB(type_, **kw)
def visit_big_integer(self, type_, **kw):
return self.visit_NUMBER(type_, precision=19, **kw)
def visit_boolean(self, type_, **kw):
return self.visit_SMALLINT(type_, **kw)
def visit_RAW(self, type_, **kw):
if type_.length:
return "RAW(%(length)s)" % {'length': type_.length}
else:
return "RAW"
def visit_ROWID(self, type_, **kw):
return "ROWID"
class OracleCompiler(compiler.SQLCompiler):
"""Oracle compiler modifies the lexical structure of Select
statements to work under non-ANSI configured Oracle databases, if
the use_ansi flag is False.
"""
compound_keywords = util.update_copy(
compiler.SQLCompiler.compound_keywords,
{
expression.CompoundSelect.EXCEPT: 'MINUS'
}
)
def __init__(self, *args, **kwargs):
self.__wheres = {}
self._quoted_bind_names = {}
super(OracleCompiler, self).__init__(*args, **kwargs)
def visit_mod_binary(self, binary, operator, **kw):
return "mod(%s, %s)" % (self.process(binary.left, **kw),
self.process(binary.right, **kw))
def visit_now_func(self, fn, **kw):
return "CURRENT_TIMESTAMP"
def visit_char_length_func(self, fn, **kw):
return "LENGTH" + self.function_argspec(fn, **kw)
def visit_match_op_binary(self, binary, operator, **kw):
return "CONTAINS (%s, %s)" % (self.process(binary.left),
self.process(binary.right))
def visit_true(self, expr, **kw):
return '1'
def visit_false(self, expr, **kw):
return '0'
def get_cte_preamble(self, recursive):
return "WITH"
def get_select_hint_text(self, byfroms):
return " ".join(
"/*+ %s */" % text for table, text in byfroms.items()
)
def function_argspec(self, fn, **kw):
if len(fn.clauses) > 0 or fn.name.upper() not in NO_ARG_FNS:
return compiler.SQLCompiler.function_argspec(self, fn, **kw)
else:
return ""
def default_from(self):
"""Called when a ``SELECT`` statement has no froms,
and no ``FROM`` clause is to be appended.
The Oracle compiler tacks a "FROM DUAL" to the statement.
"""
return " FROM DUAL"
def visit_join(self, join, **kwargs):
if self.dialect.use_ansi:
return compiler.SQLCompiler.visit_join(self, join, **kwargs)
else:
kwargs['asfrom'] = True
if isinstance(join.right, expression.FromGrouping):
right = join.right.element
else:
right = join.right
return self.process(join.left, **kwargs) + \
", " + self.process(right, **kwargs)
def _get_nonansi_join_whereclause(self, froms):
clauses = []
def visit_join(join):
if join.isouter:
# https://docs.oracle.com/database/121/SQLRF/queries006.htm#SQLRF52354
# "apply the outer join operator (+) to all columns of B in
# the join condition in the WHERE clause" - that is,
# unconditionally regardless of operator or the other side
def visit_binary(binary):
if isinstance(binary.left, expression.ColumnClause) \
and join.right.is_derived_from(binary.left.table):
binary.left = _OuterJoinColumn(binary.left)
elif isinstance(binary.right, expression.ColumnClause) \
and join.right.is_derived_from(binary.right.table):
binary.right = _OuterJoinColumn(binary.right)
clauses.append(visitors.cloned_traverse(
join.onclause, {}, {'binary': visit_binary}))
else:
clauses.append(join.onclause)
for j in join.left, join.right:
if isinstance(j, expression.Join):
visit_join(j)
elif isinstance(j, expression.FromGrouping):
visit_join(j.element)
for f in froms:
if isinstance(f, expression.Join):
visit_join(f)
if not clauses:
return None
else:
return sql.and_(*clauses)
def visit_outer_join_column(self, vc, **kw):
return self.process(vc.column, **kw) + "(+)"
def visit_sequence(self, seq):
return (self.dialect.identifier_preparer.format_sequence(seq) +
".nextval")
def get_render_as_alias_suffix(self, alias_name_text):
"""Oracle doesn't like ``FROM table AS alias``"""
return " " + alias_name_text
def returning_clause(self, stmt, returning_cols):
columns = []
binds = []
for i, column in enumerate(
expression._select_iterables(returning_cols)):
if column.type._has_column_expression:
col_expr = column.type.column_expression(column)
else:
col_expr = column
outparam = sql.outparam("ret_%d" % i, type_=column.type)
self.binds[outparam.key] = outparam
binds.append(
self.bindparam_string(self._truncate_bindparam(outparam)))
columns.append(
self.process(col_expr, within_columns_clause=False))
self._add_to_result_map(
getattr(col_expr, 'name', col_expr.anon_label),
getattr(col_expr, 'name', col_expr.anon_label),
(column, getattr(column, 'name', None),
getattr(column, 'key', None)),
column.type
)
return 'RETURNING ' + ', '.join(columns) + " INTO " + ", ".join(binds)
def _TODO_visit_compound_select(self, select):
"""Need to determine how to get ``LIMIT``/``OFFSET`` into a
``UNION`` for Oracle.
"""
pass
def visit_select(self, select, **kwargs):
"""Look for ``LIMIT`` and OFFSET in a select statement, and if
so tries to wrap it in a subquery with ``rownum`` criterion.
"""
if not getattr(select, '_oracle_visit', None):
if not self.dialect.use_ansi:
froms = self._display_froms_for_select(
select, kwargs.get('asfrom', False))
whereclause = self._get_nonansi_join_whereclause(froms)
if whereclause is not None:
select = select.where(whereclause)
select._oracle_visit = True
limit_clause = select._limit_clause
offset_clause = select._offset_clause
if limit_clause is not None or offset_clause is not None:
# See http://www.oracle.com/technology/oramag/oracle/06-sep/\
# o56asktom.html
#
# Generalized form of an Oracle pagination query:
# select ... from (
# select /*+ FIRST_ROWS(N) */ ...., rownum as ora_rn from
# ( select distinct ... where ... order by ...
# ) where ROWNUM <= :limit+:offset
# ) where ora_rn > :offset
# Outer select and "ROWNUM as ora_rn" can be dropped if
# limit=0
kwargs['select_wraps_for'] = select
select = select._generate()
select._oracle_visit = True
# Wrap the middle select and add the hint
limitselect = sql.select([c for c in select.c])
if limit_clause is not None and \
self.dialect.optimize_limits and \
select._simple_int_limit:
limitselect = limitselect.prefix_with(
"/*+ FIRST_ROWS(%d) */" %
select._limit)
limitselect._oracle_visit = True
limitselect._is_wrapper = True
# add expressions to accommodate FOR UPDATE OF
for_update = select._for_update_arg
if for_update is not None and for_update.of:
for_update = for_update._clone()
for_update._copy_internals()
for elem in for_update.of:
select.append_column(elem)
adapter = sql_util.ClauseAdapter(select)
for_update.of = [
adapter.traverse(elem)
for elem in for_update.of]
# If needed, add the limiting clause
if limit_clause is not None:
if not self.dialect.use_binds_for_limits:
# use simple int limits, will raise an exception
# if the limit isn't specified this way
max_row = select._limit
if offset_clause is not None:
max_row += select._offset
max_row = sql.literal_column("%d" % max_row)
else:
max_row = limit_clause
if offset_clause is not None:
max_row = max_row + offset_clause
limitselect.append_whereclause(
sql.literal_column("ROWNUM") <= max_row)
# If needed, add the ora_rn, and wrap again with offset.
if offset_clause is None:
limitselect._for_update_arg = for_update
select = limitselect
else:
limitselect = limitselect.column(
sql.literal_column("ROWNUM").label("ora_rn"))
limitselect._oracle_visit = True
limitselect._is_wrapper = True
offsetselect = sql.select(
[c for c in limitselect.c if c.key != 'ora_rn'])
offsetselect._oracle_visit = True
offsetselect._is_wrapper = True
if for_update is not None and for_update.of:
for elem in for_update.of:
if limitselect.corresponding_column(elem) is None:
limitselect.append_column(elem)
if not self.dialect.use_binds_for_limits:
offset_clause = sql.literal_column(
"%d" % select._offset)
offsetselect.append_whereclause(
sql.literal_column("ora_rn") > offset_clause)
offsetselect._for_update_arg = for_update
select = offsetselect
return compiler.SQLCompiler.visit_select(self, select, **kwargs)
def limit_clause(self, select, **kw):
return ""
def for_update_clause(self, select, **kw):
if self.is_subquery():
return ""
tmp = ' FOR UPDATE'
if select._for_update_arg.of:
tmp += ' OF ' + ', '.join(
self.process(elem, **kw) for elem in
select._for_update_arg.of
)
if select._for_update_arg.nowait:
tmp += " NOWAIT"
if select._for_update_arg.skip_locked:
tmp += " SKIP LOCKED"
return tmp
class OracleDDLCompiler(compiler.DDLCompiler):
def define_constraint_cascades(self, constraint):
text = ""
if constraint.ondelete is not None:
text += " ON DELETE %s" % constraint.ondelete
# oracle has no ON UPDATE CASCADE -
# its only available via triggers
# http://asktom.oracle.com/tkyte/update_cascade/index.html
if constraint.onupdate is not None:
util.warn(
"Oracle does not contain native UPDATE CASCADE "
"functionality - onupdates will not be rendered for foreign "
"keys. Consider using deferrable=True, initially='deferred' "
"or triggers.")
return text
def visit_create_index(self, create):
index = create.element
self._verify_index_table(index)
preparer = self.preparer
text = "CREATE "
if index.unique:
text += "UNIQUE "
if index.dialect_options['oracle']['bitmap']:
text += "BITMAP "
text += "INDEX %s ON %s (%s)" % (
self._prepared_index_name(index, include_schema=True),
preparer.format_table(index.table, use_schema=True),
', '.join(
self.sql_compiler.process(
expr,
include_table=False, literal_binds=True)
for expr in index.expressions)
)
if index.dialect_options['oracle']['compress'] is not False:
if index.dialect_options['oracle']['compress'] is True:
text += " COMPRESS"
else:
text += " COMPRESS %d" % (
index.dialect_options['oracle']['compress']
)
return text
def post_create_table(self, table):
table_opts = []
opts = table.dialect_options['oracle']
if opts['on_commit']:
on_commit_options = opts['on_commit'].replace("_", " ").upper()
table_opts.append('\n ON COMMIT %s' % on_commit_options)
if opts['compress']:
if opts['compress'] is True:
table_opts.append("\n COMPRESS")
else:
table_opts.append("\n COMPRESS FOR %s" % (
opts['compress']
))
return ''.join(table_opts)
class OracleIdentifierPreparer(compiler.IdentifierPreparer):
reserved_words = {x.lower() for x in RESERVED_WORDS}
illegal_initial_characters = {str(dig) for dig in range(0, 10)} \
.union(["_", "$"])
def _bindparam_requires_quotes(self, value):
"""Return True if the given identifier requires quoting."""
lc_value = value.lower()
return (lc_value in self.reserved_words
or value[0] in self.illegal_initial_characters
or not self.legal_characters.match(util.text_type(value))
)
def format_savepoint(self, savepoint):
name = savepoint.ident.lstrip('_')
return super(
OracleIdentifierPreparer, self).format_savepoint(savepoint, name)
class OracleExecutionContext(default.DefaultExecutionContext):
def fire_sequence(self, seq, type_):
return self._execute_scalar(
"SELECT " +
self.dialect.identifier_preparer.format_sequence(seq) +
".nextval FROM DUAL", type_)
class OracleDialect(default.DefaultDialect):
name = 'oracle'
supports_alter = True
supports_unicode_statements = False
supports_unicode_binds = False
max_identifier_length = 30
supports_simple_order_by_label = False
supports_sequences = True
sequences_optional = False
postfetch_lastrowid = False
default_paramstyle = 'named'
colspecs = colspecs
ischema_names = ischema_names
requires_name_normalize = True
supports_comments = True
supports_default_values = False
supports_empty_insert = False
statement_compiler = OracleCompiler
ddl_compiler = OracleDDLCompiler
type_compiler = OracleTypeCompiler
preparer = OracleIdentifierPreparer
execution_ctx_cls = OracleExecutionContext
reflection_options = ('oracle_resolve_synonyms', )
construct_arguments = [
(sa_schema.Table, {
"resolve_synonyms": False,
"on_commit": None,
"compress": False
}),
(sa_schema.Index, {
"bitmap": False,
"compress": False
})
]
def __init__(self,
use_ansi=True,
optimize_limits=False,
use_binds_for_limits=True,
exclude_tablespaces=('SYSTEM', 'SYSAUX', ),
**kwargs):
default.DefaultDialect.__init__(self, **kwargs)
self.use_ansi = use_ansi
self.optimize_limits = optimize_limits
self.use_binds_for_limits = use_binds_for_limits
self.exclude_tablespaces = exclude_tablespaces
def initialize(self, connection):
super(OracleDialect, self).initialize(connection)
self.implicit_returning = self.__dict__.get(
'implicit_returning',
self.server_version_info > (10, )
)
if self._is_oracle_8:
self.colspecs = self.colspecs.copy()
self.colspecs.pop(sqltypes.Interval)
self.use_ansi = False
@property
def _is_oracle_8(self):
return self.server_version_info and \
self.server_version_info < (9, )
@property
def _supports_table_compression(self):
return self.server_version_info and \
self.server_version_info >= (10, 1, )
@property
def _supports_table_compress_for(self):
return self.server_version_info and \
self.server_version_info >= (11, )
@property
def _supports_char_length(self):
return not self._is_oracle_8
@property
def _supports_nchar(self):
return not self._is_oracle_8
def do_release_savepoint(self, connection, name):
# Oracle does not support RELEASE SAVEPOINT
pass
def has_table(self, connection, table_name, schema=None):
if not schema:
schema = self.default_schema_name
cursor = connection.execute(
sql.text("SELECT table_name FROM all_tables "
"WHERE table_name = :name AND owner = :schema_name"),
name=self.denormalize_name(table_name),
schema_name=self.denormalize_name(schema))
return cursor.first() is not None
def has_sequence(self, connection, sequence_name, schema=None):
if not schema:
schema = self.default_schema_name
cursor = connection.execute(
sql.text("SELECT sequence_name FROM all_sequences "
"WHERE sequence_name = :name AND "
"sequence_owner = :schema_name"),
name=self.denormalize_name(sequence_name),
schema_name=self.denormalize_name(schema))
return cursor.first() is not None
def normalize_name(self, name):
if name is None:
return None
if util.py2k:
if isinstance(name, str):
name = name.decode(self.encoding)
if name.upper() == name and not \
self.identifier_preparer._requires_quotes(name.lower()):
return name.lower()
elif name.lower() == name:
return quoted_name(name, quote=True)
else:
return name
def denormalize_name(self, name):
if name is None:
return None
elif name.lower() == name and not \
self.identifier_preparer._requires_quotes(name.lower()):
name = name.upper()
if util.py2k:
if not self.supports_unicode_binds:
name = name.encode(self.encoding)
else:
name = unicode(name)
return name
def _get_default_schema_name(self, connection):
return self.normalize_name(
connection.execute('SELECT USER FROM DUAL').scalar())
def _resolve_synonym(self, connection, desired_owner=None,
desired_synonym=None, desired_table=None):
"""search for a local synonym matching the given desired owner/name.
if desired_owner is None, attempts to locate a distinct owner.
returns the actual name, owner, dblink name, and synonym name if
found.
"""
q = "SELECT owner, table_owner, table_name, db_link, "\
"synonym_name FROM all_synonyms WHERE "
clauses = []
params = {}
if desired_synonym:
clauses.append("synonym_name = :synonym_name")
params['synonym_name'] = desired_synonym
if desired_owner:
clauses.append("owner = :desired_owner")
params['desired_owner'] = desired_owner
if desired_table:
clauses.append("table_name = :tname")
params['tname'] = desired_table
q += " AND ".join(clauses)
result = connection.execute(sql.text(q), **params)
if desired_owner:
row = result.first()
if row:
return (row['table_name'], row['table_owner'],
row['db_link'], row['synonym_name'])
else:
return None, None, None, None
else:
rows = result.fetchall()
if len(rows) > 1:
raise AssertionError(
"There are multiple tables visible to the schema, you "
"must specify owner")
elif len(rows) == 1:
row = rows[0]
return (row['table_name'], row['table_owner'],
row['db_link'], row['synonym_name'])
else:
return None, None, None, None
@reflection.cache
def _prepare_reflection_args(self, connection, table_name, schema=None,
resolve_synonyms=False, dblink='', **kw):
if resolve_synonyms:
actual_name, owner, dblink, synonym = self._resolve_synonym(
connection,
desired_owner=self.denormalize_name(schema),
desired_synonym=self.denormalize_name(table_name)
)
else:
actual_name, owner, dblink, synonym = None, None, None, None
if not actual_name:
actual_name = self.denormalize_name(table_name)
if dblink:
# using user_db_links here since all_db_links appears
# to have more restricted permissions.
# http://docs.oracle.com/cd/B28359_01/server.111/b28310/ds_admin005.htm
# will need to hear from more users if we are doing
# the right thing here. See [ticket:2619]
owner = connection.scalar(
sql.text("SELECT username FROM user_db_links "
"WHERE db_link=:link"), link=dblink)
dblink = "@" + dblink
elif not owner:
owner = self.denormalize_name(schema or self.default_schema_name)
return (actual_name, owner, dblink or '', synonym)
@reflection.cache
def get_schema_names(self, connection, **kw):
s = "SELECT username FROM all_users ORDER BY username"
cursor = connection.execute(s,)
return [self.normalize_name(row[0]) for row in cursor]
@reflection.cache
def get_table_names(self, connection, schema=None, **kw):
schema = self.denormalize_name(schema or self.default_schema_name)
# note that table_names() isn't loading DBLINKed or synonym'ed tables
if schema is None:
schema = self.default_schema_name
sql_str = "SELECT table_name FROM all_tables WHERE "
if self.exclude_tablespaces:
sql_str += (
"nvl(tablespace_name, 'no tablespace') "
"NOT IN (%s) AND " % (
', '.join(["'%s'" % ts for ts in self.exclude_tablespaces])
)
)
sql_str += (
"OWNER = :owner "
"AND IOT_NAME IS NULL "
"AND DURATION IS NULL")
cursor = connection.execute(sql.text(sql_str), owner=schema)
return [self.normalize_name(row[0]) for row in cursor]
@reflection.cache
def get_temp_table_names(self, connection, **kw):
schema = self.denormalize_name(self.default_schema_name)
sql_str = "SELECT table_name FROM all_tables WHERE "
if self.exclude_tablespaces:
sql_str += (
"nvl(tablespace_name, 'no tablespace') "
"NOT IN (%s) AND " % (
', '.join(["'%s'" % ts for ts in self.exclude_tablespaces])
)
)
sql_str += (
"OWNER = :owner "
"AND IOT_NAME IS NULL "
"AND DURATION IS NOT NULL")
cursor = connection.execute(sql.text(sql_str), owner=schema)
return [self.normalize_name(row[0]) for row in cursor]
@reflection.cache
def get_view_names(self, connection, schema=None, **kw):
schema = self.denormalize_name(schema or self.default_schema_name)
s = sql.text("SELECT view_name FROM all_views WHERE owner = :owner")
cursor = connection.execute(s, owner=self.denormalize_name(schema))
return [self.normalize_name(row[0]) for row in cursor]
@reflection.cache
def get_table_options(self, connection, table_name, schema=None, **kw):
options = {}
resolve_synonyms = kw.get('oracle_resolve_synonyms', False)
dblink = kw.get('dblink', '')
info_cache = kw.get('info_cache')
(table_name, schema, dblink, synonym) = \
self._prepare_reflection_args(connection, table_name, schema,
resolve_synonyms, dblink,
info_cache=info_cache)
params = {"table_name": table_name}
columns = ["table_name"]
if self._supports_table_compression:
columns.append("compression")
if self._supports_table_compress_for:
columns.append("compress_for")
text = "SELECT %(columns)s "\
"FROM ALL_TABLES%(dblink)s "\
"WHERE table_name = :table_name"
if schema is not None:
params['owner'] = schema
text += " AND owner = :owner "
text = text % {'dblink': dblink, 'columns': ", ".join(columns)}
result = connection.execute(sql.text(text), **params)
enabled = dict(DISABLED=False, ENABLED=True)
row = result.first()
if row:
if "compression" in row and enabled.get(row.compression, False):
if "compress_for" in row:
options['oracle_compress'] = row.compress_for
else:
options['oracle_compress'] = True
return options
@reflection.cache
def get_columns(self, connection, table_name, schema=None, **kw):
"""
kw arguments can be:
oracle_resolve_synonyms
dblink
"""
resolve_synonyms = kw.get('oracle_resolve_synonyms', False)
dblink = kw.get('dblink', '')
info_cache = kw.get('info_cache')
(table_name, schema, dblink, synonym) = \
self._prepare_reflection_args(connection, table_name, schema,
resolve_synonyms, dblink,
info_cache=info_cache)
columns = []
if self._supports_char_length:
char_length_col = 'char_length'
else:
char_length_col = 'data_length'
params = {"table_name": table_name}
text = """
SELECT col.column_name, col.data_type, col.%(char_length_col)s,
col.data_precision, col.data_scale, col.nullable,
col.data_default, com.comments\
FROM all_tab_columns%(dblink)s col
LEFT JOIN all_col_comments%(dblink)s com
ON col.table_name = com.table_name
AND col.column_name = com.column_name
AND col.owner = com.owner
WHERE col.table_name = :table_name
"""
if schema is not None:
params['owner'] = schema
text += " AND col.owner = :owner "
text += " ORDER BY col.column_id"
text = text % {'dblink': dblink, 'char_length_col': char_length_col}
c = connection.execute(sql.text(text), **params)
for row in c:
colname = self.normalize_name(row[0])
orig_colname = row[0]
coltype = row[1]
length = row[2]
precision = row[3]
scale = row[4]
nullable = row[5] == 'Y'
default = row[6]
comment = row[7]
if coltype == 'NUMBER':
coltype = NUMBER(precision, scale)
elif coltype in ('VARCHAR2', 'NVARCHAR2', 'CHAR'):
coltype = self.ischema_names.get(coltype)(length)
elif 'WITH TIME ZONE' in coltype:
coltype = TIMESTAMP(timezone=True)
else:
coltype = re.sub(r'\(\d+\)', '', coltype)
try:
coltype = self.ischema_names[coltype]
except KeyError:
util.warn("Did not recognize type '%s' of column '%s'" %
(coltype, colname))
coltype = sqltypes.NULLTYPE
cdict = {
'name': colname,
'type': coltype,
'nullable': nullable,
'default': default,
'autoincrement': 'auto',
'comment': comment,
}
if orig_colname.lower() == orig_colname:
cdict['quote'] = True
columns.append(cdict)
return columns
@reflection.cache
def get_table_comment(self, connection, table_name, schema=None,
resolve_synonyms=False, dblink='', **kw):
info_cache = kw.get('info_cache')
(table_name, schema, dblink, synonym) = \
self._prepare_reflection_args(connection, table_name, schema,
resolve_synonyms, dblink,
info_cache=info_cache)
COMMENT_SQL = """
SELECT comments
FROM user_tab_comments
WHERE table_name = :table_name
"""
c = connection.execute(sql.text(COMMENT_SQL), table_name=table_name)
return {"text": c.scalar()}
@reflection.cache
def get_indexes(self, connection, table_name, schema=None,
resolve_synonyms=False, dblink='', **kw):
info_cache = kw.get('info_cache')
(table_name, schema, dblink, synonym) = \
self._prepare_reflection_args(connection, table_name, schema,
resolve_synonyms, dblink,
info_cache=info_cache)
indexes = []
params = {'table_name': table_name}
text = \
"SELECT a.index_name, a.column_name, "\
"\nb.index_type, b.uniqueness, b.compression, b.prefix_length "\
"\nFROM ALL_IND_COLUMNS%(dblink)s a, "\
"\nALL_INDEXES%(dblink)s b "\
"\nWHERE "\
"\na.index_name = b.index_name "\
"\nAND a.table_owner = b.table_owner "\
"\nAND a.table_name = b.table_name "\
"\nAND a.table_name = :table_name "
if schema is not None:
params['schema'] = schema
text += "AND a.table_owner = :schema "
text += "ORDER BY a.index_name, a.column_position"
text = text % {'dblink': dblink}
q = sql.text(text)
rp = connection.execute(q, **params)
indexes = []
last_index_name = None
pk_constraint = self.get_pk_constraint(
connection, table_name, schema, resolve_synonyms=resolve_synonyms,
dblink=dblink, info_cache=kw.get('info_cache'))
pkeys = pk_constraint['constrained_columns']
uniqueness = dict(NONUNIQUE=False, UNIQUE=True)
enabled = dict(DISABLED=False, ENABLED=True)
oracle_sys_col = re.compile(r'SYS_NC\d+\$', re.IGNORECASE)
index = None
for rset in rp:
if rset.index_name != last_index_name:
index = dict(name=self.normalize_name(rset.index_name),
column_names=[], dialect_options={})
indexes.append(index)
index['unique'] = uniqueness.get(rset.uniqueness, False)
if rset.index_type in ('BITMAP', 'FUNCTION-BASED BITMAP'):
index['dialect_options']['oracle_bitmap'] = True
if enabled.get(rset.compression, False):
index['dialect_options']['oracle_compress'] = rset.prefix_length
# filter out Oracle SYS_NC names. could also do an outer join
# to the all_tab_columns table and check for real col names there.
if not oracle_sys_col.match(rset.column_name):
index['column_names'].append(
self.normalize_name(rset.column_name))
last_index_name = rset.index_name
def upper_name_set(names):
return {i.upper() for i in names}
pk_names = upper_name_set(pkeys)
if pk_names:
def is_pk_index(index):
# don't include the primary key index
return upper_name_set(index['column_names']) == pk_names
indexes = [idx for idx in indexes if not is_pk_index(idx)]
return indexes
@reflection.cache
def _get_constraint_data(self, connection, table_name, schema=None,
dblink='', **kw):
params = {'table_name': table_name}
text = (
"SELECT"
"\nac.constraint_name," # 0
"\nac.constraint_type," # 1
"\nloc.column_name AS local_column," # 2
"\nrem.table_name AS remote_table," # 3
"\nrem.column_name AS remote_column," # 4
"\nrem.owner AS remote_owner," # 5
"\nloc.position as loc_pos," # 6
"\nrem.position as rem_pos," # 7
"\nac.search_condition," # 8
"\nac.delete_rule" # 9
"\nFROM all_constraints%(dblink)s ac,"
"\nall_cons_columns%(dblink)s loc,"
"\nall_cons_columns%(dblink)s rem"
"\nWHERE ac.table_name = :table_name"
"\nAND ac.constraint_type IN ('R','P', 'U', 'C')"
)
if schema is not None:
params['owner'] = schema
text += "\nAND ac.owner = :owner"
text += (
"\nAND ac.owner = loc.owner"
"\nAND ac.constraint_name = loc.constraint_name"
"\nAND ac.r_owner = rem.owner(+)"
"\nAND ac.r_constraint_name = rem.constraint_name(+)"
"\nAND (rem.position IS NULL or loc.position=rem.position)"
"\nORDER BY ac.constraint_name, loc.position"
)
text = text % {'dblink': dblink}
rp = connection.execute(sql.text(text), **params)
constraint_data = rp.fetchall()
return constraint_data
@reflection.cache
def get_pk_constraint(self, connection, table_name, schema=None, **kw):
resolve_synonyms = kw.get('oracle_resolve_synonyms', False)
dblink = kw.get('dblink', '')
info_cache = kw.get('info_cache')
(table_name, schema, dblink, synonym) = \
self._prepare_reflection_args(connection, table_name, schema,
resolve_synonyms, dblink,
info_cache=info_cache)
pkeys = []
constraint_name = None
constraint_data = self._get_constraint_data(
connection, table_name, schema, dblink,
info_cache=kw.get('info_cache'))
for row in constraint_data:
(cons_name, cons_type, local_column, remote_table, remote_column, remote_owner) = \
row[0:2] + tuple([self.normalize_name(x) for x in row[2:6]])
if cons_type == 'P':
if constraint_name is None:
constraint_name = self.normalize_name(cons_name)
pkeys.append(local_column)
return {'constrained_columns': pkeys, 'name': constraint_name}
@reflection.cache
def get_foreign_keys(self, connection, table_name, schema=None, **kw):
"""
kw arguments can be:
oracle_resolve_synonyms
dblink
"""
requested_schema = schema # to check later on
resolve_synonyms = kw.get('oracle_resolve_synonyms', False)
dblink = kw.get('dblink', '')
info_cache = kw.get('info_cache')
(table_name, schema, dblink, synonym) = \
self._prepare_reflection_args(connection, table_name, schema,
resolve_synonyms, dblink,
info_cache=info_cache)
constraint_data = self._get_constraint_data(
connection, table_name, schema, dblink,
info_cache=kw.get('info_cache'))
def fkey_rec():
return {
'name': None,
'constrained_columns': [],
'referred_schema': None,
'referred_table': None,
'referred_columns': [],
'options': {},
}
fkeys = util.defaultdict(fkey_rec)
for row in constraint_data:
(cons_name, cons_type, local_column, remote_table, remote_column, remote_owner) = \
row[0:2] + tuple([self.normalize_name(x) for x in row[2:6]])
cons_name = self.normalize_name(cons_name)
if cons_type == 'R':
if remote_table is None:
# ticket 363
util.warn(
("Got 'None' querying 'table_name' from "
"all_cons_columns%(dblink)s - does the user have "
"proper rights to the table?") % {'dblink': dblink})
continue
rec = fkeys[cons_name]
rec['name'] = cons_name
local_cols, remote_cols = rec[
'constrained_columns'], rec['referred_columns']
if not rec['referred_table']:
if resolve_synonyms:
ref_remote_name, ref_remote_owner, ref_dblink, ref_synonym = \
self._resolve_synonym(
connection,
desired_owner=self.denormalize_name(
remote_owner),
desired_table=self.denormalize_name(
remote_table)
)
if ref_synonym:
remote_table = self.normalize_name(ref_synonym)
remote_owner = self.normalize_name(
ref_remote_owner)
rec['referred_table'] = remote_table
if requested_schema is not None or \
self.denormalize_name(remote_owner) != schema:
rec['referred_schema'] = remote_owner
if row[9] != 'NO ACTION':
rec['options']['ondelete'] = row[9]
local_cols.append(local_column)
remote_cols.append(remote_column)
return list(fkeys.values())
@reflection.cache
def get_unique_constraints(self, connection, table_name, schema=None, **kw):
resolve_synonyms = kw.get('oracle_resolve_synonyms', False)
dblink = kw.get('dblink', '')
info_cache = kw.get('info_cache')
(table_name, schema, dblink, synonym) = \
self._prepare_reflection_args(connection, table_name, schema,
resolve_synonyms, dblink,
info_cache=info_cache)
constraint_data = self._get_constraint_data(
connection, table_name, schema, dblink,
info_cache=kw.get('info_cache'))
unique_keys = filter(lambda x: x[1] == 'U', constraint_data)
uniques_group = groupby(unique_keys, lambda x: x[0])
index_names = set([ix['name'] for ix in self.get_indexes(connection, table_name, schema=schema)])
return [
{
'name': name,
'column_names': cols,
'duplicates_index': name if name in index_names else None
}
for name, cols in
[
[
self.normalize_name(i[0]),
[self.normalize_name(x[2]) for x in i[1]]
] for i in uniques_group
]
]
@reflection.cache
def get_view_definition(self, connection, view_name, schema=None,
resolve_synonyms=False, dblink='', **kw):
info_cache = kw.get('info_cache')
(view_name, schema, dblink, synonym) = \
self._prepare_reflection_args(connection, view_name, schema,
resolve_synonyms, dblink,
info_cache=info_cache)
params = {'view_name': view_name}
text = "SELECT text FROM all_views WHERE view_name=:view_name"
if schema is not None:
text += " AND owner = :schema"
params['schema'] = schema
rp = connection.execute(sql.text(text), **params).scalar()
if rp:
if util.py2k:
rp = rp.decode(self.encoding)
return rp
else:
return None
@reflection.cache
def get_check_constraints(self, connection, table_name, schema=None,
include_all=False, **kw):
resolve_synonyms = kw.get('oracle_resolve_synonyms', False)
dblink = kw.get('dblink', '')
info_cache = kw.get('info_cache')
(table_name, schema, dblink, synonym) = \
self._prepare_reflection_args(connection, table_name, schema,
resolve_synonyms, dblink,
info_cache=info_cache)
constraint_data = self._get_constraint_data(
connection, table_name, schema, dblink,
info_cache=kw.get('info_cache'))
check_constraints = filter(lambda x: x[1] == 'C', constraint_data)
return [
{
'name': self.normalize_name(cons[0]),
'sqltext': cons[8],
}
for cons in check_constraints if include_all or
not re.match(r'..+?. IS NOT NULL$', cons[8])]
class _OuterJoinColumn(sql.ClauseElement):
__visit_name__ = 'outer_join_column'
def __init__(self, column):
self.column = column
| gpl-3.0 |
xq262144/hue | desktop/core/ext-py/cryptography-1.3.1/src/_cffi_src/commoncrypto/common_digest.py | 10 | 1574 | # This file is dual licensed under the terms of the Apache License, Version
# 2.0, and the BSD License. See the LICENSE file in the root of this repository
# for complete details.
from __future__ import absolute_import, division, print_function
INCLUDES = """
#include <CommonCrypto/CommonDigest.h>
"""
TYPES = """
typedef uint32_t CC_LONG;
typedef uint64_t CC_LONG64;
typedef struct CC_MD5state_st {
...;
} CC_MD5_CTX;
typedef struct CC_SHA1state_st {
...;
} CC_SHA1_CTX;
typedef struct CC_SHA256state_st {
...;
} CC_SHA256_CTX;
typedef struct CC_SHA512state_st {
...;
} CC_SHA512_CTX;
"""
FUNCTIONS = """
int CC_MD5_Init(CC_MD5_CTX *);
int CC_MD5_Update(CC_MD5_CTX *, const void *, CC_LONG);
int CC_MD5_Final(unsigned char *, CC_MD5_CTX *);
int CC_SHA1_Init(CC_SHA1_CTX *);
int CC_SHA1_Update(CC_SHA1_CTX *, const void *, CC_LONG);
int CC_SHA1_Final(unsigned char *, CC_SHA1_CTX *);
int CC_SHA224_Init(CC_SHA256_CTX *);
int CC_SHA224_Update(CC_SHA256_CTX *, const void *, CC_LONG);
int CC_SHA224_Final(unsigned char *, CC_SHA256_CTX *);
int CC_SHA256_Init(CC_SHA256_CTX *);
int CC_SHA256_Update(CC_SHA256_CTX *, const void *, CC_LONG);
int CC_SHA256_Final(unsigned char *, CC_SHA256_CTX *);
int CC_SHA384_Init(CC_SHA512_CTX *);
int CC_SHA384_Update(CC_SHA512_CTX *, const void *, CC_LONG);
int CC_SHA384_Final(unsigned char *, CC_SHA512_CTX *);
int CC_SHA512_Init(CC_SHA512_CTX *);
int CC_SHA512_Update(CC_SHA512_CTX *, const void *, CC_LONG);
int CC_SHA512_Final(unsigned char *, CC_SHA512_CTX *);
"""
MACROS = """
"""
CUSTOMIZATIONS = """
"""
| apache-2.0 |
steedos/odoo7 | openerp/addons/account_voucher/wizard/__init__.py | 79 | 1084 | # -*- 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_statement_from_invoice
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
| agpl-3.0 |
frederick-masterton/django | tests/user_commands/tests.py | 53 | 2946 | import os
import sys
from django.core import management
from django.core.management import CommandError
from django.core.management.utils import find_command, popen_wrapper
from django.test import SimpleTestCase
from django.utils import translation
from django.utils.six import StringIO
class CommandTests(SimpleTestCase):
def test_command(self):
out = StringIO()
management.call_command('dance', stdout=out)
self.assertEqual(out.getvalue(),
"I don't feel like dancing Rock'n'Roll.\n")
def test_command_style(self):
out = StringIO()
management.call_command('dance', style='Jive', stdout=out)
self.assertEqual(out.getvalue(),
"I don't feel like dancing Jive.\n")
def test_language_preserved(self):
out = StringIO()
with translation.override('fr'):
management.call_command('dance', stdout=out)
self.assertEqual(translation.get_language(), 'fr')
def test_explode(self):
""" Test that an unknown command raises CommandError """
self.assertRaises(CommandError, management.call_command, ('explode',))
def test_system_exit(self):
""" Exception raised in a command should raise CommandError with
call_command, but SystemExit when run from command line
"""
with self.assertRaises(CommandError):
management.call_command('dance', example="raise")
old_stderr = sys.stderr
sys.stderr = err = StringIO()
try:
with self.assertRaises(SystemExit):
management.ManagementUtility(['manage.py', 'dance', '--example=raise']).execute()
finally:
sys.stderr = old_stderr
self.assertIn("CommandError", err.getvalue())
def test_default_en_us_locale_set(self):
# Forces en_us when set to true
out = StringIO()
with translation.override('pl'):
management.call_command('leave_locale_alone_false', stdout=out)
self.assertEqual(out.getvalue(), "en-us\n")
def test_configured_locale_preserved(self):
# Leaves locale from settings when set to false
out = StringIO()
with translation.override('pl'):
management.call_command('leave_locale_alone_true', stdout=out)
self.assertEqual(out.getvalue(), "pl\n")
def test_find_command_without_PATH(self):
"""
find_command should still work when the PATH environment variable
doesn't exist (#22256).
"""
current_path = os.environ.pop('PATH', None)
try:
self.assertIsNone(find_command('_missing_'))
finally:
if current_path is not None:
os.environ['PATH'] = current_path
class UtilsTests(SimpleTestCase):
def test_no_existent_external_program(self):
self.assertRaises(CommandError, popen_wrapper, ['a_42_command_that_doesnt_exist_42'])
| bsd-3-clause |
freezmeinster/avagata-site | django/conf/locale/cs/formats.py | 232 | 1288 | # -*- encoding: utf-8 -*-
# This file is distributed under the same license as the Django package.
#
# The *_FORMAT strings use the Django date format syntax,
# see http://docs.djangoproject.com/en/dev/ref/templates/builtins/#date
DATE_FORMAT = 'j. E Y'
TIME_FORMAT = 'G:i:s'
DATETIME_FORMAT = 'j. E Y G:i:s'
YEAR_MONTH_FORMAT = 'F Y'
MONTH_DAY_FORMAT = 'j. F'
SHORT_DATE_FORMAT = 'd.m.Y'
SHORT_DATETIME_FORMAT = 'd.m.Y G:i:s'
FIRST_DAY_OF_WEEK = 1 # Monday
# The *_INPUT_FORMATS strings use the Python strftime format syntax,
# see http://docs.python.org/library/datetime.html#strftime-strptime-behavior
DATE_INPUT_FORMATS = (
'%d.%m.%Y', '%d.%m.%y', # '25.10.2006', '25.10.06'
'%Y-%m-%d', '%y-%m-%d', # '2006-10-25', '06-10-25'
# '%d. %B %Y', '%d. %b. %Y', # '25. October 2006', '25. Oct. 2006'
)
TIME_INPUT_FORMATS = (
'%H:%M:%S', # '14:30:59'
'%H:%M', # '14:30'
)
DATETIME_INPUT_FORMATS = (
'%d.%m.%Y %H:%M:%S', # '25.10.2006 14:30:59'
'%d.%m.%Y %H:%M', # '25.10.2006 14:30'
'%d.%m.%Y', # '25.10.2006'
'%Y-%m-%d %H:%M:%S', # '2006-10-25 14:30:59'
'%Y-%m-%d %H:%M', # '2006-10-25 14:30'
'%Y-%m-%d', # '2006-10-25'
)
DECIMAL_SEPARATOR = ','
THOUSAND_SEPARATOR = ' '
NUMBER_GROUPING = 3
| bsd-3-clause |
eternnoir/VSTools | VSTools/fortify.py | 1 | 3867 | # -*- coding: utf-8 -*-
__author__ = 'eternnoir'
import os
from subprocess import Popen, PIPE
SOURCEANALYZERBIN = 'sourceanalyzer'
def __build_dll_args__(folder_path):
ret = ["-libdirs"]
dll_list = get_all_dll_path(folder_path)
if len(dll_list) == 0:
return []
dll_path_string = ""
for dll_path in dll_list:
dll_path_string += dll_path + ";"
ret.append(dll_path_string)
return ret
class FortifySCA(object):
def __init__(self, bin_path=SOURCEANALYZERBIN, min_mem=400, max_mem=2048, vs_version='11.0', debug=False):
self.vs_version = vs_version
self.max_mem = max_mem
self.min_mem = min_mem
self.bin_path = bin_path
self.debug = debug
def scan(self, build_id, path, output_frp, pdf_filename=None, need_clean=True, load_dlls=True):
self.__check_sca_bin__()
if need_clean:
self.__print__("Start Clean.")
r, output = self.clean(build_id, path)
if not r:
self.__print__(output)
raise Exception("Clean Fail.")
dll_args = []
if load_dlls:
dll_args = __build_dll_args__(path)
self.__print__("Start Translating.")
r, output = self.translating(build_id, path, args=dll_args)
self.__print__(output)
if not r:
raise Exception("Transtating Fail.")
self.__print__("Start Scan.")
command = [self.bin_path, self.__build_max_memory_command__(), self.__build_min_memory_command__(),
'-vsversion', self.vs_version, '-b', build_id, '-scan',
'-f', output_frp]
p = Popen(command, stdout=PIPE, stderr=PIPE)
output, err = p.communicate()
self.__print__(output)
self.__print__(err)
if p.returncode != 0:
return False, output
return True, output
def translating(self, build_id, path, args=[]):
command = [self.bin_path, self.__build_max_memory_command__(), self.__build_min_memory_command__(),
'-vsversion', self.vs_version, '-b', build_id]
for arg in args:
command.append(arg)
command.append(os.path.abspath(path))
p = Popen(command, stdout=PIPE, stderr=PIPE, cwd=path)
output, err = p.communicate()
self.__print__(output)
self.__print__(err)
if p.returncode != 0:
return False, output
return True, output
def clean(self, build_id, path):
command = [self.bin_path, self.__build_max_memory_command__(), self.__build_min_memory_command__(),
'-vsversion', self.vs_version, '-b', build_id, '-clean']
p = Popen(command, stdout=PIPE, stderr=PIPE, cwd=path)
output, err = p.communicate()
self.__print__(output)
self.__print__(err)
if p.returncode != 0:
return False, output
return True, output
def __check_parama__(self):
if not self.__check_sca_bin__():
raise Exception('SCA bin sourceanalyzer not found.')
def __check_sca_bin__(self):
command = [self.bin_path, '-h']
p = Popen(command, stdout=PIPE, stderr=PIPE)
output, err = p.communicate()
if p.returncode != 0:
print(output)
return False
def __build_max_memory_command__(self):
return "-Xmx" + str(self.max_mem) + "M"
def __build_min_memory_command__(self):
return "-Xms" + str(self.min_mem) + "M"
def __print__(self, message):
if self.debug:
print(message)
def get_all_dll_path(folder_path):
ret = []
import os
for root, dirs, files in os.walk(folder_path):
for file in files:
if file.endswith(".dll"):
ret.append(os.path.abspath(os.path.join(root, file)))
return ret | apache-2.0 |
mojaie/kiwiii-server | kiwiii/parser/SpectraMaxM2.py | 1 | 1126 |
import csv
def content_loader(lines):
"""Load datafile from SpectraMax M2.
TODO: multilayer
Args:
lines: lines of input file (or file object)
Returns:
parsed data
"""
bs = 20 # block_size
bo = 1 # block_offset
pr = 16 # plate_rows
ro = 2 # row_offset
pc = 24 # plate_cols
co = 2 # col_offset
raw = [row for row in csv.reader(lines, delimiter="\t")]
blocks = [raw[i*bs+bo:(i + 1)*bs+bo] for i in range(len(raw) // bs)]
parsed = {"plates": []}
for block in blocks:
plate = {}
plate["plateId"] = block[0][1]
plate["layerIndex"] = 0
plate["wellValues"] = []
for row in block[ro:ro+pr]:
for cell in row[co:co+pc]:
try:
value = float(cell)
except ValueError:
value = "NaN"
plate["wellValues"].append(value)
parsed["plates"].append(plate)
return parsed
def file_loader(path):
with open(path, encoding="shift-jis", newline="") as f:
results = content_loader(f)
return results
| mit |
Eagles2F/werkzeug | tests/test_wrappers.py | 22 | 34007 | # -*- coding: utf-8 -*-
"""
tests.wrappers
~~~~~~~~~~~~~~
Tests for the response and request objects.
:copyright: (c) 2014 by Armin Ronacher.
:license: BSD, see LICENSE for more details.
"""
import pytest
import pickle
from io import BytesIO
from datetime import datetime
from werkzeug._compat import iteritems
from tests import strict_eq
from werkzeug import wrappers
from werkzeug.exceptions import SecurityError
from werkzeug.wsgi import LimitedStream
from werkzeug.datastructures import MultiDict, ImmutableOrderedMultiDict, \
ImmutableList, ImmutableTypeConversionDict, CharsetAccept, \
MIMEAccept, LanguageAccept, Accept, CombinedMultiDict
from werkzeug.test import Client, create_environ, run_wsgi_app
from werkzeug._compat import implements_iterator, text_type
class RequestTestResponse(wrappers.BaseResponse):
"""Subclass of the normal response class we use to test response
and base classes. Has some methods to test if things in the
response match.
"""
def __init__(self, response, status, headers):
wrappers.BaseResponse.__init__(self, response, status, headers)
self.body_data = pickle.loads(self.get_data())
def __getitem__(self, key):
return self.body_data[key]
def request_demo_app(environ, start_response):
request = wrappers.BaseRequest(environ)
assert 'werkzeug.request' in environ
start_response('200 OK', [('Content-Type', 'text/plain')])
return [pickle.dumps({
'args': request.args,
'args_as_list': list(request.args.lists()),
'form': request.form,
'form_as_list': list(request.form.lists()),
'environ': prepare_environ_pickle(request.environ),
'data': request.get_data()
})]
def prepare_environ_pickle(environ):
result = {}
for key, value in iteritems(environ):
try:
pickle.dumps((key, value))
except Exception:
continue
result[key] = value
return result
def assert_environ(environ, method):
strict_eq(environ['REQUEST_METHOD'], method)
strict_eq(environ['PATH_INFO'], '/')
strict_eq(environ['SCRIPT_NAME'], '')
strict_eq(environ['SERVER_NAME'], 'localhost')
strict_eq(environ['wsgi.version'], (1, 0))
strict_eq(environ['wsgi.url_scheme'], 'http')
def test_base_request():
client = Client(request_demo_app, RequestTestResponse)
# get requests
response = client.get('/?foo=bar&foo=hehe')
strict_eq(response['args'], MultiDict([('foo', u'bar'), ('foo', u'hehe')]))
strict_eq(response['args_as_list'], [('foo', [u'bar', u'hehe'])])
strict_eq(response['form'], MultiDict())
strict_eq(response['form_as_list'], [])
strict_eq(response['data'], b'')
assert_environ(response['environ'], 'GET')
# post requests with form data
response = client.post('/?blub=blah', data='foo=blub+hehe&blah=42',
content_type='application/x-www-form-urlencoded')
strict_eq(response['args'], MultiDict([('blub', u'blah')]))
strict_eq(response['args_as_list'], [('blub', [u'blah'])])
strict_eq(response['form'], MultiDict([('foo', u'blub hehe'), ('blah', u'42')]))
strict_eq(response['data'], b'')
# currently we do not guarantee that the values are ordered correctly
# for post data.
# strict_eq(response['form_as_list'], [('foo', ['blub hehe']), ('blah', ['42'])])
assert_environ(response['environ'], 'POST')
# patch requests with form data
response = client.patch('/?blub=blah', data='foo=blub+hehe&blah=42',
content_type='application/x-www-form-urlencoded')
strict_eq(response['args'], MultiDict([('blub', u'blah')]))
strict_eq(response['args_as_list'], [('blub', [u'blah'])])
strict_eq(response['form'],
MultiDict([('foo', u'blub hehe'), ('blah', u'42')]))
strict_eq(response['data'], b'')
assert_environ(response['environ'], 'PATCH')
# post requests with json data
json = b'{"foo": "bar", "blub": "blah"}'
response = client.post('/?a=b', data=json, content_type='application/json')
strict_eq(response['data'], json)
strict_eq(response['args'], MultiDict([('a', u'b')]))
strict_eq(response['form'], MultiDict())
def test_query_string_is_bytes():
req = wrappers.Request.from_values(u'/?foo=%2f')
strict_eq(req.query_string, b'foo=%2f')
def test_request_repr():
req = wrappers.Request.from_values('/foobar')
assert "<Request 'http://localhost/foobar' [GET]>" == repr(req)
# test with non-ascii characters
req = wrappers.Request.from_values('/привет')
assert "<Request 'http://localhost/привет' [GET]>" == repr(req)
# test with unicode type for python 2
req = wrappers.Request.from_values(u'/привет')
assert "<Request 'http://localhost/привет' [GET]>" == repr(req)
def test_access_route():
req = wrappers.Request.from_values(headers={
'X-Forwarded-For': '192.168.1.2, 192.168.1.1'
})
req.environ['REMOTE_ADDR'] = '192.168.1.3'
assert req.access_route == ['192.168.1.2', '192.168.1.1']
strict_eq(req.remote_addr, '192.168.1.3')
req = wrappers.Request.from_values()
req.environ['REMOTE_ADDR'] = '192.168.1.3'
strict_eq(list(req.access_route), ['192.168.1.3'])
def test_url_request_descriptors():
req = wrappers.Request.from_values('/bar?foo=baz', 'http://example.com/test')
strict_eq(req.path, u'/bar')
strict_eq(req.full_path, u'/bar?foo=baz')
strict_eq(req.script_root, u'/test')
strict_eq(req.url, u'http://example.com/test/bar?foo=baz')
strict_eq(req.base_url, u'http://example.com/test/bar')
strict_eq(req.url_root, u'http://example.com/test/')
strict_eq(req.host_url, u'http://example.com/')
strict_eq(req.host, 'example.com')
strict_eq(req.scheme, 'http')
req = wrappers.Request.from_values('/bar?foo=baz', 'https://example.com/test')
strict_eq(req.scheme, 'https')
def test_url_request_descriptors_query_quoting():
next = 'http%3A%2F%2Fwww.example.com%2F%3Fnext%3D%2Fbaz%23my%3Dhash'
req = wrappers.Request.from_values('/bar?next=' + next, 'http://example.com/')
assert req.path == u'/bar'
strict_eq(req.full_path, u'/bar?next=' + next)
strict_eq(req.url, u'http://example.com/bar?next=' + next)
def test_url_request_descriptors_hosts():
req = wrappers.Request.from_values('/bar?foo=baz', 'http://example.com/test')
req.trusted_hosts = ['example.com']
strict_eq(req.path, u'/bar')
strict_eq(req.full_path, u'/bar?foo=baz')
strict_eq(req.script_root, u'/test')
strict_eq(req.url, u'http://example.com/test/bar?foo=baz')
strict_eq(req.base_url, u'http://example.com/test/bar')
strict_eq(req.url_root, u'http://example.com/test/')
strict_eq(req.host_url, u'http://example.com/')
strict_eq(req.host, 'example.com')
strict_eq(req.scheme, 'http')
req = wrappers.Request.from_values('/bar?foo=baz', 'https://example.com/test')
strict_eq(req.scheme, 'https')
req = wrappers.Request.from_values('/bar?foo=baz', 'http://example.com/test')
req.trusted_hosts = ['example.org']
pytest.raises(SecurityError, lambda: req.url)
pytest.raises(SecurityError, lambda: req.base_url)
pytest.raises(SecurityError, lambda: req.url_root)
pytest.raises(SecurityError, lambda: req.host_url)
pytest.raises(SecurityError, lambda: req.host)
def test_authorization_mixin():
request = wrappers.Request.from_values(headers={
'Authorization': 'Basic QWxhZGRpbjpvcGVuIHNlc2FtZQ=='
})
a = request.authorization
strict_eq(a.type, 'basic')
strict_eq(a.username, 'Aladdin')
strict_eq(a.password, 'open sesame')
def test_stream_only_mixing():
request = wrappers.PlainRequest.from_values(
data=b'foo=blub+hehe',
content_type='application/x-www-form-urlencoded'
)
assert list(request.files.items()) == []
assert list(request.form.items()) == []
pytest.raises(AttributeError, lambda: request.data)
strict_eq(request.stream.read(), b'foo=blub+hehe')
def test_base_response():
# unicode
response = wrappers.BaseResponse(u'öäü')
strict_eq(response.get_data(), u'öäü'.encode('utf-8'))
# writing
response = wrappers.Response('foo')
response.stream.write('bar')
strict_eq(response.get_data(), b'foobar')
# set cookie
response = wrappers.BaseResponse()
response.set_cookie('foo', 'bar', 60, 0, '/blub', 'example.org')
strict_eq(response.headers.to_wsgi_list(), [
('Content-Type', 'text/plain; charset=utf-8'),
('Set-Cookie', 'foo=bar; Domain=example.org; Expires=Thu, '
'01-Jan-1970 00:00:00 GMT; Max-Age=60; Path=/blub')
])
# delete cookie
response = wrappers.BaseResponse()
response.delete_cookie('foo')
strict_eq(response.headers.to_wsgi_list(), [
('Content-Type', 'text/plain; charset=utf-8'),
('Set-Cookie', 'foo=; Expires=Thu, 01-Jan-1970 00:00:00 GMT; Max-Age=0; Path=/')
])
# close call forwarding
closed = []
@implements_iterator
class Iterable(object):
def __next__(self):
raise StopIteration()
def __iter__(self):
return self
def close(self):
closed.append(True)
response = wrappers.BaseResponse(Iterable())
response.call_on_close(lambda: closed.append(True))
app_iter, status, headers = run_wsgi_app(response,
create_environ(),
buffered=True)
strict_eq(status, '200 OK')
strict_eq(''.join(app_iter), '')
strict_eq(len(closed), 2)
# with statement
del closed[:]
response = wrappers.BaseResponse(Iterable())
with response:
pass
assert len(closed) == 1
def test_response_status_codes():
response = wrappers.BaseResponse()
response.status_code = 404
strict_eq(response.status, '404 NOT FOUND')
response.status = '200 OK'
strict_eq(response.status_code, 200)
response.status = '999 WTF'
strict_eq(response.status_code, 999)
response.status_code = 588
strict_eq(response.status_code, 588)
strict_eq(response.status, '588 UNKNOWN')
response.status = 'wtf'
strict_eq(response.status_code, 0)
strict_eq(response.status, '0 wtf')
def test_type_forcing():
def wsgi_application(environ, start_response):
start_response('200 OK', [('Content-Type', 'text/html')])
return ['Hello World!']
base_response = wrappers.BaseResponse('Hello World!', content_type='text/html')
class SpecialResponse(wrappers.Response):
def foo(self):
return 42
# good enough for this simple application, but don't ever use that in
# real world examples!
fake_env = {}
for orig_resp in wsgi_application, base_response:
response = SpecialResponse.force_type(orig_resp, fake_env)
assert response.__class__ is SpecialResponse
strict_eq(response.foo(), 42)
strict_eq(response.get_data(), b'Hello World!')
assert response.content_type == 'text/html'
# without env, no arbitrary conversion
pytest.raises(TypeError, SpecialResponse.force_type, wsgi_application)
def test_accept_mixin():
request = wrappers.Request({
'HTTP_ACCEPT': 'text/xml,application/xml,application/xhtml+xml,'
'text/html;q=0.9,text/plain;q=0.8,image/png,*/*;q=0.5',
'HTTP_ACCEPT_CHARSET': 'ISO-8859-1,utf-8;q=0.7,*;q=0.7',
'HTTP_ACCEPT_ENCODING': 'gzip,deflate',
'HTTP_ACCEPT_LANGUAGE': 'en-us,en;q=0.5'
})
assert request.accept_mimetypes == MIMEAccept([
('text/xml', 1), ('image/png', 1), ('application/xml', 1),
('application/xhtml+xml', 1), ('text/html', 0.9),
('text/plain', 0.8), ('*/*', 0.5)
])
strict_eq(request.accept_charsets, CharsetAccept([
('ISO-8859-1', 1), ('utf-8', 0.7), ('*', 0.7)
]))
strict_eq(request.accept_encodings, Accept([
('gzip', 1), ('deflate', 1)]))
strict_eq(request.accept_languages, LanguageAccept([
('en-us', 1), ('en', 0.5)]))
request = wrappers.Request({'HTTP_ACCEPT': ''})
strict_eq(request.accept_mimetypes, MIMEAccept())
def test_etag_request_mixin():
request = wrappers.Request({
'HTTP_CACHE_CONTROL': 'no-store, no-cache',
'HTTP_IF_MATCH': 'w/"foo", bar, "baz"',
'HTTP_IF_NONE_MATCH': 'w/"foo", bar, "baz"',
'HTTP_IF_MODIFIED_SINCE': 'Tue, 22 Jan 2008 11:18:44 GMT',
'HTTP_IF_UNMODIFIED_SINCE': 'Tue, 22 Jan 2008 11:18:44 GMT'
})
assert request.cache_control.no_store
assert request.cache_control.no_cache
for etags in request.if_match, request.if_none_match:
assert etags('bar')
assert etags.contains_raw('w/"foo"')
assert etags.contains_weak('foo')
assert not etags.contains('foo')
assert request.if_modified_since == datetime(2008, 1, 22, 11, 18, 44)
assert request.if_unmodified_since == datetime(2008, 1, 22, 11, 18, 44)
def test_user_agent_mixin():
user_agents = [
('Mozilla/5.0 (Macintosh; U; Intel Mac OS X; en-US; rv:1.8.1.11) '
'Gecko/20071127 Firefox/2.0.0.11', 'firefox', 'macos', '2.0.0.11',
'en-US'),
('Mozilla/4.0 (compatible; MSIE 6.0; Windows NT 5.1; de-DE) Opera 8.54',
'opera', 'windows', '8.54', 'de-DE'),
('Mozilla/5.0 (iPhone; U; CPU like Mac OS X; en) AppleWebKit/420 '
'(KHTML, like Gecko) Version/3.0 Mobile/1A543a Safari/419.3',
'safari', 'iphone', '3.0', 'en'),
('Bot Googlebot/2.1 ( http://www.googlebot.com/bot.html)',
'google', None, '2.1', None),
('Mozilla/5.0 (X11; CrOS armv7l 3701.81.0) AppleWebKit/537.31 '
'(KHTML, like Gecko) Chrome/26.0.1410.57 Safari/537.31',
'chrome', 'chromeos', '26.0.1410.57', None),
('Mozilla/5.0 (Windows NT 6.3; Trident/7.0; .NET4.0E; rv:11.0) like Gecko',
'msie', 'windows', '11.0', None),
('Mozilla/5.0 (SymbianOS/9.3; Series60/3.2 NokiaE5-00/101.003; '
'Profile/MIDP-2.1 Configuration/CLDC-1.1 ) AppleWebKit/533.4 (KHTML, like Gecko) '
'NokiaBrowser/7.3.1.35 Mobile Safari/533.4 3gpp-gba',
'safari', 'symbian', '533.4', None)
]
for ua, browser, platform, version, lang in user_agents:
request = wrappers.Request({'HTTP_USER_AGENT': ua})
strict_eq(request.user_agent.browser, browser)
strict_eq(request.user_agent.platform, platform)
strict_eq(request.user_agent.version, version)
strict_eq(request.user_agent.language, lang)
assert bool(request.user_agent)
strict_eq(request.user_agent.to_header(), ua)
strict_eq(str(request.user_agent), ua)
request = wrappers.Request({'HTTP_USER_AGENT': 'foo'})
assert not request.user_agent
def test_stream_wrapping():
class LowercasingStream(object):
def __init__(self, stream):
self._stream = stream
def read(self, size=-1):
return self._stream.read(size).lower()
def readline(self, size=-1):
return self._stream.readline(size).lower()
data = b'foo=Hello+World'
req = wrappers.Request.from_values(
'/', method='POST', data=data,
content_type='application/x-www-form-urlencoded')
req.stream = LowercasingStream(req.stream)
assert req.form['foo'] == 'hello world'
def test_data_descriptor_triggers_parsing():
data = b'foo=Hello+World'
req = wrappers.Request.from_values(
'/', method='POST', data=data,
content_type='application/x-www-form-urlencoded')
assert req.data == b''
assert req.form['foo'] == u'Hello World'
def test_get_data_method_parsing_caching_behavior():
data = b'foo=Hello+World'
req = wrappers.Request.from_values(
'/', method='POST', data=data,
content_type='application/x-www-form-urlencoded')
# get_data() caches, so form stays available
assert req.get_data() == data
assert req.form['foo'] == u'Hello World'
assert req.get_data() == data
# here we access the form data first, caching is bypassed
req = wrappers.Request.from_values(
'/', method='POST', data=data,
content_type='application/x-www-form-urlencoded')
assert req.form['foo'] == u'Hello World'
assert req.get_data() == b''
# Another case is uncached get data which trashes everything
req = wrappers.Request.from_values(
'/', method='POST', data=data,
content_type='application/x-www-form-urlencoded')
assert req.get_data(cache=False) == data
assert req.get_data(cache=False) == b''
assert req.form == {}
# Or we can implicitly start the form parser which is similar to
# the old .data behavior
req = wrappers.Request.from_values(
'/', method='POST', data=data,
content_type='application/x-www-form-urlencoded')
assert req.get_data(parse_form_data=True) == b''
assert req.form['foo'] == u'Hello World'
def test_etag_response_mixin():
response = wrappers.Response('Hello World')
assert response.get_etag() == (None, None)
response.add_etag()
assert response.get_etag() == ('b10a8db164e0754105b7a99be72e3fe5', False)
assert not response.cache_control
response.cache_control.must_revalidate = True
response.cache_control.max_age = 60
response.headers['Content-Length'] = len(response.get_data())
assert response.headers['Cache-Control'] in ('must-revalidate, max-age=60',
'max-age=60, must-revalidate')
assert 'date' not in response.headers
env = create_environ()
env.update({
'REQUEST_METHOD': 'GET',
'HTTP_IF_NONE_MATCH': response.get_etag()[0]
})
response.make_conditional(env)
assert 'date' in response.headers
# after the thing is invoked by the server as wsgi application
# (we're emulating this here), there must not be any entity
# headers left and the status code would have to be 304
resp = wrappers.Response.from_app(response, env)
assert resp.status_code == 304
assert 'content-length' not in resp.headers
# make sure date is not overriden
response = wrappers.Response('Hello World')
response.date = 1337
d = response.date
response.make_conditional(env)
assert response.date == d
# make sure content length is only set if missing
response = wrappers.Response('Hello World')
response.content_length = 999
response.make_conditional(env)
assert response.content_length == 999
def test_etag_response_mixin_freezing():
class WithFreeze(wrappers.ETagResponseMixin, wrappers.BaseResponse):
pass
class WithoutFreeze(wrappers.BaseResponse, wrappers.ETagResponseMixin):
pass
response = WithFreeze('Hello World')
response.freeze()
strict_eq(response.get_etag(),
(text_type(wrappers.generate_etag(b'Hello World')), False))
response = WithoutFreeze('Hello World')
response.freeze()
assert response.get_etag() == (None, None)
response = wrappers.Response('Hello World')
response.freeze()
assert response.get_etag() == (None, None)
def test_authenticate_mixin():
resp = wrappers.Response()
resp.www_authenticate.type = 'basic'
resp.www_authenticate.realm = 'Testing'
strict_eq(resp.headers['WWW-Authenticate'], u'Basic realm="Testing"')
resp.www_authenticate.realm = None
resp.www_authenticate.type = None
assert 'WWW-Authenticate' not in resp.headers
def test_authenticate_mixin_quoted_qop():
# Example taken from https://github.com/mitsuhiko/werkzeug/issues/633
resp = wrappers.Response()
resp.www_authenticate.set_digest('REALM', 'NONCE', qop=("auth", "auth-int"))
actual = set((resp.headers['WWW-Authenticate'] + ',').split())
expected = set('Digest nonce="NONCE", realm="REALM", qop="auth, auth-int",'.split())
assert actual == expected
resp.www_authenticate.set_digest('REALM', 'NONCE', qop=("auth",))
actual = set((resp.headers['WWW-Authenticate'] + ',').split())
expected = set('Digest nonce="NONCE", realm="REALM", qop="auth",'.split())
assert actual == expected
def test_response_stream_mixin():
response = wrappers.Response()
response.stream.write('Hello ')
response.stream.write('World!')
assert response.response == ['Hello ', 'World!']
assert response.get_data() == b'Hello World!'
def test_common_response_descriptors_mixin():
response = wrappers.Response()
response.mimetype = 'text/html'
assert response.mimetype == 'text/html'
assert response.content_type == 'text/html; charset=utf-8'
assert response.mimetype_params == {'charset': 'utf-8'}
response.mimetype_params['x-foo'] = 'yep'
del response.mimetype_params['charset']
assert response.content_type == 'text/html; x-foo=yep'
now = datetime.utcnow().replace(microsecond=0)
assert response.content_length is None
response.content_length = '42'
assert response.content_length == 42
for attr in 'date', 'age', 'expires':
assert getattr(response, attr) is None
setattr(response, attr, now)
assert getattr(response, attr) == now
assert response.retry_after is None
response.retry_after = now
assert response.retry_after == now
assert not response.vary
response.vary.add('Cookie')
response.vary.add('Content-Language')
assert 'cookie' in response.vary
assert response.vary.to_header() == 'Cookie, Content-Language'
response.headers['Vary'] = 'Content-Encoding'
assert response.vary.as_set() == set(['content-encoding'])
response.allow.update(['GET', 'POST'])
assert response.headers['Allow'] == 'GET, POST'
response.content_language.add('en-US')
response.content_language.add('fr')
assert response.headers['Content-Language'] == 'en-US, fr'
def test_common_request_descriptors_mixin():
request = wrappers.Request.from_values(
content_type='text/html; charset=utf-8',
content_length='23',
headers={
'Referer': 'http://www.example.com/',
'Date': 'Sat, 28 Feb 2009 19:04:35 GMT',
'Max-Forwards': '10',
'Pragma': 'no-cache',
'Content-Encoding': 'gzip',
'Content-MD5': '9a3bc6dbc47a70db25b84c6e5867a072'
}
)
assert request.content_type == 'text/html; charset=utf-8'
assert request.mimetype == 'text/html'
assert request.mimetype_params == {'charset': 'utf-8'}
assert request.content_length == 23
assert request.referrer == 'http://www.example.com/'
assert request.date == datetime(2009, 2, 28, 19, 4, 35)
assert request.max_forwards == 10
assert 'no-cache' in request.pragma
assert request.content_encoding == 'gzip'
assert request.content_md5 == '9a3bc6dbc47a70db25b84c6e5867a072'
def test_request_mimetype_always_lowercase():
request = wrappers.Request.from_values(content_type='APPLICATION/JSON')
assert request.mimetype == 'application/json'
def test_shallow_mode():
request = wrappers.Request({'QUERY_STRING': 'foo=bar'}, shallow=True)
assert request.args['foo'] == 'bar'
pytest.raises(RuntimeError, lambda: request.form['foo'])
def test_form_parsing_failed():
data = (
b'--blah\r\n'
)
data = wrappers.Request.from_values(
input_stream=BytesIO(data),
content_length=len(data),
content_type='multipart/form-data; boundary=foo',
method='POST'
)
assert not data.files
assert not data.form
def test_file_closing():
data = (b'--foo\r\n'
b'Content-Disposition: form-data; name="foo"; filename="foo.txt"\r\n'
b'Content-Type: text/plain; charset=utf-8\r\n\r\n'
b'file contents, just the contents\r\n'
b'--foo--')
req = wrappers.Request.from_values(
input_stream=BytesIO(data),
content_length=len(data),
content_type='multipart/form-data; boundary=foo',
method='POST'
)
foo = req.files['foo']
assert foo.mimetype == 'text/plain'
assert foo.filename == 'foo.txt'
assert foo.closed is False
req.close()
assert foo.closed is True
def test_file_closing_with():
data = (b'--foo\r\n'
b'Content-Disposition: form-data; name="foo"; filename="foo.txt"\r\n'
b'Content-Type: text/plain; charset=utf-8\r\n\r\n'
b'file contents, just the contents\r\n'
b'--foo--')
req = wrappers.Request.from_values(
input_stream=BytesIO(data),
content_length=len(data),
content_type='multipart/form-data; boundary=foo',
method='POST'
)
with req:
foo = req.files['foo']
assert foo.mimetype == 'text/plain'
assert foo.filename == 'foo.txt'
assert foo.closed is True
def test_url_charset_reflection():
req = wrappers.Request.from_values()
req.charset = 'utf-7'
assert req.url_charset == 'utf-7'
def test_response_streamed():
r = wrappers.Response()
assert not r.is_streamed
r = wrappers.Response("Hello World")
assert not r.is_streamed
r = wrappers.Response(["foo", "bar"])
assert not r.is_streamed
def gen():
if 0:
yield None
r = wrappers.Response(gen())
assert r.is_streamed
def test_response_iter_wrapping():
def uppercasing(iterator):
for item in iterator:
yield item.upper()
def generator():
yield 'foo'
yield 'bar'
req = wrappers.Request.from_values()
resp = wrappers.Response(generator())
del resp.headers['Content-Length']
resp.response = uppercasing(resp.iter_encoded())
actual_resp = wrappers.Response.from_app(resp, req.environ, buffered=True)
assert actual_resp.get_data() == b'FOOBAR'
def test_response_freeze():
def generate():
yield "foo"
yield "bar"
resp = wrappers.Response(generate())
resp.freeze()
assert resp.response == [b'foo', b'bar']
assert resp.headers['content-length'] == '6'
def test_other_method_payload():
data = b'Hello World'
req = wrappers.Request.from_values(input_stream=BytesIO(data),
content_length=len(data),
content_type='text/plain',
method='WHAT_THE_FUCK')
assert req.get_data() == data
assert isinstance(req.stream, LimitedStream)
def test_urlfication():
resp = wrappers.Response()
resp.headers['Location'] = u'http://üser:pässword@☃.net/påth'
resp.headers['Content-Location'] = u'http://☃.net/'
headers = resp.get_wsgi_headers(create_environ())
assert headers['location'] == \
'http://%C3%BCser:p%C3%A4ssword@xn--n3h.net/p%C3%A5th'
assert headers['content-location'] == 'http://xn--n3h.net/'
def test_new_response_iterator_behavior():
req = wrappers.Request.from_values()
resp = wrappers.Response(u'Hello Wörld!')
def get_content_length(resp):
headers = resp.get_wsgi_headers(req.environ)
return headers.get('content-length', type=int)
def generate_items():
yield "Hello "
yield u"Wörld!"
# werkzeug encodes when set to `data` now, which happens
# if a string is passed to the response object.
assert resp.response == [u'Hello Wörld!'.encode('utf-8')]
assert resp.get_data() == u'Hello Wörld!'.encode('utf-8')
assert get_content_length(resp) == 13
assert not resp.is_streamed
assert resp.is_sequence
# try the same for manual assignment
resp.set_data(u'Wörd')
assert resp.response == [u'Wörd'.encode('utf-8')]
assert resp.get_data() == u'Wörd'.encode('utf-8')
assert get_content_length(resp) == 5
assert not resp.is_streamed
assert resp.is_sequence
# automatic generator sequence conversion
resp.response = generate_items()
assert resp.is_streamed
assert not resp.is_sequence
assert resp.get_data() == u'Hello Wörld!'.encode('utf-8')
assert resp.response == [b'Hello ', u'Wörld!'.encode('utf-8')]
assert not resp.is_streamed
assert resp.is_sequence
# automatic generator sequence conversion
resp.response = generate_items()
resp.implicit_sequence_conversion = False
assert resp.is_streamed
assert not resp.is_sequence
pytest.raises(RuntimeError, lambda: resp.get_data())
resp.make_sequence()
assert resp.get_data() == u'Hello Wörld!'.encode('utf-8')
assert resp.response == [b'Hello ', u'Wörld!'.encode('utf-8')]
assert not resp.is_streamed
assert resp.is_sequence
# stream makes it a list no matter how the conversion is set
for val in True, False:
resp.implicit_sequence_conversion = val
resp.response = ("foo", "bar")
assert resp.is_sequence
resp.stream.write('baz')
assert resp.response == ['foo', 'bar', 'baz']
def test_form_data_ordering():
class MyRequest(wrappers.Request):
parameter_storage_class = ImmutableOrderedMultiDict
req = MyRequest.from_values('/?foo=1&bar=0&foo=3')
assert list(req.args) == ['foo', 'bar']
assert list(req.args.items(multi=True)) == [
('foo', '1'),
('bar', '0'),
('foo', '3')
]
assert isinstance(req.args, ImmutableOrderedMultiDict)
assert isinstance(req.values, CombinedMultiDict)
assert req.values['foo'] == '1'
assert req.values.getlist('foo') == ['1', '3']
def test_storage_classes():
class MyRequest(wrappers.Request):
dict_storage_class = dict
list_storage_class = list
parameter_storage_class = dict
req = MyRequest.from_values('/?foo=baz', headers={
'Cookie': 'foo=bar'
})
assert type(req.cookies) is dict
assert req.cookies == {'foo': 'bar'}
assert type(req.access_route) is list
assert type(req.args) is dict
assert type(req.values) is CombinedMultiDict
assert req.values['foo'] == u'baz'
req = wrappers.Request.from_values(headers={
'Cookie': 'foo=bar'
})
assert type(req.cookies) is ImmutableTypeConversionDict
assert req.cookies == {'foo': 'bar'}
assert type(req.access_route) is ImmutableList
MyRequest.list_storage_class = tuple
req = MyRequest.from_values()
assert type(req.access_route) is tuple
def test_response_headers_passthrough():
headers = wrappers.Headers()
resp = wrappers.Response(headers=headers)
assert resp.headers is headers
def test_response_304_no_content_length():
resp = wrappers.Response('Test', status=304)
env = create_environ()
assert 'content-length' not in resp.get_wsgi_headers(env)
def test_ranges():
# basic range stuff
req = wrappers.Request.from_values()
assert req.range is None
req = wrappers.Request.from_values(headers={'Range': 'bytes=0-499'})
assert req.range.ranges == [(0, 500)]
resp = wrappers.Response()
resp.content_range = req.range.make_content_range(1000)
assert resp.content_range.units == 'bytes'
assert resp.content_range.start == 0
assert resp.content_range.stop == 500
assert resp.content_range.length == 1000
assert resp.headers['Content-Range'] == 'bytes 0-499/1000'
resp.content_range.unset()
assert 'Content-Range' not in resp.headers
resp.headers['Content-Range'] = 'bytes 0-499/1000'
assert resp.content_range.units == 'bytes'
assert resp.content_range.start == 0
assert resp.content_range.stop == 500
assert resp.content_range.length == 1000
def test_auto_content_length():
resp = wrappers.Response('Hello World!')
assert resp.content_length == 12
resp = wrappers.Response(['Hello World!'])
assert resp.content_length is None
assert resp.get_wsgi_headers({})['Content-Length'] == '12'
def test_stream_content_length():
resp = wrappers.Response()
resp.stream.writelines(['foo', 'bar', 'baz'])
assert resp.get_wsgi_headers({})['Content-Length'] == '9'
resp = wrappers.Response()
resp.make_conditional({'REQUEST_METHOD': 'GET'})
resp.stream.writelines(['foo', 'bar', 'baz'])
assert resp.get_wsgi_headers({})['Content-Length'] == '9'
resp = wrappers.Response('foo')
resp.stream.writelines(['bar', 'baz'])
assert resp.get_wsgi_headers({})['Content-Length'] == '9'
def test_disabled_auto_content_length():
class MyResponse(wrappers.Response):
automatically_set_content_length = False
resp = MyResponse('Hello World!')
assert resp.content_length is None
resp = MyResponse(['Hello World!'])
assert resp.content_length is None
assert 'Content-Length' not in resp.get_wsgi_headers({})
resp = MyResponse()
resp.make_conditional({
'REQUEST_METHOD': 'GET'
})
assert resp.content_length is None
assert 'Content-Length' not in resp.get_wsgi_headers({})
def test_location_header_autocorrect():
env = create_environ()
class MyResponse(wrappers.Response):
autocorrect_location_header = False
resp = MyResponse('Hello World!')
resp.headers['Location'] = '/test'
assert resp.get_wsgi_headers(env)['Location'] == '/test'
resp = wrappers.Response('Hello World!')
resp.headers['Location'] = '/test'
assert resp.get_wsgi_headers(env)['Location'] == 'http://localhost/test'
def test_modified_url_encoding():
class ModifiedRequest(wrappers.Request):
url_charset = 'euc-kr'
req = ModifiedRequest.from_values(u'/?foo=정상처리'.encode('euc-kr'))
strict_eq(req.args['foo'], u'정상처리')
def test_request_method_case_sensitivity():
req = wrappers.Request({'REQUEST_METHOD': 'get'})
assert req.method == 'GET'
| bsd-3-clause |
jamespacileo/django-france | django/db/models/deletion.py | 2 | 10834 | from functools import wraps
from operator import attrgetter
from django.db import connections, transaction, IntegrityError
from django.db.models import signals, sql
from django.db.models.sql.constants import GET_ITERATOR_CHUNK_SIZE
from django.utils.datastructures import SortedDict
class ProtectedError(IntegrityError):
def __init__(self, msg, protected_objects):
self.protected_objects = protected_objects
super(ProtectedError, self).__init__(msg, protected_objects)
def CASCADE(collector, field, sub_objs, using):
collector.collect(sub_objs, source=field.rel.to,
source_attr=field.name, nullable=field.null)
if field.null and not connections[using].features.can_defer_constraint_checks:
collector.add_field_update(field, None, sub_objs)
def PROTECT(collector, field, sub_objs, using):
raise ProtectedError("Cannot delete some instances of model '%s' because "
"they are referenced through a protected foreign key: '%s.%s'" % (
field.rel.to.__name__, sub_objs[0].__class__.__name__, field.name
),
sub_objs
)
def SET(value):
if callable(value):
def set_on_delete(collector, field, sub_objs, using):
collector.add_field_update(field, value(), sub_objs)
else:
def set_on_delete(collector, field, sub_objs, using):
collector.add_field_update(field, value, sub_objs)
return set_on_delete
SET_NULL = SET(None)
def SET_DEFAULT(collector, field, sub_objs, using):
collector.add_field_update(field, field.get_default(), sub_objs)
def DO_NOTHING(collector, field, sub_objs, using):
pass
def force_managed(func):
@wraps(func)
def decorated(self, *args, **kwargs):
if not transaction.is_managed(using=self.using):
transaction.enter_transaction_management(using=self.using)
forced_managed = True
else:
forced_managed = False
try:
func(self, *args, **kwargs)
if forced_managed:
transaction.commit(using=self.using)
else:
transaction.commit_unless_managed(using=self.using)
finally:
if forced_managed:
transaction.leave_transaction_management(using=self.using)
return decorated
class Collector(object):
def __init__(self, using):
self.using = using
# Initially, {model: set([instances])}, later values become lists.
self.data = {}
self.batches = {} # {model: {field: set([instances])}}
self.field_updates = {} # {model: {(field, value): set([instances])}}
self.dependencies = {} # {model: set([models])}
def add(self, objs, source=None, nullable=False, reverse_dependency=False):
"""
Adds 'objs' to the collection of objects to be deleted. If the call is
the result of a cascade, 'source' should be the model that caused it
and 'nullable' should be set to True, if the relation can be null.
Returns a list of all objects that were not already collected.
"""
if not objs:
return []
new_objs = []
model = objs[0].__class__
instances = self.data.setdefault(model, set())
for obj in objs:
if obj not in instances:
new_objs.append(obj)
instances.update(new_objs)
# Nullable relationships can be ignored -- they are nulled out before
# deleting, and therefore do not affect the order in which objects have
# to be deleted.
if new_objs and source is not None and not nullable:
if reverse_dependency:
source, model = model, source
self.dependencies.setdefault(source, set()).add(model)
return new_objs
def add_batch(self, model, field, objs):
"""
Schedules a batch delete. Every instance of 'model' that is related to
an instance of 'obj' through 'field' will be deleted.
"""
self.batches.setdefault(model, {}).setdefault(field, set()).update(objs)
def add_field_update(self, field, value, objs):
"""
Schedules a field update. 'objs' must be a homogenous iterable
collection of model instances (e.g. a QuerySet).
"""
if not objs:
return
model = objs[0].__class__
self.field_updates.setdefault(
model, {}).setdefault(
(field, value), set()).update(objs)
def collect(self, objs, source=None, nullable=False, collect_related=True,
source_attr=None, reverse_dependency=False):
"""
Adds 'objs' to the collection of objects to be deleted as well as all
parent instances. 'objs' must be a homogenous iterable collection of
model instances (e.g. a QuerySet). If 'collect_related' is True,
related objects will be handled by their respective on_delete handler.
If the call is the result of a cascade, 'source' should be the model
that caused it and 'nullable' should be set to True, if the relation
can be null.
If 'reverse_dependency' is True, 'source' will be deleted before the
current model, rather than after. (Needed for cascading to parent
models, the one case in which the cascade follows the forwards
direction of an FK rather than the reverse direction.)
"""
new_objs = self.add(objs, source, nullable,
reverse_dependency=reverse_dependency)
if not new_objs:
return
model = new_objs[0].__class__
# Recursively collect parent models, but not their related objects.
# These will be found by meta.get_all_related_objects()
for parent_model, ptr in model._meta.parents.iteritems():
if ptr:
parent_objs = [getattr(obj, ptr.name) for obj in new_objs]
self.collect(parent_objs, source=model,
source_attr=ptr.rel.related_name,
collect_related=False,
reverse_dependency=True)
if collect_related:
for related in model._meta.get_all_related_objects(include_hidden=True):
field = related.field
if related.model._meta.auto_created:
self.add_batch(related.model, field, new_objs)
else:
sub_objs = self.related_objects(related, new_objs)
if not sub_objs:
continue
field.rel.on_delete(self, field, sub_objs, self.using)
# TODO This entire block is only needed as a special case to
# support cascade-deletes for GenericRelation. It should be
# removed/fixed when the ORM gains a proper abstraction for virtual
# or composite fields, and GFKs are reworked to fit into that.
for relation in model._meta.many_to_many:
if not relation.rel.through:
sub_objs = relation.bulk_related_objects(new_objs, self.using)
self.collect(sub_objs,
source=model,
source_attr=relation.rel.related_name,
nullable=True)
def related_objects(self, related, objs):
"""
Gets a QuerySet of objects related to ``objs`` via the relation ``related``.
"""
return related.model._base_manager.using(self.using).filter(
**{"%s__in" % related.field.name: objs}
)
def instances_with_model(self):
for model, instances in self.data.iteritems():
for obj in instances:
yield model, obj
def sort(self):
sorted_models = []
models = self.data.keys()
while len(sorted_models) < len(models):
found = False
for model in models:
if model in sorted_models:
continue
dependencies = self.dependencies.get(model)
if not (dependencies and dependencies.difference(sorted_models)):
sorted_models.append(model)
found = True
if not found:
return
self.data = SortedDict([(model, self.data[model])
for model in sorted_models])
@force_managed
def delete(self):
# sort instance collections
for model, instances in self.data.items():
self.data[model] = sorted(instances, key=attrgetter("pk"))
# if possible, bring the models in an order suitable for databases that
# don't support transactions or cannot defer contraint checks until the
# end of a transaction.
self.sort()
# send pre_delete signals
for model, obj in self.instances_with_model():
if not model._meta.auto_created:
signals.pre_delete.send(
sender=model, instance=obj, using=self.using
)
# update fields
for model, instances_for_fieldvalues in self.field_updates.iteritems():
query = sql.UpdateQuery(model)
for (field, value), instances in instances_for_fieldvalues.iteritems():
query.update_batch([obj.pk for obj in instances],
{field.name: value}, self.using)
# reverse instance collections
for instances in self.data.itervalues():
instances.reverse()
# delete batches
for model, batches in self.batches.iteritems():
query = sql.DeleteQuery(model)
for field, instances in batches.iteritems():
query.delete_batch([obj.pk for obj in instances], self.using, field)
# delete instances
for model, instances in self.data.iteritems():
query = sql.DeleteQuery(model)
pk_list = [obj.pk for obj in instances]
query.delete_batch(pk_list, self.using)
# send post_delete signals
for model, obj in self.instances_with_model():
if not model._meta.auto_created:
signals.post_delete.send(
sender=model, instance=obj, using=self.using
)
# update collected instances
for model, instances_for_fieldvalues in self.field_updates.iteritems():
for (field, value), instances in instances_for_fieldvalues.iteritems():
for obj in instances:
setattr(obj, field.attname, value)
for model, instances in self.data.iteritems():
for instance in instances:
setattr(instance, model._meta.pk.attname, None)
| bsd-3-clause |
lab305itep/linux | scripts/tracing/draw_functrace.py | 14676 | 3560 | #!/usr/bin/python
"""
Copyright 2008 (c) Frederic Weisbecker <fweisbec@gmail.com>
Licensed under the terms of the GNU GPL License version 2
This script parses a trace provided by the function tracer in
kernel/trace/trace_functions.c
The resulted trace is processed into a tree to produce a more human
view of the call stack by drawing textual but hierarchical tree of
calls. Only the functions's names and the the call time are provided.
Usage:
Be sure that you have CONFIG_FUNCTION_TRACER
# mount -t debugfs nodev /sys/kernel/debug
# echo function > /sys/kernel/debug/tracing/current_tracer
$ cat /sys/kernel/debug/tracing/trace_pipe > ~/raw_trace_func
Wait some times but not too much, the script is a bit slow.
Break the pipe (Ctrl + Z)
$ scripts/draw_functrace.py < raw_trace_func > draw_functrace
Then you have your drawn trace in draw_functrace
"""
import sys, re
class CallTree:
""" This class provides a tree representation of the functions
call stack. If a function has no parent in the kernel (interrupt,
syscall, kernel thread...) then it is attached to a virtual parent
called ROOT.
"""
ROOT = None
def __init__(self, func, time = None, parent = None):
self._func = func
self._time = time
if parent is None:
self._parent = CallTree.ROOT
else:
self._parent = parent
self._children = []
def calls(self, func, calltime):
""" If a function calls another one, call this method to insert it
into the tree at the appropriate place.
@return: A reference to the newly created child node.
"""
child = CallTree(func, calltime, self)
self._children.append(child)
return child
def getParent(self, func):
""" Retrieve the last parent of the current node that
has the name given by func. If this function is not
on a parent, then create it as new child of root
@return: A reference to the parent.
"""
tree = self
while tree != CallTree.ROOT and tree._func != func:
tree = tree._parent
if tree == CallTree.ROOT:
child = CallTree.ROOT.calls(func, None)
return child
return tree
def __repr__(self):
return self.__toString("", True)
def __toString(self, branch, lastChild):
if self._time is not None:
s = "%s----%s (%s)\n" % (branch, self._func, self._time)
else:
s = "%s----%s\n" % (branch, self._func)
i = 0
if lastChild:
branch = branch[:-1] + " "
while i < len(self._children):
if i != len(self._children) - 1:
s += "%s" % self._children[i].__toString(branch +\
" |", False)
else:
s += "%s" % self._children[i].__toString(branch +\
" |", True)
i += 1
return s
class BrokenLineException(Exception):
"""If the last line is not complete because of the pipe breakage,
we want to stop the processing and ignore this line.
"""
pass
class CommentLineException(Exception):
""" If the line is a comment (as in the beginning of the trace file),
just ignore it.
"""
pass
def parseLine(line):
line = line.strip()
if line.startswith("#"):
raise CommentLineException
m = re.match("[^]]+?\\] +([0-9.]+): (\\w+) <-(\\w+)", line)
if m is None:
raise BrokenLineException
return (m.group(1), m.group(2), m.group(3))
def main():
CallTree.ROOT = CallTree("Root (Nowhere)", None, None)
tree = CallTree.ROOT
for line in sys.stdin:
try:
calltime, callee, caller = parseLine(line)
except BrokenLineException:
break
except CommentLineException:
continue
tree = tree.getParent(caller)
tree = tree.calls(callee, calltime)
print CallTree.ROOT
if __name__ == "__main__":
main()
| gpl-2.0 |
zhukaixy/kbengine | kbe/src/lib/python/Lib/distutils/tests/test_bdist_wininst.py | 105 | 1040 | """Tests for distutils.command.bdist_wininst."""
import unittest
from test.support import run_unittest
from distutils.command.bdist_wininst import bdist_wininst
from distutils.tests import support
class BuildWinInstTestCase(support.TempdirManager,
support.LoggingSilencer,
unittest.TestCase):
def test_get_exe_bytes(self):
# issue5731: command was broken on non-windows platforms
# this test makes sure it works now for every platform
# let's create a command
pkg_pth, dist = self.create_dist()
cmd = bdist_wininst(dist)
cmd.ensure_finalized()
# let's run the code that finds the right wininst*.exe file
# and make sure it finds it and returns its content
# no matter what platform we have
exe_file = cmd.get_exe_bytes()
self.assertGreater(len(exe_file), 10)
def test_suite():
return unittest.makeSuite(BuildWinInstTestCase)
if __name__ == '__main__':
run_unittest(test_suite())
| lgpl-3.0 |
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